Sensor Solutions TechZone Magazine, May 2011 - Digikey

SENSOR LIGHTING SOLUTIONSTZ TL101.US S111.USLook Inside Today’sSensor Technology!MEMS Sensorsfor PortableDevicesPage 14including annualSENSORCOMPONENTCOMPONENTREFERENCEREFERENCEGUIDE GUIDE

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SENSOR SOLUTIONSTZ S111.USDigi-Key Corporation brings you TechZones featuring suppliers,products and resources for Lighting, Microcontroller, Power, Sensor,and Wireless technologies, with more sites to come. Resourcesinclude application notes, reference designs, white papers, links toproduct training modules, and more!Quick Way to Find Digi-Key’s TechZones:• Links located on our homepage• Links located in our header under Resources• Links located in our toolbar• www.digikey.com/techzonesDigi-Key FeaturesEditorial Comment ...................................................5Sensor TechZone Q & A............................................6Trivia Contest ........................................................18Ambient Light Sensor (ALS) Applicationsin Portable Electronics ................................................. 7contributed by ROHM SemiconductorLarge, high-resolution screens on cell phones are the primary causeof short battery life. Ambient light sensors enable automatic controlof display backlight brightness over a wide range of illuminationconditions, reducing up to 30 percent of power consumed in the inputstandby power mode.Digital Communication forSmart Modern Sensors ............................................... 11by Vincent Hiligsmann, MelexisAutomobiles are one of the noisiest, most challenging environmentsfor networks, though there’s hardly a new car that doesn’t rely onseveral. The auto industry has developed two network protocols thataddress those challenges: Single Edge Nibble Transmission (SENT)and Peripheral Sensor Interface (PSI-5). Their techniques are worthknowing, even outside of the automotive industry.MEMS Accelerometers, Gyroscopes,and Geomagnetic Sensors ...................................................15by Fabio Pasolini, STMicroelectronicsMEMS accelerometers are everywhere and soon MEMS gyroscopes andgeomagnetic sensors will be. This article explains how they work andadd value to a high-volume, location-based design.Using an Accelerometer for Inclination Sensing ..................19by Christopher J. Fisher, Analog Devices, Inc.Accelerometers are simple devices; extracting meaningful info fromthem is more complex. This article takes readers through the simpleexample of using an accelerometer for inclination sensing.Introducing MEMS to Personal and Consumer Electronics ......26by Nicholas CravottaMEMS sensors are a requirement in portable designs, as they can beeasily integrated. Dealing with the resulting software complexity isanother matter. Fortunately, there are development kits that can aid inprototype design and evaluation.Micromachined Reed Switches OfferNew Solutions to Many MEMS Applications .........................30by John Beigel, MEDER electronicMEDER’s microminiature reed switch enables designers to develop a widerange of ultra-low-power, high-reliability products. The MMS-B-2 plays a keyrole in devices such as pacemakers, implantable defibrillators, and more.Ultrasonic MEMS Sensor: SPM0404UD5 ...............................34contributed by Knowles AcousticsSound doesn’t top out at 20 kHz, but human hearing does. If you need tomonitor events that only register at high frequencies—such as pendingfailures in valves, motors, and more—you need ultrasonic sensors.MMA7660FC Accelerometer for Mobile Handsets ................36by Michelle Kelsey, Laura Salhuana, Mathieu Forget,and Nigel Drew, Freescale Semiconductor, Inc.A smart phone isn’t ‘smart’ unless it contains at least one accelerometer.Using an advanced accelerometer as an example, this tutorial explains howto program it to provide the range of features that handset owners demand.Seeing (Infra)Red ...................................................................42by Tom CantrellVishay’s VCNL4000 module integrates a visible wavelength photodiode forambient light sensing and an IR proximity detector, making it natural forhandheld gadgets. In this review, the VCNL4000 is taken for a test drive.www.digikey.com/ sensors3

Editorial CommentAt the most fundamental level, people garner information throughthe utilization of basic senses. In this way, sensor technology mimicshuman interaction with the senses by responding to physical stimulisuch as heat, light, sound, pressure, magnetism, or particular motion,and then results in an impulse. We now see sensor technology inmotion—extending beyond what is obvious—to MEMS portabledevices with on-demand functionality that supports electronics such asblood pressure monitors, tilt meters, geo-phones for oil/gas exploration,and more. The portable MEMS sensors provide an extended reachwithin a set environment with strong performance stability.With the integration of MEMS technology into portable devices, Jeff Shafera number of advantages are experienced such as reduced power Vice President, IP & Enecessity and reliability. Also, devices are lighter and easier to carry and package.In this issue, there are a number of articles that explore the changes that a sensor provides togenerate a quicker response based on data, without a data overload.• You cannot get enough power in today’s technology with LCDs in notebook PCs, digitalcameras, or GPS-based navigation systems, and with the onslaught of in-automobileentertainment, the list continues to expand and grow. Learn about how the use of ALS(Ambient Light Sensors) can reduce your power consumption while improving visibilityunder certain lighting conditions in an article contributed by ROHM Semiconductor (page 7).• Read about the software improvements and be advised to purchase a developmentkit that will help simplify experimenting with MEMS technology with a fraction of theinvestment in an article contributed by Nicholas Cravotta (page 26).• In winter 2010, members of Digi-Key’s Design Support Services (www.digikey.com/dss)were hard at work developing the Digi-Key Weather Center. Read about the conceptbehind the Weather Center’s design—in which sensor solutions were utilized, supportedby Digi-Key’s broad sensor offering of in-stock components (page 64).Consider visiting the Sensor Solutions TechZone at www.digikey.com/sensors to get thelatest information on featured products, resources, PTMs (Product Training Modules), and alisting of suppliers supported by Digi-Key.In the future, Digi-Key will produce only online versions of TechZone Magazine, beginningwith the June 2011 Lighting Solutions edition. Readers will be able to access both the productcatalog and TechZone Magazines as downloadable PDFs and interactively online. Both theDigi-Key interactive and PDF catalogs will be mobile-enabled in the future. As a strictlyweb-based company, it is our goal and objective to provide our customers information aroundreal-time data while reducing the overall impact on the environment.We trust that the articles included in this Sensor Solutions TechZone Magazine will help youthink about all the new and exciting possibilities that sensor technology can offer. Experiencethe ever-growing world of sensor technology!Sincerely,Jeff ShaferVice President, Interconnect, Passives & ElectromechanicalDigi-Key CorporationAbout Digi-Key CorporationAs one of the world’s leading, totallyintegrated global distributors of electroniccomponents, Digi-Key Corporation hasearned its reputation as an industry leaderthrough its total commitment to serviceand performance. Digi-Key is a fullserviceprovider of both prototype/designand production quantities of electroniccomponents, offering more than twomillion products from over 470 qualityname-brand manufacturers at www.digikey.com. A testament to Digi-Key’sunparalleled commitment to service, NorthAmerican design engineers have rankedDigi-Key #1 for Overall Performance for 19consecutive years (EE|Times DistributionStudy/October 2010). With global sales for2010 surpassing $1.5 billion, Digi-Key’ssingle location in North America is one ofits greatest assets. Additional informationand access to Digi-Key’s broad productoffering is available at www.digikey.comDigi-Key’s TechZone Magazine is a monthlyseries of technology-specifi c electronicpublications featuring information and resourcesfor Lighting, Microcontrollers, Wireless, andSensors, with more technologies to come.TechZone Magazineprovides the engineeringcommunity, from students to professional designengineers, with information about supplierinnovations, quality in-depth solutions, and aselection of application-specifi c considerationsfocused on advancing technology. The archivedand latest editions of TechZone Magazine canbe found on Digi-Key’s website.Contact InformationFor questions, comments, or to submit an article:tzcontent@digikey.comFor information about advertising oppotunities:techzoneadvertising@digikey.comTo be added to the email notifi cation list:www.digikey.com/requestCopyrights: The masthead, logo, design, articles, content and format ofTechZoneare Copyright 2011, Digi-Key Corporation. All rights are reserved.No portion of this publication may be reproduced in part or in whole withoutexpress permission, in writing, from Digi-Key.Trademarks: DIGI-KEY, the Digi-Key logo, TECHZONE, and the TechZone logoare trademarks of Digi-Key Corporation. All other trademarks, service marks orproduct names are the property of their respective holders.All product names, descriptions, specifi cations, prices and other informationare subject to change without notice. While the information contained in thismagazine is believed to be accurate, Digi-Key takes no responsibility forincorrect, false or misleading information, errors or omissions. Your use ofthe information in this magazine is at your own risk. Some portions of themagazine may offer information regarding a particular design or applicationof a product from a variety of sources; such information is intended only as astarting point for further investigation by you as to its suitability and availabilityfor your particular circumstances and should not be relied upon in the absenceof your own independent investigation and review. Everything in this magazineis provided to you “AS IS.” Digi-Key expressly disclaims any express orimplied warranty, including any warranty of fi tness for a particular purpose ornon-infringement. Digi-Key cannot guarantee and does not promise any specifi cresults from use of any information contained in this magazine. Any commentsmay be submitted to techzone@digikey.com.www.digikey.com/ sensors5

Sensor TechZone SM Q & AIn the rapidly evolving sensor market, it seems as if there is something new every day – technologies, products,consumer trends, or regulations. Time-to-market demands have never been greater with the design of many of today’snew sensor products requiring expertise in more than one discipline.You have questions. We have answers. On target to field more than 260,000 calls this year, our technical supportspecialists are available 24/7/365 to answer your questions and assist you with your sensor needs.If you have a question, we invite you to contact our technical staff via telephone, live web chat, or by emailing yourquestion to techzone@digikey.com.Are there pressure sensors that register negative pressures(e.g. negative 5 psi to 30 psi)?No. The reason for this is that there is nothing below zero as zero isa complete vacuum.How do I know whether an application is better suited to aHall effect sensor or a reed sensor?Although they are both magnetic proximity sensors, Hall effectsensors and reed sensors are signifi cantly different in the way thatthey function. A Hall effect sensor is a three-wire, solid-state devicewhose output changes when exposed to a magnetic fi eld. On theother hand, reed sensors are electrically a switch with tiny contactsthat open or close in the absence or presence of a magnetic fi eld.In many applications, either device could be used, but there arealso some situations where one technology may be preferable overthe other. A Hall effect sensor may be preferable to a reed sensorif you have the following requirement: unlimited life. For example,if you are interested in sensing a spinning magnet that will operatea sensor billions of times, you should consider a Hall effect sensor.Reed sensors generally have very long life compared to otherelectromechanical devices, but they cannot match the virtuallyinfi nite life of a Hall effect sensor.What is the difference between bidirectional/bipolar,unidirectional/unipolar, and omnidirectional/omnipolar Halleffect sensors?A unidirectional sensor will turn on only in the presence of thecorrect magnetic pole (it can either be north or south specifi c). Whenthe magnet is removed, the sensor will turn off. An omnidirectionalsensor will turn on in the presence of a magnet, but it is not north orsouth specifi c. When the magnet is removed the sensor will turn off.Bidirectional sensors require one magnetic polarization to turn it onand the opposite magnetic polarization to turn it off. They will notturn off when the fi rst magnetic fi eld is removed.How do capacitive humidity sensors work?Capacitive humidity sensors measure the effect of humidity on thedielectric constant of a polymer or metal oxide material.What does it mean when reed sensors are referred to as‘Form A’, ‘Form B’ or ‘Form C’?This is a short-hand way of describing the contact configuration.A ‘Form A’ reed sensor is normally open in the absence of amagnetic field, then it closes when a magnetic field is nearby. A‘Form B’ sensor is just the opposite - it’s closed in the absenceof a magnetic field and open when a magnetic field is nearby. A‘Form C’ sensor has three leads, which represent the normallyopen, normally closed and common contacts. This is called a‘changeover’ device because the common contact changes fromthe normally closed position to the normally open position when amagnetic field is nearby.Is it possible for magnetic pattern recognition sensors toread magnetic stripe information on cash cards?No. The sensors’ built-in permanent magneto will generatemagnetic fl ux leakage of approx. 95 kA/m, which causes damageto the magnetic information on cash cards. Only if the magneticinformation has a coercivity of 95 kA/m or higher, can thatinformation be read.What is the linearity of ultrasonic sensors?Linearity is the error in the linear output compared to the idealvalue that describes the relationship between the distanceand the linear output when the temperature and voltage are atfixed values.Do you have a question aboutsensor solutions?Digi-Key has more than 130 technical supportspecialists, product managers, and applicationsengineers who are eager to answer your questionsand assist you with your sensor projects.Send your questions to techzone@digikey.com.6

Ambient Light Sensor (ALS)Applications in Portable Electronicscontributed by ROHM SemiconductorHigh-resolution color handset displays renderbeautiful pictures, but they’re power hungry.Using an ambient light sensor can result in aconsiderably longer battery life.In portable electronic products, reducing power consumption toprovide users with increased battery life is one of today’s criticaldesign considerations. The LCD (liquid crystal display) and itsassociated backlighting are among the more (and frequently the most)power-hungry loads in portable products. As a result, the use of anALS (ambient light sensor) to optimize backlight LED operation undera variety of environmental lighting situations is increasing. At thesame time, the preferred technology choices available to designersfor sensing have shifted toward more integrated solutions.How are ambient light sensors used?Ambient light sensors are also called illuminance or illuminationsensors, optical sensors, brightness sensors, or simply light sensors.One very important application for ALS technology is cell phones.Here, the ALS enables automatic control of display backlightbrightness over a wide range of illumination conditions, from darkenvironments to direct sunlight. With ALS input, an MCU or basebandprocessor increases or decreases the display’s brightness dependingon the environment. This control dramatically improves visibility andreduces power consumption, since LCD backlighting can draw asmuch as 51 percent of the power in the input standby power mode. Inaddition, the ALS signal can be used to instruct the keypad LED driverto minimize keypad backlighting, reducing up to 30 percent of powerconsumed in the input standby power mode. In a bright environment,LED keypad brightness is reduced for minimal power consumption.In addition to cell phones, ambient light sensors can be used in a varietyof LCD-equipped portable products including PDAs, notebook PCs,digital cameras, video players, and GPS-based navigation systems.Any portable product with an LCD is a candidate for ALS technologyto reduce power consumption. In automobiles, the use of LCDs isincreasing for navigation, entertainment, and comfort systems, as wellas control monitoring and dimming mirrors. Any product with an LCDthat requires supplemental light for proper viewing can benefit fromusing an ALS to reduce power consumption and improve visibilityunder varying lighting conditions. This includes televisions and homeappliances, especially those with increased electronic control anduser-driven menus that require larger LCD panels.The market research firm Databeans, Inc. estimates the current totalavailable market for ambient light sensors to be seven percent ofLED revenue, or roughly $327 million worldwide. According to SusieInouye, research director and principal analyst at Databeans, “Dueto the large number of feature-rich phone products that will drivedemand, we expect this revenue to grow at a compound annualgrowth rate of 21 percent each year over the next five years to reachclose to $860 million by 2014.”Types of ALS technologiesToday, designers have more technology choices for ambient lightsensors, including photoelectric cells, photodiodes, phototransistors,and photo ICs. Each technology has advantages and disadvantages.One of the key criteria for selecting an ALS is its ability to detectwavelengths visible to the human eye in the 380 to 780 nm range.Figure 1 shows a summary of the advantages and disadvantages ofavailable technologies.While CdS (cadmium sulfide) photoelectric cells have the advantageof a response similar to that of the human eye, they contain cadmium,a prohibited RoHS (Restriction of Hazardous Substances) materialwhich makes them unusable in the consumer market. In order toreduce the environmental impact of electronic equipment waste, as ofJuly 2006, any product containing RoHS-restricted materials cannotbe sold into certain markets.Figure 1: Photo IC ALS technology addresses limitations of discrete photo cell,photodiode, and phototransistor products.Photodiodes have a relatively low dispersion between individual units,but a low output requires an external amplification circuit.Phototransistors have easily obtainable output current but poortemperature characteristics and a large dispersion between individualunits, requiring additional calibration steps in end products.www.digikey.com/sensors7

Photo ICs, also referred to as ALS ICs, are the newest technology,developed to address the shortcomings of other ALS approaches. Inaddition to the increased functions that are possible with integration(including amplifi cation, logic control, and shutdown capability), thephotodiode sensing has a relatively low dispersion. Both analog anddigital photo ICs are available. Each has advantages depending on theapplication. The photo IC has integrated functionality that eliminatesthe need for additional circuitry, which takes up more board spaceand adds cost. As a result, many designers are making the transitionto photo ICs from discrete devices.Topology of ALS ICsBoth analog and digital ALS devices are silicon monolithic circuitswith an integrated, light-sensitive, semiconductor photodiode (a PNjunction that converts light into an electrical signal). Both technologiesare available in small, surface-mount technology packages.Understanding the difference between analog and digital photo ICs isessential for selecting the proper ALS solution.Figure 4: When used in combination with an LED driver with auto luminous control, theanalog ALS output provides direct light level control.Fundamental design advantages of the analog ALS include an outputcurrent proportional to the brightness of the environment, andspectrum sensitivity similar to that of the human eye.Digital ALS ICsThe typical digital output ALS (see Figure 5) has a 16-bit digitalI 2 C output. In addition to amplifi cation for the photodiode, the IC’sintegrated ADC converts the photosensor’s output to an I 2 C signal fordirect connection to the I 2 C communication bus of an MCU or basebandprocessor. Figure 6 shows how the I 2 C interface simplifi es the circuitryin an application by removing the need for an external ADC.The digital ALS includes more integration than an analog ALS and canresult in an overall cost savings, as well as space savings, on the PCB(printed circuit board).Figure 2: The typical analog ALS IC combines a photodiode with a current amplifi er andcontrol circuitry.Analog ALS ICsThe analog ALS IC has an analog current output proportional tothe incident light level. As shown in Figure 2, the IC combines thephotodiode, signal amplifi cation, and control logic. The current sourceoutput is typically converted to a voltage by means of a simple loadresistor. This voltage output is typically applied to either the input ofan ADC interface on an MCU (see Figure 3), or directly as an input toan LED driver IC equipped with auto-luminous control (see Figure 4).Figure 5: A digital ALS integrates photodiode, amplifi cation circuitry, an ADC, and theinterface logic.Figure 3: The output of the analog ALS provides the control input to the system MCU.The processor, in turn, controls LED brightness based on the lighting environment. TheROHM analog ALS, illustrated here, has two gain control inputs allowing selection ofshutdown mode or high, medium, or low gain.Figure 6: In a digital ALS application, the controller communicates directly with boththe ALS and the LED driver using an I 2 C interface.8

Selecting the right topology for the applicationDeciding whether an analog or digital ALS is the most appropriatesolution requires answering a few simple questions about the application.1. What communications bus/interface options areavailable? (Example: I 2 C or GPIO?)2. Is an ADC input available?3. What degree of lighting control is required?4. What environmental considerations are important?a. Operating temperature range?b. Variable light level/light sources?5. How important is power consumption?In terms of power consumption, a digital ALS will likely draw morepower in both the active mode (for example, 190 µA for the ROHMSemiconductor BH1750FVI) and power down mode (1.0 µA for thesame digital ALS) due to the integration of the ADC when comparedjust to an analog ALS (97 µA and 0.4 µA, respectively for the ROHMSemiconductor BH1620FVC). However, the total power consumptionmay be comparable when a sepa rate ADC + MCU or broadbandcontroller is taken into account. In either case these values are quitelow when compared to the power savings achieved by their ability tocontrol the LED power consumption.ROHM Semiconductor solutionsROHM offers both analog and digital ALS ICs that have spectralsensitivity similar to the human eye. Both are offered in compact,surface-mount packages, the WSOF5 package (1.6 mm x 1.6 mm x0.55 mm) and the WSOF6 package (3.0 mm x 1.6 mm x 0.7 mm).All ROHM ambient light sensors operate over a temperature rangeof -40 to 85°C to ensure stable operation under extreme conditions.Figure 7(b) shows that ROHM’s photodiode output is very stableregardless of light source, providing both reduced power consumptionand an improved user experience.Analog ALS solutionsROHM Semiconductor ALS ICs have an output current proportional tolight (current sourcing) with a measurement range of 0 to 100,000+ lux(lx). These ICs feature light sensing accuracy of ±15 percent based onROHM’s unique laser trimming technology that also ensures high outputsensitivity. Each of these devices features an input voltage supply rangefrom 2.4 to ~5.5 V. A resistor connected to the output current (I out) pinconverts the current output to a linear voltage from 0 V up to the supplyvoltage level for highly efficient component operation.Figure 7: A competitor’s sensor output (a) produces different values depending on thelight source but ROHM’s ALS ICs (b) deliver stable output regardless of light source.Figure 8 shows the relative spectral response of the ROHMSemiconductor analog ALS and luminosity versus output current.Multiple photodiodes with different junction depths provide a stableoutput with little variation between various light sources. Sincewavelengths outside of the range of human vision, such as ultravioletand infrared, may cause inaccurate light sensor readings, it isimportant to choose a light sensor that has spectral sensitivity similarto that of the human eye. While the data in Figure 8(a) is specificallyfor an analog ALS, this same performance is inherent in the digitaldesigns, as well. In addition to an I outproportional to the luminosityin lux, ROHM’s analog ALS products have selectable high-gain,medium-gain, and low-gain modes, a proprietary function. These gaincontrol modes allow for direct control of the internal amplifier gain viathe GC1 and GC2 input pins. As shown in Figure 9, these three gainmodes provide designers even greater design options for trading offperformance versus power consumption.Figure 8: Spectral sensitivity (a) and luminosity versus I OUT(b) for the BH1603FVCdemonstrate performance advantages that design engineers should consider whenselecting an ALS.GC2 GC1 Mode Function0 0 Shutdown IOUT OUTPUTDisabled0 1 H-Gain Mode 60 µA @ 100 lx1 0 M-Gain Mode 10 µA @ 100 lx1 1 L-Gain Mode 1 µA @ 100 lx1:Connect to VCC 0: Connect to GNDFigure 9: Mode settings for ROHM Analog ALS ICs provide for shutdown and threelevels of output current, offering improved design flexibility in performance versuspower consumption.Digital ALS solutionsROHM was among the first companies to offer a digital light sensor,further demonstrating its leadership in ALS technology. Digital ALSICs measure brightness and output in a 16-bit digital signal over anI 2 C bus interface, supporting FAST mode (400 KHz) and 1.8 V logicinterface. The digital ALS ICs can detect a wide range of intensities(0 to ~65,535 lx). A unique internal shutdown function enables lowcurrent consumption.A number of other features, described below, distinguish these digitalphotosensor ICs.In the operating environment, it is important for a light sensor togenerate a consistent output regardless of the light source. Asshown in Figure 7(a), a competing solution outputs different valuesdepending on the light source, which could cause the system to turnon the backlighting when it is not needed. This reduces battery lifeand potentially interferes with the end user’s experience.www.digikey.com/sensors9

Figure 10: ICC current is independent of luminosity (a) for ROHM Semiconductor’s digitalALS solutions as demonstrated by the performance of the BH1715FVC. At the same time,these units are compatible with a wide range of intensities (0 to ~65,535 lux) (b).Excellent spectral response is another key characteristic of ROHM’sdigital ALS products. Figure 10 shows two electrical response graphsfor the BH1715FVC. Figure 10(a) demonstrates that luminosity hasa minimal impact on the digital light sensor’s supply current (ICC)which improves power consumption. Figure 10(b) indicates luminosityversus output serial data measurement results for high- and lowresolutionmodes.A comparison of the two resolution modes for improved lightingcontrol is shown in Figure 11. The H-resolution mode has thehighest resolution (1 lux increments) and is suitable for measuringvery low lux levels, but it takes the longest time to measure alight sample. The advantage of operation in this mode is a higheraccuracy light sample and superior optical noise rejection, since thiscapability improves with increased measurement time. Operation inH-Resolution mode eliminates optical noise at 50/60 Hz. An exampleof optical noise reduction with a fl uctuating fl uorescent light sourceoutput, demonstrating values stable within ±1 percent, is shown inFigure 12.The L-Resolution mode samples in 4 lux increments and takes theshortest time to measure a light sample. Note that, in contrast tothe analog ALS, different operating modes do not impact the powerconsumption in digital units.ModeMeasuringTime Typ. [ms]MinimumResolution [lx]H-Resolution 120 1L-Resolution 16 4Features• High resolution• Superior opticalnoise rejectioncharacteristics(50/60 Hz)• Measuring timeand the resolutionare well-balancedFigure 12: Fluorescent light output fl uctuates ±25 percent, synchronized with the ACsupply (a). By detecting fl uctuating light synchronized with the AC supply (50/60 Hz),the BH1715FVC digital ALS outputs values stable within ±1percent (b).ConclusionsAmbient light sensors are an important tool for enhancingperformance in LED-backlighted LCD displays. ROHM offers bothanalog and digital units. In addition, ROHM offers design assistancein the form of ALS IC Evaluation Kits and optical simulation designsupport for all its ALS technologies.Complete information about the ROHM ALS IC product lineis available at: http://www.rohm.com/products/lsi/sensor/ambient_light_sensor/selection/References:1. ROHM Semiconductor High-Performance Ambient Light Sensor ICSeries Selection Catalog.2. Data sheets for ROHM Semiconductor BH1603FVC, BH1620FVC,BH1715FVC, BH1721FVC and BH1750FVI Ambient Light Sensors.Ambient Light SensorsROHM SemiconductorAmbient Light Sensors from ROHM Semiconductor arefrequently used in LCD-equipped, portable devices such asmobile phones and digital cameras as well as display equipmentsuch as LCD TVs, and more.Digi-Key’s ALS Product Training Module provides an introductionto ambient light sensors, shows useful applications, and discussesbasic terms used inreference to the ROHMproducts.Figure 11: ROHM Semiconductor’s digital light sensors have high- and lowresolutionmodes.www.digikey.com/ptm10

Digital Communication forSmart Modern Sensorsby Vincent Hiligsmann, MelexisWhen sensors are located some distance froman MCU, communications become an issue.Two modern sensor protocols developed by theautomotive industry address these issues andmake better use of new sensor IC topologies.The problem of reporting a sensor signal has been present sincethe early ages of the sensor. Indeed, there is no point in sensing aparameter if the information cannot be displayed, communicated,or shared.Initially, the signal was reported more or less mechanically andlocally. For example, a Bourdon pressure gauge, a manometer, reportsdirectly the measured pressure through a moving arrow linked tothe tube and pointing on a scale attached to the frame. A mercurythermometer reports the sensed temperature through the length ofthe mercury column.However, in order to process the information remotely or use thesensor in a closed-loop system (sensor and control), it is mandatoryto get the sensing information in the form of an electrical signal.With that perspective, a mechanical to electrical converter has beenadded to the previously mentioned pressure gauge to realize a realtransducer with or without local signal conditioning.Other types of sensors have an output which can be directlyprocessed electrically. For example, a thermistor is a resistor in whichresistance varies with temperature. The resistance of a piezoresistivestrain-gauge changes with the strain due to the applied pressure.Those variable resistors are introduced in a Wheatstone bridgeproviding an electrical voltage that is usually locally conditioned priorto being transmitted further. A rotary potentiometer (resistive divider),used as an angular position sensor, or a variable reluctance magneticsensor, used as a rotary speed sensor, directly transmits an outputvoltage without specific signal conditioning.Until recently, due to the nature of the sensing elements andsignal conditioning techniques, the reported signal was an analogelectrical voltage, typically (but not always) ratiometric to the actualsupply voltage applied to the sensor. This was valid for discretesensors, both with or without signal conditioning, as well as forintegrated active sensors.Since the mid-1990s, the industry has moved toward digitalcommunication, and the advent of smart CMOS sensing ICs featuringon-chip digital signal processing has accelerated that migration. Thisarticle describes the move, from the initial steps and motivationsto the most recent advances, with emphasis on the point-to-pointcommunication between a standalone sensor and the control unit.Analog output protocolGiven the intrinsic nature of sensing elements and the associatedanalog signal conditioning circuitry, analog output voltage has beenadopted as the initial and most logical reporting method betweenthe sensor and the Electronic Control Unit (ECU), where the signal iscombined with other data for further processing.Figure 1: Analog output for point-to-point communication sensor ECU.As shown in Figure 1, analog output is converted on the ECU sidethrough an ADC biased with the same source providing the supplyvoltage to the sensor. This is the reason for the ratiometric requirementon the analog output voltage. That is, for a given sensor signal, such aspressure or position, the output voltage V OUTis proportional to the supplyvoltage V DD, so V OUT/V DD= constant. In this way, the output level isexpressed in percent V DDand the supply voltage variations do not affectthe digitized signal beyond the ADC. The electrical coded signal, such asthe current-loop 4 to 20 mA (absolute), can be seen as an extension ofthe analog output voltage concept.Digital output protocol – pulse-width modulationThe easiest move from analog output to digital output on a singlesignal wire is to convert the analog level into a digital signal at a givenfrequency and with a duty cycle, where = OOOO( OOOO + OOOOOOOOOOOO )= OOOO OOOOis proportional to the sensor signal (see Figure 2).www.digikey.com/sensors11

Figure 2: PWM duty cycle defi nition.The encoding is typically done through comparing the analog signaland a reference sawtooth signal at the desired frequency (see Figure3). The decoding is done at the ECU side through a timer I/O.Figure 3: PWM for point-to-point communication sensor ECU.The physical layer is a digital driver either low-side (open-drain),high-side (open-drain), or push-pull. The latter is preferred for betterEMC, especially conducted and radiated emission, and jitter/noiseperformance. The high-side/low-side driver schemes need slopecontrol on the falling or rising edge for best performance.The Pulse Width Modulation (PWM) signal is typically independentfrom the supply voltage and consequently, this protocol is preferredwhen operation has to be guaranteed over a large supply voltagerange. PWM is also suitable for a two-wire interface, where the lowand high digital levels are coded into variations of the supply current(I DD_LO& I DD_HI), and the information can be shared with the ECU usingonly the supply and ground connections.Alternate digital output protocols – motivationsDespite the spread of PWM, for legacy and compatibility reasons theanalog protocol remains extremely popular. However, modern smartsensors (see Figure 4) often feature a DSP core, operating at lowersupply voltage for technology reasons, rather than complex AnalogSignal Processing (ASP) circuitry. Consequently, the ratiometric analogoutput voltage is obtained on those sensors by converting the digitalsignal back into the analog domain through a DAC and a buffer. A digitalinterface is defi nitely more natural. Furthermore, modern ECUs withstate-of-the-art microcontrollers can also benefi t from a direct digitalinterface with the remote sensor rather than through an ADC.Figure 4: Alternate digital output for modern point-to-point communication sensor ECU.The PWM can be easily implemented following the topologymentioned in Figure 4 though the implementation of a digital counterand digital comparator. However, the PWM has some limitations whichare no longer acceptable for many applications, especially the trueresolution at slightly high speed. Instead, 10 bits at 1 kHz is usuallyconsidered as a realistic specifi cation. Beyond 1 kHz, the resolutiondrops rapidly. Furthermore, the PWM protocol is quite limited inreporting diagnostic or status information.To refl ect the new sensor IC topology and the system needs in termsof data content, resolution, response time, latency time, accuracy,and diagnostic, new protocols for point-to-point communicationbetween sensor, and ECUs have been developed. In that context, theautomotive world has adopted SENT and PSI-5.Digital output protocol – single-edge nibble transmissionThe Single Edge Nibble Transmission (SENT) protocol was initiatedby the Powertrain division of General Motors and several partnersin 2005. It was then developed by a Workgroup of the Society ofAutomotive Electronics under the reference J2716.As mentioned earlier, the SENT protocol attempts to modernize andstandardize the interface between the numerous types of remotesensors, such as position, pressure, mass airfl ow and temperature,and the engine management system ECU.The SENT protocol (see Figure 5) can actually be considered as anenhanced PWM. Indeed, the telegram consists of eight nibbles(1 nibble = 4 bits) which are time-coded (that is, not duty cycled) in aPWM way. A fi rst pulse (synchronization) is generated at the beginningof the telegram as a time-reference for the subsequent nibbles.Figure 5: SENT telegram defi nition.The longest message is less than 1 ms and 32 bits are transferred, ofwhich up to 24 bits (six nibbles) are dedicated for the data (Nibbles #2… #7). The remaining two nibbles are allocated for reporting statusand communication (Nibble #1) and the CRC (checksum – Nibble #8).The 24 bits of data can be used to report 2 × 12 bits of informationsuch as two positions, position and speed, pressure and temperature,and position and time stamp. The status nibble can be used to reportdiagnostic information and contributes to the improvement of thesafety aspect of the overall system. In order to further increase thedata content that is transferred between the sensor and the ECU, thestatus and communication nibble can be used to report, at a lowerspeed, a serial message spread over multiple consecutive telegrams.12

The SENT protocol was fi rst adopted for powertrain applications, suchas position sensors and pressure sensors, but it is also used for steeringsensors (steering angle, steering torque). It should become popular forother automotive (chassis) and non-automotive applications.Some derivates of the SENT protocol have been proposed suchas Short PWM Code, which is similar to SENT but allows asynchronization mechanism and a shorter transmission time, due tofl exibility in the number of nibbles that are actually reported.Digital output protocol – peripheral sensor interfaceThe peripheral sensor interface, PSI-5, is the successor of PAS-4(PANAMSAT 4), which has been around for more than ten years insafety applications such as accelerometer sensors for airbag systems.Many facets of the PSI-5 concept, for example robustness andreliability, have been successfully proven in the fi eld. PSI-5 is drivenby Autoliv, Bosch, and Continental.Figure 6: PSI-5 two-wire digital interface sensor ECU.The physical layer of PSI-5 (see Figure 6) is a two-wire interface.The bit patterns are transmitted in a current pulse on the top of thenominal supply current drawn by the IC (see Figure 7). This givesPSI-5 a serious advantage in terms of EMC for both conducted andradiated emissions. Furthermore, the data rate can go up to 250 Kbits/second with short latency time.Figure 7: PSI-5 telegram defi nition.Last but not least, PSI-5 is extremely fl exible and specifi essynchronous and asynchronous modes as well as several multislavebus architectures. PSI-5 can also be implemented as abidirectional interface.The implementation overhead is limited but usually requires a dedicatedreceiver IC to convert the signal-in voltage and decode the content.A low level (I DD_LO) is represented by the normal (quiescent) currentconsumption of the sensors. A high level (I DD_HI) is generated by anincreased current sink of the sensor (∆I DD). The current modulation isdetected within the receiver.Manchester coding is used for data transmission. A logic “0” isrepresented by a rising slope and a logic “1” by a falling slope of thesupply current I DDin the middle of T BIT.The basic telegram is typically 13 bits long for 10 bits data (D0-D9)+ 2 Start bits (S1-S2) + 1 Parity bit (P – even parity). However,two consecutive messages can be used to transmit 16 bits data.This can be further extended with diagnostic information and errorcorrection information.PSI-5 has already found applications in safety and steering applications,for example, controlling steering torque. A sub-standard focused onvehicle dynamics applications is currently under development.Other digital output protocolsOther digital protocols are available, but are not suitable for point-topointcommunication between the sensor and the ECU.The SPI bus is typically used for embedded systems in whichthe sensor reports directly to a microcontroller located a shortdistance away in the same module or system. The three or fournecessary connections are PCB tracks, which is acceptable for SPIcommunications. In the case of a remote standalone sensor, SPI is notacceptable for cost and robustness reasons.Bus protocols such as CAN, LIN, or I 2 C are intrinsically developedfor networking rather than point-to-point communication. Theimplementation overhead is not negligible, especially for the CAN.ConclusionAnalog communication between remote sensors and ECUs willeventually lapse. With the modernization of sensors and control units,the digital era will soon dominate. However, this will only happenthanks to robust and reliable protocols with rich data and diagnosticcontent, such as SENT and PSI-5.Configurable Sensor AFEProductsNational SemiconductorNational Semiconductor’s confi gurable Sensor AFE is anintegrated hardware/software approach that enables a designerto quickly develop and validate a sensor signal path designsolution in a minimum amount of time.This product training module provides an overview of NationalSemiconductor’sSensor AFE, includingthe product’sconfi guration,features,specifi cations, andsolution comparisons.www.digikey.com/ptmwww.digikey.com/ sensors13

MEMS Sensorsfor PortableDevicesAs developers create new and innovative products, they are continually looking forways to fit more functionality into less space. The need for low-power, space-savingsensing devices is a perfect fit for the MEMS (microelectromechanical systems) lineof sensors. MEMS is a widely varied family of sensors, which includes gyroscopesused in automotive crash sensors, digital compasses used to enhance navigationcapabilities of GPS systems, and has recently come to encompass magneticHall-effect devices and reed switches, both widely used in cell phones. However,the sensors that have really come to the forefront in the newest technologiesare the MEMS accelerometers. The articles in this section focus on the newestimplementations of MEMS accelerometers in today’s handheld devices, such as theiPhone, and the functionality that these sensors are able to provide. Whether it isimproving GPS locating or tilt-sensing for games, these articles serve as a source ofideas relating to how you as a developer can implement these sensors into your newor upgraded products.14

MEMS Accelerometers, Gyroscopes,and Geomagnetic Sensors – PropellingDisruptive Consumer Applicationsby Fabio Pasolini, STMicroelectronicsMEMS accelerometers have had a dramaticimpact on cell phones, gaming consoles,and location-based devices. MEMS-basedgyroscopes and geomagnetic sensors areabout to take it to a whole new level.The MEMS consumer market grew by 27 percent in 2010 to $1.6billion, according to iSuppli, which predicts revenues for thesedevices to top $3.7 billion by 2014. The continued demands fromconsumer and mobile applications dominate this market’s growth,and these fields are expected to become the biggest MEMSsegment by 2014.MEMS sensors are well recognized as the key building blocks forimplementing disruptive applications in consumer devices. Fromgame consoles to mobile phones and from laptops to white goods,consumer devices have already benefited in recent years from the useof low-g accelerometers for the implementation of motion-activateduser interfaces and enhanced protection systems. It is now the turn ofMEMS gyroscopes and geomagnetic sensors, as use of these sensors ispropelling a new wave of compelling applications.Much has been written about the technology behind MEMSaccelerometers, which are sensors capable of detecting linearaccelerations. Accelerometers will thus be barely touched in thisarticle, which will primarily focus on gyroscopes, geomagneticsensors, and other devices capable of providing multiple degrees offreedom to sensing applications.MEMS gyroscopesCapable of measuring angular rates around one or more axes,these gyroscopes represent a fitting complement to MEMSaccelerometers. Thanks to the combination of accelerometersand gyroscopes it is possible to track and to capture completemovements in a three-dimensional space. This gives systemdevelopers the ability to deliver more immersive user experiences,accurate navigation systems, and much more.With the recent introduction of 30 different gyroscopes deliveringhigh performances with reduced current consumption and compactpackages, STMicroelectronics is continuing its rapid growth in theMEMS market.The heart of ST’s gyroscopes is represented by a micromachined,mechanical element designed to operate according to a tuning forkscheme, exploiting the Coriolis effect to transform an angular rateinto a displacement of a specific sensing structure.Let’s consider, for example, the simple case of a single-axisyaw gyroscope (see Figure 1). Two moving masses are kept incontinuous movement in opposite directions, which are indicatedby the blue arrows. As soon as an external angular rate is applied,a Coriolis force, which is shown with the orange arrows, will appearin the direction orthogonal to the movement and will cause adisplacement of the sensing masses proportional to the magnitudeof the rate applied. Since the moving electrodes (rotors) of thesensing portion of the sensor stand beside fixed electrodes (stators),the displacement will induce a change in the electrical capacitanceamong stators and rotors, thus transforming the angular rateapplied at the input of the gyroscope into an electrical parameterdetectable by means of a dedicated circuit.Figure 1: Single-axis MEMS yaw gyroscope.ST’s micromechanical gyroscope sensors exploit the same technologyST has already employed for the manufacturing of over 600 millionaccelerometers. This choice guarantees the customer state-of-the-art,reliable products for direct use in their final applications. Compared toother gyroscopes, the differential nature of the tuning fork approachadopted by ST makes the system intrinsically insensitive to undesiredlinear acceleration and spurious vibrations acting on the sensor. Whensuch unwanted signals are applied to the gyroscope, both masses willbe displaced along the same direction, causing the overall resultingcapacitance variation to be null upon a differential measurement.www.digikey.com/sensors15

The conditioning circuit employed for a gyroscope can beschematized as the combination of a driving section for a motor andthe sensing circuitry of an accelerometer (see Figure 2).• The driving section excites the mechanical element, making itoscillate back and forth by means of an electrostatic actuation.• The sensing circuitry measures the displacement of the sensingmass produced by Coriolis force by measuring variations incapacitance, a robust and reliable technique successfully usedacross ST’s MEMS product lines. The sensor circuitry provideseither an analog or digital output signal that is proportional to theangular rate applied to the sensor.Sensing ElementΩ+Ω–Feedback+Feedback–Drive+Drive–Charge ampl Demod SC Filter Active FilterTrans-ImpedanceAmpliferVGAReferencesAnalogConditioningTrimmingCircuitsAnalog outPhaseGeneratorAdvanced power-down features embedded in the control circuit allowa shut-down of the complete sensor when its function is not needed.Alternately, the sensor can enter a low-power sleep mode wherethe gyroscope’s overall power consumption is reduced signifi cantlycompared to the normal mode, while still being able to wake upimmediately upon user command to measure the applied angular rates.Much like its MEMS accelerometers, ST’s MEMS gyroscopes are builtfollowing a system-in-package (SIP) approach, with the mechanicalsensing element and its conditioning ASIC placed inside the samepackage. Smart design techniques together with advanced packagingapproaches have signifi cantly shrunk the size of this family of devices.ST’s multiple-axis MEMS gyroscopes are available in packages with afootprint as small as 3 x 5 mm and a maximum thickness of only1 mm (see Figure 3), while keeping sensor stability and ensuring ahigh level of performance over the life cycle of the fi nal product.ClockFigure 2: Block diagram of a single-yaw MEMS gyroscope.PID ControlPLLAGCSTMicroelectronics offers a wide selection of gyroscopes coveringfrom one to three axes of sensitivity and full-scale ranges from 30dps up to 6,000 dps. This gives system designers the possibility ofaddressing different applications ranging from image stabilization togaming, pointing devices and robotics control.Similar to what happened with three-axis accelerometers, theavailability from STMicroelectronics of high-performance three-axisgyroscopes is propelling the implementation of advanced manmachineinterfaces integrated inside mobile phones, game consolesand other applications.Not only motionA new class of devices is now fi nding its way into consumer devices:geomagnetic sensors. Capable of measuring the earth’s magneticfi eld along multiple axes, these devices enable the implementation ofenhanced compassing and navigation functions for portable devices.Just as with motion sensors, the fastest growing market for magneticsensors is consumer electronics and mobile handsets, whichexperienced more than 10-fold increase in shipments of electroniccompasses in 2009. According to iSuppli, this market is expected toaccelerate rapidly, growing from eight million units in 2008 to over540 million units in 2013, a CAGR of 129 percent.Among the different technologies available for the manufacturingof silicon magnetic sensors, AMR (anisotropic magneto-resistive)sensor technology is gaining momentum. This is due to its ability tocombine high spatial resolution and high accuracy with low-powerconsumption, which are crucial parameters in battery-operatedportable devices. This type of sensor exploits the change in resistancethat occurs in a thin strip of ferrous material when a magnetic fi eldis applied perpendicular to the fl ow of current passing in the stripitself. The transducer is normally in the form of a Wheatstone bridgeas shown in Figure 4, and is composed of magnetoresistors having,at rest, the same resistance, R. During the measurement, the bridgeis supplied with a voltage, V bthat forces a current to fl ow throughthe resistors. Whenever a magnetic fi eld, H, is applied, it causes themagnetization vector in two of the oppositely placed resistors torotate toward the current, resulting in an increase in their resistance.In the remaining two oppositely placed resistors, the magnetizationvector rotates away from the current, resulting in a decrease intheir resistance. In the linear range, the output of the sensor is thusproportional to the applied fi eld.Applied Field HVbR-∆RR+∆RBias FieldR+∆RR-∆R–+Sensor OutputSensingElementFigure 3: Multi-axis gyroscopes from ST in ultra-compact LGA packages.Figure 4: Magnetoresistive transducer simplifi ed diagram.16

With mobile phones representing the hottest area for sensorusage, magnetometers are becoming more and more interestingwhen combined together with accelerometers for implementing tiltcompensated compasses. An example of such a device exhibiting sixdegrees of freedom (6 DOF) is the six-dimensional module LSM303DLHfrom STMicroelectronics. This device features a high-performancethree-axis accelerometer integrated together with a high resolutionthree-axis magnetometer into a compact LGA package (see Figure 5).The magnetic sensing part also includes additional current straps thatallow it to electrically set or reset the polarity of the output, and to applyan offset fi eld to compensate for ambient magnetic fi elds.Figure 5: LSM303DLH 3x accelerometer and 3x magnetometer in compact LGApackage.The LSM303DLH provides three-dimensional heading accuracy withinbuildings, automobiles, and at high latitudes in such places as thenorthern US, Canada, and northern Europe, where the declinationangle of the earth’s fi eld is diffi cult to measure with Hall-type sensors.In combination with software drivers for heading, auto calibration,and soft-iron/hard-iron compensation—available for a variety ofpopular mobile phones’ operating systems—the LMS303DLH sixdimensionalsensor gives system designers a powerful instrument forimplementation of navigation functions.More generally, the balanced combination of accelerometer,gyroscope, and magnetometer data integrated by means of specifi csoftware layers for sensor fusion fosters the implementation ofadvanced applications such as location-based services, pedestriandead reckoning, and enhanced motion-controlled games. Sensorfusion refers to a set of adaptive algorithms capable of mixing thecomplementary information coming from the various sensors, andcombining them together intelligently to achieve better system-levelperformance in terms of accuracy, resolution, stability, and responsetime. These advances enable platform makers to build, for example,robust GPS systems capable of providing navigation services evenwhen signals from satellites are either weak (in urban canyons) or notavailable (indoors or in a subway).In the near future, merging the knowledge of a GPS unit’s exact positionwith additional metadata delivered by service providers and displayedon the screen of the user’s mobile phone will enable the user to benefi tfrom location-based services. This will enable them, for example, toget information on the shops located in a shopping mall, directionsto places where they can fi nd desired goods, as well as specialpromotions and discounts customized to the user’s interests.Examples of such applications are already appearing, such as themobile augmented-reality browser Layar, which is available in theNetherlands for Android mobile phones. The recent availability of opensoftware platforms, where software development can easily encounteradvanced sensing capabilities, is encouraging the collaborative workof developers to create applications that respond to their own needs,at the same time adding higher value to electronic equipment.The combination of MEMS accelerometers, gyroscopes, andgeomagnetic sensors is also spreading into inexpensive toys, wheremotion capture allows interactive gaming experiences and webpresence even for the youngest. Children will be soon able to createvirtual dolls and characters, playing with them not with buttons andkeyboards but with natural movements, and even share their gamingactivity within online communities of friends involved in the samevirtual worlds.ConclusionThe recent introduction of tiny, reliable, and inexpensive MEMSgyroscopes and magnetometers, together with specifi c softwarefor sensor fusion, makes enhanced motion tracking and moreimmersive user experience a reality in numerous consumer devices.STMicroelectronics includes all these devices in its sensors portfolio.ST has recently expanded its MEMS portfolio with microphones andpressure sensors. MEMS microphones enable smaller, thinner, andlighter designs for mobile phones and other portable devices withbetter directionality, noise cancellation and fi delity. With the additionof ST’s micromachined pressure sensors, consumer devices will beable to measure atmospheric pressure and/or identify their preciselocation in all three dimensions.As of January 2011 the NFL (National Football League)made the decision to require players to wear uniforms andhelmets containing impact-sensing accelerometers to helpanalyze the real-time effects of concussions and othertraumatic brain injuries.The sensors used by the Butte, Montana Bureau of Minesand Geology (which tracks earthquake activity within thestate) picked up ripples from the massive 9.0 magnitudequake that originated off the coast of Japan in March 2011.www.digikey.com/ sensors17

Are you a Sensor Solution Expert? Submit your answersto find out and automatically be entered for a chance towin a CUI AMT203 DEMO Kit!CUI Inc hasdeveloped a uniqueand versatile modularrotary encoder. TheAMT utilizes CUI’sproprietary capacitivetechnology, whichholds numerousadvantages over theoptical technologytypically used intoday’s modularencoders.The AMT’s design allows users to select from a range ofresolutions via an on-board dip switch, creating fl exibility forthose utilizing multiple encoders in their applications.The AMT is unique among modular incremental encodersbecause it is capacitive (the same technology used in digitalcalipers) and not optical. This eliminates handling of thesensitive optical disk and issues related to LED burnout fromthe photo diode.Submit your answers towww.digikey.com/trivia-sensorfor your chance to win!Sponsored By:Official Rules: No purchase necessary to enter or claim prize. A purchase will not improve an individual’s chances ofwinning with such entry. Employees of Digi-Key (the “sponsor”), business partners, members of immediate families are noteligible. Void where prohibited by law or internal company policy. Valid entries contingent upon participation in the triviacontest and providing name and e-mail address. Prizes will be randomly drawn among eligible entries on or about June 7,2011. One CUI AMT203 DEMO Kit will be awarded. Total value of all prizes will not exceed $1,000.00. Contest rules declareonly One CUI AMT203 DEMO Kit will be awarded per winner. Winners will be contacted via e-mail. If a winner cannot bereached within 7 days of initial attempt, winner will be disqualifi ed and an alternate winner selected. Odds of winning willbe determined by the number of eligible entries received. Taxes on prizes are the sole responsibility of winners. Sponsorreserves the right in its sole discretion to cancel or suspend the promotion or any portion thereof should viruses, bugs, orother causes beyond control of Sponsor corrupt the administration, security or proper play of the promotion, in which casethe prizes will be awarded via a random drawing from among all eligible entries received prior to cancellation. Sponsor isnot responsible or liable for late, lost, damaged or misdirected entries. Any attempts to deliberately damage any web siteor undermine the legitimate operation of the promotion may be subject to prosecution of criminal and civil law. If due to aprinting, production or other error, more prizes are claimed than are intended to be awarded, the intended prizes will beawarded in a random drawing from among all verifi ed and validated prize claims received. In no event will more than thestated number of prizes be awarded. Entries become the property of Sponsor and will be used in accordance withSponsor’s privacy policy, available at: http://digikey.com/privacy. For a list of winners, mail a self-addressed, stampedenvelope to be received by July 1, 2011 to: Digi-Key Corporation, TechZone Trivia, 701 Brooks Ave South, Thief River Falls,MN 56701. If you do not want to receive any future mailings for contests of this nature, you can remove your name bycalling 800-344-4539.1. Who promoted A/C as the standard for power transmissionin the US?A: Philo FarnsworthB: Thomas EdisonC: Nikola TeslaD: Guglielmo Marconi2. What kind of result can be expected in a ‘quadrature’function?A: An ambiguous logic stateB: The fourth harmonicC: Four discrete binary numbersD: An exponent of four3. What does ‘TTL’ stand for as related to position encoders?A: Task Table ListingB: Time Tracking LoopC: Transistor-Transistor LogicD: Tack, Tag and Locate4. How many arc seconds are in a circle?A: 3,600 C: 180,000B: 72,000 D: 1,296,0005. In what war were position encoders first used?A: Spanish-American WarB: World War IC: World War IID: Korean War6. Capacitive coupling occurs:A: In A/C signals onlyB: In D/C signals onlyC: In either A/C or D/C signalsD: None of the above7. How many phase windings are in a typical BLDC motor?A: 3 C: 2B: 4 D: 68. How many electrical degrees are there in one rotation of asix pole BLDC motor?A: 360° C: 720°B: 540° D: 1,080°9. How much current passes through a 100 W, 24 V motor?A: 2400 mAB: 4.167 AC: 24 AD: None of the above10. What is the binary number 11010100 equal to in hexadecimal?A: 16F C: D4B: F1A D: 1F218

Using an Accelerometerfor Inclination Sensingby Christopher J. Fisher, Analog Devices, Inc.Cell phones now commonly change screenorientation as the user rotates the phone.This article discusses the basic principles andneeded calculations for converting the outputof an accelerometer to an angle of inclination.One common method for determining the tilt or inclination of a systemis to integrate the output of a gyroscope. Although this method isstraightforward, error associated with null bias stability can quicklycompound as the integration period is increased, causing an apparentrotation even when the device is stationary.In some applications, where the net acceleration or force on a systemover time is gravity, an accelerometer can be used to measure thestatic angle of tilt or inclination. Such applications include gaming,horizon detection in digital cameras, and detecting the heading of adevice in industrial and medical applications.The underlying assumption in inclination sensing with anaccelerometer is that the only acceleration stimulus is that associatedwith gravity. In practice, signal processing can be performed on thesignal output to remove high frequency content from the outputsignal, so some AC acceleration can be tolerated.Inclination sensing uses the gravity vector, and its projection onthe axes of the accelerometer, to determine the tilt angle. Becausegravity is a DC acceleration, any forces that result in an additionalDC acceleration corrupt the output signal and result in an incorrectcalculation. Sources of DC acceleration include the period of timewhen a vehicle is accelerating at a constant rate and rotatingdevices that induce a centripetal acceleration on the accelerometer.In addition, rotating an accelerometer through gravity causes anapparent AC acceleration as the projection of gravity on the axesof interest changes. Any filtering of the acceleration signal beforecalculating the inclination affects how quickly the output settles to thenew static value.This article discusses the basic principles for converting the outputof an accelerometer to an angle of inclination. This discussionincludes how to calculate the ideal inclination angle for a singleaxis,dual-axis, or triple-axis solution. In addition, some basicinformation about calibration is included to reduce error from offsetand sensitivity mismatch.Tilt/Inclination calculationSingle-axis tilt calculationIn applications where inclination sensing is needed only over a limitedangle, and with a somewhat coarse resolution, a single-axis device (ora single axis of a multiple-axis device) can be used.For example, in Figure 1 a single axis (the x-axis in this example) isrotated through gravity. Because this approach uses only a single axisand requires the gravity vector, the calculated angle of inclination isaccurate only when the device is oriented so that the x-axis is alwaysin the plane of gravity. Any rotation about the other axes reduces themagnitude of the acceleration on the x-axis and results in error in thecalculated angle of inclination.Figure 1: Single axis used for tilt sensing.Referring to basic trigonometry, the projection of the gravity vectoron the x-axis produces an output acceleration equal to the sine of theangle between the accelerometer x-axis and the horizon. The horizonis typically taken to be the plane orthogonal to the gravity vector. Foran ideal value of 1 g for gravity, the output acceleration is:AAAA , OOOO [gggg] = 1 gggg × s i n ( ) (1)When using a single-axis solution, note that the sensitivity – that is,the change in output for some change in input – of the inclinationcalculation decreases as the angle between the horizon and thex-axis increases, approaching zero as the angle approaches ±90°.This can be seen in Figure 2, where the output acceleration, in g, isplotted against the angle of inclination. Near ±90°, a large change ininclination angle results in a small change in output acceleration.Because the inclination calculation is done digitally, the outputacceleration is presented as a constant acceleration per leastsignificant bit (LSB) or code, obtained either from an analog-to-digitalconverter (ADC) or directly from a digital output part. Because thewww.digikey.com/sensors19

achieve a maximum step size of 0.25° for a range of ±63° requires aresolution of at least 2 mg/LSB. Note that, if enough dither is present,oversampling can be used to achieve better resolution.Figure 2: Output acceleration versus angle of inclination for single-axisinclination sensing.output resolution is a constant acceleration, the resolution in degreesof inclination is variable, with the best resolution close to 0° and theworst resolution at ±90°.Figures 3 and 4 show the incremental sensitivity for 1° and 0.25°inclination angle steps. The incremental sensitivity is the outputchange, shown in mg, per inclination angle step, or[gggg] = 1 gggg × ( s i n ( + ) − s i n ( ) ) (2 )where:N is the current angle.P is the step size.Figure 4: Incremental inclination sensitivity for 0.25° steps.Because the output of the accelerometer obeys a sinusoidalrelationship as it is rotated through gravity, conversion fromacceleration to angle is done using the inverse sine function, = s i n −1 AAAA , OOOO [gggg] (3 )1 ggggwhere the inclination angle, θ, is in radians.If a narrow range of inclination is required, a linear approximation canbe used in place of the inverse sine function. The linear approximationrelates to the approximation of sine for small angles,s i n ( ) , 1 (4 )where the inclination angle, θ, is in radians.An additional scaling factor, k, can be included in the linearapproximation for inclination angle, which allows the valid range forthe approximation to be increased if the allowable error is increased, × AAAA , OOOO [gggg] (5 )1 ggggFigure 3: Incremental inclination sensitivity for 1° steps.These curves can be used to determine the minimum necessaryresolution when measuring the output acceleration in order to meetthe desired inclination resolution for the entire range of an application.For example, designing for a maximum step size of 1°, a resolutionof at least 8 mg/LSB is necessary for a range of ±63°. Similarly, towhere the inclination angle, θ, is in radians.Conversion to degrees is done by multiplying the result of Equation 5by (180/π). Figure 5 shows a comparison between using the inversesine function and the linear approximation with k equal to 1. As themagnitude of the inclination angle increases, the linear approximationbegins to fail, and the calculated angle deviates from the actual angle.Because the calculated angle is plotted against the actual angleof inclination, the linear approximation appears to bend near theends. This is because the linear approximation is linear only whencompared to the output acceleration and, as shown in Figure 2, theoutput acceleration behaves similarly as the actual angle of inclinationis increased. However, the inverse sine function should produce anoutput that is one-to-one with the actual angle of inclination, causing20

For some applications this is acceptable, but for applications thatrequire higher resolution, or the ability to distinguish angles ofinclination in a complete 360° arc, a second axis, as shown in Figure7, or a second sensor is necessary. If a second sensor is used, itshould be oriented such that the sensing axis of the second sensor isorthogonal to the sensing axis of the first sensor.Figure 5: Comparison of inverse sine function and linear approximation for inclinationangle calculation.the calculated angle to be a straight line when plotted against theactual angle of inclination.As an example, if the desired resolution of inclination sensing is1°, an error of ±0.5° is acceptable because it is below the roundingerror of the calculation. If the error between the actual angle ofinclination and the calculated angle of inclination is plotted for k equalto 1, as shown in Figure 6, the valid range for the linear approximationis only ±20°. If the scaling factor is adjusted such that the error ismaximized, but kept within the calculation rounding limits, the validrange of the linear approximation increases to greater than ±30°.Figure 7: Two axes used for tilt sensing.There are three major benefits to including a second axis indetermining the angle of inclination. These benefits are described inthe following sections.Constant sensitivityThe first major benefit of using a second axis is due to theorthogonality of the axes. As in the single-axis solution, theacceleration detected by the x-axis is proportional to the sine of theangle of inclination. The y-axis acceleration, due to the orthogonality,is proportional to the cosine of the angle of inclination (see Figure8). As the incremental sensitivity of one axis is reduced, such aswhen the acceleration on that axis approaches +1 g or −1 g, theincremental sensitivity of the other axis increases.Figure 6: Calculated angle error for different scaling factors.Dual-axis tilt calculationOne limitation of single-axis inclination sensing is the need for ahigh-resolution ADC or digital output to achieve a large range of validinclination angles, as shown in Figures 3 and 4. Another limitation isthat a single-axis measurement cannot provide a 360° measurement,because the acceleration generated at an inclination of N° is thesame as the acceleration generated at an inclination of 180° − N°.Figure 8: Output acceleration versus angle of inclination for dual-axis inclination sensing.One method to convert the measured acceleration to an inclinationangle is to compute the inverse sine of the x-axis and the inversecosine of the y-axis, similar to the single-axis solution. However,an easier and more efficient approach is to use the ratio of the twovalues, which results in the following:www.digikey.com/sensors21

AAAA , OOOOAAAA , OOOO=1 gggg × s i n ( )1 gggg × c o s ( )= t a n ( ) (6 ) = t a n −1 AAAA , OOOOAAAA , OOOO (7)where the inclination angle, θ, is in radians.Unlike the single-axis example, using the ratio of the two axes todetermine the angle of inclination makes determining an incrementalsensitivity very diffi cult. Instead, it is more useful to determine theminimum necessary accelerometer resolution, given a desiredinclination resolution. Given that the incremental sensitivity of oneaxis increases as the other decreases, the net result is an effectiveincremental sensitivity that is roughly constant. This means that theselection of an accelerometer with suffi cient resolution to achieve thedesired inclination step size at one angle is suffi cient for all angles.To determine the minimum necessary accelerometer resolution,Equation 6 is examined to determine where the resolution limitationsare. Because the output of each axis relies on the sine or cosine of theangle of inclination, and the angle of inclination for each function isthe same, the minimum resolvable angle corresponds to the minimumresolvable acceleration.As shown in Figures 3 and 4, the sine function has the greatest rate ofchange near 0°, and the cosine function has the least rate of changeat this point. For this reason, the change in acceleration on thex-axis due to a change in inclination is recognized before a changein acceleration on the y-axis. Therefore, the resolution of the systemnear 0° depends primarily on the resolution of the x-axis. To detect aninclination change of P°, the accelerometer must be able to detect achange of approximately:Reduced dependence on alignment with plane of gravityThe second major benefi t of using at least two axes is that unlike thesingle-axis solution, where tilt in any axis other than the x-axis cancause signifi cant error, the use of a second axis allows for an accuratevalue to be measured even when inclination in the third axis is present.This is because the effective incremental sensitivity is proportional tothe root-sum-square (RSS) value of gravity on the axes of interest.When gravity is completely contained in the xy-plane, the RSS valueof acceleration detected on those axes is ideally equal to 1 g. If tilt ispresent in the xz- or yz-plane, the total acceleration due to gravity isreduced, which also reduces the effective incremental sensitivity.This, in turn, increases the inclination step size for a givenaccelerometer resolution, but still provides an accurate measurement.The resulting angle from the inclination calculation corresponds to therotation in the xy-plane.If the system is tilted enough, such that very little acceleration due togravity is present in the xy-plane, the inclination angle step size willbe too coarse to be useful. Therefore, it is recommended that tilt inthe xz- or yz-plane be limited.Complete 360° tilt sensingThe third major benefi t of using a second axis is the ability todistinguish between each quadrant and to measure anglesthroughout the entire 360° arc. As shown in Figure 10, eachquadrant has a different combination of signs associated with thex- and y-axis acceleration.AAAA OOOO [gggg] 1 gggg × s i n ( ) (8 )Figure 9 can be used to determine the minimum necessaryaccelerometer resolution – or maximum accelerometer scale factor –for a desired inclination step size. Note that increased accelerometerresolution corresponds with a reduction in accelerometer scale factorand with the ability to detect a smaller change in output acceleration.Therefore, when selecting an accelerometer with the appropriateresolution, the scale factor should be less than the limit shown inFigure 9 for the intended inclination step size.Figure 10: Angle of inclination and sign of acceleration for quadrant detection.Figure 9: Minimum accelerometer resolution for a desired angle of inclination resolution.The inverse tangent function returns a value in Quadrant I if theoperand, AX,OUT/AY,OUT, is positive; if the operand is negative, theinverse tangent function returns a value in Quadrant IV. Because theoperand in Quadrant II is negative, a value of 180° should be addedto the result of the calculation when the angle is in that quadrant.22

222Because the operand in Quadrant III is positive, a value of 180°should be subtracted from the result of the calculation when theangle is in that quadrant. The correct quadrant of the calculatedangle can be determined by examining the sign of the measuredacceleration on each axis.Triple-axis tilt calculationWhen a third axis is introduced, the orientation of the sensor can bedetermined in a complete sphere. The classical method of rectangular(x, y, z) to spherical (ρ, θ, φ) conversion can be used to relate the angleof tilt in the xy-plane, θ, and the angle of inclination from the gravityvector, φ, to the measured acceleration in each axis, as follows:φ = c o s −1 = t a n −1 AAAA , OOOOAAAA , OOOO (9 )AAAA , OOOO2AAAA , OOOO + AAAA2 , OOOO + AAAA , OOOO (10 )Given the assumption that the only measured acceleration is dueto gravity, the denominator of the operand in Equation 10 can bereplaced with a constant, ideally 1, because the RSS value of all theaxes is constant when the only acceleration is gravity. The angles areshown in Figure 11, where Figure 11c shows θ only in the xy-plane,and Figure 11d shows φ as the angle between the z-axis and thegravity vector.a specific inclination angle resolution over a desired range. Thedifference is that the use of the inverse cosine function to determineφ results in a maximum incremental sensitivity, when φ is 90° and aminimum incremental sensitivity at 0° and 180°.A plot similar to Figures 3 and 4 can be generated by substitutingcosine for sine in Equation 2. It is important to note that although θranges from -180° to +180°, φ ranges only from 0° to 180°. A negativeangle for φ causes the angle of θ to become negative.An alternative method for inclination sensing with three axes is todetermine the angle individually for each axis of the accelerometerfrom a reference position. The reference position is taken as thetypical orientation of a device, with the x- and y-axes in the plane ofthe horizon (0 g field) and the z-axis orthogonal to the horizon(1 g field). This is shown in Figure 12, with θ as the angle between thehorizon and the x-axis of the accelerometer, ψ as the angle betweenthe horizon and the y-axis of the accelerometer, and φ as the anglebetween the gravity vector and the z-axis. When in the initial positionof 0 g on the x- and y-axes and 1 g on the z-axis, all calculatedangles would be 0°.Figure 12: Angles for independent inclination sensing.Figure 11: Angles of spherical coordinate system.Due to the similarities between the equations for the triple-axismethod and the equations for the single- and dual-axis methods, theanalysis of the triple-axis solution is the same as for the single- anddual-axis methods combined. The measurement of θ benefits fromthe ratio of two orthogonal axes, and a desired inclination resolutionrequires a minimum accelerometer resolution as described byEquation 8.The measurement of φ corresponds to the measurement of theinclination angle for the single-axis solution, along with the methodfor determining the minimum accelerometer resolution needed forBasic trigonometry can be used to show that the angles of inclinationcan be calculated using Equation 11, Equation 12 and Equation 13. = t a n −1 = t a n −1 AAAA , OOOO2AAAA , OOOO + AAAA , OOOOAAAA , OOOO2AAAA , OOOO + AAAA , OOOO (11) (12 )φ = t a n −1 AAAA , OOOO2 + AAAA , OOOO2AAAA , OOOO (13 )www.digikey.com/sensors23

The apparent inversion of the operand in Equation 13 is due tothe initial position being a 1 g fi eld. If the horizon is desired as thereference for the z-axis, the operand can be inverted. A positive anglemeans that the corresponding positive axis of the accelerometer ispointed above the horizon, whereas a negative angle means that theaxis is pointed below the horizon.Because the inverse tangent function and a ratio of accelerations isused, the benefi ts mentioned in the dual-axis example apply, namelythat the effective incremental sensitivity is constant, and that the anglescan be accurately measured for all points around the unit sphere.Calibration for offset and sensitivity mismatch errorThe analysis in this application note was done under the assumptionthat an ideal accelerometer was used. This corresponds to a devicewith no 0 g offset and with perfect sensitivity (expressed as mV/gfor an analog sensor or LSB/g for a digital sensor). Although sensorscome trimmed, the devices are mechanical in nature, which meansthat any static stress on the part after assembly of the system mayaffect the offset and sensitivity. This, combined with the limits offactory calibration, can result in error beyond the allowable limits forthe application.Effects of offset errorTo demonstrate how large the error can be, imagine fi rst a dual-axissolution with perfect sensitivity, but with a 50 mg offset on the x-axis.At 0° the x-axis reads 50 mg and the y-axis reads 1 g. The resultingcalculated angle would be 2.9°, resulting in an error of 2.9°. At ±180°the x-axis would report 50 mg, whereas the y-axis would report −1 g.This would result in a calculated angle and error of −2.9°. The errorbetween the calculated angle and the actual angle is shown in Figure13 for this example. The error due to an offset may not only be largecompared to the desired accuracy of the system, but it can vary, thusmaking it diffi cult to simply calibrate out an error angle. This becomesmore complicated when an offset for multiple axes is included.any deviation between the actual sensitivity and the expected sensitivityresults in an error). Because the ratio of the x- and y-axes is used, mostof the error is cancelled if the sensitivities are the same.As an example of the effect of accelerometer sensitivity mismatch,assume that a dual-axis solution is used with perfect offset trim,perfect sensitivity on the y-axis, and +5 percent sensitivity on thex-axis. This means that in a 1 g fi eld, the y-axis reports 1 g, whereasthe x-axis reports 1.05 g. Figure 14 shows the error in the calculatedangle due to this sensitivity mismatch. Similar to offset error, theerror due to accelerometer sensitivity mismatch varies over the entirerange of rotation, making it diffi cult to compensate for the error aftercalculation of the inclination angle. Skewing the mismatch further byvarying the y-axis sensitivity results in even greater error.Figure 14: Calculated angle error due to accelerometer sensitivity mismatch.Basic calibration techniquesWhen the errors due to offset and sensitivity mismatch are combined,the error can become quite large and well beyond the acceptable limitsin an inclination sensing application. To reduce this error, the offset andsensitivity should be calibrated and the calibrated output accelerationused to calculate the angle of inclination. When including the effects ofoffset and sensitivity, the accelerometer output is as follows:AAAA OOOO [gggg] = AAAA OOOOOOOOOOOO + ( × AAAA AAAAAAAA ) (14 )Figure 13: Calculated angle error due to accelerometer offset.Effects of sensitivity mismatch errorThe main error component due to accelerometer sensitivity in a dual-axisinclination sensing application is when a difference in sensitivity existsbetween the axes of interest (as opposed to a single-axis solution, wherewhere:A OFFis the offset error, in g.Gain is the gain of the accelerometer, ideally a value of 1.A ACTUALis the real acceleration acting on the accelerometer and thedesired value, in g.A simple calibration method is to assume that the gain is 1 and tomeasure the offset. This calibration then limits the accuracy of thesystem to the uncalibrated error in sensitivity. The simple calibrationmethod can be done by placing the axis of interest into a 0 g fi eldand measuring the output, which would be equal to the offset. Thatvalue should then be subtracted from the output of the accelerometerbefore processing the signal. This is often referred to as no-turn orsingle-point calibration, because the typical orientation of a deviceputs the x- and y-axes in the 0 g fi eld. If a three-axis device is used,at least one turn or second point should be included for the z-axis.24

A more accurate calibration method is to use two points per axis ofinterest (up to six points for a three-axis design). When an axis is placedinto a +1 g and −1 g fi eld, the measured outputs are as follows:AAAA +1gggg [gggg] = AAAA OOOOOOOOOOOO + ( 1 gggg × ) (15 )AAAA −1gggg [gggg] = AAAA OOOOOOOOOOOO − ( 1 gggg × ) (16 )where the offset, A OFF, is in g.These two points can be used to determine the offset and gain as follows:AAAA OOOOOOOOOOOO [gggg] = 0.5 × AAAA +1gggg + AAAA −1gggg (17) = 0.5 × AAAA +1gggg− AAAA −1gggg (18 )1 ggggwhere the +1 g and −1 g measurements, A +1gand A −1g, are in g.This type of calibration also helps to minimize cross-axis sensitivityeffects as the orthogonal axes are in a 0 g fi eld when making themeasurements for the axis of interest. These values would be used byfi rst subtracting the offset from the accelerometer measurement andthen dividing the result by the gain.AAAA AAAAAAAA [gggg] =where A OUTand A OFFare in g.AAAA OOOO − AAAA OOOOOOOOOOOO(19 )The calculations of A OFFand Gain in Equation 15 through Equation19 assume that the acceleration values, A +1gand A -1gare in g. Ifacceleration in mg is used, the calculation of A OFFin Equation 17remains unchanged, but the calculation of Gain in Equation 18 shouldbe divided by 1,000 to account for the change in units.MEMS GyroscopesSTMicroelectronicsThe MEMS Gyroscope uses the Coriolis force to measureangular movement. STMicroelectronics’ MEMS Gyroscopecontains the MEMS device itself, plus the control circuitryrequired to process the output, all in the same package.This presentation reviews how MEMS Gyroscopes aredeveloped and produced at STMicroelectronics. It will alsodiscuss gyroscope applications, internal structure, andoperating principals.This PTM is24 pages longand takesapproximatelyten minutes toexperience withor without audio.www.digikey.com/ptm8-Channel, 1 MSPS, 12-bit SAR ADC w/Temperature Sensor: AD7298Analog Devices’ AD7298 is a 12-bit, high speed, low power,8-channel, successive approximation ADC with an internaltemperature sensor. The part operates from a single 3.3 V powersupply and features throughput rates up to 1 MSPS. The devicecontains a low noise, wide bandwidth track-and-hold amplifi er thatcan handle input frequencies in excess of 30 MHz.The AD7298 offers a programmable sequencer, which enablesthe selection of a pre-programmable sequence of channels forconversion. The device hasan on-chip 2.5 Vreference thatcan be disabled toallow the use of anexternal reference.Features• 12-bit SAR ADC: 8 singleendedinputs, channelsequencer, fast throughput of1MSPS, analog input range0 to 2.5 V• 12-bit temperature-to-digitalconverter• Temperature sensor accuracyof ±1°C• Temperature range: −40°C to+125°CProduct Highlights• Specifi ed for VDD of 2.8 V to3.6 V• Logic Voltage VDRIVE = 1.65V to 3.6 V• Power-down current :

Introducing MEMS to Personaland Consumer Electronicsby Nicholas CravottaCollecting sensor data isrelatively straightforward;analyzing the data and usingit in sophisticated consumeror medical applications is not.This article examines some ofthe challenges that arise whenyou introduce a simple sensorinto a complex system.The ability to accurately track motionusing sensors based on MEMS(microelectromechanical systems) technologyhas completely transformed the healthand fi tness markets. MEMS technologyis a natural fi t for monitoring fi tness as itcan be embedded in shoes and clothing totrack performance. What has caught manycompanies by surprise, however, is thenumber of niche applications in which MEMStechnology can bring signifi cant and uniquevalue. For example, MEMS can be used todetect if an elderly person at home alone hasfallen and can’t get up or has stopped movingaltogether. In both cases, a personal monitorcan call for assistance over an RF link.MEMS sensor technology is also quicklybecoming an expected feature in portable andhandheld consumer electronics devices, giventhe number of ways it can enhance usability.For example, the ability to sense tilt, rotation,and gestures is becoming a standard featureof gaming peripherals. Portable devices areusing MEMS to determine in which directionto display text and images so that users canview them from the right angle. Advancedfeatures such as dead reckoning can be usedto provide local GPS functionality.Historically, MEMS devices have been quiteexpensive. However, higher sales volumescontinue to drive down cost, making themviable within even lower-cost systems. As aresult, MEMS technology is beingintroduced for use in a wide variety ofpersonal electronics applications, includingmedical monitors, training equipment, andPDAs/handsets.One of the barriers to the rapid adoption of atechnology is the ease with which developerscan evaluate and design with the componentsbased on that technology. Technologies thatare diffi cult to work with, either becausethey only are available in a surface-mountedpackage or do not have available drivers orsoftware, are less likely to be consideredfor serious evaluation. On the whole, MEMSdevices are simple sensors. They come insmall, standard packages, which make themeasy to work with, and they are availablewith analog or digital interfaces. As the digitalinterfaces are typically I 2 C or SPI, any MCU caninterface to them.The primary challenges engineers face whendesigning with MEMS is not being able tointegrate the sensor into a system or collectdata. The fi rst challenge is dealing with thepotential software complexity associatedwith analyzing captured data. The second iscorrelating MEMS data with data from othersensors in the system. The third is being ableto evaluate and develop MEMS technologyunder real-world operating conditions.Multifaceted software challengesCollecting positioning data – even in threedimensions – is a straightforward process.Using this data to track the motion of a user’sarm or to simulate a localized GPS functionusing dead reckoning, however, requiressome extraordinary engineering.Both MEMS and MCU manufacturersunderstand the importance of providingsoftware to accelerate design. Given thatMEMS are, in essence, basic sensors, thelow-level software required to access themis fairly simple. In fact, many MCU vendorsprovide libraries that can connect to a MEMSdevice and abstract operation through an APIthat provides logical access to sensor datawithout requiring system developers to haveto delve into the hardware implementationdetails of the sensor.This level of software support, however, istoo low level for many applications sinceaccessing MEMS data still requires a directconnection to the sensor. Open systemssuch as an Android-based phone reallyneed OS-level drivers to proliferate use. Theproblem that arises is that various handsetsmay use a different sensor or implementit in a specifi c way that affects operation.The situation resembles one that plaguedperipheral vendors in the early days of the PCwhere a driver might work on some systemsbut not others.The fi nal level of software support requiredto make MEMS truly a commodity technologyis the availability of algorithmic software.Consider how access to device orientationhas become a standard feature in portabledevice applications. Any application can takeadvantage of the reformatting of the displaybetween landscape and portrait mode whenthe device is turned on its side. As functionssuch as localized positioning and motionrecognition become standard features,more systems will be able to utilize thesefeatures to create wholly new applications.For example, a device could detect whetheror not it is falling and protect against datacorruption by suspending write functions incase of impact.26

MCU vendors are recognizing thatsupporting MEMS is becoming increasinglyimportant and that offering sensor drivers isas much a requirement as providing driversfor other peripherals. Some companies arealready working on OS-level drivers. TexasInstruments, for example, already has someOS-level drivers for its OMAP and DaVinciarchitectures and anticipates bringing thesedrivers down to MCUs like the CC430 withinone year. These drivers will support sensorinterfacing and processing on a logicallevel so that the same application code andlibraries can operate with different sensors.In addition, with an OS-level driver, anyapplication running on the system couldeasily access the sensor just like any othersystem-managed resource.Algorithmic software is also becoming akey focus. The more advanced algorithmicfunctions an MCU or MPU supports, the morevalue it brings to the system. Many of thesealgorithms, however, are non-trivial. Plottingx, y, z data is fairly simple (see Figure 1).Tracking position or speed is an order ofhigher complexity. Accurately recognizingeven simple gestures is even more difficult.The path for algorithmic software will likelyfollow the same path as video processing hastaken over the years. Early on, processorscould support video but developers had towrite much of their own code. Third-partyvendors began to offer specialized functionsto accelerate design, and eventually thesealgorithms became part of the standardprocessor library. Today, developers haveaccess to highly advanced video analyticssuch as object recognition and tracking.Figure 1: The core datafrom a 3-D accelerator isx, y, and z positioning datathat is used to calculatemore complex factorssuch as user speed orgestures.MEMS technology is currently at the stageof providing engineers with the base toolsto develop their own algorithms (see Figure2). As market demand for advanced featurescontinues to grow, these features will becomeavailable off-the-shelf. Today, however,developers will need to develop their own IP.One development resource worth looking atwhen evaluating a MEMS device, or an MCUto be used to monitor and control MEMSdevices, is a vendor’s online forum. Siliconvendors want to ensure that software fornew technologies is available quickly, sooften they will support open developmentmodels and technology-specific wikiswhere developers can upload and downloadprojects, ask questions, and share lessonslearned to accelerate the design process.It is possible to estimate the availabilitylevels of technology, support, and softwareFigure 2: TexasInstruments’ Chronosdevelopment software.of a particular vendor by scanning recentpostings in such a forum. These postingswill also alert developers to potentialstrengths and weaknesses of the vendor’shardware and software offerings, basedon the types of problems and questionscustomers are sharing.Not the only sensor in the systemWhen introducing MEMS technology to anapplication, it is important to recognize thatthe MEMS device is probably not the onlysensor in the system. Handsets, for example,are highly integrated systems whereMEMS are just one of many types of usefulsensors – including temperature, gyroscope,compass, proximity, light, and GPS sensors– that need to be managed as efficientlyas possible. In addition, these systems alsoutilize a variety of peripherals, including I/Obuttons, capacitive sliders, touchscreens, andthree or four RF radios.Managing sensors and peripherals usingthe main application processor is likelyto be extremely inefficient, especiallywhen monitoring requires constantlywaking a power-hungry processor fromsleep mode. Each of these sensors andperipherals also requires its own I/O, andthe aggregate I/O demand can put a strainon available processor resources. Part ofthe high cost of implementing MEMS inhigh-end systems has been the capacityrequired to analyze sensor data. While aPentium-class processor or DSP can providethe raw horsepower to analyze MEMSdata in real-time, these types of devicesconsume too much power to be feasible inhandheld systems.www.digikey.com/sensors27

A more effi cient approach, especially forhandheld and portable applications wherebattery life is critical, is to introduce asecond, low-power MCU to serve as asensor/peripheral hub. Because many of thealgorithms for processing MEMS data arecomplicated, the primary purpose of thisMCU is to collect and buffer data for periodicuploading by the main processor. This allowsthe main processor to stay in low-powermodes longer, resulting in a longer battery life.For example, consider an application likea pedometer with a relatively low samplerate. Implemented as a standalone device, asimple MCU can be used to collect data forlater uploading to a PC where it is processedand the user can view statistics such as howmany steps were taken or how many calorieswere burned during the day. Implemented ona device like a cell phone, the MCU sensorhub collects data until the handset wakesfor another task (i.e., an incoming call or theuser pressing a key). It can then transfer thedata to the main CPU for analysis.Depending upon the system architecture,the MCU serving as the sensor is likelythe same device that is monitoring the UI,communication interfaces, and radios. Thisresults in an even more integrated, costeffective,and power-effi cient system.Evaluating MEMS technologyEvaluating the effectiveness of MEMStechnology can be quite challenging, especiallyfor personal electronics applications wherethe form factor of the fi nal application plays asignifi cant role in the performance, accuracy,and complexity of the implementation. Forexample, a device to be embedded in shoesneeds to be small and robust enough to handleimpact. A bulky development board that needsto be plugged into a wall is not only fragileand awkward to use, it is unlikely to providedata that is reliable enough data to evaluatehow a sensor and an MCU will operate underreal-world operating conditions. To completean evaluation with suffi cient confi dence,developers need to build a prototype or havean evaluation system that more closely refl ectsthe fi nal application form factor.Texas Instruments, for example, offers itsChronos development system for engineersevaluating MEMS technology. Based ona wireless, sub-1 GHz CC430F6137, thekit includes a three-axis accelerometer, apressure/altitude sensor, and a temperatureFigure 3: CC430F6137 block diagram.sensor (see Figure 3). A USB dongle allowsthe watch to communicate via RF to a PC orother device. Also included is an emulatorfor programming and troubleshooting. Whatmakes Chronos unique, however, is its formfactor: the development kit is a watch(see Figure 4).The availability of the watch form factor hasa signifi cant impact on design evaluationand development. Having the form factor of aself-contained watch with an RF link makesthe kit small and robust enough to be usedin almost any application. The watch itselfdisplays current x, y, and z data and transferscaptured data to a PC for real-time processing.In addition, the kit costs signifi cantly less thanbuilding even a simple prototype. Developersnot only save the time required to design andpopulate their own board, they have easyaccess to as many prototypes as they need,rather than just one or two.The form factor of a watch also facilitatesthe design of numerous motion-basedapplications. For example, MEMS allowsthe extension of the idea of gesture-basedFigure 4: Texas Instruments’ Chronos development kit.interfaces by recognizing motions such asa twisting hand or snapping fi ngers. Oncethese motions can be recognized, they canbe associated with a specifi c action.The kit’s simplicity lowers the barrier toentry by enabling engineers to experimentwith MEMS technology with little upfrontinvestment of design resources. Ratherthan having to read about MEMS anddetermine whether it is worth risking aweek of research and design to evaluatethe technology’s appropriateness for anapplication, developers can make such adetermination in a matter of hours.The Chronos development kit has been wellreceived, and its success is likely to ripple intolarger changes across the electronics industry.Silicon vendors already accept that softwareis an essential element of any hardwareplatform. The form factor of a developmentkit will also clearly impact an engineer’schoice when the kit accelerates developmentby refl ecting the real-world constraints andrequirements of the application.MEMS technology is changing the way weinteract with our devices. However, it isimportant to remember that while MEMS isa core technology for enabling more intuitiveinterfaces, it is only one of many componentsthat contribute to a system’s usability. Forexample, just knowing acceleration is notenough to determine position; a referencepoint is also required. When implementedwith complementary technologies, ratheradvanced functions can be achieved. Forexample, a MEMS device has diffi cultydetermining which way is up when used onits own. When coupled with a gyroscope, thesystem can detect position and rotation. Used28

in conjunction with a compass, localized GPSthrough dead reckoning becomes possible.The total number of sensors in a systemdrives the capabilities of the system, andthe amount of data we can collect aboutourselves and our environment is growingat an incredible rate. However, correlatingmultiple sensors is still beyond thecapabilities of current application libraries.This is a key area of growth for MEMS. Forthe time being, such capabilities requiresignifi cant engineering design and will beused by manufacturers to differentiate theirproducts. In time, these features will becomea core part of every MEMS offering.Through increased accessibility, what hastraditionally been a high-end technologyis quickly evolving into components formany consumer and personal electronicsapplications. Already, key differentiatingfeatures have been captured in software,providing incredible fl exibility and versatility.Coupled with the design resources availablefor MEMS technology – including developmenttools, application software, and evaluationkits based on real-world form factors – siliconvendors are successfully bridging the gapbetween MEMS and low-cost applications.The impact of MEMS on touchscreensby Nicholas CravottaThe ability to recognize gestures in three dimensions presents a viable alternativeto emerging touchscreen technology. Even a simple body monitor such as a watchcan recognize a large repertoire of gesture-based commands. In addition, with RFtechnology a user can control different devices and even potentially control multipledevices simultaneously with the same monitor.The most compelling aspect of MEMS sensors is that a body monitor can bemanufactured for a fraction of the cost of a touchscreen. From a functionalityperspective, a MEMS-based interface supports true three-dimensional gestures,compared to the fl at and limited fi nger-based gesturesimplemented on touchscreens today. Removing theneed to touch a display avoids forcing users to blockwith their hands what they are trying to point out, aswell as eliminates the distracting fi ngerprints typicalon a touchscreen.With MEMS still an emerging technology trailing thematurity of the touchscreen market, MEMS will not replacetouchscreens in the near future except for specializedapplications such as industrial or medical applications,where the need for true three-dimensional gesturecapabilities can be suffi ciently exploited. It is most likelythat, for the foreseeable future, MEMS will be used toenhance existing touchscreen capabilities.Zephyr Digital Airflow SensorsHAF Series-high accuracy provides a digital interface for reading airflow over the specifi ed full scale fl ow span and temperature range.Their thermally isolated heater and temperature sensing elementshelp these sensors provide a fast response to air or gas fl ow.Zephyr sensors are designed to measure mass fl ow of air and othernon-corrosive gases. They are available in standard fl ow ranges andare fully calibrated and temperature compensated with an on-boardASIC (Application-Specifi c Integrated Circuit).The HAF Series is compensated over the temperature range of 0°Cto 50°C (32°F to 122°F) and operates across a temperature rangeof -20°C to 70°C (-4°F to158°F). The the-art ASIC-basedstate-ofresponsetime of 1 compensationprovides digital(I 2 C) outputs with ams.FeaturesSee page155!• Full calibration and temperature compensation typically allow acustomer to remove additional components associated with signalconditioning from the PCB, reducing PCB size and costs associatedwith those components (acquisition, inventory, assembly, etc.)• High sensitivity at very low fl ows allows a customer’s applicationto detect presence or absence of airfl ow• High 12-bit resolution increases ability to sense small airfl owchanges, allowing customers to more precisely control theirapplications• Low 3.3 Vdc operating voltage option and low power consumptionallow for use in battery-driven and other portable applications• Bidirectional fl ow sensing capability eliminates the need fortwo airfl ow sensors, helping to reduce production costs andimplementation timePotential Applications• Medical: anesthesia delivery machines, ventricular assist devices,oxygen concentrators, sleep apnea machines• Industrial: fuel cells, HVAC fi lters, VAV system on HVAC systemswww.digikey.com/honeywell-sensorwww.digikey.com/ sensors29

Micromachined Reed SwitchesOffer New Solutions to ManyMEMS Applicationsby John Beigel, MEDER electronicA microminiature reed switch has enabled awide range of diverse applications requiringhigh reliability, small size, and low cost.Micromachining technology, simply stated, is the utilization ofsemiconductor manufacturing equipment in such a way that it createsmicromechanical systems that serve a specifi c purpose. MEDER’sobjective was to develop a microminiature, hermetically sealed reedswitch that functions exactly like the larger, standard hermeticallysealed reed switch.The basic critical requirements for reed switches are that the contactsmust close when they come near a magnetic fi eld of suffi cient strength,and that they must draw zero power when in the off, or open, state.MEDER has developed a microminiature, hermetically sealed reedswitch in partnership with the Swatch Group of Switzerland. Outside ofthe Swatch Group, MEDER is the exclusive worldwide marketing arm forthe micromachined miniature reed switch.By defi nition, a reed switch is a small, electromechanical device thatcontains one or more ferromagnetic reeds hermetically sealed in aglass envelope. When the reed switch is brought into a magnetic fi eld,the reeds close, creating a switching function. A typical reed switch isshown in Figure 1. The nickel/iron base metals are relatively soft andwould not be good choices for use in a reed switch. This is becausehigh switching loads initiate massive metal transfer, causing thecontacts to become stuck in the closed position. However, the switch’sferromagnetic properties are essential for proper magnetic actuation. Amore preferable manufacturing option is the use of a hard metal at theswitching contact surface. Typically, rhodium and/or ruthenium havebeen used adding dramatically longer life to the reed switch. However,whether one is plating or sputtering the hard metal layer to theferromagnetic leads, a transition layer is needed to insure that all themetals metallurgically bond to each other. Gold, copper, and tungstenare often used as transition layers.Figure 1: A reed switch within its underplating.In the new MEDER microminiature hermetically sealed reed switch,(see Figure 2) borosilicate glass is used, with a thickness of 0.35mm at its lower section, and 0.40 mm at its thick upper section.A proprietary metalization process is used on the edges of theglass, so that it becomes hermetically sealed when bathed at atemperature of approximately 320°C. Theblade material is rhodium, witha thickness of 0.15 microns, ona nickel/iron base. The contactgap is four to fi ve microns, withargon gas as the cavity medium. Toaccomplish this, two 4-inch wafersare used, housing over 10,000Figure 2: A hermetically sealedmicrominiature reed switch.devices. The top and bottom aremated together, and the entire waferundergoes the hermetic sealing process.Over the years, MEDER has improved its microminiature reed switchby using a continuous improvement philosophy. For example, manylaboratories, college research facilities, and semiconductor foundriesinitially considered an epoxy seal to be suffi cient. This was not thecase. Epoxies tend to continually out-gas at very low levels, andthis is exacerbated by increased temperatures. Any small amountof epoxy-related fi lm on or in the contact area proved to be fatal tothe reed switch. This was because these fi lms created an amount ofinsulation that was suffi cient to prevent any voltage, current, or signaltransfer through the contacts. Although this did not occur all of thetime, it occurred often enough to reduce the long-term reliability ofreed switches, thus disqualifying this manufacturing approach.After some qualifi cation trials and different masking approaches, a trulyhermetic microminiature reed switch with a glass-to-metal seal wasfi nally achieved. The reliability of this switch has been demonstratedrepeatedly in large volumes, with lifetimes exceeding 100 millionoperations. MEDER has also found that this reed switch is essentiallyimpervious to shock, as it has been tested at up to 5,000 Gs with nofaults detected. This is in contrast to the bigger reed switches, whichare manufactured in the conventional manner and can only withstandshocks of up to 100 Gs. Another critical qualifi cation test was regardedlong-term exposure to high temperatures with the contacts in theopen and closed states. MEDER chose 100°C as the bath temperatureand soaked the switches for several weeks in each state. Over 1,000switches were tested in this environment with zero failures. The reedswitches produced for commercial applications undergo a 16-hour30

quality control screening, during which they are temperature cycled andtemperature screened from -40°C to 125°C with a dwell time of onehour at each temperature.After significantly improving the micromachined reed switch, MEDERdeveloped different packages which make it easier for customersto mount the switch on PCBs (printed circuit boards). MEDERadded a ferromagnetic lead frame in one packaging scheme whichdramatically adds to its magnetic sensitivity (see Figure 3). Thisallows customers to sense and activate from greater distances.it is crucial to have a way to adjust the volume and to program themicroelectronics. MEDER’s microminiature hermetically sealed reedswitch offered the perfect solution. A small wand, similar to butsmaller than a pencil, with a magnet mounted on its end activatesthe reed switch when brought close to the ear. This initiates thesetting of the various modes and volume controls. This remoteactivation offered by the reed switch was the essential ingredientfor the implementation of smaller, in-the-canal hearing aids.Pacemakers and implantable defibrillatorsWith the invention of ICs over 40 years ago, the first pacemakers wereintroduced. These were very large by today’s standards, and could notbe implanted in the human body. Over the years, they have undergonedramatic size reduction due to the increased miniaturization of allcomponents, making it possible to implant the pacemaker in thehuman body (see Figure 4).Figure 3: Microminiature reed switch over-molded on a gold-plated lead frame.The use of stringent qualification testing has allowed MEDER todesign of the microminiature reed switch into applications requiringhigh reliability. For example, it has been designed into medicalapplications where proper operation of the switch can often be amatter of life and death. The reed switch also operates successfullyup to 200°C, which could be very useful in certain applicationssuch as automobiles and small home appliances where hightemperatures may be involved.ApplicationsMEDER’s microminiature reed switch has allowed designers todevelop new products that were not previously possible. Thispatented reed switch is the smallest ever invented and has passedthe test of time, having been successfully manufactured and soldfor the last 15 years. Many competitors have tried producing similarreed switches and failed over the past 25 years.The following are some examples of applications that MEDER hasworked on and the applications in which the microminiature reedswitch has been designed.In-the-canal hearing aidsHearing aids in the past were worn on the outside of the ear.They hooked over the top of the ear and rested behind it. Manypeople felt self-conscious wearing these hearing aids in a publicenvironment, and some would not wear them at all. These large,behind-the-ear hearing aids used a rotary mechanical thumb switchto regulate volume. Designers have been working on developinga smaller, better hearing aid that would fit in the ear canal. Thesenew high-tech, miniaturized hearing aids have been made possibleby the continued development of IC technology along with the factthat less sound amplification is necessary due to their positioncloser to the ear drum. In designing these smaller hearing aids,Figure 4: An example of an implantable pacemaker.Reed switches play a big role, as they allow communication withthe device after it is implanted. When an external magnet is placednear the chest cavity, it causes the reed switch contacts to close,allowing communication with the implanted device. After themicrominiature reed switch closes, information in the pacemakercan be wirelessly downloaded, heart rate can be adjusted,calibration can be initiated, and different modes can be set. Whenthe reed switch is in the open position, only a minimal amount ofbattery power is used, thus lengthening battery life. When the reedswitch is closed or activated, such as for programming, batterydraw is increased only momentarily. Thus, battery power is greatlyconserved. Using the microminiature reed switch, pacemakersbecame only the size of a thick silver dollar. Now the pacemakerand defibrillator are combined in a single unit and still not muchbigger than the silver dollar sized design.www.digikey.com/sensors31

Micro-glucose detection and administration systemsAs anyone diagnosed with Diabetes Mellitus will tell you, pricking afi nger for blood samples and injecting insulin with a needle up to eighttimes a day is far from optimal. The traditional method for diabetestreatment is to check blood sugar four times a day, then administer aspecifi ed dose of insulin based on the blood sugar level. Each insulinshot helps to control blood sugar, but it also causes a shock to thesystem and these can cause a cumulative, negative effect on theorgans of the body. Doctors and medical electronics designers haveteamed up to develop a better, unifi ed system for insulin administrationthat mimics the natural function of the pancreas. Specifi cally, a sensorimplanted in the waist area is used in conjunction with a small insulinreservoir and dispensing system, worn externally at the waist (seeFigure 5). A microminiature reed sensor in the implant is used forcalibration and mode changes in a manner similar to the pacemaker.With this system, when very small changes in the blood sugar leveloccur, a small amount of insulin is administered that corrects the sugarlevel. This minimizes the shock to the system, allowing people withdiabetes to live longer, healthier lives.Figure 6: An ingestible pill that records a video of its entry into the stomach and thesmall intestine as it moves through the digestive tract.Animal tracking devicesSeveral animals are on the endangered species list. To prevent theirextinction, the government and private donors have set up programssuch as the development of tracking devices that are worn on a collaror implanted in the animal (see Figure 7). The implanted device hasproven more reliable, as the collars wear out over time or can be tornoff by their hosts. These tracking devices must be very small, and ofcourse, are battery operated. When the implanted tracking device isused, after the animal has been tracked for a given period of time, it iscaught and tranquilized. Then a permanent magnet is placed near theimplanted device, closing the micromachined, hermetically sealed reedswitch, which wirelessly transmits all of the tracking information to areceiver. The tracking information can then be analyzed and decisionsmade on how to help the animal better survive.Figure 5: A glucose monitoring system worn at the belt level.Pills that are ingested for video filming of internal organsA few years back, the FDA approved a pill for ingestion that containsa video camera attached to its microcircuit (see Figure 6). As thisbattery-operated device is swallowed and moves through the digestivetract, it takes a video of its descent into the stomach and through thesmall intestine. The tiny camera records video images of areas of thesmall intestine that are unreachable by endoscopy or colonoscopy.These images are transmitted wirelessly for viewing outside the body.The microminiature reed switch plays a key role in this pill. After beingmanufactured, the pills may sit in inventory and later in a hospitalstocking area for many months. The pill’s battery life is only a fewhours. The designers have developed a solution to this problem by usingthe microminiature reed switch in conjunction with a magnet. In theshipping container, each slot has a magnet dedicated to each pill, as thebattery is not yet activated. Once the pill is removed from the proximityof the magnet, the microminiature reed switch opens and activatesthe battery, in turn applying power to the circuitry and video system.Because of these pills, many previously undiagnosable digestive tractissues have been discovered and treated.Figure 7: The removal of information from an animal that has been tracked.32

Fish tracking devices for migration studiesIn a manner similar to the animal tracking devices, an electronicdevice with a microminiature reed switch is implanted in migratoryfi sh (see Figure 8). Salmon are the primary fi sh tracked, since theyare so widely used as a food source. When the fi sh are caught, apermanent magnet is used to close the reed switch, and then the vitalinformation is wirelessly transmitted to a receiver where it is recordedfor later analysis.Figure 8: Microelectronic circuits implanted in fi sh.Carotid artery plaque detection, implantable muscle stimulationand incontinence prevention systemsThe number of tiny, implantable electronic systems that are beingdesigned and placed in the human body is growing at a rapid rate.These devices have the following in common: they serve to detect afault in the human body, they need to perform a function when thefault is detected, they often remain in the human body for severalyears, they are battery operated, they use minimal battery power,and they need occasional adjustments or mode changes. Themicromachined, hermetically sealed reed switch is used to performthe adjustment or mode changes. Importantly, the reed switch drawsno power in its “off” state, and after a brief period of being energized,it can carry out its intended function, such as wireless transfer ofinformation, adjustments, or mode changes.The micromachined, hermetically sealed reed switch is beingused more and more wherever the need for sensing does notrequire physical contact, but rather requires remote sensing by amicrominiature device.Summary and future directionResearch facilities, colleges, universities, and businesses havedevoted a lot of time and energy using semiconductor manufacturingtechniques to develop microminiature mechanical systems thatcan carry out a specifi c function. The vast majority have founddisappointment and failure. MEDER is one of the few companiesthat has had success with the development of a micromachined,hermetically sealed reed switch, simply because of the amountof time, effort, and dedication that went into the undertaking. Inaddition, MEDER has expanded its manufacturing by using a moremechanized, automated approach, resulting in a higher-volume outputat lower costs. Meder is now working on developing an even smallermicrominature reed switch, which will initiate new requirements andtherefore stimulate new applications.Xtrinsic Sensing SolutionsFreescale’s Xtrinsic sensing solutions go far beyond a sensortranslating a signal – it’s enabling greater levels of sensingcontext and intelligence. By increasing levels of modularintegration with multiple sensor inputs, logic and other buildingblocks, Freescale brings greater value and decision making to theoverall sensing solution.Xtrinsic Sensing Solutions - AccelerometersFreescale accelerometers are designed for end products andembedded systems that require measurement of forces resultingfrom fall, orientation, tap, double tap, tilt, jolt, motions, positioning,shake, shock or vibration.Key Accelerometers in the Xtrinsic Family• MMA7660FC: 3-axis, 6-bit digital output (I 2 C), verylow power, low profi le capacitive micromachinedaccelerometer featuring a low pass fi lter, compensationfor zero g offset and gain errors.• MMA8450Q: 3-axis, 12-bit digital output, intelligent lowpower and noise accelerometer. It is packed with manyfl exible user programmable embedded functions that areavailable with two confi gurable interrupt pins.• MMA8451Q, MMA8452Q, MMA8453Q: Freescale’sMMA8451, 2, 3 are extremely low power, 3-axisaccelerometers offering a pin compatible family with abroad range of resolution (14-bit to 10-bit) and embeddedfeatures to select sophisticated system effi cient featuresand confi gurable accurate motion analysis.www.digikey.com/freescale-sensorwww.digikey.com/ sensors33

Ultrasonic MEMS Sensor:SPM0404UD5contributed by Knowles AcousticsKnowles MEMS technology enables aunique broadband commercial ultrasonicsensor element. This article explainsthe performance advantages and utilitypossibilities for the product.Figure 1: Knowles SPM0404UD5 ultrasonic MEMS sensor.Ultrasound is defi ned as cyclic sound pressure above the frequencylimit of human hearing, approximately 20 kHz. This is the mostobvious trait of ultrasound, but not necessarily the most important.Depending on application requirements, the user may also beconcerned with:• Diffraction and packaging effects• For many audio devices, the size and shape of the devicemakes little difference for audio performance. Diffractionstarts to become important when a physical object is about1/4 wavelength in size or larger. At 20 kHz, 1/4 wavelength isabout 4 mm; at 100 kHz, 1/4 wavelength is less than 1 mm.• For this reason, an ultrasonic microphone is directional,though it has only one acoustic port. The directional patterndepends on how the microphone is packaged and measured.A polar response measurement is required to determine theexact directional pattern at a specifi c frequency.• Propagation loss and absorption• Sound intensity decreases by 6 dB with each doubling ofdistance from a point source.• Ultrasound also loses energy quickly due to absorptioneffects, with absorption increasing along with frequency andhumidity. For higher humidity, losses can reach over 3 dB/m atfrequencies of 80 kHz.Measurement and calibrationWhen performing measurements, the following guidelines should beconsidered:• Ultrasonic sound source• The acoustic bandwidth requirement determines what type ofspeaker may be used.· An ordinary tweeter component may be adequate formeasurements up to 50 kHz. Check the componentspecifi cation.· For measurements up to 100 kHz, a specialized speaker isrequired. One example is the Murata ES-105A (discontinued).• Ultrasonic reference microphone• For measurements up to 50 kHz, a 1/4 inch referencemicrophone is recommended. Check with Bruel and Kjaer orGRAS for available types and required equipment.• For measurements up to 100 kHz, a 1/8 inch referencemicrophone is recommended. Check with Bruel and Kjaer orGRAS for available types and required equipment.• Calibration measurement• Place the test microphone and reference microphone withthe sound ports at 90 degree incidence to the speaker at adistance of 1 m. Microphone ports should be placed as closeas possible without touching.• Sweep the sound source through the frequency range ofinterest, and compare the reference microphone outputto test the microphone output. Calculate the response ofthe test microphone for the given sound pressure. An audioanalyzer may be used to facilitate the measurement.Use and recordingThe use of ultrasonic senors in listening and recording applicationsrequires consideration of the following:• Equipment used for ultrasonic recording must have adequatefrequency bandwidth to avoid fi ltering out frequencies of interest.• Microphone level signals require pre-amplifi cation, so check thespecifi cations for any pre-amplifi er used for listeningor recording.• If using a PC to record ultrasonic signals, verify that the soundcard supports sampling rates of at least twice the maximumfrequency of interest. Set an adequate sampling rate in therecord settings of the recorder program used (such as AdobeAudition or similar).34

Sensor specificationsPlease refer to model specifi cations at:http://www.knowles.com/search/prods_pdf/SPM0404UD5.PDFTypical sensor performanceThe frequency response for the SPM0404UD5 covers a widefrequency band – from subsonic to ultrasonic (see Figure 2).Specialized equipment is required for measurements at bothextremes of the frequency range. The SPM0404UD5 may be used as asensor, a conventional microphone or both.Low-frequency relative phaseIf using the SPM0404UD5 for low frequencies in addition to highfrequencies, uniform phase performance may be important forarray performance or consistency in feed-forward systems. Themeasurement in Figure 5 compares the SPM0404UD5 phase noisewith the phase noise of a laboratory reference microphone in asealed cavity.Figure 2: Frequency response for the SPM0404UD5.Figure 3: Spectral noise for the SPM0404UD5.Spectral noise for theSPM0404UD5 is shown inFigure 3. Noise is measured ina sealed heavy steel enclosurethat rests on a cushion to limitvibration transmission (seeFigure 4).Figure 5: SPM0404UD5 phase noise versus laboratory reference microphone.Typical ultrasonic sensor applicationsTypical applications where ultrasonic senors are used include:• Compare normal versus abnormal acoustic signatures in thefrequency domain:• Condition monitoring: ultrasonic acoustic sensing may be anattractive option for condition monitoring of objects such asbearings, valves, motors, gears, and pumps for a prediction offailure or need for replacement. Acoustic sensors do not needto be in contact with the equipment. There is typically little, ifany, competing signal in the ultrasonic range.• Leak detection: an ultrasonic sensor may listen for leakdetection in pressure and vacuum systems such as boilers,heat exchangers, condensers, chillers, tanks, pipes, hatches,and hydraulic systems.• Electrical detection: arc and corona of electrical apparatus areidentifi ed.• Time-of-arrival: an array of two or more SPM0404UD5 ultrasonicMEMS sensors may be used to determine the direction/locationof an acoustic source/transmitter in near proximity.• Event detection: one or more SPM0404UD5 ultrasonic MEMSsensors may be used to detect an event that creates ultrasonicenergy, such as an impulse or acoustic shock wave.Samples for evaluationThe SPM0404UD5 is available through stocking distribution atDigi-Key. Knowles can also provide samples surface-mounted to smallPCBs to facilitate wiring. Contact your local Knowles sales locationrepresentative or distributor (see www.knowles.com for information).Figure 4: Hinged noise chamberfor measuring spectral noise.www.digikey.com/ sensors35

MMA7660FC Accelerometerfor Mobile Handsetsby Michelle Kelsey, Laura Salhuana,Mathieu Forget, and Nigel Drew, Freescale Semiconductor, Inc.Accelerometers are proliferating rapidly inthe mobile phone market, enabling cleverinnovations that continue to help developersdifferentiate their products from the competition.According to iSuppli, accelerometers are rapidly penetrating themobile handset market, and there seems to be no letup in the nearfuture. As they predicted, approximately one-third of all mobilephones shipped in 2010 included MEMS accelerometers. That wasup from one in fi ve shipped in 2009 and one out of 11 in 2008.Accelerometers allow users to employ fi nger tapping and threedimensionalmotion to execute specifi c commands, often replacingthe need for multiple keystrokes.Cell phone users, for instance, are demanding sophisticateduser interfaces that allow fast, precise communications withoutcomplicated data entry. They also want these capabilities inbudget-priced phones as well as in the high-end models. Freescale’sMMA7660FC low-g, three-axis digital accelerometer is the company’sfi rst to be designed specifi cally for mobile phones and other small,hand-held appliances. Low-cost, low-power intelligent sensing ina compact package can add tremendous functionality to portablebattery-powered devices with no room to spare.Essentially, MEMS combine silicon-based microelectronics withmicromachining technology. A three-axis accelerometer can detectmotion on three different planes, or axes. This allows developersto implement a single accelerometer to incorporate tap, shake,and orientation detection in a mobile device. For instance, aback-and-forth shake and an up-and-down shake can be used toexecute two different commands. Although accelerometers can beused in a number of hand-held applications, mobile phones havedominated the market. Accelerometers not only enable developers toincorporate clever innovations that differentiate their products fromthe competition, but also to extend revenue opportunities to ISVs(independent software vendors), interface providers, and wirelessservice carriers.The MMA7660FC accelerometer can be employed to detect naturaluser interactions, including:• Orientation detection that goes beyond automatically adjusting toa portrait or landscape confi guration• Single-tap detection, which can be confi gured at user-selectablethresholds and time duration on the X, Y, and Z-axes• Shake, which can be used to represent specifi c keystrokes or aseries of keystrokes• Gesturing and gaming moves, such as three-dimensional tilt,turn, and twistHowever, portable devices such as mobile phones demand more thanimproved functionality alone if they want to carve out a profi tablepiece of the market. The inherent limitations of size and battery life,among others, must also be addressed.Four good reasons to use MMA7660FC accelerometersAs more applications require motion detection, the MMA7660FCfeatures four key requirements: digital output, small package, lowpower consumption, and embedded intelligence.Digital outputThe MMA7660FC accelerometer has I 2 C output for communicatingdirectly with the processor, eliminating the need for an ADC. With 6-bitoutput values of X, Y, or Z, you can confi gure an interrupt for one ormultiple options of motion detection such as orientation, tap, shake,or data ready. Once an interrupt occurs, the processor can theninterrogate the accelerometer via the I 2 C to understand exactly whichinterrupt has been triggered.Small footprintThe MMA7660FC is contained in a 3 x 3 x 0.9 mm dual, fl at, no-lead(DFN) package with 0.5 mm pitch. This is critical for portable, handhelddevices, such as mobile phones, because it enables designers to add allthe useful functionalities of a three-axis accelerometer without strainingthe limits of a space-constrained PCB.To help ensure proper mounting, Freescale offers an applicationnote, “AN3839: MMA7660FC Board Mounting Guidelines,” availableas a PDF download from www.freescale.com/xyz. It discusses theminimum recommended footprint for surface mount applications thatcan signifi cantly affect the soldering connection interface between theboard and the package. The application note also provides solderingand mounting guidelines that will minimize the stress on the packageafter board mount. Following these guidelines and considerationsfor board mounting will result in optimal performance from theMMA7660FC sensor.36

Low-power consumption in end applicationsFreescale is a recognized leader in thedesign of high-performance, energy-efficientsemiconductor products. Underscoringthis, Freescale has introduced the Energy-Efficient Solutions mark. This mark highlightsselected products that excel in the effectiveimplementation of energy-efficiencytechnologies, and that deliver market-leadingperformance in the application spaces they are designed to address.Visit the latest list of these products at www.freescale.com/energy.The MMA7660FC accelerometer has earned the Freescale Energy-Efficient Solutions mark through a distinctive combination ofadvanced architectural and circuit techniques with the latest designmethodology and process technology, which deliver energy-efficientperformance to provide the highest possible performance levels withina restricted energy budget. This is the result of Freescale workingclosely with customers in a targeted market to define their specificperformance and energy requirements, and developing optimizedsolutions that yield exceptionally energy-efficient performance for thelife of the application. The MMA7660FC accelerometer has very lowcurrent consumption: an off mode of 0.4 μA, a standby mode of 2 μA,and an active mode down to 47 μA (1 sample/second).In addition, the MMA7660FC accelerometer offers extremely flexibleperformance/power consumption options through user-configurablesample rates. The rates can be adjusted to provide only theperformance needed for specific functions, and each configurationcorresponds with different current consumption (see Table 1).Table 1: MMA7660FC user-configurable sample rates.Samples Minimum Typical Maximum1 38 µA 47 µA 62 µA2 37 µA 49 µA 60 µA4 48 µA 54 µA 83 µA8 59 µA 66 µA 86 µA16 70 µA 89 µA 100 µA32 85 µA 133 µA 171 µA64 170 µA 221 µA 262 µA120 224 µA 294 µA 350 µAFor instance, at 120 samples/second the consumption rate is about294 μA. However, if you drop down to one sample/second, thecorresponding rate is just 47 μA. This flexibility allows you to finetune your sample rates for specific functions, making sure the powerconsumption is as low as possible. For example:• One sample/second is perfectly adequate for auto-wake-upmotion detection. When the accelerometer senses any motion,it essentially tells the processor, “I’m sensing motion. You maywant to start sampling more for whatever type of application youwant to run.”• After extensive testing with key customers in the mobile world,four samples/second has been determined to be a sufficientrate for portrait/landscape orientation and shake. Typical powerconsumption is 54 μA.• The sweet spot for covering most shaking and gesturingrequirements, such as those required for many of the gamesthat can be loaded onto today’s mobile phones, is 32 samples/second with a typical operating current of 133 μA.• Tapping (using your finger to tap once or twice on the mobiledevice) is the only function for which sampling at 120 samples/second is recommended. The higher rate, running at 294 μA, isneeded for the system to recognize the difference between a tapand a typical shake.Once the output data rate is configured, the MMA7660FC updates thedata for all three axes in the register at a resolution of six bits per axis.The MMA7660FC accelerometer also incorporates advanced,automatic, low-power modes with auto-wake and auto-sleep. Threemodes, off, standby, and active, offer different capabilities for powerconservative applications (see Figure 1).Figure 1: MMA7660FC measurement and power modes.• Off mode – digital line is on but analog line is off. MMA7660FCdoes not load the I 2 C bus and all I 2 C activities are ignored.• Standby mode – both digital and analog lines are on, andthe MMA7660FC responds to I 2 C activity. Registers can beaccessed to set the device to active mode when desired, andthe sensor measurement system is idle.• Active mode – both digital and analog lines are on, and theMMA7660FC responds to I 2 C activity. The sensor measurementsystem runs at the programmable output data rate, and thedigital analysis functions run. A low-power (lower user selectedsample rate) sleep mode is entered if the following are true:-The Auto-Sleep function is enabled AND-The Sleep Counter has elapsed, indicating that no changein orientation, no shake, and no tap or pulse have occurredwithin the duration of the programmable Sleep Counter.Sleep mode saves power by using a reduced sampling rate (tapmode is disabled). Detection of a shake, a change in tilt angle or achange in orientation initiates auto-wake to bring the MMA7660FCback to full active mode.The MMA7660FC accelerometer has an auto-wake/sleep featurethat can be enabled to save power. In sleep state, the device is putinto a user-specified, low-sample rate (1, 8, 16, or 32 samples/www.digikey.com/sensors37

second) in order to minimize power consumption. When auto-wakeis enabled and activity is detected, such as a change in orientation, achange in acceleration or a shake event, the device wakes up.In a wake state, the MMA7660FC accelerometer is put into auser-specifi ed sample rate (from one sample/second to 120 samples/second) according to power and response considerations. Withauto-sleep mode enabled, if there is no change in the enabled motiondetections before the sleep counter has elapsed, the device will gointo a sleep state with auto-wake mode enabled. The MMA7660FCaccelerometer can thus be programmed to continually cycle betweenauto-wake/sleep.IntelligenceThe MMA7660FC can be programmed to incorporate any of the motiondetections through confi gurable interrupts (see Figure 2). Each detectedmotion, such as orientation, tap, or shake, is recorded in dedicated bitsof a read-only status register (TILT). To determine what kind of motionhas occurred, an interrupt will occur indicating one of the confi guredmotion events have triggered. An I 2 C read command must occur to theTILT register to decode the motion that occurred to cause the interrupt.Enabling interruptsThe user can choose to enable or disable any of the following interruptsin the INTSU (0x06) register: Front/Back Interrupt, Up/Down/Left/ RightInterrupt, Tap Detection Interrupt, GINT (real-time motion tracking),Shake on X-axis, Shake on Y-axis, and Shake on Z-axis Interrupts. If theGINT is enabled, real-time motion tracking can be confi gured to triggeran interrupt after every sensor data update, from one sample/secondto 120 samples/second. If any of the shake axis interrupts are enabled,excessive agitation, greater than 1.3 g, will trigger an interrupt. If eitherthe Up/Down/Left/Right Interrupt or the Front/Back Interrupt is enabled,changes in those orientations will generate an interrupt. When the autosleepfeature is enabled and none of the enabled motion detectionsoccur for the auto sleep counter elapsed time, an interrupt will occur.When the device is in sleep state, if a shake interrupt, change in tiltangle (notifi ed via the tap interrupt), or orientation detection interruptoccurs, the device will leave sleep state and enter wake state.Figure 2 lists the registers that will be used and/or confi gured fororientation, shake, auto-wake/sleep, and tap detection.Figure 2: MMA7660FC multiple detection algorithms.Orientation detection in an applicationOrientation detection is typically the portrait/landscape functioncommon in today’s mobile phones. However, this particular motiondetection process can add functionality. It can detect six transitionsfrom any position, including back, front, left, right, up, and down.Any of these motion detections can be programmed to a particularresponse. For instance, if the phone is lying face down, it obviouslyisn’t being used, so it may go into a low-power mode. If the phone isringing and the user places it face down, it hangs up the call, or whenplaced face up it activates the speakerphone.Table 2: User register overview.Register OverviewAddress Name Function Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 00x00 XOUT 6 bits output value X - Alert XOUT[5] XOUT[4] XOUT[3] XOUT[2] XOUT[1] XOUT[0]0x01 YOUT 6 bits output value Y - Alert YOUT[5] YOUT[4] YOUT[3] YOUT[2] YOUT[1] YOUT[0]0x02 ZOUT 6 bits output value Z - Alert ZOUT[5] ZOUT[4] ZOUT[3] ZOUT[2] ZOUT[1] ZOUT[0]0x03 TILT Tilt Status Shake Alert Tap PoLa[2] PoLa[1] PoLa[0] BaFro[1] BaFro[0]0x04 SRST Sampling Rate Status 0 0 0 0 0 0 AWSRS AMSRS0x05 SPCN Sleep Count SC[7] SC[6] SC[5] SC[4] SC[3] SC[2] SC[1] SC[0]0x06 INTSU Interrupt Setup SHINT SHINT SCINTZ GINT ASINT PDINT PLINT FBINT0x07 MODE Mode IAH IPP SCPS ASE AWE TON - MODE0x08 SR Auto-Sleep and Active Mode Portrait/Landscape Sample Rates and Debounce FilterFILT[2] FILT[1] FILT[0] AWSR[1] AMSR[0] AMSR[2] AMSR[1] AMSR[0]0x09 PDET Tap Detection ZDA YDA XDA PDTH[4] PDTH[3] PDTH[2] PDTH[1] PDTH[0]0x0A PD Tap Debounce Count PD[7] PD[6] PD[5] PD[4] PD[3] PD[2] PD[1] PD[0]0x0B to 0x1F Factory Reserved - - - - - - - -38

Figure 3: Flow chart of orientation detection.Orientation detection enabled in the MMA7660FCThe tilt orientation is in three dimensions and is identified inits last known static position. Tilt orientation can be measuredfrom six different positions: left, right, up, down, back and front.The trip points for up/down/left/right occur at approximately 45degrees from horizontal while the back/front interrupts occur atapproximately 15 degrees from horizontal. This allows a productto set its display orientation appropriately to either portrait orlandscape mode, or to turn off the display when the device isplaced upside down.Using the built-in orientation detection with the interrupt capabilitywill save significant system resources and power consumption whencompared to the polling method. The polling method requires themain processor to start a timer to read the accelerometer output (XYZ)and then use a software algorithm to judge the sensor orientation.This means the system has to repeatedly read and calculate the neworientation position.With the MMA7660FC accelerometer, however, once the device isconfigured for orientation detection, a change in device orientation issignaled by an interrupt, so the application simply has to respond byreading the TILT register to update the new orientation.The user configures the device for orientation detection by selectinga specific sample rate based on the targeted power consumption orthe desired response rate of the orientation detection. By selectingthe TILT debounce count, the auto wake/sleep prerequisites and thechoice of orientation interrupts enabled.The portrait to landscape trip point in the MMA7660FC accelerometeris 45 degrees, as defined by the internal logic. However, usingsoftware enhancements and an external microcontroller, the trippoint can be changed. For a detailed discussion read Freescale’sapplication note, “How to Use the MMA7660FC with a Microcontrollerto Do Software Enhancements to Change Orientation Detection TripPoints,” available as a PDF download from www.freescale.com/xyz.Shake detection in an applicationShake motion can be detected in any orientation and can be used toperform many different commands. For example, if a user is typinga number into the mobile phone and makes a mistake, instead ofhitting the clear button the user can just shake the device to clearthe mistake. It also works in gaming applications, providing quickshort-cuts for particular on-screen actions. The shake feature can beused as a button replacement to perform functions, such as scrollingthrough images or Web pages on a mobile phone.Shake detection enabled in the MMA7660FCThe user can enable the shake interrupt on the MMA7660FC for anyof the three axes by enabling the SHINTX, SHINTY, and/or SHINTZ inthe INTSU (0x06) register. The sample rate must be selected basedon the target power consumption level and/or desired response ratefor the shake detection application.The MMA7660FC accelerometer detects shake by examining thecurrent 6-bit measurement for each axis in XOUT, YOUT and ZOUT.The axes that are tested for shake detection are the ones enabledby SHINTX, SHINTY, and/or SHINTZ. If a selected axis measuresgreater than 1.3 g or less than -1.3 g, then a shake is detectedfor that axis and an interrupt occurs. All three axes are checkedindependently, but a common shake bit in the TILT register is setwhen shake is detected in any one of the selected axes. Therefore,when all three axes (SHINTX, SHINTY, and/or SHINTZ) are selectedit is not possible to determine on which axis the shake occurred.When the TILT register is read, the shake bit is cleared and shakedetection monitoring starts again (See Figure 4).www.digikey.com/sensors39

........Figure 4: Shake detection algorithm fl ow chart.Tap detection in an applicationTap detection simply records a fi nger tapping the device. Thisfunction can replace a number of key and button commands, notonly on a mobile phone, but also on any product that needs a userinterface and has a main button for selection. For example, whensitting in an important meeting, if a user’s mobile phone beginsto ring, a simple tap on the outside of the phone can send the calldirectly to voicemail.Figure 5: Tap detection algorithm fl ow chart.Tap detection enabled in the MMA7660FCTap detection using the MMA7660FC works by detecting a fasttransition that exceeds a user-defi ned threshold (PDET register) fora set duration of time (PD register). Detection for enabled axes isdecided on an OR basis: If the PDINT bit is set in the INTSU register,the device reports the fi rst axis for which it detects a tap by theTap bit in the TILT register. When the Tap bit in the TILT register isset, tap detection ceases. Tap detection will resume when the TILTregister is read (See Figure 5).40

ConclusionAccelerometers are proliferating rapidly in mobile handsets asconsumers demand sophisticated, intuitive user interfaces thatallow fast, precise communications without complicated dataentry. Clever mobile phone innovations continue to help developersdifferentiate their products from the competition. Designing portableelectronic applications that use the intelligent sensing offered by theMMA7660FC include a number of advantages to the manufacturerand consumer alike, including:• Low-power device with confi gurable power-saving modes• Power-select helps achieve optimal current consumption bychoosing one of eight sample rates• Intelligent device with confi gurable orientation, shake, and tapdetection• Digital accelerometer with direct I 2 C interface forcommunication fl exibility• Compact package enables intelligent motion features inhandheld productsFreescale’s accelerometer portfolio will continue to expand to providemanufacturers with more opportunities to incorporate accelerometersin their new product designs. Freescale’s motion sensing technologyhas brought new levels of accuracy, usability, and reliability inhandheld product design and will continue to help customers createnew applications in emerging markets worldwide.AMT303 CommutationEncoder OverviewCUI Inc.The AMT303 encoder translates motion such asspeed, direction, and shaft angle into electricalsignals. Detection of shaft angle is signifi cant toapplications such as radio, automation equipment,and more.The training module for this product discusses howencoders function,what makes theAMT303 unique,and the variousparts that make upthis encoder.www.digikey.com/ptmRevolutionizing Encoder TechnologyCUI Inc has developed a unique and versatile modular rotary encoder.The AMT utilizes CUI’s proprietary capacitive technology, which holdsnumerous advantages over the optical technology typically used intoday’s modular encoders.See page121!The AMT’s design allows users to select from a range of resolutionsvia an on-board dip switch, creating fl exibility for those utilizingmultiple encoders in their applications.The Benefits of Capacitive TouchFlexible- interchangeable shaft adapter & programmable resolutionsRugged- resistant to dust & dirt, temperature & vibrationGreen- less than 10 mA current consumptionSimple- quick & easy to assemble on a motorAMT100Incremental Encoder SeriesAMT203Absolute Encoder SeriesAMT303Commutation Encoder Serieswww.digikey.com/cui-sensorwww.digikey.com/ sensors41

Seeing (Infra)Redby Tom CantrellA new Vishay smart IR proximity sensor easesintegration into a wide range of designs. Thelow-cost evaluation kit makes it even easier.IR Anode 1IRED12 GNDProxi PD11 ncThanks to Moore’s Law, electronic gadgets continue to boost theirIQs. With ever more MIPS and megabytes of software under the hood,designers have unprecedented processing power on tap. But that’sonly part of the answer when it comes to adding compelling newproduct features. The ability to crunch data is good, but only if we cancapture interesting data to crunch in the fi rst place.For instance, these days touch sensing is all the rage. So what dodesigners do for an encore? One obvious embellishment is to givedevices the ability to sense proximity. Enter the Vishay VCNL4000 IR(infrared) proximity sensor (see Photo 1).IR Cathode 2IR Cathode 3LED DriverOscillatorMUXAmp.IntegratingADC10 nc9 ncSDA 4SCL 5Data RegisterCommand RegisterI 2 CSignalProcessingAmbi PD8 nc7 V DDFigure 1: VCNL4000 block diagram.6 GNDRoll your own?Sure you can. All it takes is an MCU, an IR LED, an IR photodiode, avisible light photodiode and a bit of software, right? It sounds easy, butas usual, the devil is in the details. In fact, the embellishments requiredto achieve a truly accurate and robust implementation are non-trivialand can easily nickel and dime a seemingly simple solution to death.An easy way to see this is to take a look at the VCNL4000’s featuresand consider what it would take for a back-of-the-napkin design tomatch them.Photo 1: VCNL4000 module.The idea of using IR to sense proximity isn’t new and the conceptis easy to understand. Just use an IR LED to illuminate the area ofinterest and then measure the amount of refl ected light with an IRphotodiode. The higher the refl ection, the closer (and/or larger, and/ormore refl ective) an object is.Going one step further, the VCNL4000 also integrates a visiblewavelength photodiode for ambient light sensing (see Figure 1). Thecombination of IR proximity detection and visible light sensing makesthe module a natural for handheld gadgets. For example, in a cellphone, the visible light detector could be used to automatically adjustthe display’s backlight level. Meanwhile, the IR proximity feature couldbe used to detect that the phone is being held to the user’s ear, at whichpoint the display could be completely turned off to conserve power.For instance, you need a couple of A/D channels to measure thephotodiode outputs, right? No biggie, since even the bluest of bluecollarMCUs comes with an ADC these days. The only problem isthat the ADC on a typical MCU can’t match the 16-bit resolution ofthe Vishay part. Oh well, I guess you need to add a high-resolutionADC chip. Don’t forget some op-amps to get the most out of thephotodiodes. While you’re at it, throw in a transistor to drive the IR LEDat up to 200 mA, far beyond the drive capability of an MCU GPIO pin.But that’s just the start. A key feature of the VCNL4000 is that itmodulates the IR LED at high frequency, up to 3.125 MHz, andbandpass fi lters the raw IR return. Focusing purely on the refl ectionhelps cancel the infl uence of ambient and interfering IR sources, suchas fl uorescent light ballasts. Now your roll-your-own design needssome real help, maybe a PLD and a fi lter chip? Or step on up to amuch bigger-ticket MCU/DSP.42

While the IR proximity feature gets the headlines, the VCNL4000 visiblelight sensor is no slouch. Notably, it includes the ability to automaticallytake an average of up to 128 light readings. This helps filter out externaland internal interference—such as 60/120 Hz interference and converternoise floor interference, respectively—to deliver a more sensitive andaccurate measurement both night and day from 0.2 to 13,000 lux.Power trippingEarly on in your roll-your-own musings, it might have seemed that amini-me MCU could not only easily handle the job, but would haveplenty of time to kick back and take a nap between readings. By now,you can see that you need beefier silicon, and it’s going to be prettybusy with all the high-frequency stuff going on, such as modulation,filtering, averaging and bit-banging. For instance, matching theVCNL4000 ambient light averaging capability calls for up to 128A/D conversions, or in the case of a digital light sensor, like an I 2 C,thousands of clock edges. Not to mention all the associated CPUcycles. That means power consumption is going up, so toss in somespare change for a bigger battery.You might think that, when talking about driving the LED with up to200 mA, any solution is going to be a power hog. But, in fact, theVCNL4000’s power consumption is surprisingly low due to the sparseduty cycle of LED illumination and optimized signal processing.Let’s say you want to take ten proximity readings per second with 100mA LED drive current. As you can see in Figure 2, during each 100 mssample time, the LED is only illuminated for some 70 μs. As a result, thetotal average power consumption of the LED and VCNL4000 is under100 μA. The ambient light sensor is similarly green. For example, at tensamples per second with each sample comprising an average of eightreadings, average power consumption is once again under 100 μA.140 µs100 msFigure 2: Proximity measurement timing.I’m a big fan of the latest and greatest MCUs and fully respect theability of clever designers to wring the most out of them. Withoutactually going through a design, I can’t completely rule out thepossibility that a multi-part lash-up might come close to matchingthe capabilities of the VCNL4000. But don’t forget the optical aspects.With a roll-your-own design, you’ll need to come up with an opticallyisolated packaging scheme that avoids internal crosstalk, such asreflections inside the box. No matter how clever a discrete design is,it will surely consume more board space than the super-tiny and thinVishay module at 3.95 mm x 3.95 mm x 0.75 mm.Vishay makes it easy to kick the tires with a low-cost evaluation kit(see Photo 2) comprising a VCNL4000 carrier board, a USB interface,and Windows-based dashboard software. The carrier board has a 10-pin header that plugs into the USB adapter, which plugs into your PC.The dashboard software (see Photo 3) features real-time, strip-chartplotting of the sensor output with the ability to point-and-clickconfigure various options such as LED current, sample frequency,offset compensation, and filtering, as well as read and write theVCNL4000 registers directly.Photo 2: VCNL4000 evaluation kit.Photo 3: VCNL4000 evaluation kit software screen shot.Light showThe Vishay approach of splitting the VCNL4000 carrier board and theUSB interface is handy because it allows you to use the carrier boardby itself for prototyping and experiments.Connecting your favorite MCU to the VCNL4000 requires just fiveconnections: the two-wire I 2 C interface (SCL, SDA), ground, power forthe logic (V DD), and a separate power supply for the LED (IR Anode).While the power supplies are specified as 2.5 V to 3.6 V, the I 2 C buscan handle 1.7 V to 5.5 V for connection with virtually any MCU.Note that the evaluation kit powers both the logic and the LED froma single power supply. In your own application, make sure the highLED current pulses (up to 200 mA) don’t glitch the power for the restof your logic. If it’s an issue you could, for example, power the LEDdirectly from a battery and your digital logic from a regulated supply.I was anxious to wire the gadget up, but the module’s fine-pitch,0.05-in. connector had me scratching my head. I didn’t want to solderwires directly to the module, so I did the right thing and ordered amatching socket. Being no brain surgeon, I was pretty proud of myselfwhen I was able to tack wires to the socket. But the applause didn’tlast long. As soon as I tried to plug in the Vishay module, the pins onthe socket fell right out.Eventually I was able, barely, to get four clip leads—SDA, SCL, GND,and combined LED and logic power—connected to the VCNL4000module, making for a bit of a cumbersome lash-up (see Photo 4). Thefolks at Vishay might consider tossing in an adapter or a breakoutboard with more room for connections.Once I got the clip leads to stay put, it was easy enough to bring theconnections over to a Parallax Inc. SBC (single-board computer) basedon that company’s novel Propeller multicore MCU. It’s a setup that’sespecially useful for experimenting and prototyping, since the editcompile-downloadcycle takes just seconds and the company hosts alarge and ever-growing library of user-contributed software objects.For example, instead of having to write an I 2 C driver, I just downloadeda “Basic_I 2 C_Driver” from the Parallax website.www.digikey.com/sensors43

Photo 4: VCNL4000 connected to Parallax SBC.Thanks to the module’s built-in averaging and offset compensation,taking an ambient light reading is trivially easy. First, you confi gurethe part with your chosen options, including the number and timing ofsamples to average and whether or not to perform automatic offsetcompensation. After that it’s a simple matter of issuing the commandand then spinning on a busy bit, or inserting a software delay, until theoperation completes some 1 to 100 ms later, depending on the numberand timing of samples being averaged. Now you can read the resultwhere each count, or LSB (least signifi cant byte), corresponds to 0.2 lux(to get an absolute lux reading, divide the offset-compensated 16-bitresult by 5). Just remember that the level of illumination perceived bythe human eye for a given lux level varies a bit depending on the natureof the light source, such as incandescent, fl uorescent, or sunlight.The IR proximity feature takes a little more work, since MCU softwarehas to perform the averaging and offset compensation. Let’s walkthrough the program shown in Photo 5.After initializing the module, the baseline offset is established bytaking the average of 16 proximity readings. Obviously, this calibrationphase depends on nothing being in proximity in order to establish anaccurate baseline.Subsequently, the program performs checks for proximity by takingthe average of eight readings, subtracting the baseline offset, andcomparing the result against an application-specifi c threshold. Ingeneral, you can reduce the threshold for proximity detection, i.e.increase the range, by increasing the number of samples averagedto reduce noise. Finally, the result, or distance, is scaled for bar graphdisplay on the SBC’s eight LEDs.When contemplating the specifi cs of your application, keep in mindthat sensitivity, or threshold, and calibration strategy are intertwined.For instance, in the coarsest “yes/no” proximity applications witha large swing, where a high threshold is okay, factory or manualcalibration may suffi ce. But for the highest-sensitivity, low-thresholdapplications, more frequent calibration may be called for, ideally justprior to each reading.For instance, with my demo setup I noticed what appeared to be a bitof temperature drift, with the offset slowly increasing from power-up.The VCNL4000 datasheet isn’t explicit in this regard, but there is agraph that indicates temperature drift varies across the full -40 to+85°C range, depending on the confi gured LED current. Though onlyon the order of one percent or so, it is enough to require periodicrecalibration in the highest-sensitivity applications.Software embellishments might include dynamically calibrating thebaseline offset by adjusting it based on history. The exact nature ofthe algorithm used depends on application specifi cs, such as therelationship between the sampling rate and the proximity rate ofchange. Be careful to confi rm that your algorithm is robust and avoidsbugs such as “baseline creep” and “stuck key.”Since an individual IR proximity reading only takes 170 microseconds,faster than the I 2 C transaction required to read the busy bit, I justincluded a delay for command completion in the software. Theonly “gotcha” is that an extra 400 microsecond delay is requiredfor the fi rst reading after initialization. Rather than slowing downevery reading, I dealt with this special case by performing a dummyproximity reading at the beginning of the program.The bottom line is that the VCNL4000 worked as advertised. Forexample, my demo setup could reliably detect the presence of myhand from a distance of almost 8 in., or 200 mm. Within range, thehigh resolution of the device, supplemented with software signalprocessing such as noise fi ltering, calibration and linearization makespossible very precise distance measurements. At the same time, the16-bit dynamic range has enough headroom to deal with real-worldvagaries, such as a scratched or dirty window.SourcesParallax Propeller multicore 32-bit MCU and Demo Board –www.parallax.comVishay VCNL4000 IR proximity and ambient light sensor –www.vishay.comPhoto 5: IR proximity sensing program screenshot.44

Applications for Hall Effect ICSwitches in Portable Electronicscontributed by ROHM Semiconductor21st-century ultra-small IC packageinnovation offers a beneficial alternative tomechanical devices.According to the Semiconductor Industry Association, the consumerelectronics market segment became the largest user and primarydriver of semiconductors in 2004 and continues to grow ever largerthan the corporate segment. In consumer electronics, portableproducts are the fastest growing area. Cell phones alone are projectedto increase from over a billion units in 2007 to almost 1.5 billion in2010, according to market research firm Gartner Dataquest.While providing high-volume opportunities for suppliers of the rightcomponents, consumer electronics and especially the portableportion place high demand on suppliers, requiring small size, highfunctionality, low-power consumption, and low cost as the majorcriteria for acceptance. In this highly competitive arena, the Halleffect is proving to be the right solution for adding functionality tocellular phones, portable computers, digital cameras, navigationsystems, electronic toys, and more. The Hall effect is a magnetictechnology popularized in the latter part of the 20th century throughits implementation using LSI (large-scale integration) IC technologyand advanced packaging.In portable consumer electronic products, Hall effect sensors providean effective alternative to mechanical switches with increasedreliability, as well as cost and/or performance advantages over othernon-contact technologies. Using integrated bipolar sensing and CMOSlogic circuitry with highly reliable semiconductor packaging and asmall magnet, the Hall effect IC provides several useful functions.Applications in portable electronicsIn consumer electronics, product acceptance is increasinglydetermined by:• the user interface, where sensors provide awareness• the overall user experience, where a subtle feature can becomea “wow!” factor.The use of Hall effect IC switches are contributing to productacceptance in several of these applications.Open/close detectionPortable computers, flip or jack-knife style phones, and other portabledevices with a rotating hinge and clam-shell design (see Figure 1)have historically used mechanical switches to indicate an open orclosed position. Knowing whether the device is open or closed isessential for applying power to the sleeping circuitry and for returningthe device to the sleep mode to conserve power.MagnetRohm Hall ICLCDKeypadFigure 1: Hall effect IC switch detects presence of magnet when the phone cover isclosed.The Hall effect IC switch detects the presence or absence of amagnetic field and outputs a digital signal for ON/OFF. In contrastto a mechanical switch with its potential wear-out mechanism, theHall approach is a non-contact, long-life solution. Compared to amechanical switch, in many cases the Hall effect switch can simplifythe choice of sensor location.Some newer cell phones, digital cameras, and other portableinstruments use a sliding mechanism (see Figure 2) that reveals thedisplay or keyboard, which are normally covered when the unit is instandby mode. In these applications, a Hall effect IC switch/magnetcombination is commonly used. The IC is often a unipolar Hall effect IC.Unipolar Hall effect IC switches only operate when a magnetic field ofsufficient strength and polarity is detected. S-pole detecting devices aremost common, but N-pole detecting devices are also available.www.digikey.com/sensors45

MagnetLCDKeypaddSNNSNSNSSlider PositionHall ICRohm Hall ICRohm Hall Effect ICMagnetFigure 2: Hall effect IC switch detects presence of magnet when the phonecover is closed.Omnipolar Hall effect IC switches capable of detecting a magneticfi eld of either polarity can also be used in this application. Unipolardevices typically require less power to operate but the magnetmust be properly oriented, while omnipolar devices operate withoutregard to magnet orientation.Screen orientationIn another variation, the screen pivots to allow the front or back faceof the display to be viewed. The system must discern which side ofthe display is facing the viewer. This application is commonly found onPDAs, digital cameras, and tablet-style PCs. Some fl at-panel displays fordesktop computers can rotate between portrait and landscape modes.In these applications, it is necessary to use a Hall effect IC sensorthat is not only capable of detecting the magnetic fi eld but also ofdiscriminating between the fi eld’s polarities (see Figure 3).Omnipolar Hall effect IC switches equipped with dual outputs make itpossible to control screen orientation and other, similar functions with asingle device.Figure 3: Polarity discriminating omnipolar Hall effect IC switches can be used tocontrol the operation and orientation of multiple displays.Function selection and controlAn increasingly important function in multi-function cell phones is thejog wheel or trackball (see Figure 4), a human interface that allowsthe user to scroll through a list, increase or decrease the volume, orimplement another function. Some lower-cost MP3 players use a jogwheel that moves clockwise or counterclockwise to select MP3 songsor scroll through a list of menu items.Capacitive and even resistive touch sensing are also used for theseapplications, but the Hall effect sensor provides a lower-cost solution.SlideBaseTopFigure 4: Bipolar Hall effect IC switches detect the presence of alternating polaritymagnetic fi elds to discern clockwise or counterclockwise movement.This application requires the use of two bipolar latching Hall effect ICs.The jog wheel has a series of alternating N- and S-pole magnets. Thetwo Hall effect ICs operating in combination are used to detect eitherclockwise or counterclockwise rotation of the wheel.More advanced applications in phones, computers, and game handsetsuse a trackball that moves up and down and right and left. Thesedesigns use four Hall effect switches to determine the direction andhow fast the ball is moving.While mobile phones use Hall effect sensors for a variety of functions,some of these same functions are found in portable computers, digitalstill cameras, digital video cameras, video game controllers, navigationsystems, and electronic toys.Hall effect technology basicsCurrent fl owing in a conductor perpendicular to a magnet fi eldcauses a voltage, known as the Hall voltage, on opposite sides of theconductor. While this has been known since Edwin Hall discovered thephenomenon in 1879, semiconductor technology has reduced the sizeof Hall effect devices and added several key features that make Halleffect switches, sensors, and other products extremely useful in manyapplications. As shown in Figure 5, a magnetic fi eld perpendicular tothe plane of the semiconductor package and the chip inside it causes alow-level Hall voltage. The Hall element is confi gured as a Wheatstonebridge, requiring additional circuitry including amplifi cation and offsetvoltage compensation.Design considerations for Hall effect sensing applications includemagnetic strength and proximity of the magnet. For the smallestsensing system, neodymium magnets are recommended over ferritemagnets. A 4 mm x 4 mm neodymium magnet with a thickness of1 mm or 3 mm operates with a separation of 7.66 mm to 10.4 mmbetween the magnet and the Hall effect IC. Increasing the detectiondistance requires increasing the thickness, the sectional area, or both.For some cell phones, MR (magnetoresistive), GMR (giantmagnetoresistive), or AMR (anisotropic magnetoresistive) sensingtechniques have also been used. In these techniques, the fi elddirection is opposite to the Hall effect fi eld direction, which requiresan orthogonal magnetic fi eld. In general, the magnet strength needsto be about twice as large as in a Hall effect device. However, beforethe introduction of chip-scale packaging for Hall effect sensors, MRpackaging was smaller. With newer, smaller Hall effect ICs such asROHM’s products in a 1.1 mm x 1.1 mm x 0.5 mm CSP (chip-scalepackage), the MR package size advantage has essentially disappeared,especially since designers can save space and cost by using asmaller magnet.46

Figure 6: Block diagram of ROHM's Hall effect element.I DDPeriodSample timeStandbytFigure 5: A Hall voltage results from current flow in the semiconductor material when amagnet is located perpendicular to the flow.ROHM’s Hall effect technologyROHM’s Hall effect ICs use a single, monolithic silicon chip with built-incircuitry to provide additional functions and ease of interfacing. Also,instead of an analog output that is always on, ROHM pioneered the useof CMOS logic at the output to provide low power consumption. Today,all ROHM Hall effect switches use CMOS push-pull logic to provide adigital output that eliminates the need for an external pull-up resistorrequired for the single FET output common in other Hall effect switches.The CMOS output interfaces directly to microcontrollers. Figure 6shows the Hall effect element with the additional circuitry common toall ROHM Hall effect ICs that includes timing logic (SW), dynamic offsetcancellation, amplification, sample and hold, comparator, oscillator(OSC), latch, and the push-pull output. Some of ROHM’s Hall effectsensors have two push-pull outputs for even greater functionality.Sample and hold circuitry reduces power consumption for batterypoweredapplications. ROHM’s Hall effect ICs typically have a samplingperiod of 50 milliseconds. As shown in Figure 7, the device wakes upfor a 48-µs sample of the magnetic field and then returns to sleep. Asa result, the typical operating current is only 8 µA for 2.7 V applicationsand an even lower 5 µA for 1.8 V operation. Since ROHM Hall effect ICswere designed for battery-powered applications, they can operate fromvoltages as low as 1.65 V to 3.3 V. The bipolar Hall effect ICs designedfor jog wheel or trackball applications have a much faster samplingperiod of 0.5 ms.Figure 7: The typical sample time of 48 µs for each 50 ms period reduces the averagecurrent draw to 8 µA or even 5 µA.The design of the sensing element and circuitry in ROHM Hall effectICs ensures high ESD (electrostatic discharge) tolerance with ratingsof up to 8 kV as measured in the human body model. Operating overa temperature range of -40°C to 85°C, the monolithic silicon Halleffect sensor has a high level of magnetic flux density detectionstability versus temperature. In addition, many models have a highsensitivity with a typical operating point of 3.7 mT (3.0 mT on ICsdesigned for 1.8 V operation). Dynamic offset cancellation eliminatesthe differential in the Hall element Wheatstone bridge for improvedaccuracy, and a hysteresis comparator increases noise resistance.With a mounting area of 1.1 mm x 1.1 mm x 0.5 mm, ROHM’sVCSP5OL1 CSP provides the smallest Hall effectsensor for the most demanding, spacelimitedapplications. Figure 8 showsthe CSP compared to the HVSOF5SMT (surface-mount) package.ROHM’s Hall effect topologiesTo provide the right sensor for a varietyof applications, ROHM Halleffect ICs are available infour different designsas shown in Figures9a through 9d.Figure 8: ROHM’s Hall effect ICs in the surface-mount HVSOF5 package with a footprintof just 1.6 mm x 1.6 mm and in the even smaller VCSP5OL1 1.1-mmsquare chip-scale package.www.digikey.com/sensors47

Advantages of an Optical Encoder forAccurate Zooming in Camera Phonesby Foo Hong Thong, Avago Technologies US, Inc.The optical zoom function on cell phonecameras avoids the degradation in qualitycaused by digital zoom, but currentimplementations tend to be noisy, bulky, andpower hungry. Avago’s AEDR-8400 encodertakes a unique approach that addresses eachof these issues.IntroductionA wide range of commercial applications use cameras with a zoomingmechanism. Perhaps the most ubiquitous application is the cameraphone. Critical design criteria for camera zooming include low-powerconsumption and, of course, space constraints. This article describesan optical encoder technology that provides a new approach tocamera zooming designs to meet these challenges.Optical and digital zoomCamera phones may have an optical zoom, a digital zoom, or both.An optical zoom changes the effective focal length of the camera lenssuch that the original image is magnified and can be captured by theCCD or CMOS image sensor. With greater magnification, the light isspread across the entire image sensor and all of the pixels can beused. An optical zoom could be interpreted as a true zoom that willimprove the quality of pictures captured.Digital zoom, on the other hand, is a bit different. In this case, asoftware algorithm is applied rather than a hardware movement(i.e., changes in lens positioning) to magnify the image. Suchmagnification involves only a certain portion of the captured image.This is known as the interpolation technique. Using such a technique,or algorithm, requires information to be added in order to enlarge thecorresponding image portion. It may seem that the captured imageis being magnified. However, only a certain portion of the real imageinformation is being utilized and the rest of the image is coming fromthe interpolation outputs.One thing worth mentioning is that the higher the digital zoom,the smaller the portion of real information that is taken. Therefore,many of the originally captured pieces of information on the imagesensor will be discarded and more interpolated image data will beincorporated in the resultant image.Therefore, optical zooming is an important mechanism in determiningthe true zooming power of a camera phone without losing any imagedata. Accurate lens positioning control in optical zoom is crucial toensuring quality in an enlarged image. Figure 1 illustrates a typicalexample of the zooming mechanism from a camera module insidea camera phone. Lenses are aligned such that an image could befocused onto the image sensor. The zooming mechanism involvessynchronous movement of two or more lenses. By varying thedistance between the lenses, the actual effective focal length of thecamera lens changes accordingly. Hence, a magnified image wouldbe captured by an image sensor.Figure 1: Typical zooming mechanism in a camera phone using an AEDR-8400 encoder.To simplify the wiring process, encoders are mounted on the cameramodule shell and remain in a fixed position. The moving portion is thecodestrip, which acts as the translator for the lens’ linear movement.Casting the window and bar image back to the encoder providesfeedback on all the necessary information for prompt and accurate lenspositioning. With a conventional zooming mechanism, a combination ofmechanical cam and gearing is a common approach for lens positioncontrol. However, such an approach will suffer unavoidable wear andtear issues, and the accuracy of lens positioning will degrade over timeand directly impact to the quality of zoomed images.An AEDR-8400 encoder by Avago Technologies can help to resolvethese zooming issues. The feedback from the encoder providesnecessary information for real-time calibration whenever there isany back-lashing from gears and mechanical cams. This can helpensure precise and accurate lens positioning. Furthermore, in somecustomized camera module designs, removing the mechanical cam ispossible (see Figure 2).www.digikey.com/sensors49

Figure 2: Zooming mechanism with encoder feedback.Incorporating the AEDR-8400 encoder into a piezo-actuator cameramodule, for example, can essentially eliminate the use of mechanicalcams. And, because there is no mechanical cam involvement, thereis no fi xed zooming position and the new camera module system canutilize a continuous zooming function (see Figure 3).In terms of power consumption, piezo-actuator systems tend toconsume less power compared to voice coil and servo solutions.Also, a piezo-actuator solution could help keep the noise andvibration level to a minimum, which a stepper motor or voice coilsolution cannot achieve.Encoder operating principleThe miniature incremental encoder, AEDR-8400, comes in a surfacemount,leadless package, measuring 3.00 x 3.28 x 1.26 mm, makingit the smallest optical encoder with digital outputs. It incorporatesboth an LED light source and a photo detector IC in a single SO-6(Small Outline, 6 Pin) package, employing refl ective technologyto sense rotary or linear motions. The small size and refl ectivetechnology allow the encoder to be used in a wide range ofcommercial applications, particularly where space and weight areprimary concerns, such as the zooming mechanism in a cameraphone. The encoder offers 254 lines per inch resolution which isequivalent to 10 lines per mm with two channel digital outputs.The encoder can operate in a temperature range of -20°C to 85°C.One of the critical criteria in the camera module of a camera phoneis being able to operate at a lower voltage level. With a typicaloperating voltage of 2.8 V, the AEDR-8400 encoder will comfortablysuit the needs of this application.Figure 4 shows the optical arrangement of an AEDR-8400 encoder,used with a refl ective codestrip where the lens focuses the lightfrom the LED onto the window and bar of the codestrip.Figure 4: Optical arrangement of a refl ective encoder.Figure 3: The AEDR-8400 encoder for the zooming mechanism in a camera phone.The refl ected images of the window and bar are focused on thephotodiodes. As the codestrip moves, an alternating pattern of lightand shadow cast by the window and bar, respectively, falls upon thephotodiodes. The detector IC converts this pattern into digital,TTL-compatible outputs representing the codestrip linear motion andhence, the lens’ movements. An important parameter is resolution,which is defi ned as the density of window/bar in a unit distance andis typically defi ned as lines per inch or lines per millimeter. Higherresolution means fi ner control of the linear motion.The AEDR-8400 encoder is designed so that the LED and detectorIC of the encoder should be placed parallel to the window/barorientation. As such, the encoder is robust against radial play. Thisconcept is illustrated in Figure 5.The overall camera module design can be shrunk compared toa stepper motor solution or a voice coil solution. The motor sizeis comparable to the piezo-actuator. However, the removal ofmechanical cams and gearing enables the overall camera moduledimension to be decreased further to meet existing market demands.50

Figure 5: Optical alignment of emitter/detector with respect to window/bar, as viewedfrom top.The AEDR-8400 encoder helps to provide precise positioning controlbetween both the lenses and results in a better quality image. Inaddition, the synchronization of the lens movement can be performedquickly and accurately.The encoder outputs, namely Channel A and Channel B, arecharacterized by their quadrature relationship, with a phase shift of90 electrical degrees between the channels. In addition, the channelsare also characterized by their four states (e.g. State 1 to State 4),each spanning a nominal 90 electrical degrees. Information aboutlinear motion, such as movement speed and distance traveled, canbe derived from the parameters of the output such as pulse periodand number of pulses. Meanwhile, the direction of linear movement isdetermined by the phase relationship between the two outputs.When the codestrip moves in one direction, Channel A leads ChannelB by 90 electrical degrees. When the codestrip moves in the otherdirection, Channel B will lead Channel A by the same amount.Resolution higher than that of the codestrip is achievable viaquadrature decoding of the encoder outputs, where different levelsof decoding exist. Counting every rising edge of one channel (e.g.Channel A) is called 1X decoding. The codestrip resolution can bedoubled by counting every rising and falling edge of one channel tofurther increase the resolution. This is called 2X decoding. When everytransition of both Channel A and Channel B is utilized (or every logicstate), 4X decoding is achievable.The codestripThe codestrip surface must be refl ective and specular (mirrorlike)so that the image of the pattern is refl ected back onto thephotodiodes of the AEDR-8400 encoder. Potential materialsinclude metal and refl ective fi lm. One method to determine whetherthe codestrip will work with the refl ective optical encoder is byusing a scatterometer.Refl ective surfaces with a specular refl ectance of 60 percent orhigher, as measured by the device, are compatible with the refl ectiveencoder. The non-refl ective areas should have a refl ectance of lessthan ten percent.When testing for specular refl ectance, refl ective surfaces should betested separately from non-refl ective surfaces. It is recommendedto test the refl ective surface by itself. Then test the non-refl ectivesurface. Avoid performing tests on the patterned surface since thiswill only provide an average refl ectance across the pattern.Future encoder technologyNew encoder technology is being developed by Avago Technologythat integrates an index channel with the two existing channels ofdigital output. This index channel will help eliminate the need forphoto-interrupters to indicate the limit or end of travel range for thelenses. In addition, the next-generation encoder will feature a built-ininterpolator that allows users to set the interpolation factors to one,two, or four times the base resolution of 304LPI.SummaryThe conventional approach to camera zooming technology,which uses a mechanical cam combined with gearing for lensposition control, presents limitations for designers. To meet thesechallenges, a new miniature incremental encoder technology hasbeen developed that enables precise positioning control betweenthe lenses. This approach results in a better quality image andallows synchronization of the lens’ movement to be performedfaster and more accurately.In the early 1990s the AFOSR (Air Force Offi ce ofScientifi c Research), DARPA, and NIST agencies startedlarge MEMs support programs. The AFOSR started tosupport basic research in materials and MEMS researchand the NIST started supporting commercial foundriesfor CMOS and MEMS.The fi rst polysilicon MEMS device was created in 1984 byMuller Howe.www.digikey.com/ sensors51

Low-Power WirelessSensor Networksby Vivien Delport, Microchip TechnologyWireless sensor networks, once relegatedto a few niche markets, are enabling a widerange of new applications. Designing abasic low-power wireless sensor networkis straightforward if you follow the advicedetailed in this article.The global demand for “green” technology and better use of poweris driving a new generation of extreme low-power wireless networks.Wireless networks are being developed for use in remote sensorbasedsystems, for both industrial and control applications. This newgeneration of wireless networks also enables more applications tobetter utilize true wireless solutions that do not require any networkcables or power lines.Sensor-based networks for monitoring and control are not newconcepts. Technologies exist for both wired and proprietary wirelessimplementations. Wired implementations have found widespread use,owing to their simplicity and low-cost nature. Wireless, on the otherhand, has been limited to just a few niche applications.It is possible to develop these types of wireless systems today byutilizing designs that require very little power. Next-generationwireless networks can last longer on their batteries, and require littleto no maintenance over the lifespan of the application. In the future,energy harvesting may even provide the power required, eliminatingthe need for batteries.This article highlights the various extreme low-power control featuresfound on next-generation embedded microcontrollers, as well as howengineers can use these features to extend the expected battery lifeof wireless sensor nodes.Power management featuresSo, what is low-power? Before continuing, let’s fi rst discuss someterminology. “Energy” refers to the total amount of work performed,whereas “power” measures the rate at which the work is performed(energy used per unit of time). In electronics, energy = power × timeand power = voltage × current. So, the key system attributes thatwe are interested in are voltage, current, and time. More specifi cally,what voltage is the application running at, how much current is itdrawing, and for how long?Looking at this from the microcontroller viewpoint, we need tofi rst take a look at the various power modes available on newermicrocontrollers (see Figure 1).System power modes• las on moe• Sleep moe• Hiernate moeFigure 1: Basic MCU power modes.Coin CellRF TX/RXPIC ® MCUPower modesApplications involve a set of preset operating modes that differ markedlywith respect to their processing needs. The embedded microcontroller canutilize one of its many peripherals to sample signals from its surroundingenvironment. The microcontroller might have nothing else to do untilthe peripheral collects a certain amount of samples. Therefore, themicrocontroller might “sleep” or enter an extreme, low-power “standby”mode in between each data sample. Once the application reads enoughdata samples, the microcontroller can easily switch to a “fully on” mode,where it is awake and running at maximum operating speed.To emerge from its various power-down modes, the microcontrollertypically receives some type of wake-up event. This event could betriggered by an external stimulus, such as an I/O pin toggle, or byinternal processor activity, such as an interrupt event caused by atimer peripheral. Microcontrollers differ in the exact power modesthey support, but there are usually some commonalities among thevarious power modes. Typical power modes include:• An “always on” mode• A “sleep” or “standby” mode, where memory stays powered• A “hibernate” or “deep sleep” mode, where the memory isunpowered for maximum power savings“Always on” mode“Always on” mode, embedded systems consist of devices that arecontinuously powered and in a running state. In these systems, theaverage power requirements are most likely in the sub-milliampererange, which directly limits the microcontroller’s achievableprocessing performance. Fortunately, next-generation embeddedmicrocontrollers can dynamically control their clock switchingfrequency to help reduce active current consumption when highercomputing power is not needed.3VSPIVDDHW Timer& SoftwareCalendarSPI orLCDModule32 KHzLCDDISPLAY52

“Standby” modeIn “standby” mode, the system is either on, or in a low-power inactivemode. For these systems, both active and standby current consumptionare very important. In most “standby” mode systems, the embeddedmicrocontroller can retain all of its internal states and the contents ofits memory because it is still powered, although at a greatly reducedcurrent draw. Additionally, the microcontroller could wake up in afew microseconds. These types of systems typically spend most oftheir time in this low-power mode, but they also require fast startupcapabilities to catch an external or time-critical event. Keeping thememory powered helps to keep both the software parameters and thecurrent state of the application software intact. Typical startup timesfrom this power mode are usually in the 5 to 10 µs range.“Deep sleep” modeIn “deep sleep” or “hibernation” mode, the system is either fully on,or in an extreme, power-saving mode. This mode is of particularinterest because it achieves maximum energy savings by entirelypowering down the embedded microcontroller core, including theon-chip memory. Therefore, any critical information must be written tonon-volatile memory prior to entering “deep sleep” mode. This modereduces the power consumption of the microcontroller to an absoluteminimum, sometimes as low as 20 nA. Additionally, all memoryparameters need to be reinitialized after wake-up, which adds to theoverall wake-up reaction time. Typical startup times from this modeare usually in the 200 to 300 µs range.In extreme low-power saving mode systems, battery life (see Table 1) isoften determined by the current consumption of the other componentsin the circuit. Care should therefore be taken to look at not onlythe current consumed by the microcontroller, but also the currentconsumption of the other components on the Printed Circuit Board(PCB). For example, designers can use ceramic capacitors instead oftantalum capacitors where possible, as the latter typically have largerleakage currents. Designers can also determine which other circuitsare powered in the low-power state of the application.Taking advantage of power modesNext, consider a representative situation, where the choice of amicrocontroller’s power modes can make a big difference in overallpower usage. Think about a basic remote temperature sensor(see Figure 2) that collects data over a long time period, perhapsmanipulating it using a more sophisticated noise-filtering algorithm,and then puts the microcontroller back into a “standby” mode untilmore sample measurements are required. This application alsoreports the temperature information to a centralized control consoleusing wireless Radio Frequency (RF) transmissions.Example: Wireless Temperature Sensor• pate • Measure temperature usingnalogtoigital onerter • oiseltering algorithm• ransmitting ata using transceierFigure 2: Remote temperature sensor.At regular intervals, the Real-Time Clock and Calendar (RTCC) wakesthe MCU from “sleep” mode and determines if there is another task toperform. If not, it puts the MCU back to sleep (see Figure 3). Sampling+10010Real-Time Clock& Calendar (RTCC):1. “Sleep/Standby” mode2. Wake every second3. Update RTCC4. Is it time foranother task?5. No, then go backto “Sleep” modeI DD(uA/MHz)I PD(nA)TimeFigure 3: The RTC wakes up the MCU at regular intervals.Sleep (1s)Wake Up UpdateRTCCtemperature (see Figure 4) requires the use of the MCU’s on-chipAnalog-to-Digital Converter (ADC) and only a modest amount ofprocessing power. During the noise-filtering phase (see Figure 5), themicrocontroller must use a higher processing power mode to calculatean advanced filtering algorithm and store the results back into memoryas quickly as possible. Therefore, the overall amount of time themicrocontroller spends running and consuming power is reduced.Measure/sampletemperature:1. “Sleep/Standby” mode2. Update RTCC3. Enable ADC4. Measure Sensor5. Disable ADC6. Store Temperature7. Enter “Sleep” modeI DD(uA/MHz)I PD(nA)TimeWake UpSampleTemperatureFigure 4: The MCU takes a sample from the sensor and returns to “sleep” mode.Noise-filteringsensor buffer:1. “Sleep/Standby” mode2. Update RTCC3. Set max. CLK frequency4. Execute algorithm5. Reduce CLK frequency6. Enter “Sleep” modeI DD(uA/MHz)I PD(nA)TimeWake UpExecuteNoiseFilteringFigure 5: The noise filter manipulates the clock and executes its algorithm beforereturning the MCU to “sleep” mode.Every so often, at predefined time intervals, the microcontrollercombines all of the sample results and transmits them to the centralcontrol console (see Figure 6) using an RF transceiver device.Accurate timing is needed to ensure that the wireless sensortransmits this information during a predefined assigned time slot,thereby allowing multiple wireless sensor nodes to work togetherwithin the same system.How do we manage the rate at which the processor wakes up?Using an integrated 32 kHz oscillator circuit combined with a timerperipheral, the microcontroller can very accurately generate interruptswww.digikey.com/sensors53

Transmit captured buffer:1. “Sleep/Standby” mode2. Update RTCC3. Configure TX buffer4. Enable RF radio5. Transmit buffer6. Disable RF radio7. Enter “Sleep” modeI DD(uA/MHz)I PD(nA)TimeWake UpFigure 6: Finally, the MCU transmits the sensor data to the remote console.Transmitonce per second, allowing it to keep accurate time. This interruptevent also enables the microcontroller to fi ll the sampling buffer withtemperature data on a predetermined schedule.After the microcontroller fi lls the temperature-sampling buffer, itswitches to a higher processor speed mode, completes the moresophisticated noise fi lter algorithm calculation, and returns back tosleep as quickly as possible reducing the amount of “on” time. Themicrocontroller uses this same real-time clock feature to determinewhether it is time to transmit any captured data samples back tothe central control console. Determining the optimum power modefor the microcontroller to achieve the absolute lowest overall currentconsumption depends upon various factors.Optimizing power consumption in low-power applicationsTo minimize overall power consumption, it is not enough to simplyselect the lowest-power mode on the microcontroller. We mustalso determine the amount of work needed to complete each of themicrocontroller tasks − for example, sampling the external temperaturesensor. Once we’ve determined the performance requirement for eachtask, we must also determine the optimum energy usage for each task.Remember that energy = time × voltage × current. Normally, we cannotvary voltage levels, because these are determined by overall systemneeds and the actual source of power.So the two attributes we can adjust are time and current. We need toanalyze the trade-offs between time and current consumption for themicrocontroller. Let’s look at some microcontroller-specifi c parametersthat need to be kept in mind when performing this analysis.Processor wake-upWhen we put the processor into a low-power mode, a number ofexternal sources can wake it up. This wake-up event might occur viaa USB event, a real-time clock event, or even an external trigger onan I/O pin. The time the microcontroller takes to wake up and startexecuting code from the low-power “sleep” mode is very important.We typically try to keep this time as short as possible. This is alsowhere it becomes important to select between the “sleep” and “deepsleep” modes of operation. If the microcontroller wakes up once everysecond, the “sleep” mode is probably the best option, seeing that it canstart executing code within 10 µs without fi rst initializing any softwarememory locations. If the microcontroller stays in the low-power statelonger − for example, minutes or even hours at a time − the “deepsleep” mode might be the best option. The key is to keep the overallcurrent consumption of the microcontroller to an absolute minimum.If a longer low-power down time is used, the 300 µs wake-up time isminuscule compared to minutes or hours of “deep sleep”.Another good example of a system-level wake-up event can bedemonstrated with an external RF chip that connects to the processorvia a serial interface. When the processor is not in use, it can beplaced into one of the low-power states, with only the RF chiprunning. The logic in next-generation RF chips consumes very littlecurrent in this operating state, as it is only looking for incoming RFdata packets. Once a valid data packet associated with the unit’sassigned address is received, it will wake the microcontroller to startprocessing the information. This type of power mode scheme is moreoften used in radio network-based solutions, such as a ZigBee basedwireless protocol.Clock frequencyA microcontroller derives its system clock frequency from eitheran external or an internal clock source. The microcontroller dividesthis clock frequency by the operating frequency that is needed bythe application software. Lower frequency typically translates tolower power consumption. Sometimes, the microcontroller can alsomultiply the external clock frequency by means of a Phase LockedLoop (PLL). The external clock signal normally comes from a crystalor crystal oscillator.Microcontrollers can also disable the input crystal amplifi er circuitwhen the device enters a low-power mode, saving perhaps severalmilliamperes of current draw. One trade-off comes in the form ofincreased oscillator turn on time (due to the startup delay of theexternal crystal) when it resumes. However, some microcontrollersuse a two-speed startup mode, where they immediately start runningfrom an internal oscillator, then automatically switch over to theexternal and more accurate clock source once they have had enoughtime to stabilize.The microcontroller’s ability to control its own clock frequency allowssoftware engineers to pick the appropriate clock speed needed for aspecifi c task while minimizing overall current consumption. For this,engineers need to evaluate the time × current elements of the energyequation to determine if it is better to run at full speed for a shortertime period, slower for a longer time period, or something in between.Real-time clockIn our remote wireless sensor application example, the system needsto maintain an accurate sense of time. This can easily be done usingan RTCC peripheral, in addition to the system clock. The primaryfunction of an RTCC is to track the date and time. However, in ourcase, the RTCC is very useful for controlling power modes. The RTCCalso allows the microcontroller to schedule accurate wake-up events,trigger sample measurements, or initiate RF synchronization with thecentralized control console.There are numerous ways to implement an RTCC in your system.The fi rst is to use a dedicated RTCC chip that connects to themicrocontroller. The second is to use an integrated 32 kHz crystaloscillator with some basic timekeeping software. The third method isto have a dedicated RTCC peripheral on the microcontroller. Systemcost constraints typically eliminate the fi rst option immediately. Thechoice between the last two is typically driven by the application’sother needs for the microcontroller and to some degree, cost. Thisdiscussion will utilize the second option, a 32 kHz oscillator with somevery basic software.54

The external 32 kHz crystal oscillator drive circuit, combined with a16-bit timer, is used to wake the processor up once every second.The processor then updates the RTCC timer, possibly measuresthe current temperature, then returns to its low-power mode. Thisapproach provides a very low “on” duty cycle scheme and only draws600 nA for the majority of the device’s operation, ensuring extremelylong battery life (see Table 1).Table 1: Usage scenario for a 3 V CR2032 coin cell with 225 mAh capacity and selfdischargeat 1 percent per year.Peak RF Transceiver Current19 mADisplay Update Current1.45 mAMCU “Sleep” Current100 nA32KHz Oscillator Current900 nA# of Wake Up Events for Calendar Update 86,400 times per dayCharge in “Sleep” Mode as Percent of Total96.45 percentBattery Life Estimate1.03 yearsBuilding an RF wireless sensing nodeThe availability of single-chip, highly integrated, universal ISM-bandFSK transceiver solutions combined with low-power microcontrollersmakes the implementation of these wireless sensing applicationseasy. The microcontroller connects to the radio device through a serialcommunication port, in this case an SPI interface. The microcontrolleris also used to initialize the radio confi guration settings on thetransceiver device. Once confi gured, sending data and receiving RFdata is handled mostly by the transceiver device through very basicserial commands from the microcontroller. By simply combining thesetwo technologies, a basic network can be constructed that remotelymonitors various wireless sensor nodes, both digital and analog, suchas in our remote temperature sensor example.Looking at the overall power budget of the wireless system, thedatasheet parameters we are most interested in are the transmitpower consumption, the receiver power consumption, the standbypower consumption, and the startup time of the radio. Knowing allthis, we can determine how much current the unit will consume whentransmitting and receiving data through the wireless RF channel. Twoother key aspects to keep in mind when developing an RF solution arethe data length of the transmission and security. The next section willbriefl y touch on these two aspects.RF transmission timeAn important parameter that is normally overlooked is the lengthof the RF data packets that need to be transmitted. In fact, RFtransmission time has a major impact on the performance, quality,and power consumption of a wireless solution. Using shorter packetsizes will help reduce the amount of energy needed from the powersource, and even help to reduce the size of the battery. When defi ninga new low-power RF protocol, this trade-off must be kept in mind.For this wireless temperature sensor design, we’ve evaluated variousRF communication protocols that are available today. Protocols suchas ZigBee, ZigBee Pro, Microchip’s MiWi, and MiWi P2P (peer-to-peer)protocols were all evaluated. Because of the low-power behaviorneeded for this application, we’ve decided to use a very basic TimeDivisional Multiple Access (TDMA) time-sliced protocol scheme.By assigning predefi ned time slots within the RF data frame andusing the fi rst as the start-of-frame marker sent by the centralizedmicrocontroller, we can easily ensure precise timing latency withinthe overall sensor-monitoring system, while also reducing powerconsumption. Using this basic time-slicing scheme, both themicrocontroller and the RF transceiver can spend most of their life inthe lower power “standby” mode.SecurityRecognizing the security issues involved with wireless networks,most RF systems employ strong algorithms to protect the data. Theadoption of the Advanced Encryption Standard (AES) with a 128-bitkey length ensures data integrity and resistance to hacking, bothhighly important for commercial applications. AES security can beimplemented in software. Being able to execute the AES calculationas fast as possible is important for wireless sensor nodes that need tominimize the amount of wake time, during which the nodes consumemost of their power. Microcontrollers can dynamically change theirprocessing power as needed to help to achieve this goal. This goeswithout saying for battery-operated devices, but it also holds true forwired systems. Power consumption has thermal, size, and fi nancialimpacts upon all systems, wired or wireless.System costAs we all know, when designing a system, such as our wirelesstemperature sensor, total system cost always plays a very importantrole. A key factor in determining the cost of wireless microcontrollersis the amount of program and data memory required. Developers ofsensor networks and related products expect to have access to a rangeof microcontrollers with optimized memory footprints to meet the needsof their applications. The development of larger applications, basedupon network protocol layers such as ZigBee, requires larger memoryfootprints, greater than 250 KB in some instances. If you can implementa simpler transmission protocol, especially in extremely cost-sensitivedesigns, a lot of these microcontroller power control features can beused to minimize cost and power consumption.Hardware/softwareThe design example in this article uses a single, highly-integrateduniversal ISM band FSK transceiver chip, combined with an extremelylow-power microcontroller. The extreme low-power PIC16LF1827microcontroller was used in the sensor unit to measure the analogtemperature sensor (once per second), store results in a data buffer,run the complex noise-fi ltering algorithm, and transmit the resultingdata using the RF transceiver. For security reasons, this informationwas secured using the AES algorithm and transmitted at a predefi nedassigned time slot. Additionally, the microcontroller initializes the RFtransceiver radio confi guration settings after power-up, and controlsthe power mode on the radio as needed.ConclusionThis article showed the ease of implementing a very basic, low-powerwireless sensor network. By better understanding the various powermanagement features found on extreme low-power microcontrollers,system engineers can develop “green” wireless solutions. By simplypicking the right extreme low-power microcontroller and RF radioproducts, properly reviewing all system-level task requirements, andthen utilizing the microcontroller’s power management settings, thesystem can be kept in a low-power “sleep” state, resulting in alower-cost, extremely low-power solution that gets the job done.www.digikey.com/ sensors55

Freescale Single-Package TirePressure Monitoring Systemcontributed by Freescale Semiconductor, Inc.Remember kicking tires to see if they weregetting low? Now, with each of your tiressporting a Tire Pressure Monitoring System(TPMS) containing an 8-bit MCU, an RFtransmitter, and a two-axis (XZ) accelerometer,you’re out of excuses for not knowing better.Many people seem to think that maintaining proper tire pressure isa nuisance and that keeping our cars clean deserves more attention.In fact, a Rubber Manufacturers Association survey discovered thatnearly 70 percent of American drivers wash their vehicles at leastonce a month while only 15 percent check their tire infl ation thatfrequently. Unfortunately, driving on improperly infl ated tires can bedeadly. The National Highway Traffi c Safety Administration (NHTSA)estimates that 23,000 accidents and 535 fatalities per year involvefl at tires or blowouts, both of which can be the result of improperlyinfl ated tires.Improperly infl ated tires are a global safety issue. In France, theSécurité Routière estimates that nine percent of all fatal roadaccidents are the result of under-infl ated tires. The German DEKRAfound that tire problems are linked to an estimated 41 percent ofall injury accidents. DEKRA’s recent study in Germany found that 75percent of vehicles on the road had at least one tire under-infl atedby three pounds per square inch (psi) or more.Under-infl ated tires can also impose an economic hardship onthe owner, particularly in businesses that rely heavily on roadtransportation. The economic impact can be especially serious in thecommercial trucking industry. Just a few pounds of under-infl ationcan cost trucking fi rms thousands of dollars per year in heightenedfuel costs, increased retread, and tire replacement expenses.Safety considerationsProperly infl ated tires reduce blowouts and braking distances,mitigate hydroplaning on wet surfaces, and improve overall vehiclehandling. Proper infl ation also increases the tire life and improvesfuel effi ciency, lowering the cost of vehicle operation. These benefi tsare frequently forfeited by motorists who fail to monitor their tirepressure to maintain proper infl ation levels.Under-infl ation reduces tire stiffness, which degrades corneringforces and can result in skidding or loss of control in tight corneringor quick lane-changing maneuvers. Under-infl ated tires alsoincrease stopping distances because each tire’s footprint and thepressure it exerts on the road has been altered.Combining under-infl ation with high-speed and/or overloadedconditions can also result in tire blowout, a catastrophic event thatcan cause the vehicle to veer into oncoming traffi c or spin out ofcontrol. Even if control of the vehicle is maintained in such cases,changing a tire on the roadway often exposes the motorist to thedangers of oncoming traffi c, particularly at night or in adverseweather conditions.Though over-infl ated tires are generally not considered to be asdangerous as under-infl ated tires, they can still jeopardize the safetyof vehicle occupants and increase the chances of tire failure. Anover-infl ated tire is stiffer with a smaller footprint in contact with theroad. The tire is less responsive to irregularities in the road surfaceand can experience uneven tread wear, further diminishing the tire’ssafety characteristics.According to the NHTSA, data from the tire industry indicates that85 percent of all tire pressure losses are through slow leaks. Withoutsuffering any road damage at all, tires can lose as much as onepsi per month through natural leakage. Every drop of ten degreesFahrenheit in ambient temperature can cause an additional loss ofone psi per month. As a result, tire performance can degrade overan extended period of time while exhibiting little, if any, externalindications of under-infl ation.56

Economic considerationsProperly inflated tires are not only safer to operate, but offerthe owner a number of economical advantages. It’s importantto remember that the vehicle manufacturer, not the tire maker,determines proper inflation levels, which are usually listed on aplacard on the inside of the driver compartment door. Keeping to therecommended tire pressure levels can mean:• More precise vehicular control for safer cornering and emergencymaneuvering• Optimized road contact and rolling characteristics that improvefuel efficiency and extend the tire’s lifetime• Improved traction in rain or snow conditionsTo maintain proper inflation, tires should be checked at least once amonth using a tire gauge. Drivers cannot “eyeball” proper inflation,since being off by just a few psi can mean that safe and economicalvehicle operation has been compromised. Since most drivers are notdiligent at regularly checking their tire pressures, automatic, remoteTire Pressure Monitoring Systems (TPMS) have been introduced.Nowhere is there a stronger economic incentive for TPMSimplementation than in the commercial trucking industry. Testsconducted by Goodyear Tire and Rubber Company have shown thatjust a 15 percent under-inflation of the steer, drive, and trailer tirescan result in an eight percent drop in expected tire life and an overtwo percent decrease in miles-per-gallon fuel efficiency.Keeping truck tires properly inflated can save thousands of dollars infuel and tire servicing costs per vehicle over the course of its severalhundred-thousand-mile lifetime, particularly when you consider thatheavy-duty tractor/trailer trucks can have 18 or more tires. TPMS,deployed across an entire fleet of trucks, is a reliable tool to helpmaintain proper tire inflation under all driving conditions.Direct and indirect tire pressure monitoring systemsIn response to the dangers posed by widespread tire safety abuse, inparticular following a number of highly publicized episodes around theturn of the millennium, the US government enacted the TransportationRecall, Enhancement, Accountability, and Documentation (TREAD)Act. As part of the TREAD Act, a federal motor vehicle safety standard,FMVSS 138, requires all vehicles, trucks and buses with a grossvehicle weight rating of 10,000 pounds or less to be manufacturedwith TPMS by model year 2008.There are two kinds of TPMS employed in motor vehicles, indirect anddirect. Indirect TPMS uses the speed sensors in the ABS (anti-lockbraking system) to compare wheel rotation speeds to determineunder-inflated conditions. An under-inflated tire has a slightly smallerdiameter than correctly inflated tires, thus it rolls at a different ratefrom properly inflated tires when the vehicle is in motion. The systemalerts the driver when it detects an under-inflation condition. However,it cannot generally detect tire deflation until the tire is at least 25percent under-inflated.Indirect TPMS is inexpensive and easy to install, but it is not asaccurate as direct TPMS. What’s more, the user has to reset thesystem every time the tires are changed, rotated, or re-inflated.Direct TPMS employs pressure sensors installed on the wheel rimsto provide independent, real-time air pressure measurements foreach tire that can be transmitted to the vehicle instrument cluster toinstantly inform the driver. Direct TPMS can also employ additionalcomponents, such as MCUs and RF devices to expand the system’scapabilities. The optimal TPMS solution includes:• Sensors for measuring pressure and temperature inside the tire• Sensors to detect wheel speed and/or direction of rotation• Controller with time base for periodic measurements• Means to identify which tire is providing the data• Data output to the vehicle chassis• Command input for diagnostics and wake up• Power sourceThe Freescale direct tire pressure monitoring systemFreescale’s MPXY8300 TPMS (see Figure 1) is the first of its kind tointegrate a pressure sensor, an 8-bit MCU, an RF transmitter, and atwo-axis (XZ) accelerometer all in one package.Figure 1: Block diagram of the single-package MPXY8300 TPMS.By combining the necessary features into one package, developersdesigning wheel-mounted TPMS modules do not have to deal withmultiple packages, larger PCBs, or the costs of additional externalcomponents. This gives them the opportunity to use one solution in awide variety of models that employ different rim sizes.The MPXY8300 TPMS benefits the motorist by providing timely driverwarning for improperly inflated tires. It benefits the manufacturerbecause it can be more easily integrated into an automaker’s overallvehicle designs, regardless of make or model, since it doesn’t requireany additional components. The MPXY8300 TPMS offers:• Precise pressure measurements: The low-power, surfacemicromachined, capacitive pressure sensor’s p-cell (pressurecell) measures pressure range from 100 to 800 kilopascale (kPA).101.3 kPa is equal to one atmosphere pressure. The TPMS alsowww.digikey.com/sensors57

offers high-pressure range p-cells for truck tires (100 to1,400 kPa) and optional reduced accuracy calibration forlower cost applications. Freescale’s capacitive surfaceMicroelectromechanical Systems (MEMS) pressure sensingtechnology also offers signifi cant power usage advantages overpiezoresistive bulk MEMS. These include 0.14 µA supply current(3 V, 30 KHz) versus 600 to 10,000 µA and 0.9 nano-amp-second(nAs) minimum charge per reading versus 60 to 1,000 nAs forpiezoresistive bulk MEMS.• Full integration: The fully integrated MPXY8300 TPMS modules(see Figure 2) provide independent pressure measurements foreach individual tire, including the spare. Each module integratesa 315/434 MHz phase-locked-loop (PLL)-based RF transmitterthat ensures continuous communication even after the tires havebeen rotated or replaced. The integrated motion sensors can alsobe programmed to transmit measurements at certain speeds(tire rotations), including for measurements for tires that are notrotating at all.• Extended battery life: Some regulations require a 10-yearbattery life for TPMS solutions. The MPXY8300 incorporates anumber of low-power techniques to ensure robust operationover a long lifetime using minimal battery resources.Low-frequency oscillations driving a low-power wake-uptimer and periodic reset driver plus TPMS specifi c powermanagement techniques ensure a long battery life for moreconvenient and economical operation.Wheel ModuleTPMS Wheel Module (x4)Figure 2: Typical TPMS architecture.Car BodyTPMS (RKE) ReceiverThe MPXY8300 is the fi rst TPMS to employ acceleration sensors.This is essential to enable the system to be customized for specifi cdriving conditions and speeds. The sensor offers X-axis sensitivityto plus or minus 10 g and Z-axis sensitivity from 0 to 60 gwith adjustable offset. Developers have the option to utilize anMPXY8300 TPMS with X- and Z-axis g-cells, Z-axis g-cells only, or asystem without g-cells.ConclusionThe MPXY8300 TPMS sets a new standard for improved vehiclesafety. Freescale utilizes its advanced integration techniques toprovide a compact System-in-a-Package (SiP) that provides real-timetire pressure monitoring and alerts the driver to improperly infl atedtires. Compliant with FMVSS 138 guidelines, the MPXY8300 TPMScan be integrated with existing remote keyless entry systems, helpingautomakers and their suppliers more easily deploy TPMS in newmodel cars and trucks around the world.SORT BY PRICESEARCH FEATUREDigi-Key’s Sort by Price feature makes it easier forengineers and purchasers around the world to ordertop-quality product from Digi-Key.Sort by Price is based on tier 1 or unit pricing and appliesto all parts, all of Digi-Key’s 82 international websites,and all Digi-Key supported currencies.Customers are able to sort by price in ascending ordescending order in addition to applying filters forproduct in stock, lead-free product, and RoHS Compliantproduct. An Advanced Sort option is also available andallows customers to request parts in specific quantities.Customers can view pricing of products fromDigi-Key’s vast line card of suppliers at a glance andchoose the parts that best fit their particular needs.WWW.DIGIKEY.COM58

A Novel Contactless CurrentSensor for HEV/EV and RenewableEnergy Applicationsby Robert Racz, MelexisIntegrated Magnetic Concentrator (IMC) Halleffect sensors are particularly appropriatefor battery current monitoring, solar powerinverters, and power inverters that drivetraction motors in hybrid electric and electricvehicles. This article explains how IMC currentsensors are designed, how they perform, andhow they are applied in these applications.Traditionally, electrical currents are measured by resistive shunts,magnetic sensors, or current transformers. Although resistive shuntsare popular, magnetic sensors offer many advantages at the systemlevel. For instance, contactless magnetic sensors do not requiregalvanic isolation between the current conductor and the sensor.Resistive shunts transform electrical power into heat, which insome applications creates thermal management costs and troubles.Magnetic sensors avoid these issues. Additionally, CMOS Hall effectmagnetic sensors can integrate advanced features to providehigh-level output signals. Sophisticated magnetic sensors containprogrammable memory and even microcontroller logic to allow fora fully custom calibrated output. It is even possible to implementstandard interfaces, simplifying communication with other circuits.Unlike coils in CTs (current transformers), which measure the timederivativeof the magnetic flux, Hall effect sensors yield a signalproportional to the flux density itself. This makes the measurementof both DC and AC current practical.The widespread use of electronics in automotive applications,renewable power conversion (solar and wind power), powersupplies, motor control, and overload protection demands thatengineers use more effective current measurement techniques.These applications benefit from robust, reliable, isolated, highspeed,and low-cost current measurement techniques provided byIMC sensors.These novel, contactless current sensors consist of an integratedCMOS Hall effect sensor covered by an additional thin,ferromagnetic layer on its surface. This IMC layer acts as a magneticflux concentrator, providing a high magnetic gain that increases thesensor’s signal-to-noise ratio. The sensor is particularly appropriatefor DC and AC current measurement. Such measurements arecharacterized by the need for ohmic isolation, very low insertionloss, fast response, small package size, and low assembly costs.Typically, current sensors are found in applications such as batterycurrent monitoring, solar power inverters, and power inverters thatdrive traction motors in EVs (electric vehicles), and HEVs (hybridelectric vehicles). There is no upper limit to the level of measurablecurrent of IMC sensors, since their output level depends only on theconductor’s size and its distance from the sensor.Current sensor with integrated magnetic concentratorThe solution for these demanding applications lies in open-loop Halleffect current transducers, especially IMC Hall effect sensors suchas the Triaxis MLX91205 and MLX91206 from Melexis. With rapidresponse times of less than ten microseconds, galvanic isolation toavoid issues related to HF common mode voltages, thermal isolation,compact size, 5 V operation, robustness, machine mountable standardpackaging, and economical pricing, an IMC current sensor is anappropriate candidate for these applications.Some key features of this current sensor include sensitivity tomagnetic fields parallel to the chip’s surface, linear output voltageproportional to the magnetic field, zero power loss in primary circuits,very high sensitivity, excellent nonlinearity, wide band (DC to 100kHz), low offset and offset drift, very low noise, and isolation fromthe current conductor. All this is housed in a compact, surface mountSOIC-8 package. In essence, it produces an analog, linear, ratiometricoutput voltage that is proportional to the applied magnetic fieldparallel to the chip’s surface.Practically, the current sensor IC is fabricated using a standard CMOSprocess. The ferromagnetic layer (the IMC) is added in a simplepost-processing step. This layer amplifies the magnetic field andconcentrates it on the Hall elements. Consequently, the IMC Hall effectsensor features very high magnetic sensitivity, low offset, and lownoise in a compact, cost-efficient package.The two parts of the IMC collect and amplify the small magnetic fluxparallel to the chip’s surface (i.e., generated around a current-carryingconductor), and locally rotate the in-plane component into a magneticfield perpendicular to the chip’s surface. Whereas a conventionalHall effect sensor is sensitive to a magnetic field perpendicular toits surface, the IMC Hall effect sensor is sensitive to a magnetic fieldparallel to its surface (see Figure 1).www.digikey.com/sensors59

Figure 1: Left: The IMC Hall effect ASIC with integrated magnetic concentrators issensitive to a magnetic fi eld parallel to its surface. Right: Top view photograph of thecurrent sensor ASIC with the two integrated magnetic concentrators, each about 800µm long. The Hall elements are positioned underneath the gap in the center. The totalsize of the die is about 1.8 mm x 1.8 mm.The IMC Hall effect sensor is packaged in a standard plastic SOIC-8package so it can be mounted onto a PCB (printed circuit board) usingstandard pick-and-place machines and soldered using conventionalsoldering techniques. The measured current is sent either directlythrough a current track of the PCB located under the sensor (seeFigure 2, left), or the sensor is mounted at a given distance from alarger current conductor (see Figure 2, right).Figure 3: Current sensor based on an IMC Hall effect IC, a copper conductor and aferromagnetic shield. Conductor cross-section is 12 mm x 2 mm including a softmagnetic shield based on Si-Fe or Ni-Fe.Figure 4: Three-phase current sensor for HEVs.Figure 2: The current sensor is packaged in a standard SOIC-8 plastic package.Current range is defi ned by the geometry of the current conductor.Sensor Output [mV]25002000150010005000-500-10000.50.40.30.20.10-0.1-0.2Nonlinearity [%FS]In both confi gurations, the magnetic fl ux around the current conductorenters the sensor on the outside of one octagonal IMC element,passes through the Hall elements under the gap and exits through theother octagon on the opposite side. Since the material used for theIMCs has a very high permeability, the concentrator collects all of thefl ux lines in its vicinity and focuses them on the Hall elements wherethe fl ux density is increased by a factor of about six.Applications and resultsTo demonstrate its usefulness in a variety of applications, a fewexamples are illustrated. Figure 3 shows a current sensor constructedfor an HEV inverter application with a current range of 200 A. Thesensor was placed in an inverter driving a three-phase traction motorof an HEV (see Figure 4).The current sensor module’s sensitivity measures 10 mV/A, and yieldsan output voltage of +/-2 V for +/-200 A. It also exhibits a responsetime of “8µ seconds”, and 0.1 percent of the full-scale range.-1500-2000-2500-250 -200 -150 -100 -50 0 50 100 150 200-0.3-0.4-0.5250Current [A]91205HF [mV] NL [%FS]Figure 5: Linearity versus 200 A full-scale current range.Relative Sensitivity (Au)1.11.00.90.80.70.60.50.40.30.2Frequency Response1.E+01 1.E+02 1.E+03 1.E+04 1.E+05 1.E+06Frequency (Hz)Figure 6: Bandwidth measurement of the MLX 91205 (-3 dB at 100 kHz).18016014012010080604020060

The sensor’s current range is only limited by the geometry of theconductor and the shield. The current range may be easily amplifi edby increasing either the cross-section of the bus bar, or the distancebetween the sensor and the current conductor. In essence, it isdesigned to monitor currents from 5 A to 100 A on PCBs, or currentsof up to 1000 A on bus bars.Concurrently, demand for clean energy sources is growing rapidlyworldwide. As a result, production of photovoltaic solar cells hasexpanded dramatically. For these applications, the effi ciency ofeach and every photovoltaic cell in the array is important in orderto compete with the cost of electricity generated by fossil fuels.Hence, the current and voltage of every panel used in this applicationis precisely monitored to optimize energy transfer. By preciselymeasuring the current in these applications, the current sensorensures that effi ciency of the solar power converters is optimal atall times and under all conditions. The focus here is on improvingphotovoltaic cell effi ciency, which makes a signifi cant difference inthe product’s success in the marketplace. In solar power converters,which require smaller currents, the sensor directly monitors thecurrent fl owing within a PCB track, as shown in Figure 7.Figure 7: Shielded and unshielded current sensor for PCB applications.Similarly, current sensors are used in motor control systems toadjust the torque and improve reliability by detecting fault conditions,protecting the motor. Motor current control applications includecooling fans and water pump motors. Some intelligence may also beincluded with current monitoring to help protect against trapping.Likewise, current monitoring can also be used to optimize theeffi ciency in power supplies. Once the power information is availableinside the power supply unit, it can be used for real-time controlof output voltages and currents. For instance, in systems like datastorage, servers, and telecommunication equipment, current sensorscan be used to control power consumption and optimize performanceby adapting the load behavior to minimize power dissipation andmaximize effi ciency.Such techniques are becoming attractive for DC-DC and AC-DC powerconverters used in data centers, where power consumption hasbecome the most critical cost factor in the data center’s budget. Asenergy prices continue to climb upward worldwide, and the pressureto cut energy wastage mounts, there is increasing pressure on thesefacilities to use electrical power more effi ciently. Major sources ofineffi ciency in these applications are DC power supplies, which aretypically only about 70 percent effi cient. Google requires 90 percenteffi ciency from its data centers. The extra cost of this higher effi ciencyis easily compensated for by the reduced power consumption over thepower supply’s lifetime. As a result, IMC current sensors are becomingattractive in these applications to monitor current and reduce wastage.Another application that can benefi t from the IMC Hall effect currentsensor is the smart grid. By monitoring the current and power usageinside homes via smart meters, homeowners can signifi cantly cutenergy wastage and save money, in addition to fi ghting globalwarming by reducing power consumption. Studies show that accessto information about a household’s energy usage is likely to result insavings of between 5 and 15 percent per month.Google, in fact, is committed to the cause of giving people accessto personal energy information so that they can make smart energychoices. For this purpose, the search engine giant is developing ameter called the Google PowerMeter, which will show consumers theirelectricity consumption in near real-time via a secure iGoogle Gadget.The Google PowerMeter receives information from utility smart metersand energy management devices, providing customers with accessto their home electricity consumption right on their personal iGooglehomepage. Today, CTs are usually used in this application. However,the IMC Hall effect current sensor is an attractive alternative becauseof its small SOIC-8 package, wide current sensing ranges, very highbandwidths, rapid response times, and resolution of >0.1 percent ofthe full-scale range.In modern portable electronic devices, battery management is criticalfor achieving longer battery life. Hence, these devices are integratingsmart fuel gauges to monitor and supervise battery charging anddischarging functions. Some designs rely on over-current protection,especially in the case of lithium-ion battery packs. Unlike shunts withop amps or iron core-based current sensors, Triaxis IMC Hall effectcurrent sensors provide many advantages. Besides offering contactlessand non-intrusive current sensing with very good isolation for high andlow side measurements, they also deliver good linearity, high stabilityversus current peaks, high immunity against fast dv/dt high bandwidth,and fast response times in a miniature, low-cost package.The newest member of the Triaxis sensor family, the MLX91206, isfully user-programmable. As a result, this IMC Hall effect sensor offersan additional benefi t: it can be calibrated in situ after the sensor isfi xed with respect to the current conductor. This way, the user can seta pre-determined, custom calibrated current sensitivity to meet thespecifi cations required by a particular application.ConclusionIn summary, contactless current sensors are constructed in a mannerwhich imparts unique and useful performance characteristics. Thesesensors provide a compact, robust, fl exible, and economical solutionfor applications such as battery current monitoring, renewable powerconversion, motor control inverters for HEVs, load management,and over-current fault protection. They are designed to offer currentmonitoring from 5 to 100 A on PCBs, and up to 1000 A on bus bars.In 1969 the Charge-Coupled Device (CCD) was invented byW.S. Boyle and G.E. Smith of Bell Telephone Laboratories.This invention led to the development of CCD image sensorsin Japan for camcorders and broadcasting color cameras.www.digikey.com/ sensors61

Designing ThermocoupleApplications with a Sensor AFEby Jason Seitz, National SemiconductorA simple thermocouple, combined with ananalog front end, can provide a more robust,lower cost, wider-range alternative to othertemperature sensors.In 1821, Thomas Seebeck discovered the physical phenomenon thatwhen two dissimilar metals are joined on both ends and one end isheated, a continuous current is created in the thermoelectric circuit [1] .If the other end is broken, a voltage can be measured that isproportional to the temperature difference between the heated junction(measuring or “hot” junction) and the open end (reference or “cold”junction) at which the measurement is taken. This physical property,called the Seebeck effect, is the basis of the thermocouple sensor.Thermocouple sensors have several advantages that make thempopular in many applications such as industrial, medical, and homeappliances. Compared to other popular temperature sensors, suchas Remote Temperature Diodes (RTDs), thermistors, and IC sensors,thermocouples are more rugged, less expensive, and can operateover the largest temperature range. Furthermore, thermocouplesare passive sensors and thus don’t require an electrical stimulus tooperate, which minimizes system complexity. Along with their manybenefi ts, it’s important to fully understand thermocouples’ electricalcharacteristics when designing with them.Thermocouple sensors are categorized by different calibration types(e.g., type K and type J) based on types of dissimilar metals whichare used to form the thermocouple junction. Based on its calibrationtype, each thermocouple sensor has a sensitivity (µV/C°), a temperaturerange, and a non-linear voltage curve over that temperature range.For example, a type K thermocouple has an average sensitivity ofapproximately 41 µV/°C and an operating range of -200 to 1,250 °C.Thermocouple voltage curves are non-linear over their operatingtemperature ranges, as can be seen in Figure 1.When designing with thermocouples, it’s important to understand thatthey are bipolar, which means they can produce a positive or a negativevoltage depending on whether or not the measured temperature ishigher or lower, respectively, than the system temperature.As mentioned earlier, the voltage created by a thermocouple isrelative to the temperature difference between the measuringjunction, which is placed in the measured environment, and thereference junction, which is typically in the measuring systemFigure 1: Thermocouple output voltage versus temperature.environment. This means that the thermocouple is only capable ofrecognizing a temperature difference between two points and doesnot have the ability to measure absolute temperature. To determinethe absolute temperature of the measured environment, it’s necessaryto determine the temperature of the reference junction and factor itin to the absolute temperature calculation. This technique is called“cold junction compensation”, and can be handled by placing atemperature sensor, such as National Semiconductor’s LM94022, in themeasurement system close to the reference junction. This temperaturesensor should have an isothermal connection to the board to minimizeany potential temperature gradients.Depending on the temperature range and the accuracy requirementsof the application, it’s often necessary to amplify the thermocouplesignal before system processing by an Analog-to-Digital Converter(ADC) or a Microcontroller (MCU). A popular thermocouple amplifi erconfi guration is a differential amplifi er. One benefi t of a differentialamplifi er is minimizing the effects of common-mode pickup, whichcan be quite signifi cant across a long thermocouple wire in a noisyenvironment. Another benefi t of a differential amplifi er is the ability tolevel-shift a signal in order to avoid input saturation by staying withinthe input common-mode range of the amplifi ers. This is benefi cialin thermocouple applications where it is necessary to measuretemperatures close to or below the system temperature.62

Figure 2: Thermocouple sensor AFE.Traditionally, system designers have designed thermocouplemeasurement systems using discrete amplifi ers, ADCs, and passivecomponents. An attractive alternative to discrete custom designsis National Semiconductor’s LMP90100. The LMP90100 is a highlyintegrated, multichannel, low-power 24-bit sensor Analog Front End(AFE). The device features a precision, 24-bit Sigma Delta ADC witha low-noise programmable gain amplifi er and a fully differentialhigh impedance analog input multiplexer. Higher integration coupledwith precision performance make the LMP90100 a natural fi t forthermocouple applications (see Figure 2).Amplifi er specifi cations that are critical for thermocoupleapplications include low-offset error, low-RMS noise, and highCommon-mode Rejection Ratio (CMRR). Since the typical outputvoltage of a thermocouple is in the µV range, it is crucial that offsetvoltage remain small and insignifi cant relative to the measuredsignal. To satisfy this requirement, the LMP90100 features truecontinuous background calibration for offset and gain. The truecontinuous background calibration of the LMP90100 essentiallyeliminates offset and gain errors across temperature and timefor all gains and sample rates, providing measurement accuracywithout sacrifi cing speed and power consumption. The net resultis a precision solution with a typical offset voltage of 8.4 nV and atemperature drift of 0.125 nV/°C. Similarly, having an amplifi er withlow noise and a high CMRR will improve accuracy and reduce thepotential effects of common-mode pickup. The LMP90100 offersnoise less than 10 µV RMS and has a high 117 dB CMRR.In addition to the LMP90100’s precision performance, the sensor AFEoffers rail-to-rail input and integrates sensor diagnostics. Rail-to-railinput capability allows designers to capture near ground signals,providing the best opportunity to measure temperatures that are at, orvery near, the system ambient temperature. Sensor diagnostics allowthe detection of open and short circuit conditions and out-of-rangesignals, without requiring user intervention, resulting in enhancedsystem reliability.Thermocouples are popular because they are inexpensive, rugged, andoperate over an extended temperature range. When designing withthermocouples, keep in mind the specific type, associated sensitivity, andthe fact that they are bipolar devices. A differential amplifier configurationis a popular circuit that allows good CMRR performance. Depending onspecific measurement requirements, developers may need to add levelshifting to the circuit. Due to its low-noise, low-offset voltage, high CMRR,and rail-to-rail input capability, National’s LMP90100 sensor AFE makesfor a good fit in a thermocouple application.[1] OMEGA Temperature Measurement Handbook (2007): Z-21www.digikey.com/ sensors63

Innovations in Connectivity:Digi-Key’s State-of-the-ArtWeather CenterHave you ever wondered if wintertemperatures in Minnesota really dip tonegative 30 degrees Fahrenheit? Now youcan find out by tracking Digi-Key’s WeatherCenter without having to experience thebitter cold yourself.The BeginningThe Digi-Key Weather Center was developed to demonstrateconnectivity to customers by using products sold and supportedby Digi-Key. Because Digi-Key is located in northern Minnesotawhere the weather changes dramatically throughout the seasons,it was determined to be the perfect location to demonstrate datacommunication with a weather station. Engineers from Digi-Key’sDesign Support Services team began developing the Digi-Key WeatherCenter in a collaborative effort in February 2010. The Digi-KeyWeather Center was placed on the roof of Digi-Key’s 600,000 squarefootfacility in Thief River Falls, Minnesota in July 2010.The primary device used to develop the Digi-Key Weather Centerwas a ConnectPort X4 Zigbee to Ethernet gateway, which is equippedwith access to iDigi from Digi International, one of Digi-Key’s 470+franchised suppliers. Additionally, Digi International Series 2 XBeemodules, programmed with Zigbee fi rmware, were used for wirelesscommunication to the device sensors and gateway. The initial sensorboard was designed around a Microchip PIC18F14K22 microcontrollerand a VTI temperature/pressure sensor, both of which are housed ina sealed Bud box with an IP65 rating. Solar panels from Parallax andsealed lead acid batteries from B.B. Battery and Panasonic were alsoused to develop the Digi-Key Weather Center.Digi-Key Design Support Services team members Steve Dahl, KevinCulkins, Shawn Rhen, Brandon Tougas, and Scott Raeker createdthe weather center, with each person assigned to different partsand stages of development. The project began with the design andconstruction of the structure that would hold the solar panel, controlbox, and sensor nodes. Once the structure was completed, it wasdetermined that sealed lead acid batteries and a charging circuit wereneeded for power storage and distribution to the sensor nodes. Theinitial nodes developed for the project were a temperature/pressuresensor and a PWM controller enabled with a ZigBee module thatrelays the information to and from an Ethernet gateway.Next, python drivers were developedfor the gateway, which relayed andmanaged the data to and from thesensor nodes. Finally, applicationswere developed for Android and Blackberry inorder to present the data.“Internet connectivity is quickly becoming moreubiquitous in our everyday lives. We wantedto develop an application that could illustratefunctioning logic blocks to our end customers inmultiple areas from self-sustained solar chargingto remote communications with various sensors.All of the development is being shared in the publicdomain to jumpstart ideas or reduce our customers’development time. Given our remote location, havingsome fun with our extreme weather patterns seemedlike a natural,” said John LeDuc, Digi-Key’s managerof Technical Content & Design Support Services.“Components from Digi-Key’s vast product areas areused in this project to demonstrate the countlessoptions engineers have when it comes to utilizingthe products they have purchased from Digi-Key’sexpansive offering.”Earlier this year, the Digi-KeyWeather Center was updated witha “smart charger” (built with partsdistributed by Digi-Key), whichallows the Design Support Servicesteam to control the charger andthe loads that are attached to theweather station.“The purpose of this project is tocontinually add to it,” said BrandonTougas, Digi-Key Design SupportServices engineer. “We want tocontinually update the Digi-KeyWeather Center with sensors astechnology improves.”64

iDigi ServerEthernet, WiFi, CellularComputerHTML,Gadgets, WidgetsNode(Wired/Wireless)DriversGateway(Cellular, WiFi,Ethernet, Satellite)DriversInternet(Cloud)Cell PhoneDigi-Key ServerWiFi, CellularAndroid, iPhone,Blackberry AppsWeather Center Structure12VDCPower RailFor more information aboutDigi-Key’s Weather Center, visitconnectivity.digikey.com.In a wireless world, devices like the Digi-Key Weather Centerutilize the best in electronic components to test conditions in anenvironment where temperatures range from sizzling to subzero.Above is a diagram depicting the process by which Digi-Key’sWeather Center conveys the data collected to computers andmobile devices.This connectivity is achieved by Digi-Key’s custom-made weathertracking system—composed of the best in wireless, sensor,microcontroller, and lighting technology.Composition and DesignArchitecture:The Digi-Key Weather Center was constructed in a simple “T”shaped design. Measuring three feet across, the top beam is made ofthree-inch “C” channel. This provides a place for sensor modules, ananemometer, and any future additions.The trunk of Digi-Key’s Weather Center is approximately seven feettall and composed of three-inch square tubing. Mounting brackets forsolar panels and the electronic box are attached. The Weather Centeris supported by a square plate, measuring two feet across.Inside the Weather Center:The heart of the weather center--the main box located in the middleof the Weather Center’s trunk--is from BUD’s NBA series, Digi-Keypart number 377-1139-ND. This box is rated at IP65 of IEC 529 andNEMA 1, 2, 4 and 4x specifi cations with a temperature range from-40°C to over 70°C. While the Digi-Key Weather Center has seennearly 100°F of heat in the summer and has been exposed to -38°Ftemperatures in the winter, the center has remained resilient.To provide venting for the center’s box, Bud’s NBX-10910-ND and theNBX-10911-ND moisture vents were installed. Although the centerhas experienced harsh weather conditions, no moisture or debris hasbeen detected within the box.To interface the box to the sensors, Switchcraft’s SC1390-ND Jackand the SC1381-ND Plug were utilized. These connectors are rated atIP68 when properly mated.On the inside of the box, Injectorall Electrics’ FR4 un-clad boardmaterial (Digi-Key part number PC8-UNCLAD-ND) was installed tocreate a proper back panel. The primary circuit board and two powerdistribution strips by Molex (Digi-Key part number WM5737-ND) wereapplied on the panel.Once the structure was assembled andpowder-coated, the components wereplaced onto the structure. The fi rstcomponent was the solar panel (Parallax750-00032-ND).The structure faces due south, theideal direction to obtain the most solarexposure. The solar panel is connected tothe main control box using weatherproofconnectors.The battery charger board uses a TexasInstruments BQ2031 lead-acid fast-charge IC.The input power for the charger is providedby the solar panel, which can output 20 V@ 0.5 A under full sunlight conditions.In November 2010, the Digi-Key WeatherCenter was updated with brackets tohold two more solar panels to collect asmuch solar energy as possible. This is ourversion of solar tracking.www.digikey.com/ sensors65

DesignServicesProvidersDigi-Key’s Design Services Providers networkoffers fee-based high-quality, efficient,system-level engineering and consultingservices, including design feasibility,hardware/software development, prototyping,PCB design, and manufacturing. Consultingservices provided include ARM Cortex,FPGA, WiFi, ZigBee, Linux, DSP, and lightingtechnologies. With expertise in a wide rangeof product applications and embeddedsystems, these design firms can help you getto market faster, finish your project on time,and provide short-term assistance.www.digikey.com/designservicesConnect to Digi-KeyLike Never Before.www.digikey.com/connectDigi-Key’s Mobile ApplicationsWith instant access to www.digikey.com,you can view more than 500,000 board levelcomponents in stock and our online offering ofmore than 2 million products. Our applicationis designed to help you source the electroniccomponents you need whether you’re at work,at home, or anywhere in between!Become a Fan on FacebookBecome a Digi-Key fan and stay intouch with us on Facebook. Read ourlatest press releases, new and featuredproduct highlights, as well as contestsand promotions. Check out our newand featured products highlights. Beamong the fi rst to fi nd out when a newPTM Online… On Demand® producttraining module is available.See us on YouTubeCatch us on YouTube, where youwill fi nd excerpts from many of ourexclusive PTM Online… On Demand ®product training modules as well asour aptly named Another Geek Momentvideos. These original videos byDigi-Key engineers might be just whatyou need to inspire your next project.TMFollow us on TwitterFollow @digikey on Twitter to receive daily tweetsabout new products and supplies, news and websiteenhancements. Join us weekly for your chance towin during “Monday Mash” and “Thursday Twrivia”.66

Symbols3MOptoelectronics .................................... 196Touch Screens .................................. 196Privacy Filters ...................................... 196AAcme Electric/Amveco/ActownTransformersCurrent Sense .................................. 167austriamicrosystemsICs/SemiconductorsMagnetic Encoders ........................... 199Avago TechnologiesEncodersOptical ....................................... 133-134Sensors ............................................... 134Ambient Light ................................... 134Proximity ........................................... 134BCoto TechnologySwitches, Magnetic Reed .................... 128CR Magnetics, Inc.Current Indicators ................................ 165Current Sensors ........................... 165-166RelaysCurrent Sensing................................ 166TransducerCurrent.............................................. 165Frequency ......................................... 165Voltage .............................................. 165EPCOS, Inc.Inrush Current Limiters .......................... 93SensorsPressure ........................................... 175ThermistorsNTC ............................................191-192PTC ............................................... 92-93E-Switch, Inc.SwitchesDetector .............................................. 98Snap Action .......................................115SUPPLIER INDEXAdvanced Photonix, Inc.Photo Diodes/Emitters .................. 136-137Bosch SensortecAcceleration Sensors ........................... 184Pressure Sensors ................................ 184CTSEncoders, Mechanical ......................... 120E-T-ASensorsHall Effect Current .............................. 98FAllegro MicroSystems, Inc.Integrated CircuitsHall Effect Sensors .....................201-202All Sensors CorporationPressure Sensors ................................ 163AmethermThermistors, NTC ................................ 188Analog Devices, Inc.Gyroscopes ...................................181-182ICs/SemiconductorsSensor/Signal Conditioning .............. 199Sensors, Accelerometers ...............181-182Evaluation Boards ......................181-182Aptina LLCCMOS Image Sensors ........................... 86Evaluation Kits .................................... 86Bourns, Inc.EncodersDigital Contacting ............................. 123Optical .............................................. 123Rotary ............................................... 123Square/Sealed .................................. 123PotentiometersRotary Position Sensor ....................... 87CCanthermBimetal Cutoffs ................................. 95-96Encapsulated Thermostats ............... 95-96Sensors, Thermal .................................. 97Temperature Regulators ................... 95-96Thermal Links ........................................ 97Thermistors, NTC ................................ 187CherrySensorsHall Effect ......................................... 168Magnetic Reed Position .................... 125SwitchesSnap Action ................................ 112-114CUI IncCurrent Sensors .................................. 163Encoders ............................................. 121Kits ................................................... 121Modular ............................................ 121Optical .............................................. 120Rotary ............................................... 121Cynergy3Sensors, Liquid Level .......................... 195DDiodes, Inc.Integrated CircuitsHall Effect .................................. 200-201Diodes/ZetexICs/SemiconductorsSpecialized ......................................... 87EFairchild SemiconductorOptoelectronics .............................132, 197LEDs ................................................. 197Infrared .......................................... 197Photo Transistors .............................. 132Freescale Semiconductor, Inc.SensorsAccelerometers ................................. 159Pressure, Barometric ........................ 162Pressure, Temp. Comp. .............. 159-162Proximity ........................................... 162GGE SensingFuses, PTC Resettable .......................... 90Inrush Current Limiters .......................... 90Sensors ............................................... 175Humidity ........................................... 175Thermistors ............................. 90, 192-193Kits ..................................................... 90NTC ........................................... 192-193PTC .................................................... 90AtmelSensorsEvaluation Boards ............................ 177Fluid Level ........................................ 177Proximity ........................................... 177Touch ................................................ 177C&K ComponentsSensors, Magnetic ............................... 126SwitchesDetector .............................................. 99Door Interlocks ..................................117Pushbutton .......................................... 99Snap Action .......................... 99, 116-117ElectroswitchEncoders, Magnetic ..............................118Switches, Rotary ...................................117GrayhillEncoders ............................................. 120Encoders, Optical and Mechanical .......119SwitchesJoysticks ........................................... 120Rotary .........................................119-120More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45(TZS111.US)6969

SUPPLIER INDEXHHamlin, Inc.Magnets ............................................... 124SensorsHall Effect ......................................... 148Magnetic Position ............................. 126Switches, Magnetic Reed .................... 124JJST Sales America, Inc.Terminals, Board-in Crimp .............131-132Tool, Crimp ....................................131-132KMeasurement Specialties, Inc.Accelerometers .................................... 183Boards, LVDT ...................................... 173Clinometers ......................................... 173Magnets ............................................... 125Protractors, Digital ............................... 173Sensors ........................................174, 183Humidity ............................................174Load Cells..........................................174Piezo................................................. 183Kit .................................................. 183Pressure .............................170-172, 173Temperature ......................................174Vibration ........................................... 183Transducers ...........................170-171, 173Pressure .............................170-171, 173Rotary Variable Inductance (RVIT) ... 173NKK SwitchesSwitchesTilt ..................................................... 131NVE CorporationGMR Sensor Evaluation Kit ................. 195SensorsGear Tooth and Encoder .................. 195Magnetic ........................................... 195Honeywell Microelectronics & PrecisionSensorsSensorsDigital Compass ........................ 168-169Kits ............................................ 168-169Magnetic .................................... 168-169Pressure ........................................... 158Honeywell Sensing and ControlEncoder, Optical .................................. 120Inrush Current Limiters .......................... 89SensorsAirflow ............................................... 155Current.......................................149, 165Hall Effect .................................. 149-150Humidity ............................................174Liquid Level ...................................... 149Magnetoresistive............................... 149Optical .............................................. 142Oxygen ............................................. 149Interface Boards ............................ 149Pressure .................................... 153-157Switch ............................................... 149Temperature ..................................... 149Ultrasonic.......................................... 177Vacuum............................................. 155Switches .............................................. 155Accessories ...................................... 106Micro Switch Basic Switches... 107-110Micro Switch Limit Switches ... 104-106Tachometers ........................................ 150Thermal Switches .................................. 98Thermistors .......................................... 185NTC .................................................. 185Variable Reluctance Sensor (VRS)...... 150IInfineon TechnologiesIntegrated Circuits/Semiconductors.................................................. 199-200Sensors ..................................... 199-200IRTOUCH SystemsTouch Screens ..................................... 196KingbrightLEDsInfrared ............................................. 145LLEM USA, Inc.Current Transducers ..................... 164-165Voltage Transducers ............................ 164Lite-On, Inc.LEDs .................................................... 134Infrared ............................................. 134IR Detectors ...................................... 134OptoelectronicsIrDA Transceiver Modules ................. 198Lumex Opto-Components, Inc.LEDsInfrared ............................................. 145MMagnasphere Corp.Switches, Magnetic .............................. 148Maxim Integrated ProductsIntegrated CircuitsThermal Management ...................... 204Meder electronicMagnets ............................................... 129Relays .................................................. 129Reed ................................................. 129SensorsLevel ................................................. 125Magnetic ........................................... 129Switches ....................................... 128-129Reed .......................................... 128-129MelexisCamera ModulesAutomotive ........................................ 147Sensors, Hall Effect ............................. 147Programmable .................................. 147Microchip Technology, Inc.Analog .............................................. 84-85Thermal Management ................... 84-85Temperature Sensors ................. 84-85MolexConnectorsSwitch Connection .............................115Murata ElectronicsThermistors ............................... 88-89, 186Inrush Current Limiters ....................... 88NTC .................................................... 88PTC ............................................... 88-89NNational SemiconductorICs/SemiconductorsThermal Management ............... 202-203NXP SemiconductorsICs/SemiconductorsTemperature Sensors ....................... 200OOmniVision Technologies, Inc.CMOS Image Sensors ........................... 85Evaluation Kits .................................... 85Omron Electronics, Inc.Fiber OpticAmplifiers ....................................176-177Cable ................................................ 177SensorsCapacitive Proximity ..........................176Fiber Optic .........................................176Flow .................................................. 141Inductive Proximity ............................ 141Optical .......................................135, 140Photoelectric ......................................176Tilt ..................................................... 141Vibration ........................................... 141SwitchesDoor ...........................................102, 104Lever/Snap ................................ 100-103Limit .................................................. 103Pushbutton ........................................ 102Tact ..............................................98, 101Osram Opto Semiconductors, Inc.OptoelectronicsInfrared Emitters ............................... 139Light Sensor ..................................... 139Orientation Sensor ........................... 139Photo Diodes .................................... 138Photo Transistors .............................. 138Proximity Sensor ............................... 139Reflective Interrupter ........................ 139Reflective Sensor.............................. 1397070 (TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

PPanasonicEncodersMechanical ....................................... 122Rotary ........................................ 122-123OptoelectronicsInfrared LED ...............................151-152IrDA Transceiver Modules ................. 151Photo Diodes ..............................151-152Photo Interrupter ............................... 145Photo Sensors .................................. 152Photo Transistors .............................. 151Sensors, Hall Effect ......................148, 151Thermal Cutoffs ..................................... 97Thermistors .......................................... 194Panasonic Electric WorksSensorsLight .................................................. 135Motion ............................................... 153SwitchesSealed ............................................... 111Snap .................................................. 111RRadial Magnet, Inc.Magnets ............................................... 125ROHM SemiconductorSensorsInfrared Receivers ............................ 197Optical .............................................. 146Sharp MicroelectronicsOptoelectronicsIrDA Transceiver Modules ................. 198IR Emitters ........................................ 132Light Detectors ................................. 132Photodiodes...................................... 132Photointerrupters .............................. 131Phototransistors ................................ 132Remote Control Receivers ................ 198SensorsDistance Measuring .......................... 132Silicon Laboratories, Inc.Sensors/Controllers, Current ................. 84Spectra SymbolSensorsLinear Position Measuring ................ 178SRC DevicesRelays, Reed ....................................... 127Switches, Magnetic Reed .................... 127SSI TechnologiesSensorsLiquid Level ...................................... 158Packard Harnesses ....................... 171Pressure ........................................... 158TTamuraSensors, Current.................................. 167TransformersCurrent Sense .................................. 167TDK CorporationNebulizer Units .................................... 175OptoelectronicsPhoto Diodes .................................... 135Sensors, Humidity ............................... 175Thermistors .......................................... 185NTC .................................................. 185Texas InstrumentsTemperature Sensors .......................... 200Toshiba America ElectronicComponentsOptoelectronicsPhotointerrupters .............................. 133Sensors, Illumination ........................... 133UU.S. SensorTemperature Probes ............................ 188Thermistors .......................................... 188NTC .................................................. 188RTDs ................................................ 188VVishay/BCcomponentsSensors, Humidity ............................... 175Thermistors ................................91-92, 189Vishay/BeyschlagSensors, Temperature .......................... 189Vishay/DaleThermistors ............................................ 91NTC .................................................. 190Vishay/SemiconductorOptoelectronics .................................... 198Ambient Light Sensor ....................... 147Infrared ............................................. 130IrDA Transceiver Modules ...........197-198Optical Sensor Reflective ................. 147Photo Diodes .................................... 130Photointerruptors .............................. 147Phototransistors ................................ 130Remote Control Receivers ................ 130Vishay/SpectrolSensorsHall Effect ..........................................118SUPPLIER INDEXSSensata Technologies, AirpaxSwitchesBimetal Cutoffs ................................... 94Encapsulated Thermostats ................. 94STMicroelectronicsAccelerometers .................................... 179MEMS ............................................... 179Development Tools and Kits ......... 180-181Evaluation Boards ..................... 180-181Gyroscopes ......................................... 179Integrated CircuitsSensors ............................................ 202TT Electronics/Optek TechnologyEncoders ..............................................118Photodiodes ......................................... 144SensorsFluid .................................................. 143Hall Effect ......................................... 148Optical .............................................. 143VTI TechnologiesGyroscopes ......................................... 184SensorsAccelerometers .......................... 183-184Inclinometers ............................. 183-184Pressure ........................................... 183ZSenstronics, Ltd.Sensors, Pressure ................................174SusumuThermistors .......................................... 193NTC .................................................. 193Tyco ElectronicsConnectors/ContactsSwitch ................................................115SwitchesMicroswitch ........................................115Snap-Action .......................................115ZilogIrDA Transceiver Modules .................... 198More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45(TZS111.US)7171

PRODUCT INDEXAAccelerometers ..................179, 181-184CFFiber OpticAmplifiers .......................................176-177Cable ................................................... 177Fuses ...................................................... 90Resettable .............................................. 90LLCDsOrganic (OLED) Displays .................... 196LEDs .......................................132, 139-140,................................ 144-145, 151-152, 197Infrared ........................130, 132, 139, 142,............................ 144-145, 151-152, 197Photo Transistors .................130, 132, 138,..................................142, 144, 146, 151Reflective Interrupter ........................... 139Reflective Sensor ................................. 139Remote Control Receivers ................... 198Touch Screens ..................................... 196PThermal Cutoffs ..................................... 97Camera ModulesAutomotive ........................................... 147GMPotentiometersPosition Sensor...................................... 87Rotary .................................................... 87ConnectorsPrivacy Filters ................................... 196Switch ...................................................115Gyroscopes .................. 179, 181-182, 184Magnets .................................124-125, 129ProbesCurrent Indicators ............................ 165Temperature ........................................ 188INProtractors, Digital .......................... 173DNebulizer Units ................................. 175RInclinometers ............................. 183-184Development Kits and ToolsDevelopment/Starter Kits ..................... 180Evaluation Boards and Kits ................ 159,Inrush Current Limiters .................... 93Integrated Circuits/SemiconductorsORelaysCurrent Sensing ................................... 166Reed ............................................. 127, 129................................... 177, 180-182, 195Hall Effect Sensors ................147, 200-202Sensors ......................159, 177, 182, 195Magnetic Encoders .............................. 199Sensors ............................................... 202OptoelectronicsAmbient Light Sensor ...................135, 147RTDs (Resistance TemperatureDetectors) ........................................ 188Sensor/Signal Conditioning .......... 199-200Infrared Detectors ................................ 132ESpecialized ............................................ 87Thermal Management ..................... 84-85,.......................................... 200, 202-204Temperature Sensors ............ 84-85, 200Infrared Emitters ........... 134, 136-137, 139,..........................142, 144, 146, 151, 197Interrupter Modules ............................. 132IrDA Transceiver Modules ......151, 197-198Logic Detectors .................................... 132SEncodersDigital Contacting ................................ 123Kits....................................................... 121Absolute............................................ 121Commutation .................................... 121Magnetic ...............................................118KOptical Sensors ............135, 140, 142-143,..........................................146, 152, 197Reflective ............................ 146-147, 152Orientation Sensor............................... 139Photoconductive Cells .................. 136-137Photo Detectors ........................... 132-134,................................... 136-137, 142, 152Sensors/ControllersAccelerometer................ 159, 179, 181-184Air Flow .........................................141, 155Ambient Light................................ 133-134Barometric ........................................... 162Clinometers ......................................... 173Current ............. 98, 149, 163, 165-167, 169Mechanical ................................... 120-122Modular......................................... 120-121Optical .................... 118-120, 123, 133-134Rotary ............................................119-123KitsEncoders ............................................. 121Sensors ........................................ 168-169Switches .............................................. 126Photo Diodes ........................130, 133-138,...........................................144, 151-152Photo ICs ......................................138, 152Photointerrupters .........................131, 133,........................................... 145-147, 152Digital Compass ........................... 168-170Distance Measuring ............................. 132Evaluation Kits and Modules ............... 177,...........................................181-182, 195Fluid ..............................................143, 177Square/Sealed ..................................... 123Thermistors .................................... 90, 193Reflective ...................................131, 152Force ....................................................1747272 (TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Gas Flow ............................................. 141Gear Tooth ........................................... 195Hall Effect ......................................98, 118,............................ 148-149, 151, 167-168Programmable .................................. 148Humidity ........................................174-175Illumination .......................................... 133Image................................................ 85-86Evaluation Kits ............................... 85-86Inclinometer .................................. 183-184Infrared Receivers ............................... 197Liquid Level...................125, 149, 158, 195Kit ..................................................... 183Position/Proximity .................125-126, 135,...........................139, 141, 162, 175-177Magnetic .................................... 125-126Pressure ..........153-163, 170-175, 183-184Switch .................................................. 149Temperature ......................... 149, 174, 189Thermal ............................................ 96-97Tilt ........................................................ 141Touch ................................................... 177Ultrasonic............................................. 177Vacuum ................................................ 155Microswitch ...........................................115Pressure .............................................. 175Pushbutton ..................................... 99, 102Reed ......................................124, 127-129Rotary ..................................... 117, 119-120Sealed .................................................. 111Snap Action .......................99-103, 111-117Tact .................................................98, 101Tilt .................................................131, 183Kits................................................. 90, 193Miniature Sensors ................................ 193NTC ........................................ 88, 185-194PTC ............................................ 88-93, 96PTC Resettable Fuses ........................... 90Thermostats, Encapsulated ...... 94-97ToolsCrimp .............................................131-132PRODUCT INDEXLoad Cells .............................................174Magnetic ....................... 125-126, 128-129,...........................................168-169, 195Magnetoresistive (MR)..........149, 169, 195Motion .................................................. 153Optical/Light.........................135, 138, 140,...................................142-143, 146, 151Oxygen ................................................ 149Interface Boards ............................... 149Variable Reluctance Sensor (VRS)...... 150Vibration .......................................141, 183SwitchesAccessories .................................. 106, 112Basic Limit .......................103-104, 107-110Detector ............................................ 98-99Door ...................................... 102, 104, 117Interlocks ..............................................117TTachometers ...................................... 150Thermal Cutoffs ........................94, 97-98TransducersCurrent .......................................... 164-165Frequency ............................................ 165Pressure ........................155, 170-171, 173Rotary Variable Inductance (RVIT) ...... 173Voltage .......................................... 164-165Packard Harnesses .......................... 171Photoelectric .........................................176Joysticks .............................................. 120Limit .............................................. 103-106ThermistorsTransformersPiezo .................................................... 183Magnetic ........................ 124, 127-129, 148Inrush Current Limiters ..................... 88-90Current Sense ..................................... 167Additional InformationDESIGN SUPPORT SERVICES:Design Support Services is the latest addition to Digi-Key’s three-tier technical supportgroup. DSS is capable of providing engineering assistance at any given point withinyour product development cycle. Services provided by these engineers include:In-Depth Application Assistance: Assists with application questions on productsfrom our 350+ manufacturers Provides development tool selection and support Facilitates manufacturer’s support to provide solutions for unusually complexproblems Provides component recommendations for the functional blocks of yourdesign conceptComponent Selection Advice: Recommends components throughout yourproduct development cycle Consolidates information on new products, end-of-lifecomponents, and product availability to one sourceOur Application Engineers are specialized to provide design assistance in (not limitedto) the following product areas: Microcontrollers, ARM Processors, RF Modules— RFiD, Blue Tooth and Zigbee, FPGAs, DSPs, Audio, Power and Lighting designs.TECHNICAL SUPPORT:Among the more than 100 individuals who comprise Digi-Key’s technical support groupare our Technical Support Specialists and Product Managers. These individuals fieldthe hundreds of thousands of telephone calls and inquiries Digi-Key receives each yearregarding product specifications and applications. Technical Support Specialists areavailable to answer questions and offer product suggestions from 6 p.m. CT Sundaythrough 6 a.m. CT Saturday via telephone, email, and live web chat. Digi-Key’s factorytrainedProduct Managers work directly with our supplier partners and provide expertisein specific product areas.DIGI-REEL ® :A Digi-Reel is a custom quantity reel of continuous cut-tape made from a manufacturer’sreel. A 15-inch leader and trailer, complete with sprocket drive holes, are attached sothat the sprocket holes are aligned enabling direct and flawless feeding into automated®board assembly equipment. It is then rewound on a plastic reel according to ElectronicsIndustries Alliance (EIA) standards. In most instances, we can assemble this itemspecifically for your order and ship it the same day. If you place this item on your order, itwill show up backordered. We will contact you if we are unable to fulfill your order.A $7.00 “reeling fee” will be charged for each reel and will be included in the cost ofyour reel.Digi-Reels are a custom product and are non-cancelable and non-returnable.RoHS COMPLIANT PRODUCT:Digi-Key continues to work with its more than 350+ supplier partners to providecustomers with RoHS compliant product. Symbols are used to identify compliantproduct in the catalog. When an entire page or series of product is compliant, asymbol appears at the top of the page or section. In situations where a series of productis not all compliant, the compliant product is identified by a symbol beside the Digi-Key part number. Our Integrated Circuits section will identify compliant product withan asterisk (*) beside the part number description. Please note that due to inventoryturns, fluctuations, and catalog cycle times, the most current and accurate informationis available at digikey.com/environment or by calling 1-800-344-4539. Product that isavailable in cut tape and/or full reels should be reviewed prior to ordering to ensure thatyou receive your preference.STATIC PROTECTION:Protection of static sensitive parts is a MUST in today’s semiconductor market.To ensure the quality that Digi-Key customers have come to expect, the Digi-KeyStatic Control Program includes proper static safety protection in the following areas:Shielded metallized bags are used in order picking and any time static sensitive productis being handled within the building. 100% recyclable paper packaging (low staticgenerating) is used in packaging and shipping.As our program is continuously updated with the latest static control technology, youcan be reassured that Digi-Key’s static sensitive parts are quality safe, all the way toyour door step!More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45(TZS111.US)7373

Digi-Key Terms and ConditionsAll orders placed with Digi-Key Corporation (“Digi-Key”) for products availablefrom Digi-Key (the “Products”) are subject to these terms and conditions (the“Agreement”). Any purported change to the terms of this Agreement that is submittedby a purchaser in any additional documentation is hereby expressly rejected. Ordersplaced on forms deviating from the order form provided in this catalog (the “OrderForm”) may be accepted, but solely on the basis that the terms of such Order Formand this Agreement will prevail.1. Order Validation and AcceptanceWhen you place an order, we may verify your method of payment, shipping address and/ortax exempt identification number, if any, before processing your order. Your placement of anorder with Digi-Key is an offer to purchase our Products. Digi-Key may accept your order byprocessing your payment and shipping the Product, or may, for any reason, decline to acceptyour order or any part of your order. No order shall be considered to be accepted by Digi-Keyuntil the Product has been shipped. If we decline to accept your order, we will attempt tonotify you using the email address or other contact information you have provided with yourorder. Delivery dates provided in connection with any order are estimates only and do notrepresent fixed or guaranteed delivery dates.2. Quantity LimitationsDigi-Key may limit or cancel quantities available for purchase on any order on any basis, andto alter the availability or duration of any special offers at any time. Digi-Key may reject anyorder, or any part of an order.3. Electronic CommunicationWhen you place an order with Digi-Key, you are required to provide valid contact information,which we may use to communicate with you regarding the status of your order, advise youregarding shipment of backordered products, and to provide you with any other notices,disclosures or other communications relating to your order. You agree that Digi-Key will notbe responsible for any damage you incur, or information you do not receive, as a result ofyour failure to provide valid contact information.4. Pricing and Product InformationDigi-Key purchases all Products directly from their respective original manufacturer. Digi-Keymakes reasonable efforts to provide current and accurate information relating to the Productsand prices, but does not guarantee the currency or accuracy of any such information.Information relating to Products is subject to change without notice. Prices are subject tochange at any time prior to Digi-Key's acceptance of your order. In the event we discover amaterial error in the description or availability of a Product that affects your outstanding orderwith Digi-Key, or an error in pricing, we will notify you of the corrected version, and you maychoose to accept the corrected version, or cancel the order. If you choose to cancel the order,and your credit card has already been charged for a purchase, Digi-Key will issue a credit toyour credit card in the amount of the charge.5. Late Payments; Dishonored ChecksYou shall pay Digi-Key all costs incurred by Digi-Key in collecting any past due amount fromyou, including all court costs, collection costs, and attorney's fees. If a check you give us forpayment is dishonored for any reason by the bank or other institution on which it is drawn,you agree to pay us $20.00 as a service charge (if the check cannot be redeposited) pursuantto Minnesota Statutes § 604.113.6. Out of StockIf product you order is out of stock at time of order placement, you may elect to have itshipped on a subsequent shipment. Additional shipping charges will apply to each shipment.Backorders will be held based on your request.7. Export ComplianceIn addition to the United States and its territories, Digi-Key accepts international orders.Some Products may not be available for shipment outside the United States. All orders ofinternational origin or destination are subject to export control laws, restrictions, regulationsand orders of the United States. You agree to comply with all applicable export control laws,restrictions, regulations and orders of the United States or applicable foreign agencies orauthorities. You shall not, directly or indirectly, sell, export, transfer, assign, use, or dispose ofProducts in a manner which may result in any non-compliance with applicable export controllaws, restrictions, regulations, and orders of the United States or applicable foreign agenciesor authorities. You are responsible for obtaining any license or other official authorizationsthat may be required to export, re-export or import Products. Diversion contrary to U.S. lawis prohibited.8. Freight DamageIf you receive merchandise that has been damaged in transit, it is important to keep theshipping carton, packing material and parts intact. Please contact a Digi-Key CustomerService representative immediately to initiate a claim.9. Disclaimer of WarrantiesDigi-Key agrees to transfer to you, at the time of sale, to the extent transferable, whateverwarranties Digi-Key receives from manufacturers with respect to the Products sold by Digi-Key to you. COPIES OF SUCH MANUFACTURERS' WARRANTIES ARE AVAILABLEPRIOR TO THE PURCHASE OF PRODUCTS BY CONTACTING DIGI-KEY. DIGI-KEY,AND ITS AFFILIATES, INCLUDING, WITHOUT LIMITATION, DIGI-KEY INTERNATIONALSALES CORPORATION (THE “DIGI-KEY PARTIES”), MAKE NO EXPRESS OR IMPLIEDWARRANTIES OR REPRESENTATIONS WITH RESPECT TO ANY PRODUCT AND THEDIGI-KEY PARTIES EXPRESSLY DISCLAIM ALL WARRANTIES OF ANY KIND, EXPRESS,IMPLIED, STATUTORY OR OTHERWISE, INCLUDING, BUT NOT LIMITED TO, IMPLIEDWARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, ANDNONINFRINGEMENT WITH REGARD TO THE PRODUCTS. THE DIGI-KEY PARTIES DONOT WARRANT THAT THIS CATALOG IS ERROR-FREE OR THAT ERRORS IN THECATALOG WILL BE CORRECTED. THE DIGI-KEY PARTIES DO NOT WARRANT THEACCURACY OR COMPLETENESS OF THIS CATALOG. THE PRODUCTS ARE SOLD ONAN AS-AVAILABLE BASIS.Your obligations and Digi-Key's remedies with respect to defective or nonconformingproducts, are solely and exclusively as stated in this Agreement.10. Additional DisclaimersWithout limiting the disclaimers set forth in Section 9 above:a. No Use as Critical ComponentsProducts sold by Digi-Key are not authorized for use in life safety, life support, life sustaining,surgical, human implant, nuclear, military, or aircraft applications or for any use or applicationin which the failure of a single component could cause substantial harm to persons orproperty, unless an authorized officer of the manufacturer has signed an agreementspecifically governing such use. YOU AGREE TO INDEMNIFY THE DIGI-KEY PARTIESAND THE MANUFACTURER OF THE PRODUCTS FOR ALL DAMAGES THAT MAY BEINCURRED DUE TO USE OF PRODUCTS IN THESE APPLICATIONS.b. Technical Assistance and Design Support ServicesDigi-Key offers its Technical Assistance and Design Support Services solely as a convenienceto Digi-Key customers. Digi-Key Technical Assistance and Design Support Services personnelstrive to provide useful information regarding the Products. Digi-Key does not guarantee thatany information or recommendation provided is accurate, complete, or correct, and Digi-Key shall have no responsibility or liability whatsoever in connection with any information orrecommendation provided, or your reliance on such information or recommendation. You aresolely responsible for analyzing and determining the appropriateness of any information orrecommendation provided by Digi-Key Technical Assistance and Design Support ServicesPersonnel, and any reliance on such information or recommendation is at your sole risk anddiscretion.c. Geographic LimitationsNot all Digi-Key products or services are available to all persons or in all geographiclocations. Digi-Key reserves the right to limit the provision of Products and services to anyperson, geographic area, or jurisdiction and to limit the quantities of any products or servicesthat it provides.d. Infringement DisclaimerThe Products may be subject to patent, trademark, copyright, design and other rights of thirdparties. Digi-Key shall in no event whatsoever be responsible or liable in the event of anyclaim of infringement of any such rights. If an order includes software or other intellectualproperty, such software or other intellectual property is provided by Digi-Key to you subject tothe copyright and user license, the terms and conditions of which are set forth in the licenseagreement accompanying such software or other intellectual property. Nothing herein shallbe construed to grant any rights or license to use any software or other intellectual property inany manner or for any purpose not expressly permitted by such license agreement.11. Limitation of LiabilityIN NO EVENT SHALL ANY OF THE DIGI-KEY PARTIES BE LIABLE TO YOU OR TO PUNITIVE OR EXEMPLARY DAMAGES (INCLUDING WITHOUT LIMITATION LOSTPROFITS, LOST SAVINGS, OR LOSS OF BUSINESS OPPORTUNITY) ARISINGOUT OF OR RELATING TO (I) ANY PRODUCT OR SERVICE PROVIDED OR TO BEPROVIDED BY DIGI-KEY, OR THE USE OR INABILITY TO USE THE SAME, (II) ANYCLAIM ATTRIBUTABLE TO ERRORS, OMISSIONS, OR OTHER INACCURACIES INTHIS CATALOG, OR (III) ANY OTHER MATTER RELATING TO THE PRODUCTS ORSERVICES OF ANY OF THE DIGI-KEY PARTIES; EVEN IF ANY OF THE DIGI-KEYPARTIES HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. SUBJECTTO THE FOREGOING, IN NO EVENT SHALL THE LIABILITY OF ANY OF THE DIGI-KEYPARTIES FOR PRODUCTS EXCEED THE PURCHASE PRICE FOR THE PRODUCTS,REGARDLESS OF THE LEGAL THEORY ASSERTED FOR SUCH LIABILITY, WHETHERIN CONTRACT, TORT, WARRANTY OR OTHERWISE.Any cause of action against any of the Digi-Key Parties with respect to Products or servicesmust be instituted within one (1) year from the date of purchase or provision of the applicableProducts or services.12. IndemnificationYou understand and agree that you are personally responsible for your use or inability to usethe Products and your reliance upon any information or recommendation provided by Digi-Key Technical Assistance and Design Support Services Personnel. You agree to indemnify,defend and hold harmless the Digi-Key Parties and Digi-Key’s joint venturers, businesspartners, licensors, employees, and agents from and against all claims, losses, expenses,damages and costs (including, but not limited to, direct, incidental, consequential, exemplaryand indirect damages), and reasonable attorneys' fees, resulting from or arising out of youruse, misuse, or inability to use the Products and any service of Digi-Key, your reliance uponany information or recommendation provided by Digi-Key Technical Assistance and DesignSupport Services Personnel, or any violation by you of this Agreement.13. Force MajeureDigi-Key will not be liable for delays in delivery or for failure to perform its obligations due tocauses beyond its reasonable control including, but not limited to, product allocations, materialshortages, labor disputes, transportation delays, unforeseen circumstances, acts of God, actsor omissions of other parties, acts or omissions of civil or military authorities, Governmentpriorities, fires, strikes, floods, severe weather conditions, computer interruptions, terrorism,epidemics, quarantine restrictions, riots or war. Digi-Key's time for delivery or performancewill be extended by the period of such delay or Digi-Key may, at its option, cancel any orderor remaining part thereof, without liability by giving notice to you.14. General ProvisionsThis Agreement constitutes the entire agreement of the parties with respect to the subjectmatter hereof. No waiver by Digi-Key of any breach or default hereunder shall be deemed tobe a waiver of any preceding or subsequent breach or default. If any part of the Agreementis determined by a court of competent jurisdiction to be invalid or unenforceable, it will notimpact any other provision of the Agreement, all of which will remain in full force and effect.Any and all disputes relating to the Agreement are governed by, and will be interpreted inaccordance with, the laws of the State of Minnesota, without regard to any conflict of lawsprovisions. The 1980 United Nations Convention on Contracts for the International Sale ofGoods and the United Nations Convention on the Limitation Period in the International Saleof Goods, and any subsequent revisions thereto, do not apply to this Agreement. Any Disputewill be venued in a state or federal court situated in Minneapolis, Minnesota, and you herebyirrevocably submit to the personal jurisdiction of such courts for that purpose. No rights,duties, agreements or obligations hereunder, may be assigned or transferred by operationof law, merger or otherwise, without the prior written consent of Digi-Key. The obligations,rights, terms and conditions hereof will be binding upon and inure solely to the benefit of theparties hereto and their permitted respective successors and assigns. Any amendment to thisAgreement must be in writing and signed by an authorized representative of Digi-Key.74 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

15. Currency InformationThis catalog is designed exclusively for purchases in U.S. dollars. For orders in currenciesother than U.S. dollars, please visit www.digikey.com, click on “Change Country” and selectthe appropriate country/currency-specific website for ordering information. Print catalogs forcertain non-U.S. currency countries (including Canada) are available upon request. If orderingby phone, please advise Digi-Key’s sales representative of your currency preference whenplacing your order.16. PaymentDigi-Key offers the following payment methods for payments in U.S. dollars:For United States customers: We offer check, money order, MasterCard, VISA, AmericanExpress, Discover, C.O.D. and prepaid by wire transfer as well as open account credit toqualified institutions and businesses. Payment must be made in the currency in which theorder was placed.For Canadian customers: We offer all of the above payment options except Discover andC.O.D.For Other International customers: We offer MasterCard, VISA, American Express,prepaid by wire transfer, cashier's check in U.S. funds, as well as open account credit toqualified institutions and businesses. We cannot accept personal checks or certified personalchecks. Money orders can result in significant delays. Use of Letters of Credit must beapproved in advance by Digi-Key's Accounting Department.Credit Application: To obtain a credit application for open account credit, contact any salesrepresentative by:Or, you may download a credit application from our website, www.digikey.com (click on“Contact Us”, then click on “Net 30 Term Credit Application” in the “Accounting” box). Pleaseallow sufficient time for the credit application process. To avoid delay on your initial order youmay elect an alternative payment method.17. Shipping ChargesExcept as otherwise provided, (1) shipping or freight charges and insurance will be paid bythe customer*, (2) all sales are made FOB Digi-Key’s warehouse in Thief River Falls, MN,USA, and (3) shipping or freight charges from Digi-Key's warehouse in Thief River Falls, MN,USA are prepaid and added to the invoice, billed collect or billed to a third party.* When a check or money order accompanies your order, Digi-Key pays all shipping andinsurance (our choice for method of shipping) to all addresses in the U.S. and Canada.Shipments of excessive weight or size, or with otherwise unique circumstances, may requireadditional charges. Digi-Key will notify you prior to shipment if these conditions exist.For International Shipments: Availability of ship methods is dependent on the destinationcountry. The shipping costs will be prepaid and added to your order. Except as otherwiseagreed by Digi-Key, all duties, tariffs, taxes and brokerage fees will be your responsibility.How to Order:❒ Our friendly sales representatives are ready to serve you 24 hours a day, 7 days a week,365 days a year. For most efficient service, please have ready a list of quantities andpart numbers and, if paying by credit card, your MasterCard, VISA, American Express orDiscover card. Note: Calls may be recorded or monitored for quality and training purposes.❒ Digi-Key Fax lines can be accessed 24 hours a day, 7 days a week, 365 days a year.Depending on the shipping method; fax orders will be processed and shipped according tothe “Orders entered by times” listed under . Orders received after these cutoff timeswill be processed and shipped the next business day. Please include your daytime telephonenumber and/or email address in case we have any questions about your order.❒ By Internet: www.digikey.comOrder on-line 24 hours a day, 7 days a week, 365 days a year. Digi-Key’s Top Ratedwebsite receives hundreds-of-thousands of orders each year. Internet orders entered afternormal business hours are promptly processed and shipped the next business day.❒ Digi-Key Corporation701 Brooks Avenue SouthPO Box 677Thief River Falls, MN 56701-0677International customers please see “Currency Information” in the Digi-Key Terms andConditions for more information.Duplicate Mailings:If you receive more than one catalog with the same name and address, please return thelabels to Digi-Key and pass the catalog along to a friend. Also, if you do not require multiplecopies to the same company address, contact a sales representative to verify your mailinginformation. A forms based communications method for catalog issues (Receive, Remove,Change of Address) can be accessed at www.digikey.com by clicking “Contact Us”.Alternatively, you may mail, telephone or fax Digi-Key your request.Recycling And The Environment:Digi-Key is committed to the environment and you, our valued customer. We use Geämi,a 100% recyclable packaging product. Both the outer and inner tissue can be put in yournewspaper bin for recycling. This catalog was produced with paper containing 33% postconsumer fiber and may be recycled through a paper board recycling program.Privacy Policy:Your privacy as a customer is very important to us. We want you to know how yourcustomer information is used. Once you make a purchase, request a catalog or otherinformation from Digi-Key, your name, shipping/mailing address, telephone number, emailaddress and fax number are included in our customer file. This information is used toensure a quick, efficient flow of products and services to you. This information may also beused for other purposes as outlined below.Postal Addresses: Digi-Key may use your mailing address to send the Digi-Key catalogto keep you updated on our most current products and services. Occasionally, Digi-Keymay make the names and addresses of our customer list available to carefully screenedcompanies that offer products and/or services that may be of interest to you.See the International Shipping Rates set forth on www.digikey.com (click on “Site Map”, thenclick on “Shipping Rates/Options” under “Shipping Information”, then click on “InternationalShipping Rates”).18. Handling ChargeThere is no minimum order or handling fee.19. TaxesPrices shown do not include any federal, state or local taxes, or any other taxes imposed byany government authority, including, without limitation, sales, use, excise, value-added orsimilar taxes. Where applicable, such taxes and charges shall be billed as a separate itemand paid by you. Orders are accepted with the understanding that such taxes and chargesshall be added, as required by law. Digi-Key charges sales tax unless you have a validsales tax exemption certificate on file with Digi-Key. Digi-Key will not refund tax amountscollected in the event a valid sales tax certificate is not provided. If you provide a certificatethat is not accepted for any reason by any governmental or regulatory authority, and Digi-Key is required to pay tax on your purchase, you will reimburse Digi-Key for the amount ofsuch tax, and Digi-Key's reasonable expenses incurred in connection with the payment andcollection of such tax. Fax your resale certificate and your customer number to 218-681-7931,Attention: Sales Tax.20. Return PolicyIn most cases, Digi-Key will accept merchandise returns subject to the terms outlined in thisSection and will replace the Product or refund your money at your option.To facilitate processing of returned merchandise:Authorization) number prior to returning product.of date of invoice, be accompanied by the original invoice number and a brief explanation ofthe reason for the return, and be in original packaging and in resalable condition.such Products may be Non-Cancelable/Non-Returnable.quote or sale are not returnable.applicable manufacturer’s warranty and the applicable manufacturer’s return policies forthe Product (e.g., some Products may require return directly to the manufacturer). Pleasecontact a Digi-Key Customer Service representative for details.By returning a Product to Digi-Key, you represent and warrant that the returned Product waspurchased from Digi-Key.© 2010, Digi-Key Corporation. All rights reserved.Ordering / Contact InformationAdditional InformationShipment:Digi-Key’s warehouse is openand staffed Monday throughFriday, 7:30am-9:00pm CentralTime (subject to holidays). Orders are shipped only on these business days. Orders andcorrespondence received on Saturday and Sunday will be addressed/shipped on thefollowing Monday and included in that day’s business.Digi-Key’s cut-off times for Same-Day Shipment Monday-Friday are as follows:Customer Service:Voice: 800-858-3616 in (US & Canada) or 218-681-6674Fax: 218-681-3380Internet: www.digikey.com (click “Contact Us”)Mail: Digi-Key CorporationAttn: Customer ServicePO Box 677Thief River Falls, MN 56701-0677A friendly, competent staff of customer service representatives is available 24 hours a day,7 days a week, 365 days a year to assist you. Please have your sales order or invoicenumber available when you call.Email Addresses: Email addresses may be used to communicate information of interestto you about Digi-Key. This includes Order Shipment/Tracking Information, Obsolete PartBulletins, Service Change Information or other Digi-Key promotional emails. Emails may besent by Digi-Key or an authorized agent working for Digi-Key. All authorized agents operatewith a confidentiality agreement. Information sent in this manner will always include “optout” options. Email addresses are never rented, sold or traded to third parties.Opt Out: You may elect to opt out of any of the above uses of your customer information bycompleting the “Opt Out” form in our privacy statement on our website or by contacting usby telephone, fax or mail.Other Uses Of Customer Information: Digi-Key is under contract to provide point ofsale information to many of its product suppliers for market research and payment ofcommission to the supplier’s agents. If you have an open account with Digi-Key, creditand payment history will periodically be shared with credit reporting agencies. Customerinformation is also used for marketing and market research for Digi-Key Corporation. Digi-Key or an authorized agent working for Digi-Key may complete these activities. All customerinformation is kept confidential. Digi-Key will share customer information with governmentagencies if required by law.Note: We reserve the right to make changes to our privacy policy at any time without priornotification.ISO 9001:2000 Certified:Digi-Key’s operations from order entry through shipping have been certified since March 17,1994. A copy of Digi-Key Corporation’s current ISO Certificate is available by request.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)7575

What’s New! See www.digikey.com/newASensortec Application BoardBosch’s Sensortec application board can be used to configure all sensor parameters by means ofPC-based softwareAvailable with or without Bluetooth, Bosch’s Sensortec application board is a versatile, universaldemonstration and development environment for Bosch Sensortec sensor products. Based on apowerful ARM7 microcontroller, the application board can be used to configure all sensor parameters bymeans of PC-based software. Sensor data can be read-out, displayed, and captured on the attached PC.The application board applies a flexible, universal shuttle-board concept, and Bosch Sensortec sensorsare available mounted on sensor specific shuttle boards. All sensor shuttle boards have identicalfootprints and can be plugged into the application board’s shuttle-board socket. The PC softwareautonomously detects the sensor that has been plugged-in and starts the corresponding softwareapplication.BMA180 Digital Triaxial Acceleration SensorBosch’s BMA180 is an ultra high performance digital triaxial acceleration sensorBosch’s BMA180 is an ultra high performance, digital triaxial acceleration sensor, which aims forlow-power consumer market applications. The BMA180 supports highly accurate measurement ofaccelerations in three perpendicular axes and thus, senses tilt, motion, shock, and vibration in cellphones, handhelds, computer peripherals, man-machine interfaces, virtual reality features, and gamecontrollers.The BMA180 represents a new generation of digital acceleration sensors with a unique performance andfeature set within a 3mm x 3mm x 0.9mm standard LGA package. The BMA180 is highly configurablein order to give designers full flexibility when integrating the sensor into a system. All features can beset by software via the digital interface. Here, the user can choose between an I²C and an SPI (4-wire)interface mode.AC-T Series Pressure SensorsEPCOS pressure transmitters for PCB mountingAC-T Series transmitters from EPCOS are based on piezoresistive siliconpressure sensors from EPCOS’ clean room. This series compensatesnonlinearity and temperature errors and supplies a precise calibrated outputwith a high immunity against electromagnetic influences (EMI). The outputvoltage is proportional to pressure from 0.5 to 4.5V. This series is availablefor absolute, gauge, and symmetrical measurement with a tube fittingpressure port. With dual-in-line packaging, these sensors are ready for PCBmounting.Features: Shuttle board interface to Bosch Sensortecsensor shuttle boards USB 2.0 full speed interface RS 232 interface (solder pads) Flexible power supply (USB bus powered andbattery with charger logic) 4 push buttons Firmware can be upgraded via μSD card Multiple test points and connectors to accessdata from the board Bluetooth interface version availableFeatures: All parameters and features are userprogrammable 7 user programmable g-ranges and 10selectable bandwidth settings Low-power consumption Ultra-low-power self-wake-up mode User programmable interrupt engine 0g offset regulation and in-field offsetre-calibration with ultra-high accuracy SPI (4-wire)/I²C interface RoHS compliantFeatures: Piezoresistive MEMS technology Voltage output proportional to pressure: 0.5 to 4.5V Measured media (absolute pressure): Air, non-aggressive gases (gashumidity 0 to 85% r.h., without dew). Unsuitable for substances thatreact with glass, silicon, aluminum, ceramics, polybutylene terephthalate,silicone glue, or silicone gel. RoHS-compatible, halogen-free Dual-in-line package for PCB mounting Measured media (gauge pressure): Air, non-aggressive gases (gashumidity 0 to 100% r.h.), and non-aggressive fluids. Unsuitable forsubstances that react with glass, silicon, stainless steel, silicone glue (pr≤ 10 bar), or epoxy glue (pr > 10 bar)CAU-T Series Pressure SensorsPressure transmitters with casing (voltage output and current output) from EPCOSCAU-T Series transmitters from EPCOS are based on piezoresistive silicon pressure sensors fromEPCOS’ clean room. This series compensates nonlinearity and temperature errors and supplies a precisecalibrated output with a high immunity against electromagnetic influences (EMI). The output voltage isproportional to pressure from 0.5 to 4.5V. The 2-wire current output is proportional to pressure from 4to 20mA. The T-Series is available for absolute, gauge, and symmetrical measurement. With its packageof stainless steel casing, an IP65 protection is given. Sensors have an available pressure range from100 mbar up to 25 bar.Features: Piezoresistive MEMS technology Voltage output proportional to pressure: 0.5 to 4.5V 2-wire current output proportional to pressure: 4 to 20mA Reverse supply voltage protection Measured media (absolute pressure): Air, non-aggressive gases (gashumidity 0 to 85% r.h., without dew). Unsuitable for substances whichreact with glass, silicon, gold, aluminum, stainless steel, NBR, siliconeglue, or silicone gel. RoHS-compatible, halogen-free Compact stainless steel casing (protection IP65) with G1/8” thread Measured media (gauge pressure): Air, non-aggressive gases (gashumidity 0 to 100% r.h.), and non-aggressive fluids. Unsuitable forsubstances which react with glass, silicon, stainless steel, NBR, siliconeglue (pr ≤ 10bar), or epoxy glue (pr > 10bar).7676 (TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

MPR121 Proximity CapacitiveTouch Sensor ControllerFreescale Semiconductor and Digi-Key introduce MPR121 ProximityCapacitive Touch Sensor ControllerFreescale Semiconductor’s MPR121 is the second generation sensorcontroller after the initial release of the MPR03x series devices. The MPR121will feature increased internal intelligence in addition to Freescale’s secondgeneration capacitance detection engine. Some of the major additionsinclude an increased electrode count, a hardware configurable I²C address,an expanded filtering system with debounce, and completely independentelectrodes with autoconfiguration built in. The device also features a 13thsimulated electrode that represents the simultaneous charging of all theelectrodes connected together to allow for increased proximity detection in atouch panel or touch screen array.MMA7361L 3-Axis Analog OutputAcceleration SensorFreescale Semiconductor and Digi-Key introduce MMA7361L 3-Axis AnalogOutput Acceleration SensorFreescale Semiconductor’s MMA7361L is a low power, low profile capacitivemicromachined accelerometer featuring signal conditioning, a 1-pole low passfilter, temperature compensation, self test, 0g-detect which detects linearfreefall, and g-Select which allows for the selection between 2 sensitivities.Zero-g offset and sensitivity are factory set and require no external devices.The MMA7361L includes a sleep mode that makes it ideal for handheldbattery powered electronics.Features: 1.71 V to 3.6 V operation 29 μA supply current with 12 electrodes being monitored with 64 msresponse time and IRQ enabled 3 μA shutdown current 12 electrodes Continuous independent auto-calibration for each electrode input Separate touch and release trip thresholds for each electrode, providinghysteresis and electrode independence I²C interface, with optional IRQ output to advise electrode status changes 3 mm x 3 mm x 0.65 mm 20 lead QFN package LED driver functionality with maximum of 8 LEDs -40°C to 85°C operating temperature rangeFeatures: 3mm x 5mm x 1.0mm LGA-14-pin package Low current consumption: 400 µA Sleep mode: 3 µA Low voltage operation: 2.2 V - 3.6 V High sensitivity (800 mV/g at 1.5g) Fast turn on time (0.5 ms enable response time) Self test for freefall detect diagnosis 0g-Detect for freefall protection Signal conditioning with low pass filter Robust design, high shocks survivability RoHS compliant Environmentally preferred product Low costSee www.digikey.com/new What’s New!AMPR03x Proximity CapacitiveTouch Sensor ControllersFreescale’s touch sensor controllers with increased sensitivity, specializedfeature setFreescale Semiconductor’s MPR03X are Inter-Integrated CircuitCommunication (I²C) driven capacitive touch sensor controllers, optimizedto manage two electrodes with interrupt functionality or three electrodes withthe interrupt disabled. These controllers can accommodate wide ranges ofimplementations due to their increased sensitivity and specialized feature sets.When using an I²C protocol, devices require separate addresses as no chipselect line is available. In order to use two MPR03x devices in the samesystem, the MPR031 and MPR032 are each available where different I²Caddresses are assigned to each part number. Thus, in a final system, four tosix electrodes can be achieved by putting one of each of these on the same I²Cbus without requiring extra communication lines or specialized hardware.Features: 6µA average supply current Compact 2mm x 2mm x 0.65mm 8-lead µDFN package Supports up to three touch pads Only one external component needed Intelligent touch detection capability 4µA maximum shutdown current 1.71V to 2.75V operation Threshold based detection with hysteresis I²C interface with optional IRQ Multiple devices in a system allow for up to six electrodes-40°C to 85°C operating temperature rangeApplications: PC peripherals MP3 players Remote controls Mobile phones Lighting controlsMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45(TZS111.US)7777

What’s New! See www.digikey.com/newASS361CT & SS461C DigitalPosition Sensor ICsHoneywell’s high sensitivity bipolar latching Hall effect digital positionsensor ICsHoneywell Sensing and Control’s SS361CT/SS461C high sensitivity bipolarlatching digital sensor ICs are small, versatile digital Hall effect devicesthat are operated by the magnetic field from a permanent magnet or anelectromagnet. They are designed to respond to alternating north and southpoles. These bipolar sensor ICs have enhanced sensitivity, which oftenallows for the use of less expensive magnets. These ICs offer reverse polarityprotection and deliver a stable output over a -40°C to 125°C [-40°F to 257°F]temperature range. Operation from any dc supply voltage from 4Vdc to 24Vdcis acceptable.Zephyr Digital Airflow SensorsHoneywell’s HAF Series, high accuracy digital airflow sensorsHoneywell Sensing and Control’s Zephyr Digital Airflow Sensors: HAF Series-HighAccuracy provides a digital interface for reading airflow over the specified full scaleflow span and temperature range. Their thermally isolated heater and temperaturesensing elements help these sensors provide a fast response to air or gas flow.Zephyr sensors are designed to measure mass flow of air and other non-corrosivegases. They are available in standard flow ranges and are fully calibrated andSS361CTSS461CFeatures: High ±2.5% accuracy allows for very precise airflow measurement, often ideal for demandingapplications with high accuracy requirements Full calibration and temperature compensation typically allow a customers to remove additionalcomponents associated with signal conditioning from the PCB, reducing PCB size as well as costsoften associated with those components (e.g., acquisition, inventory, assembly) Customizable for specific end-user needs High sensitivity at very low flows allows a customer’s application to detect presence or absenceof airflow High stability reduces errors due to thermal effects and null shift to provide accurate readings overtime, often eliminating the need for system calibration after PCB mount and periodically over time Low pressure drop typically improves patient comfort in medical applications and reduces noiseand system wear on other components such as motors and pumps Linear output provides more intuitive sensor signal than the raw output of basic airflow sensors,which can help reduce production costs, design, and implementation time High 12-bit resolution increases ability to sense small airflow changes, allowing customers toFeatures: Bipolar latching magnetics respond to alternating north and south poles,making these products suited for accurate speed sensing and RPM(revolutions per minute) measurement Wide operating voltage range of 4Vdc to 24Vdc allows for use in a widerange of applications Built-in reverse voltage capability enhances the protection of the sensorand the circuits Robust design allows devices to operate up to 125°C [257°F] RoHS-compliant materials meet Directive 2002/95/ECApplications:Industrial: Flow-rate sensing forappliances Speed and RPMsensing Tachometer, counterpickup Brushless dc motorcommutation Motor and fancontrol Robotics controlTransportation: Speed and RPMsensing Tachometer, counterpickuptemperature compensated with an on-board ASIC (Application-Specific IntegratedCircuit).The HAF Series is compensated over the temperature range of 0°C to 50°C [32°F to122°F] and operates across a temperature range of -20°C to 70°C [-4°F to 158°F].The state-of-the-art ASIC-based compensation provides digital (I 2 C) outputs with aresponse time of 1 ms. Motor and fancontrol Electric window lift Convertible roofpositionMedical: Medical equipmentusing electric motorsmore precisely control their applications Low 3.3Vdc operating voltage option and low power consumption allow for use in battery-drivenand other portable applications ASIC-based I 2 C digital output compatibility eases integration to microprocessors ormicrocontrollers, reducing PCB complexity and component count Bidirectional flow sensing capability eliminates the need for two airflow sensors, helping to reduceproduction costs and implementation time Insensitivity to mounting orientation allows customer to position sensor in most optimal point inthe system, eliminating concern for positional effects Insensitivity to altitude eliminates customer-implemented altitude adjustments in the system,easing integration and reducing production costs by not having to purchase additional sensors foraltitude adjustments Small size occupies less space on PCB, allowing easier fit and potentially reducing productioncosts; PCB size may also be reduced for easier fit into space-constrained applications RoHS-compliant materials meet Directive 2002/95/ECApplications:Medical: Anesthesia delivery machines Ventricular assist devices (heart pumps) Hospital diagnostics (spectrometry, gas chromatography) Nebulizers Oxygen concentrators Patient monitoring systems (respiratory monitoring) Sleep apnea machines Spirometers VentilatorsIndustrial: Air-to-fuel ratio Analytical instrumentation (spectrometry, chromatography) Fuel cells Gas leak detection Gas meters HVAC filters VAV system on HVAC systems Meteorology7878 (TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

SMART Position SensorHoneywell SMART: Superior Measurement. Accurate.Reliable. Thinking.Honeywell Sensing and Control’s SMART position sensor,with either a 75mm or 225mm linear configuration, is anon-contacting sensing solution for linear absolute positionsensing with enhanced speed and accuracy. It senses theposition of a magnet relative to the sensor from 0mm to75mm [0” to 3.0”] or from 0mm to 225mm (0” to 8.86”).Why is the SMART position sensor smart? SMART meansthat this is a sensor that can essentially think for itself. TheSMART position sensor has the ability to self-calibrate,because it uses a patented combination of an ASIC(Application-Specific Integrated Circuit) and an array ofMR (magnetoresistive) sensors to accurately and reliablydetermine the position of a magnet attached to a movingobject (e.g. elevator, valve, machinery, etc.) so that theobject’s position can be determined.FSR 400 RoundForce Sensing ResistorFSR 400 7.62mm round force sensor from InterlinkInterlink Electronics’ FSR 400 series is part of the single zone Force SensingResistor family. Force sensing resistors, or FSRs, are robust polymer thickfilm (PTF) devices that exhibit a decrease in resistance with increase in forceapplied to the surface of the sensor. This force sensitivity is optimized for usein human touch control of electronic devices such as automotive electronics,medical systems, and in industrial and robotics applications.The standard 400 sensor is a round sensor 7.62mm in diameter. Customsensors can be manufactured in sizes ranging from 5mm to over 600mm.Female connector and short tail versions can also be ordered.Features: Resolution of up to 16 bits provides enhanced accuracy Non-contacting technology can provide enhanced product life and durability with less downtime Combined patented MR sensor and ASIC technology provide enhanced differentiation andperformance Air gap of up to 3.0 ±2.5mm [0.118 ±0.098”] between sensor and magnet expands applicationopportunities Other output options (CAN bus, RS232) available upon request Self-diagnostics feature can reduce equipment downtime Small size, taking up less space than most competitive technologies, allows for use where spaceis at a premium IP67 and IP69K sealing allow use in a variety of harsh applications RoHS-compliant materials meet Directive 2002/95/ECApplicationsAerospace Aircraft ram door positionMedical Syringe pumpsFeatures & Benefits: Actuation force as lowas 0.1N and sensitivityrange to 10N. Easily customizable to awide range of sizesIndustrial Cutting and slitting machinery Elevator level position Material handling Packaging Plastic molding machinesApplications: Detect and qualify press - Sensewhether a touch is accidental orintended by reading force Use force for UI feedback - Detectmore or less user force to make a moreintuitive interface Enhance tool safety - Differentiate a gripfrom a touch as a safety lock Find centroid of force - Use multiple Highly repeatable forcereading; as low as 2%of initial reading withrepeatable actuationsystem Cost effective Valve position Wafer handling equipment Woodworking machinery Ultra thin; 0.35mm Robust; up to 10 millionactuations Simple and easy tointegratesensors to determine centroid of force Detect presence, position, or motion -Of a person or patient in a bed, chair, ormedical device Detect liquid blockage - Detect tubeor pump occlusion or blockage bymeasuring back pressure Detect proper tube positioning Many other force measurementapplicationsSee www.digikey.com/new What’s New!AFSR 402 RoundForce Sensing ResistorFeatures & Benefits: Actuation force as lowas 0.1N and sensitivityrange to 10N. Easily customizable to awide range of sizes Highly repeatable forcereading; as low as 2%of initial reading withrepeatable actuationsystem Cost effective Ultra thin; 0.45mm Robust; up to 10 millionactuations Simple and easy tointegrateFSR 402 18.28mm round force sensor from InterlinkInterlink Electronics’ FSR 400 series is part of the single zone Force SensingResistor family. Force sensing resistors, or FSRs, are robust polymer thickfilm (PTF) devices that exhibit a decrease in resistance with increase in forceapplied to the surface of the sensor. This force sensitivity is optimized for usein human touch control of electronic devices such as automotive electronics,medical systems, and in industrial and robotics applications.The standard 402 sensor is a round sensor 18.28 mm in diameter. Customsensors can be manufactured in sizes ranging from 5mm to over 600mm.Female connector and short tail versions can also be ordered.Applications: Detect and qualify press - Sensewhether a touch is accidental orintended by reading force Use force for UI feedback - Detectmore or less user force to make a moreintuitive interface Enhance tool safety - Differentiate a gripfrom a touch as a safety lock Find centroid of force - Use multiplesensors to determine centroid of force Detect presence, position, or motion -Of a person or patient in a bed, chair, ormedical device Detect liquid blockage - Detect tubeor pump occlusion or blockage bymeasuring back pressure Detect proper tube positioning Many other force measurementapplicationsMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45(TZS111.US)7979

What’s New! See www.digikey.com/newAFSR 406 SquareForce Sensing ResistorFSR 406 43.69mm square force sensor from InterlinkInterlink Electronics’ FSR 400 series is part of the single zone Force SensingResistor family. Force sensing resistors, or FSRs, are robust polymer thickfilm (PTF) devices that exhibit a decrease in resistance with increase in forceapplied to the surface of the sensor. This force sensitivity is optimized for usein human touch control of electronic devices such as automotive electronics,medical systems, and in industrial and robotics applications.The standard 406 sensor is a square sensor 43.69mm in size. Custom sensorscan be manufactured in sizes ranging from 5mm to over 600mm.FSR 408 Strip ForceSensing ResistorFSR 408 622.3mm square force sensor from InterlinkInterlink Electronics’ FSR 400 series is part of the single zone Force SensingResistor family. Force sensing resistors, or FSRs, are robust polymer thickfilm (PTF) devices that exhibit a decrease in resistance with increase in forceapplied to the surface of the sensor. This force sensitivity is optimized for usein human touch control of electronic devices such as automotive electronics,medical systems, and in industrial and robotics applications.The standard 408 sensor is a strip sensor 622.3mm in length. To meet theneeds of your application, however, it can be cut down to a very short length.MLX90615 SeriesInfrared ThermometersFeatures & Benefits: Actuation force as lowas 0.1N and sensitivityrange to 10N. Easily customizable to awide range of sizesApplications: Detect and qualify press - Sensewhether a touch is accidental orintended by reading force Use force for UI feedback - Detectmore or less user force to make a moreintuitive interface Enhance tool safety - Differentiate a gripfrom a touch as a safety lock Find centroid of force - Use multipleFeatures & Benefits: Actuation force as lowas 0.1N and sensitivityrange to 10N. Easily customizable to awide range of sizesApplications: Detect and qualify press - Sensewhether a touch is accidental orintended by reading force Use force for UI feedback - Detectmore or less user force to make a moreintuitive interface Enhance tool safety - Differentiate a gripfrom a touch as a safety lock Find centroid of force - Use multiple Highly repeatable forcereading; as low as 2%of initial reading withrepeatable actuationsystem Cost effective Highly repeatable forcereading; as low as 2%of initial reading withrepeatable actuationsystem Cost effective Ultra thin; 0.45mm Robust; up to 10 millionactuations Simple and easy tointegratesensors to determine centroid of force Detect presence, position, or motion -Of a person or patient in a bed, chair, ormedical device Detect liquid blockage - Detect tubeor pump occlusion or blockage bymeasuring back pressure Detect proper tube positioning Many other force measurementapplications Ultra thin; 0.40mm Robust; up to 10 millionactuations Simple and easy tointegratesensors to determine centroid of force Detect presence, position, or motion -Of a person or patient in a bed, chair, ormedical device Detect liquid blockage - Detect tubeor pump occlusion or blockage bymeasuring back pressure Detect proper tube positioning Many other force measurementapplicationsSmart, ultra-small infrared thermometers from Melexis target medical needsThe most prominent application for infrared thermometers is measuring body temperature to checkfor fever and illness. There are three main types of IR fever thermometers: ear thermometers, foreheadthermometers, and non-contact, distance-read thermometers. Measurement accuracy depends on thecalibration accuracy of the thermometer and how accurately the temperature measured on the patient’sexterior can be translated into an internal body temperature. For most medical applications, a measurementaccuracy of ±0.2°C or better is required.The MLX90615 from Melexis is the world’s first intelligent infrared thermometer integrated into the ultrasmall TO-46 package commonly used in the manufacture of ear thermometers. This ultra-small and costeffective, non-contact thermometer delivers a fully calibrated digital temperature reading achieved byintegrating an infrared sensor with a custom signal conditioning chip in a TO-46 package.The sensing element in the MLX90615 is a silicon chip with a thin, micro-machined membraneheated by the infrared radiation of the object. This proven Melexis technology has been applied toindustrial and automotive temperature measurement challenges for many years. A custom built signalconditioning chip amplifies and digitizes the minute voltages generated by the thermocouples on thesensor membrane and calculates the object temperature using factory set calibration parameters storedin the memory of the chip. The digitized temperature is fully linearized and compensates for ambienttemperature. This high level of integration makes the MLX90615 very cost effective compared withprevious infrared solutions.Features: Calibrated in wide temperature range: -40°C to85 °C for sensor temperature; -40°C to 115 °Cfor object temperature. SMBus compatible digital interface for fasttemperature readings and building sensornetworks High accuracy of 0.5°C over wide temperaturerange (0°C to 50°C for both Ta and To) Customizable PWM output for continuousreading Easy to integrate Medical accuracy of 0.1°C in a limitedtemperature range. Measurement resolution of 0.02°C Extremely small size to operate in tight spots 3 V supply voltage with power saving mode8080 (TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

MLX90333 Series Contactless SensorsThe MLX90333 series from Melexis targets 3D position sensor applicationsThe patented Triaxis technology shows its full potential in the MLX90333 from Melexis, which issensitive to the three components of the flux density applied to the IC (BX, BY, and BZ). This allows theMLX90333 to sense any magnet moving in its surrounding and it enables the design of novel generationof non-contacting joystick position sensors that are often required for both automotive and industrialapplications (e.g. man-machine interface).Furthermore, the capability of measuring BX, BY, and BZ allows the MLX90333 to be considered asuniversal non-contacting position sensor, which means that it is not limited to joystick applications. Forinstance, a linear travel can be sensed with the MLX90333 once included in a specific magnetic design.Two angles are computed from the three vector components of the flux density and are reported aslinear output signals.MCP9800 2-WireHigh-Accuracy Temperature SensorMicrochip’s MCP9800 converts temperatures between -55°C and 125°C to a digital wordMicrochip’s MCP9800 is a digital temperature sensor capable of reading temperatures from -55°C to125°C. Temperature data is measured from an integrated temperature sensor and converted to digitalword with a user selectable 9- to 12-bit sigma delta analog-to-digital converter. The MCP9800 notifiesthe host controller when the ambient temperature exceeds a user-programmed set point. The ALERToutput is programmable either as a simple comparator for thermostat operation or as a temperatureevent interrupt. Communication with the sensor is accomplished via a two-wire bus that is compatiblewith industry standard protocols. This permits reading the current temperature, programming the setpoint and hysteresis, and configuring the device. Small physical size, low installed cost, and ease of usemake the MCP9800 an ideal choice for implementing sophisticated temperature system managementschemes in a variety of applications.Features: Dual die (full redundant) – TSSOP16 packageRoHS compliant 12-bit Angular resolution – 10-bit angularthermal accuracy Programmable linear transfer characteristics(Alpha, Beta) Selectable analog (ratiometric), PWM, serialprotocol Single die – SO8 package RoHS compliant 40 bit ID number Absolute 3D position sensor Simple and robust magnetic design Triaxis Hall technologyFeatures: 2-wire I2C/SMBus compatible interface User selectable 9- to 12-bit resolution ±1°C accuracy from -10°C to 85°C ±2°C accuracy from 85°C to 125°C Low operating current: 220µA (typical) Shutdown mode: 1µA (maximum) Power saving one-shot temperature conversion measurement Space saving SOT-23 packageApplications: Personal computers and servers Hard disk drives and other PC peripherals Entertainment systems Office equipment Data communication equipment Mobile phones General purpose temperature monitoringSee www.digikey.com/new What’s New!AModel P3 Strain Indicator and RecorderMicro-Measurements and Digi-Key introduce Model P3 Strain Indicator and RecorderMicro-Measurements Model P3 Strain Indicator and Recorder is a portable, battery-operated instrument capable of simultaneously accepting four inputsfrom quarter-, half-, and full-bridge strain-gage circuits, including strain-gage-based transducers. Designed for use in a wide variety of physical test andmeasurement applications, the P3 functions as bridge amplifier, static strain indicator, and digital data logger. The P3 can be configured and operateddirectly from your PC with a separate software application included with each instrument.CEA-Series GagesMicro-Measurements and Digi-Key introduce CEA-Series GagesMicro-Measurements CEA-Series gages are the most widely accepted for use in general-purpose experimental stress analysis applications in theworld today. These polyimide encapsulated constantan gages feature large, rugged, copper-coated tabs. This construction provides optimumcapability for attaching lead wires directly to the tabs thus eliminating the need for separate terminals.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45(TZS111.US)8181

What’s New! See www.digikey.com/newASlam Stick Vibration RecorderFrom Midé Technology, the first step for developing any vibration energy harvesting systemMidé Technology’s Slam Stick is a high-speed ultra portable rechargeable data logger capable ofmeasuring acceleration in all three axes. The device uses a USB port for on the fly configuring, charging,and downloading of data. Simple configuration software allows users how to tailor the device to theirspecific needs.The configuration options include an adjustable delay time before each measurement, differentmeasurement durations, and a trigger based on a pre-determined acceleration level. Free analysissoftware allows for complete vibration characterization, enabling the user to determine the frequencycontent of a given vibration.The Slam Stick can be used for numerous applications, including energy harvesting vibrationcharacterization, modal surveys and equipment monitoring. Operation is as simple as configuringthe device for an application, mounting the device on the vibrating structure, pushing the button, anddownloading the data to a computer.NVE CORPORATIONAA Series Analog SensorsVersatile AA series sensors from NVE suitable for a wide range of applicationsNVE’s AA series analog GMR and TMR sensors have high sensitivity, excellent temperature stability, lowpower consumption, and small size. Their unmatched versatility makes them an excellent choice for awide range of analog sensing applications from rugged industrial and automotive position, speed, andcurrent sensors to low voltage, battery-powered sensors for handheld instrumentation and implantablemedical devices.AA series sensors use NVE’s patented spintronic materials to provide a directionally sensitive output.These sensors are sensitive in one direction in the plane of the IC with a cosine-scaled fall-off insensitivity as the sensor is rotated away from the sensitive direction. These devices provide anomnipolar output that is the same output for magnetic fields in the positive or negative direction alongthe axis of sensitivity. All sensors use a temperature compensating Wheatstone bridge configuration.The sensors are offered in SOIC8 and MSOP8 packages and in die form by special order.Features:harvesting applications(included)Applications:purposesFeatures:Applications:NVE CORPORATIONWide-Body SOIC-16 IsoLoop ® IsolatorsCost-effective isolators from NVE for high-voltage performanceNVE Corporation’s wide-body SOIC-16 isolators offer a full eight-millimeter external creepage distancefor the most demanding high-voltage performance. IsoLoop® isolators offer a full product line in widebodySOIC packages, providing 2,500Vrms isolation voltage, 300Vrms working voltage, and 800Vrmsendurance voltage. These isolators are available in a variety of input, output, and channel configurationsas well as a full line of isolated RS-485/RS-422/PROFIBUS transceivers.Features:Temperature Sensor IC BDJxxxxHFV SeriesROHM’s BDJxxxxHFV series features a compact package and low current consumptionROHM Semiconductor offers a broad lineup of ultra-compact, low current consumption thermostatoutput temperature sensors optimized for temperature monitoring and overheating protection incompact devices of all types. The BDJxxxxHFV series integrates a temperature detection element,constant current circuit, and high precision reference power source in a single chip. Additional featuresinclude low current consumption (7.5 μA – 50 percent less than conventional products), built-in powerdown function, high analog output temperature sensitivity, precision thermostat, detection temperaturehysteresis, and precise analog output (±2.5°C maximum). Multiple models are available in a range ofdetection temperatures, from 55°C to 90°C in 5°C intervals. The units are available in a compact HVSOF5package – 70 percent smaller than conventional SSOP5 packages.Features:incrementsApplications:8282 (TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

RPI-1031 4-Direction Tilt SensorROHM’s 4-direction tilt sensor provides stable, silent operation in a compact packageROHM offers its standard RPI-1031 optical sensor that detects movement in 90-degree intervals using an in-house infrared LED, two phototransistors, andlight-blocking mechanism.A novel architecture is utilized for silent operation, eliminating the need for soundproofing while increasing design flexibility. Additionally, this optical sensoris not susceptible to either vibration or magnetic fields as are mechanical and magnetic four-way sensors.LY3xxALH/LPR4xxAL/LPY4xxALMEMS GyroscopesHigh performance gyroscopes fromSTMicroelectronicsSTMicroelectronics’ complete family of single-axis(yaw) and two-axis (pitch-and-roll, pitch-and-yaw)MEMS gyroscopes offers a full scale range from30°/s to 6000°/s. Each gyroscope has analog output,low power consumption, and a small package size(3x5mm or 3x4mm LGA). These gyroscopes alsoprovide two separate outputs at the same time; anunamplified output value and a 4x amplification toenhance design flexibility.STC3100 - Battery Monitor ICSTMicroelectronics’ battery monitor for gas gauge applications in handheld systemsSTMicroelectronics’ STC3100 monitors the critical parameters of single-cell Li-ion batteries (voltage,temperature, and current) and includes hardware functions to implement a gas gauge for battery chargemonitoring that is based on a programmable 12-14 bit A/D converter. The STC3100 is programmableand communicates through I 2 C interface.The STC31000 has a built-in temperature sensor and an I 2 C interface for charge monitoring and devicecontrol. This device has a wide operating temperature that ranges from -40°C to 85°C. It also has a widesupply voltage range.Features:® RoHS and “Green” compliantApplications:Applications:See www.digikey.com/new What’s New!ASTMPE16M31PXSTMicroelectronics’ STMPE16M31PX capacitive touch-key controller withproximity sensing.The STMPE16M31PX is the latest addition to the S-Touch® familyof STMicroelectronics’ touch-sense controllers. In line with the existingSTMPE16M31, the STMPE16M31PX offers highly flexible and robustcapacitive touch-key performance over 16 channels, with the addition of apowerful proximity sensor. The proximity sensing is achieved by increasingthe sensitivity of one selected channel among the 16 available, using adithering technique. The dithering factor is configurable from 4 to 32 x anddetermines the sensitivity of the proximity sensor. The controller allowsproximity sensing up to a distance of 2 inches. All STMPExxM31 touchcontrollers feature automatic calibration and auto-tuning, high noise immunityand sensitivity, eight independent PWM controllers (that can be routed to oneor more of any of the 16 GPIOs) and extremely low current consumption,achieving best in class performance in capacitive touch-key and proximitysensing.Features:external Crefsensing pinsGPIOs for LED driving-40°C to 85°Cto 2 inches (5 cm)capacitive sensors, GPIOsApplications:keyboards5.5 V (VIO)PWM controllers, up to 16 PWMoutputs on touch) displaysplayers, mobilephonesMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45(TZS111.US)8383

AC Current SensorsInterface ProductsThe Si85xx products are unidirectional AC current sensors available in full-scale ranges of 5,10 and 20A. Si85xx productsare ideal upgrades for older current-sensing technologies offering size, performance and cost advantages over currenttransformers, Hall effect devices, DCR circuits and other approaches. The Si85xx products are extremely low loss, addingless than 1.3mΩ of series resistance and less than 2nH series inductance in the sensing path at 25°C. Current-sensingterminals are isolated from the other package pins, providing up to 5kVRMS isolation level per safety approval ratings.Features:Single-chip AC current sensor Leading-edge noise suppression eliminates need for leading-edge blanking “Ping-Pong” output version allows one Si85xx to replace two low current transformers in full-bridge designs FAULT outputhelps safeguard operation ±5% initial accuracy Large 2 Vpp minimum output at full scale High-side or low-sidecurrent sensing -40°C ~ 125°C operating range 12-QFN and 20-SOIC packagesApplications:Power supplies Motor controls Lighting equipment Industrial equipmentCurrent OutputDigi-KeyPrice Each Silicon Labs(A) Mode Package Part No.1 25 100 Part No.5 Single 12-QFN 336-1718-5-ND .92 .87 .81 SI8501-C-IM10 Single 12-QFN 336-1719-5-ND .95 .90 .84 SI8502-C-IM20 Single 12-QFN 336-1720-5-ND 1.00 .95 .89 SI8503-C-IM5 Single 20-SOIC 336-1721-5-ND 1.26 1.19 1.11 SI8501-C-IS10 Single 20-SOIC 336-1722-5-ND 1.31 1.24 1.16 SI8502-C-IS20 Single 20-SOIC 336-1723-5-ND 1.38 1.30 1.22 SI8503-C-IS5 Ping-Pong 12-QFN 336-1724-5-ND 1.00 .95 .89 SI8511-C-IM10 Ping-Pong 12-QFN 336-1725-5-ND 1.04 .98 .92 SI8512-C-IM20 Ping-Pong 12-QFN 336-1726-5-ND 1.09 1.03 .96 SI8513-C-IM5 Ping-Pong 20-SOIC 336-1727-5-ND 1.38 1.30 1.22 SI8511-C-IS10 Ping-Pong 20-SOIC 336-1728-5-ND 1.43 1.35 1.26 SI8512-C-IS20 Ping-Pong 20-SOIC 336-1729-5-ND 1.50 1.41 1.32 SI8513-C-IS5 Ping-Pong 12-QFN 336-1730-5-ND 1.00 .95 .89 SI8517-C-IM10 Ping-Pong 12-QFN 336-1731-5-ND 1.04 .98 .92 SI8518-C-IM20 Ping-Pong 12-QFN 336-1732-5-ND 1.09 1.03 .96 SI8519-C-IM5 Ping-Pong 20-SOIC 336-1733-5-ND 1.38 1.30 1.22 SI8517-C-IS10 Ping-Pong 20-SOIC 336-1734-5-ND 1.43 1.35 1.26 SI8518-C-IS20 Ping-Pong 20-SOIC 336-1735-5-ND 1.50 1.41 1.32 SI8519-C-ISCurrent Sensor Evaluation Board 10A 336-1425-ND 19.95 — — SI85XX-EVBCThermal ManagementTemperature Sensors®TypicalAccuracy (°)±0.5±1±0.5±2±0.5TemperatureVccMaximum SupplyDigi-KeyPrice EachTape and Reel‡RangeRange (V)CurrentPackage Part No.1 10 25 Qty. PricingLogic Output-40°C ~ 125°C 2.7 ~ 5.5 50µA SOT-23-5 MCP9509CT-E/OTCT-ND◆† 1.06 .85 .71 3,000 650.00/M-40°C ~ 125°C 2.7 ~ 5.5 50µA SOT-23-5 MCP9509HT-E/OTCT-ND◆† 1.06 .85 .71 3,000 650.00/M-40°C ~ 125°C 2.7 ~ 5.5 80µA SOT-23-6 MCP9510CT-E/CHCT-ND◆† 1.06 .85 .71 3,000 650.00/M-40°C ~ 125°C 2.7 ~ 5.5 80µA SOT-23-6 MCP9510HT-E/CHCT-ND◆† 1.06 .85 .71 3,000 650.00/M-55°C ~ 125°C 4.5 ~ 18 400µA 8-SOIC TC620CEOA-ND◆ 1.52 1.40 1.16 — —-55°C ~ 125°C 4.5 ~ 18 400µA 8-DIP TC620CEPA-ND◆ 1.58 1.44 1.20 — —-55°C ~ 125°C 4.5 ~ 18 400µA 8-DIP TC620CCPA-ND◆ 1.30 1.20 1.00 — —-55°C ~ 125°C 4.5 ~ 18 400µA 8-SOIC TC620HEOA-ND◆ 1.52 1.40 1.16 — —-55°C ~ 125°C 4.5 ~ 18 400µA 8-DIP TC620HEPA-ND◆ 1.58 1.44 1.20 — —-55°C ~ 125°C 4.5 ~ 18 400µA 8-SOIC TC621CCOA-ND◆ 1.24 1.13 .94 — —-55°C ~ 125°C 4.5 ~ 18 400µA 8-SOIC TC621CEOA-ND◆ 1.52 1.40 1.16 — —-55°C ~ 125°C 4.5 ~ 18 400µA 8-DIP TC621CEPA-ND◆ 1.58 1.44 1.20 — —-55°C ~ 125°C 4.5 ~ 18 400µA 8-SOIC TC621HEOA-ND◆ 1.52 1.40 1.16 — —-55°C ~ 125°C 4.5 ~ 18 400µA 8-DIP TC621HEPA-ND◆ 1.58 1.44 1.20 — —-40°C ~ 125°C 4.5 ~ 18 600µA 8-DIP TC622EPA-ND◆ 1.22 1.12 .93 — —-40°C ~ 125°C 4.5 ~ 18 600µA TO-220 TC622VAT-ND◆ 1.92 1.75 1.46 — —-40°C ~ 125°C 4.5 ~ 18 600µA 8-SOIC TC622VOA-ND◆ 1.38 1.27 1.06 — —-40°C ~ 125°C 2.7 ~ 4.5 300µA 8-SOIC TC624VOA-ND◆ 1.62 1.49 1.24 — —-40°C ~ 125°C 2.7 ~ 4.5 300µA 8-DIP TC624VPA-ND◆ 1.52 1.40 1.16 — —-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P045VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P055VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P065VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P075VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P085VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P095VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P105VCTTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P115VCTTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P120VCT-ND◆† .99 .82 .68 — —-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P120VCTTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6501P125VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6502P045VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6502P055VCCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6502P065VCCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6502P075VCCT-ND† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6502P085VCCT-ND† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6502P095VCCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6502P105VCCT-ND† .88 .73 .61 — —-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6502P115VCCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6502P125VCTTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6503N015VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6503P005VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6504N015VCTCT-ND◆† .88 .73 .61 3,000 550.00/M-40°C ~ 135°C 2.7 ~ 5.5 40µA SOT-23A-5 TC6504P005VCTCT-ND◆† .88 .73 .61 3,000 550.00/MSerial Output — RoHS Compliant-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-TSSOP MCP98242-BE/ST-ND 1.10 1.01 .84 — —-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-UDFN MCP98242T-BE/MUYCT-ND† 1.24 1.01 .84 3,300 760.00/M-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-DFN MCP98242T-BE/MCA2CT-ND† 1.24 1.01 .84 3,300 760.00/M-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-TDFN MCP98242T-BE/MNYCT-ND† 1.24 1.01 .84 3,300 760.00/M-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-DFN MCP98242T-CE/MCCT-ND† 1.06 .85 .71 3,300 650.00/M-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-TDFN MCP98242T-CE/MNYCT-ND† 1.06 .85 .71 3,300 650.00/M-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-UDFN MCP98242T-CE/MUYCT-ND† 1.06 .85 .71 3,300 650.00/M-55°C ~ 125°C 2.65 ~ 5.5 400µA 8-MSOP TC72-2.8MUA-ND 1.00 .92 .76 — —-55°C ~ 125°C 2.65 ~ 5.5 400µA 8-MSOP TC72-3.3MUA-ND 1.00 .92 .76 — —-55°C ~ 125°C 2.65 ~ 5.5 400µA 8-MSOP TC72-5.0MUA-ND 1.00 .92 .76 — —-40°C ~ 125°C 2.7 ~ 5.5 350µA TO-220-5 TC74A0-3.3VAT-ND 1.64 1.37 1.14 — —-40°C ~ 125°C 2.7 ~ 5.5 350µA SOT-23-5 TC74A0-3.3VCTCT-ND† 1.06 .87 .72 3,000 660.01/M-40°C ~ 125°C 2.7 ~ 5.5 350µA TO-220-5 TC74A0-5.0VAT-ND 1.64 1.37 1.14 — —-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-DFN MCP98243-BE/MC-ND 1.10 1.01 .84 — —-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-TSSOP MCP98243-BE/ST-ND 1.10 1.01 .84 — —-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-TSSOP MCP9843-BE/ST-ND NEW! .92 .85 .71 — —-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-DFN MCP9843T-BE/MCCT-ND† NEW! 1.04 .85 .71 3,300 650.00/M-40°C ~ 125°C 3.0 ~ 3.6 500µA 8-TDFN MCP9843T-BE/MNYCT-ND† NEW! 1.04 .85 .71 3,300 650.00/M-40°C ~ 125°C 2.7 ~ 5.5 350µA SOT-23A-5 TC74A0-5.0VCTCT-ND† 1.06 .87 .72 3,000 660.01/M-40°C ~ 125°C 2.7 ~ 5.5 350µA SOT-23A-5 TC74A5-3.3VCTCT-ND† 1.06 .87 .72 3,000 660.01/M-40°C ~ 125°C 2.7 ~ 5.5 350µA SOT-23A-5 TC74A5-5.0VCTCT-ND† 1.06 .87 .72 3,000 660.01/M-55°C ~ 125°C 2.7 ~ 5.5 400µA SOT-23-5 TC77-3.3MCTTRCT-ND† 1.22 .99 .83 3,000 750.00/M-55°C ~ 125°C 2.7 ~ 5.5 400µA 8-SOIC TC77-3.3MOA-ND 1.00 .92 .76 — —-55°C ~ 125°C 2.7 ~ 5.5 400µA SOT-23-5 TC77-5.0MCTTRCT-ND† 1.22 .99 .83 3,000 750.00/M-55°C ~ 125°C 2.7 ~ 5.5 400µA 8-SOIC TC77-5.0MOA-ND 1.00 .92 .76 — —◆ RoHS Compliant ‡ For Tape and Reel part number, change CT-ND to TR-ND.®For Digi-Reel ® information, please see page 73.† Cut Tape(Continued)84 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Thermal Management®Temperature Sensors (Cont.)TypicalAccuracy (°)TemperatureRangeVccRange (V)Maximum SupplyCurrentPackageDigi-KeyPart No.Price EachTape and Reel‡1 10 25 Qty. Pricing-55°C ~ 125°C 2.7 ~ 5.5 1,000µA 8-SOIC TCN75AVOA-ND .84 .70 .58 — —-55°C ~ 125°C 2.7 ~ 5.5 1,000µA 8-MSOP TCN75AVUA-ND .84 .70 .58 — —±0.5-55°C ~ 125°C 2.7 ~ 5.5 1,000µA 8-SOIC TCN75-3.3MOA-ND 1.45 1.21 1.01 — —-55°C ~ 125°C 2.7 ~ 5.5 1,000µA 8-MSOP TCN75-3.3MUA-ND 1.51 1.26 1.05 — —-55°C ~ 125°C 2.7 ~ 5.5 1,000µA 8-SOIC TCN75-5.0MOA-ND 1.45 1.21 1.01 — —-55°C ~ 125°C 2.7 ~ 5.5 1,000µA 8-MSOP TCN75-5.0MUA-ND 1.51 1.26 1.05 — —Voltage Output±0.5-40°C ~ 125°C 2.7 ~ 4.4 60µA SOT-23B TC1046VNBTRCT-ND◆† .70 .59 .49 3,000 450.00/M-40°C ~ 125°C 2.7 ~ 5.5 60µA SOT-23B TC1047AVNBCT-ND◆† .74 .62 .52 3,000 470.00/M-40°C ~ 150°C 2.3 ~ 5.5 6µA TO-92-3 MCP9700-E/TO-ND◆ .30 .25 .21 — —-40°C ~ 150°C 2.3 ~ 5.5 6µA TO-92-3 MCP9700A-E/TO-ND◆ .34 .31 .26 — —-40°C ~ 150°C 2.3 ~ 5.5 6µA SC70-5 MCP9700AT-E/LTCT-ND◆† .38 .31 .26 3,000 240.00/M-40°C ~ 150°C 2.3 ~ 5.5 6µA SC-70-5 MCP9700T-E/LTCT-ND◆† .29 .25 .21 3,000 190.00/M-40°C ~ 150°C 2.3 ~ 5.5 6µA SOT-23-3 MCP9700T-E/TTCT-ND◆† .29 .25 .21 3,000 190.00/M±1-40°C ~ 125°C 3.1 ~ 5.5 6µA TO-92-3 MCP9701-E/TO-ND◆ .30 .25 .21 — —-40°C ~ 125°C 3.1 ~ 5.5 6µA TO-92-3 MCP9701A-E/TO-ND◆ .34 .31 .26 — —-40°C ~ 125°C 3.1 ~ 5.5 6µA SC-70-5 MCP9701AT-E/LTCT-ND◆† .38 .31 .26 3,000 240.00/M-40°C ~ 125°C 3.1 ~ 5.5 6µA SOT-23-3 MCP9701AT-E/TTCT-ND◆† .38 .31 .26 3,000 240.00/M-40°C ~ 125°C 3.1 ~ 5.5 6µA SC-70-5 MCP9701T-E/LTCT-ND◆† .29 .25 .21 3,000 190.00/M-40°C ~ 125°C 3.1 ~ 5.5 6µA SOT-23-3 MCP9701T-E/TTCT-ND◆† .20 .18 .15 3,000 127.06/M-55°C ~ 125°C 2.7 ~ 5.5 400µA SOT-23-5 MCP9800A0T-M/OTCT-ND◆† 1.42 1.20 1.00 — —-55°C ~ 125°C 2.7 ~ 5.5 400µA 8-MSOP MCP9801-M/MS-ND◆ 1.34 1.12 .93 — —-55°C ~ 125°C 2.7 ~ 5.5 400µA 8-SOIC MCP9801-M/SN-ND◆ 1.34 1.12 .93 — —±0.5-55°C ~ 125°C 2.7 ~ 5.5 400µA SOT-23-5 MCP9802A0T-M/OTCT-ND◆† 1.49 1.26 1.05 — —-55°C ~ 125°C 2.7 ~ 5.5 400µA SOT-23-5 MCP9802A5T-M/OTCT-ND◆† 1.49 1.26 1.05 3,000 950.00/M-55°C ~ 125°C 2.7 ~ 5.5 400µA 8-MSOP MCP9803-M/MS-ND◆ 1.44 1.20 1.00 — —-55°C ~ 125°C 2.7 ~ 5.5 400µA 8-SOIC MCP9803-M/SN-ND◆ 1.44 1.20 1.00 — —±0.25-40°C ~ 125°C 2.7 ~ 5.5 400µA 8-MSOP MCP9804-E/MS-ND◆ NEW! 1.82 1.68 1.40 — —-40°C ~ 125°C 2.7 ~ 5.5 400µA 8-DFN MCP9804T-E/MCCT-ND◆† NEW! 2.05 1.68 1.40 3,300 1270.00/M±2 -40°C ~ 125°C 3.0 ~ 3.6 500µA 8-TSSOP MCP9805-BE/ST-ND◆ .94 .85 .71 — —Demo Board for PICtail MCP2030 MCP2030DM-TPR-ND 160.00 — — — —Low Power Linear Active Thermistor Demo Board MCP9700DM-TH1-ND◆ 45.00 — — — —Demo Board 2 for MCP9800 MCP9800DM-DL2-ND 30.00 — — — —Demo Board for PICtail MCP9800 MCP9800DM-PCTL-ND 25.00 — — — —Demo Board for MCP9800 MCP9800DM-TS1-ND◆ 35.00 — — — —Mixed Signal PICtail Demo Board MXSIGDM-ND 65.00 — — — —Temperature-to-Voltage Converter Demo Board for TC1047A TC1047ADM-PICTL-ND◆ 10.00 — — — —Digital Temperature Sensor PICtail Demo Board TC72DM-PICTL-ND◆ 10.00 — — — —Demo Board PICtail TC77 TC77DM-PICTL-ND◆ 10.00 — — — —◆ RoHS Compliant ‡ For Tape and Reel part number, change CT-ND to TR-ND. † Cut TapeCNEW!CMOS Image SensorsOmniVision’s broad portfolio of digital and analog CMOS image sensors serve a wide variety of end markets.From sub-VGA to 9-megapixels, OmniVision has the answer for every application. Our advanced pixelarchitectures allow our customers to choose their desired camera solutions by device size, low-light sensitivity,package type, and even on-chip ISP.Optical Pixel Size Frame RateOutputDigi-KeyPrice EachOmniVisionResolution Format (µm)(fps)FormatPackage Part No.1 25 100 Part No.VGA (640 x 480) 1/13” 1.75 x 1.75 30@full, 60@QVGA YUV, RGB, Raw RGB Data 20-pin Module 884-1019-1-ND† 25.00 12.35 10.40 OVM7690-R20AVGA (640 x 480) 1/13” 1.75 x 1.75 30@full, 60@QVGA YUV, RGB, Raw RGB Data 20-pin Module 884-1019-2-ND‡ 9425.00/1,000 OVM7690-R20AVGA (640 x 480) 1/5” 4.2 x 4.2 60@full, 120@QVGA YUV, Raw RGB Data 32-CSP3 884-1005-ND 15.00 5.11 4.30 OV07740-A32A2MP (1600 x 1200) 1/5” 1.75 x 1.75 15@full, 30@SVGA YUV, RGB, Raw RGB Data 38-CSP3 884-1009-ND 15.00 3.97 3.34 OV02655-A38A3MP (2048 x 1536) 1/4” 1.75 x 1.75 15@full, 30@XGAYUV, RGB, Raw RGB Data,Compressed Data56-CSP2 884-1011-ND 15.00 7.79 6.56 OV03640-V56A3MP (2048 x 1536) 1/4” 1.75 x 1.75 15@full, 30@XGAYUV, RGB, Raw RGB Data,Compressed Data67-CSP2 884-1013-ND 15.00 9.67 8.14 OV03642-V67A5MP (2592 x 1944) 1/3.2” 1.75 x 1.7515@full, 30@1080p,60@720p, 60@VGARaw RGB Data 48-CLCC 884-1017-ND 15.00 10.22 8.61 OV05633-C48A5MP (2592 x 1944) 1/4" 1.4 x 1.415@full, 30@1080p,60@720p, 60@VGAYUV, RGB, Raw RGB Data 63-CSP3 884-1021-ND 15.00 12.13 10.92 OV05642-A63A† Cut Tape ‡ Tape and Reel®Flex ModulesOmniVision Flex Modules combinethe CMOS image sensor, lens andlens housing on a flex cable.LensAssociatedImage SensorDigi-KeyPart No.Price EachOmniVisionPart No.Fixed Focus OV07690 884-1002-ND 35.00 OV07690-MFSL-F000Fixed Focus OV03642 884-1015-ND 50.00 OV03642-MFSL-F000True Focus OV03642 884-1016-ND 50.00 OV03642-MFSL-T000Evaluation KitsOmniVision Evaluation Kits demonstrate the operation of the associated image sensor products. The kitsprovide a USB 2.0 interface to easily demonstrate the image sensor’s features.AssociatedImage SensorDigi-KeyPart No.Price EachOmniVisionPart No.OVM7690 884-1004-ND 225.00 OVM7690-ECJA-BA0AOV07740 884-1006-ND 225.00 OV07740-ECJA-BA0AOV07690 884-1003-ND 225.00 OV07690-ECJA-BA0AOV10620 884-1008-ND 225.00 OV10620-ECJC-BA0AOV02655 884-1010-ND 225.00 OV02655-ECJA-BA0AKit Contents: Sensor Evaluation Module USB Cable CD with Drivers and DocumentationAssociatedImage SensorDigi-KeyPart No.Price EachOmniVisionPart No.OV03640 884-1012-ND 225.00 OV03640-ECJA-BA0AOV03642 884-1014-ND 225.00 OV03642-ECJA-BA0AOV05633 884-1018-ND 225.00 OV05633-ECJA-BA0AOV05642 884-1020-ND 225.00 OV05642-ECJA-BA0ADescriptionUSB Controller, Enhanced Single-Chip Camera BridgeProcessor for USB 2.0◆ RoHS CompliantDigi-KeyPrice EachOmniVisionPackage Part No.1 25 100 Part No.88-BGA 884-1000-ND◆ 15.00 2.95 2.48 OV00538-B88G®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)8585

CMOS Image SensorsVGAVGA resolution sensors feature resolutions of 640x480 and 752x480, and offer on-chip camera functions and very low power consumption for extending battery life. Plus, variable functions including gain,frame rate, and exposure, and can be programmed through a simple two-wire serial interface.OpticalFormat Array ResolutionColorFilterSupplyVoltageFrame Rate(fps)PackageDigi-KeyPart No.Price Each1 25 100AptinaPart No.640H x 480V VGA Color 2.8 30 28-PLCC 557-1315-ND NEW! 14.23 11.97 11.00 MT9V011P11STC:B640H x 480V VGA Color 2.8 30 44-CLCC 557-1241-ND 21.20 19.08 14.84 MT9V131C12STCC1/4”640H x 480V VGA Color 2.8 30 48-CLCC 557-1308-ND 21.20 19.08 14.84 MT9V135C12STC640H x 480V VGA Color 2.8 15 ~ 90 44-IBGA 557-1273-ND 29.81 25.18 21.20 MT9V111IA7ATC640H x 480V VGA Color 2.8 30 52-IBGA 557-1238-ND 29.81 25.18 21.20 MT9V125IA7XTC752H x 480V W-VGA Color 3.3 60 52-IBGA 557-1166-ND 31.01 26.19 22.05 MT9V022IA7ATC752H x 480V W-VGA Mono 3.3 60 52-IBGA 557-1205-ND 31.01 26.19 22.05 MT9V022IA7ATM752H x 480V W-VGA Color 3.3 60 52-IBGA 557-1446-ND NEW! 28.09 23.88 21.77 MT9V024IA7XTC1/3”752H x 480V W-VGA Mono 3.3 60 52-IBGA 557-1447-ND NEW! 28.09 23.88 21.77 MT9V024IA7XTM752H x 480V W-VGA Color 3.3 60 48-CLCC 557-1237-ND 28.02 23.67 19.93 MT9V032C12STC752H x 480V W-VGA Mono 3.3 60 48-CLCC 557-1306-ND 28.02 23.67 19.93 MT9V032C12STM752H x 480V W-VGA Mono 3.3 60 48-CLCC 557-1454-ND NEW! 25.65 21.58 19.83 MT9V034C12STMMegapixelMegapixel-resolution sensors combine the image quality of CCD technology with the compact size, adaptability, and ease-of-design of CMOS. CMOS-based technology can simplify camera designscompared to conventional CCD technology, thereby enabling designers to create smaller, high-performance applications with shorter development periods.OpticalFormatArrayResolution(MP)ColorFilterSupplyVoltageFrame Rate(fps)PackageDigi-KeyPart No.Price Each1 25 100AptinaPart No.1/4.5”1280H x 1024V 1.6 Color 2.8 30 ~ 60 48-ILCC 557-1395-ND 23.85 20.14 16.96 MT9M032C12STC1280H x 1024V 1.6 Mono 2.8 30 ~ 60 48-ILCC 557-1396-ND 23.85 20.14 16.96 MT9M032C12STMU1/3.2” 1600H x 1200V 2 Color 2.8 15 48-CLCC 557-1311-ND 26.24 22.16 18.66 MT9D131C12STC1/3” 1280H x 1024V 1.3 Color 2.8 15 48-CLCC 557-1312-ND 23.85 20.14 16.96 MT9M131C12STC2592H x 1944V 5 Color 2.8 14 48-ILCC 557-1262-ND 23.85 20.14 16.96 MT9P031I12STC1/2.5”2592H x 1944V 5 Mono 3.1 14 48-ILCC 557-1397-ND 23.85 20.14 16.96 MT9P031I12STM2592H x 1944V 5 Color 2.8 15 ~ 60 48-ILCC 557-1263-ND 33.39 28.20 23.75 MT9P401I12STC2592H x 1944V 5 Color 2.8 15 48-ILCC 557-1455-ND NEW! 23.32 19.61 18.02 MT9P001I12STC1280H x 1024V 1.3 Mono 3.3 30 48-CLCC 557-1151-ND 29.22 24.68 20.78 MT9M001C12STM1/2”2048H x 1536V 3 Color 3.3 12 48-CLCC 557-1452-ND NEW! 23.32 19.83 18.08 MT9T031C12STC2048H x 1536V 3 Color 3.3 12 48-CLCC 557-1453-ND NEW! 23.32 19.83 18.08 MT9T001C12STCImage Sensor Evaluation KitsImaging’s Demonstration system family supports the full line of Aptina’s CMOS image sensor products. Several software applications are provided with the demonstration system, which allows the user to display the data fromthe sensor on the host computer, and to change some basic settings of the sensor for evaluation purposes. A Software Development Kit (SDK) is also provided to customers who wish to write their own software applicationsto access the sensor on the Demo System.Kit Includes: Imaging Demo Camera Board Sensor Headboard with Lens USB 2.0 Cable Tripod Users Manual557-1248-ND◆ For use with MT9D131, Color ...................................................... $1240.20557-1411-ND◆ For use with MT9M032, Color...................................................... $1240.20557-1246-ND◆ For use with MT9M131, Color...................................................... $1240.20557-1409-ND◆ For use with MT9M032, Mono ..................................................... $1240.20557-1258-ND◆ For use with MT9P031, Color ...................................................... $1240.20557-1429-ND◆ For use with MT9P031, Mono ...................................................... $1240.20◆ RoHS CompliantSensor HeadboardsThe Sensor Headboards include the image sensor and lens mounted with all necessary components. The Sensor Headboards will connect to the Demo2 board (not included) to make a complete development system.557-1253-ND◆ For use with MT9D131, Color ....................................................... $357.75557-1412-ND◆ For use with MT9M032, Mono ...................................................... $357.75557-1428-ND◆ For use with MT9M032, Color....................................................... $357.75557-1251-ND◆ For use with MT9M131, Color....................................................... $357.75557-1260-ND◆ For use with MT9P031, Color ....................................................... $357.75◆ RoHS Compliant557-1239-ND For use with MT9V125, Color ...................................................... $1240.20557-1242-ND For use with MT9V131, Color ...................................................... $1240.20557-1247-ND◆ For use with MT9V135, Color ...................................................... $1240.20557-1448-ND◆ NEW! For use with MT9V024, Color ............................................. $1240.20557-1449-ND◆ NEW! For use with MT9V024, Mono ............................................. $1240.20557-1451-ND◆ NEW! For use with MT9T031, Color ............................................. $1240.20557-1430-ND◆ For use with MT9P031, Mono ....................................................... $357.75557-1240-ND For use with MT9V125, Color ....................................................... $357.75557-1243-ND For use with MT9V131, Color ....................................................... $357.75557-1252-ND◆ For use with MT9V135, Color ....................................................... $357.75557-1450-ND◆ NEW! For use with MT9T031, Color .............................................. $357.7586 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Specialized Integrated Circuits®Current and Sense MonitorsThe ZXCT range of high side current mon itors and current sense amplifiers provides elegant design solutions for current mea surement and power control.ZXCT1009: This current sensing monitor takes a high side voltage developed across a current shunt resistor and translates it into a scaled ground referenced current. ZXCT1010: Offers reduced typical offset and improvedaccuracy at low sense voltages. ZXCT1021/1022: These current sense amplifiers are particularly suited to low sense voltage applications.Digi-KeyCut TapePrice EachDigi-KeyTape and ReelDescriptionPackage Part No.1 10 100 Part No.Qty. PricingHigh-Side Current Monitor SOT23-3 ZXCT1009FCT-ND◆ 1.09 .98 .78 ZXCT1009FTR-ND◆ 3,000 403.00/MHigh-Side Current Monitor SOT23-3 ZXCT1008FCT-ND◆ 1.22 1.09 .87 ZXCT1008FTR-ND◆ 3,000 448.00/MHigh-Side Current Monitor SM8 ZXCT1009T8CT-ND◆ 1.85 1.59 1.30 ZXCT1009T8TR-ND◆ 1,000 766.00High-Side Current Monitor SOT23-5 ZXCT1011E5CT-ND◆ 1.31 1.17 .93 ZXCT1011E5TR-ND◆ 3,000 482.00/MCurrent Monitor SOT23-5 ZXCT1010CT-ND◆ 1.31 1.17 .93 ZXCT1010TR-ND◆ 3,000 482.00/MCHigh-Side Current Monitor SOT23-5 ZXCT1021E5TACT-ND◆ 1.44 1.30 1.03 ZXCT1021E5TATR-ND◆ 3,000 532.00/MHigh-Side Current Monitor SOT23-5 ZXCT1022E5TACT-ND◆ 1.44 1.30 1.03 ZXCT1022E5TATR-ND◆ 3,000 532.00/MHigh-Side Current Monitor with Comparator 8-SOIC ZXCT1030N8CT-ND◆ 1.71 1.53 1.22 ZXCT1030N8TR-ND◆ 500 427.50High-Side Inrush Controller and Electronic Fuse 8-SOIC ZXCT1032N8CT-ND◆ 1.75 1.50 1.23 ZXCT1032N8TR-ND◆ 500 437.50Double Current Sensor using Magnetic Sensing 10A 14DIP ZMC10D-ND† 8.41 7.58 6.23 — — —Precision Wide Input Range Current Monitor SOT23-5 ZXCT1050E5CT-ND◆ 1.52 1.36 1.08 ZXCT1050E5TR-ND◆ 3,000 560.00/MWide Input Range Current Monitor SOT23-5 ZXCT1051E5CT-ND◆ 1.52 1.36 1.08 ZXCT1051E5TR-ND◆ 3,000 560.00/MBidirectional Precision High-Side Current Monitor SOT23-5 ZXCT1041E5CT-ND◆ 1.85 1.59 1.30 ZXCT1041E5TR-ND◆ 3,000 713.00/MHigh Voltage High-Side Current Monitor SOT23-5 ZXCT1080E5CT-ND◆ 1.80 1.61 1.28 ZXCT1080E5TR-ND◆ 3,000 662.00/MHigh Voltage High-Side Current Monitor SOT23-5 ZXCT1081E5CT-ND◆ 1.63 1.47 1.17 ZXCT1081E5TR-ND◆ 3,000 602.00/MHigh Voltage High-Side Current Monitor SOT23-5 ZXCT1082E5TACT-ND◆ 1.75 1.50 1.23 ZXCT1082E5TATR-ND◆ 3,000 675.00/MReduced Height Micro-Power Current Monitor TDFN-5 ZXCT1012DAACT-ND◆ 1.75 1.50 1.23 ZXCT1012DAATR-ND◆ 3,000 675.00/MReduced Height Micro-Power Current Monitor TSOT23-5 ZXCT1012ET5CT-ND◆ 1.52 1.36 1.08 ZXCT1012ET5TR-ND◆ 3,000 560.00/MLow Offset Current Output Current Monitor SOT23-5 ZXCT1020E5CT-ND◆ 1.44 1.30 1.03 ZXCT1020E5TR-ND◆ 3,000 532.00/MComplementary Current Mirror SOT223-8 ZDS1009CT-ND◆ 2.57 2.21 1.81 ZDS1009TR-ND◆ 1,000 1066.00◆ RoHS Compliant† TubeMagnetic Field SensorsExtremely sensitive magnetic sensors utilizing themagneto-resistive properties of thin film permalloy. Theyare also incorporated into a range of low insertion lossand high isolation current sensors.Features: Digi-KeyCut TapePrice Each Digi-KeyTape and ReelDescriptionPackage Part No.1 10 100 Part No.Qty. PricingMagnetic Field Sensor with Internal Magnet SOT-223 ZMY20MTACT-ND 4.80 4.32 3.52 ZMY20MTATR-ND 1,000 2240.00Magnetic Field Sensor without Internal Magnet SOT-223 ZMY20TACT-ND 3.09 2.79 2.27 — — —Magnetic Field Sensor 4 Pin E-Line 4 ZMZ20-ND‡ 4.16 3.72 3.05 — — —Dual Magnetic Field Sensor, Magneto-Resistive SM8 ZMX40MT8TACT-ND 9.12 8.26 6.88 ZMX40MT8TATR-ND 1,000 4644.00‡ BulkPrecision PotentiometersSERIES 338212mm Rotary Position SensorFeatures:Surface Mount and Through-Hole versionsApplications:Volume control on audio equipmentFig. 1 — 3382G — Surface MountDimensions in mmFig. 2 — 3382H — Through-HoleRotationalLife(cycles)Price EachTape & Reel‡Pricing1,000Fig. Ω LinearityAdjustmentAngleDigi-KeyPart No.1 10 1002.5K ±2% 330° nom 1,000,000 3382G-1-252GCT-ND† 1.71 1.55 1.43 1240.00115K ±2% 330° nom 1,000,000 3382G-1-502GCT-ND† 1.71 1.55 1.43 1240.0010K ±2% 330° nom 1,000,000 3382G-1-103GCT-ND† 1.71 1.55 1.43 1240.0025K ±2% 330° nom 1,000,000 3382G-1-253GCT-ND† 1.71 1.55 1.43 1240.0050K ±2% 330° nom 1,000,000 3382G-1-503GCT-ND† 1.71 1.55 1.43 1240.00100K ±2% 330° nom 1,000,000 3382G-1-104GCT-ND† 1.71 1.55 1.43 1240.00®2.5K ±2% 330° nom 1,000,000 3382H-1-252-ND 1.98 1.80 1.26 —11.021 2 35.5 6.76.58.211.0021 2 35.546.5025K ±2% 330° nom 1,000,000 3382H-1-502-ND 1.98 1.80 1.26 —10K ±2% 330° nom 1,000,000 3382H-1-103-ND 1.98 1.80 1.26 —25K ±2% 330° nom 1,000,000 3382H-1-253-ND 1.98 1.80 1.26 —50K ±2% 330° nom 1,000,000 3382H-1-503-ND 1.98 1.80 1.26 —100K ±2% 330° nom 1,000,000 3382H-1-104-ND 1.98 1.80 1.26 —† Cut Tape ‡ For Tape and Reel part number, change CT-ND to TR-ND.®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)8787

NTSD1 Series - NTC Thermistors for Temperature SensingFeatures: Electric insulation on lead wire Excellent bending resistance and easy handling due to suitablehardness of surface coating High-accuracy of ±1% of resistance and B-Constant tolerance are realized dueto uniform thickness by the precise sheet forming method Specifications: Thermal Time Constant (25°C): 7seconds Operating Temperature Range: -40°C ~ 125°CResistance25°C(kΩ) ±1%B-Constant25-50°C(k) ±1%Permissive OperatingCurrent25°C (mA)Rated ElectricPower25°C (mW)Typical DissipationConstant 25°C(mW/°C)Dimensions - mm Digi-KeyPricingMurataA B L Part No.1 10 100 Part No.2.0 3500 1.05 21 2.1 3.8 2.5 30 490-4651-ND .56 3.43 25.93 NTSD1XM202FPB305.0 3700 0.68 21 2.1 3.0 2.0 30 490-4652-ND .56 3.43 25.93 NTSD1XR502FPB3010 3380 0.38 15 1.5 3.0 2.0 30 490-4653-ND .56 3.43 25.93 NTSD1XH103FPB3020 4050 0.31 21 2.1 3.8 2.5 30 490-4654-ND .56 3.43 25.93 NTSD1WB203FPB3030 4100 0.26 21 2.1 3.8 2.5 30 490-4655-ND .56 3.43 25.93 NTSD1WC303FPB3050 4150 0.20 21 2.1 3.0 2.0 30 490-4656-ND .55 3.35 25.33 NTSD1WD503FPB30100 4250 0.14 21 2.1 3.0 2.0 30 490-4657-ND .55 3.35 25.33 NTSD1WF104FPB302.0 3500 1.05 21 2.1 3.8 2.5 40 490-4658-ND .56 3.43 25.93 NTSD1XM202FPB405.0 3700 0.68 21 2.1 3.0 2.0 40 490-4659-ND .56 3.43 25.93 NTSD1XR502FPB4010 3380 0.38 15 1.5 3.0 2.0 40 490-4660-ND .56 3.43 25.93 NTSD1XH103FPB4020 4050 0.31 21 2.1 3.8 2.5 40 490-4661-ND .56 3.43 25.93 NTSD1WB203FPB4030 4100 0.26 21 2.1 3.8 2.5 40 490-4662-ND .56 3.43 25.93 NTSD1WC303FPB4050 4150 0.20 21 2.1 3.0 2.0 40 490-4663-ND .56 3.43 25.93 NTSD1WD503FPB40100 4250 0.14 21 2.1 3.0 2.0 40 490-4664-ND .56 3.43 25.93 NTSD1WF104FPB402.0 3500 1.05 21 2.1 3.8 2.5 50 490-4665-ND .56 3.43 25.93 NTSD1XM202FPB505.0 3700 0.68 21 2.1 3.0 2.0 50 490-4666-ND .56 3.43 25.93 NTSD1XR502FPB5010 3380 0.38 15 1.5 3.0 2.0 50 490-4667-ND .56 3.43 25.93 NTSD1XH103FPB5020 4050 0.31 21 2.1 3.8 2.5 50 490-4668-ND .55 3.35 25.33 NTSD1WB203FPB5030 4100 0.26 21 2.1 3.8 2.5 50 490-4669-ND .56 3.43 25.93 NTSD1WC303FPB5050 4150 0.20 21 2.1 3.0 2.0 50 490-4670-ND .55 3.35 25.33 NTSD1WD503FPB50100 4250 0.14 21 2.1 3.0 2.0 50 490-4671-ND .56 3.43 25.93 NTSD1WF104FPB50B2.5EpoxyResin0.80.46PolyurethaneWire2.5ALØ0.45Sn-3.5Ag SolderCopper WireNTPA Series - Inrush Current LimitersFig. 1ABHFig.123Resistance25°C(Ω) ±15%PermissibleMaximumCurrent25°C (A)PermissibleMaximumCurrent55°C (A)ThermalTimeConstant25°C (s)ThermalDissipationConstant(mW/°C)PermissibleElectrolyticCapacitor(µF)Dimensions - mm Digi-KeyPricing MurataA B C Part No.1 10 100 Part No.3.0 5.4 4.7 135 26.8 8,600 @ 100V 23.0 5.5 10.0 490-3942-ND 1.84 11.34 85.66 NTPAN3R0LDKB04.0 4.7 4.1 130 26.8 8,600 @ 100V 23.0 5.5 10.0 490-3943-ND 1.84 11.34 85.66 NTPAN4R0LDKB06.0 3.9 3.4 130 26.8 8,600 @ 100V 23.0 5.5 10.0 490-3944-ND 1.84 11.34 85.66 NTPAN6R0LDKB04.0 4.0 3.5 125 21.8 5,000 @ 100V 20.0 5.5 10.0 490-3945-ND 1.28 7.87 59.48 NTPAJ4R0LDKB06.0 3.4 2.9 125 21.8 5,000 @ 100V 20.0 5.5 10.0 490-3946-ND 1.28 7.87 59.48 NTPAJ6R0LDKB08.0 3.0 2.6 130 21.8 5,000 @ 100V 20.0 5.5 10.0 490-3947-ND 1.28 7.87 59.48 NTPAJ8R0LDKB010.0 2.6 2.2 130 21.8 5,000 @ 100V 20.0 5.5 10.0 490-3948-ND 1.28 7.87 59.48 NTPAJ100LDKB03.9 3.3 2.9 65 18.2 2,700 @ 100V 16.0 5.5 7.5 490-3949-ND .86 5.32 40.17 NTPAD3R9LDNB05.1 3.0 2.6 85 18.8 2,700 @ 100V 16.0 5.5 7.5 490-3950-ND .86 5.32 40.17 NTPAD5R1LDNB08.0 2.7 2.3 65 18.7 2,700 @ 100V 16.0 5.5 7.5 490-3951-ND .86 5.32 40.17 NTPAD8R0LDNB016.0 2.0 1.7 100 19.1 2,700 @ 100V 16.0 5.5 7.5 490-3952-ND .67 4.09 30.91 NTPAD160LDNB02.2 3.7 3.2 70 13.5 1,400 @ 100V 12.0 5.0 7.5 490-3953-ND .60 3.67 27.71 NTPAA2R2LDNB03.9 2.7 2.3 70 13.5 1,400 @ 100V 12.0 5.0 7.5 490-3954-ND .60 3.67 27.71 NTPAA3R9LDNB05.1 2.5 2.2 70 13.5 1,400 @ 100V 12.0 5.0 7.5 490-3955-ND .60 3.67 27.71 NTPAA5R1LDNB08.2 2.0 1.7 70 13.5 1,400 @ 100V 12.0 5.0 7.5 490-3956-ND .60 3.67 27.71 NTPAA8R2LDNB010.0 1.7 1.5 70 13.5 1,400 @ 100V 12.0 5.0 7.5 490-3957-ND .57 3.51 26.49 NTPAA100LDNB016.0 1.4 1.2 65 11.6 800 @ 100V 11.0 5.0 5.0 490-3958-ND .49 2.99 22.61 NTPA9160LBMB04.0 2.3 2.0 40 9.4 700 @ 100V 9.0 5.0 5.0 490-3959-ND .33 2.00 15.15 NTPA74R0LBMB08.0 1.7 1.5 40 9.5 570 @ 100V 9.0 5.0 5.0 490-3960-ND .33 2.00 15.15 NTPA78R0LBMB016.0 1.2 1.0 40 9.9 400 @ 100V 9.0 5.0 5.0 490-3961-ND .33 2.00 15.15 NTPA7160LBMB022.0 1.0 0.88 40 9.1 400 @ 100V 9.0 5.0 5.0 490-3962-ND .33 2.00 15.15 NTPA7220LBMB0Fig. 2Fig. 3CCCAABBPOSISTOR ®PTC Thermistors for HeatersFeatures: The heater element regulates designated temperature range Output wattage is decreasedautomatically when heat radiation is decreased Compact and flat surface shall realize easy toinstall for various set Depending on application, these PTC realize dual voltage useApplications: Heated Vessels Contact Lens Cleaner Portable Travel Iron Massager Fragrance ElectricPotDimensions in mmFig. 1 Fig. 26.52 -2321 303 35.3Ø 4.31.06 11 7.029.53037Ø 5.0 Ø 5.040Maximum CurieInrushCurrent Minimum Resistance Maximum Resistance Digi-KeyPrice EachMurataFig. Voltage (Vrms) Point (°C) (Maximum) Value @ 25°C (Ω) Value @ 25°C (Ω) Part No.1 10 100 Part No.260 90 ±7 5.0A 200 1200 490-4811-ND 10.24 9.20 7.25 PTWSB1BC201T260A001260 135 ±7 5.0A 200 1200 490-4812-ND 10.24 9.20 7.25 PTWSB1AS201T260A00260 200 ±7 5.0A 200 1200 490-4813-ND 10.24 9.20 7.25 PTWSB2AH201T260A00260 225 ±7 5.0A 200 1200 490-4814-ND 10.24 9.20 7.25 PTWSB2AG201T260A002 260 280 ±7 10.0A 200 1200 490-4815-ND 17.80 16.00 12.60 PTWTA1AD201T260A00POSISTOR ® Circuit Protection for Overcurrent Protection®Overcurrent Protection device with resettable function suitable for currentlimiting resistor. This product is chip type PTC thermistor for overcurrentprotection. Suitable for counter-measure for short circuit testing in portableequipment and current limiting resistor. Features: to protect the circuit in an overcurrent condition abnormality such as a automatically return to the initial condition and can be used repeatedlyDimensions (mm)Part No. L W T e a b cPRG18_RB 1.6 ±0.15 0.8 ±0.15 0.8 ±0.15 0.1 ~ 0.6 0.6 ~ 0.8 0.6 ~ 0.7 0.6 ~ 0.8PRG21_RA 2.0 ±0.2 1.25 ±0.2 0.9 ±0.2 0.2 min. 1.0 ~ 1.2 0.5 ~ 0.7 1.0 ~ 1.2PRG21_RK 2.0 ±0.2 1.25 ±0.2 1.25 ±0.2 0.2 min. 1.0 ~ 1.2 0.5 ~ 0.7 1.0 ~ 1.2eWLTWecChipb aSolder ResistLandMaximumVoltage(V)2420Non-operatingCurrent @TripCurrent @Max.CurrentResistance@ 25°CCuriePoint Digi-KeyCut TapePrice Each Digi-KeyTape and Reel Murata60°C (mA) -10°C (mA) (mA) (Ω) ±20% (°C) Part No.1 10 100 Part No.Qty. Pricing Part No.7 25 60 470 100 490-2473-1-ND .41 .36 .29 490-2473-2-ND 4,000 154.00/M PRG18BB471MB1RB10 35 130 220 100 490-2470-1-ND .41 .36 .29 490-2470-2-ND 4,000 154.00/M PRG18BB221MB1RB15 55 300 100 100 490-2469-1-ND .41 .36 .29 490-2469-2-ND 4,000 154.00/M PRG18BB101MB1RB20 75 630 47 100 490-2472-1-ND .41 .36 .29 490-2472-2-ND 4,000 154.00/M PRG18BB470MB1RB25 85 900 33 100 490-2471-1-ND .41 .36 .29 490-2471-2-ND 4,000 154.00/M PRG18BB330MB1RB30 110 1,100 22 100 490-3989-1-ND .67 .57 .50 490-3989-2-ND 3,000 334.00/M PRG21BB220MB1RK40 140 1,600 15 100 490-3990-1-ND .67 .57 .50 490-3990-2-ND 3,000 334.00/M PRG21BB150MB1RK80 320 3,500 6.8 90 490-4673-1-ND .71 .63 .50 490-4673-2-ND 4,000 267.00/M PRG21BC6R8MM1RA100 400 5,000 4.7 90 490-4672-1-ND .71 .63 .50 490-4672-2-ND 4,000 267.00/M PRG21BC4R7MM1RA6 500 2,000 10,000 0.2 90 490-3988-1-ND .71 .63 .50 490-3988-2-ND 4,000 267.00/M PRG21BC0R2MM1RA®For Digi-Reel ® information, please see page 73.88 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

POSISTOR® Circuit Protectionfor Overheat Sensing Chip Type®Dimensions in mm0.80.80.80.6-0.8Solder ResistChipLandThis chip PTC Thermistor is reflow soldering SMD type for overheatsensing for power transistors, power diodes and power ICs in hybridcircuits Features: 0.1 - 0.61.60.1 - 0.60.6-0.7 0.6-0.8Sensing Temp.@ 4.7kΩ(°C)MaximumVoltage(V)Resistance@ 25°C(Ω) ±50%CuriePoint(°C)OperatingTemperatureRange (°C)Digi-KeyPart No.Cut TapePrice Each1 10 100Digi-KeyPart No.Tape and ReelPricing4,00065 ±5 32 470 50 -20 ~ 80 490-2468-1-ND .41 .36 .29 490-2468-2-ND 154.00/M PRF18BG471QB1RB75 ±5 32 470 60 -20 ~ 90 490-2467-1-ND .41 .36 .29 490-2467-2-ND 154.00/M PRF18BF471QB1RB85 ±5 32 470 70 -20 ~ 100 490-2466-1-ND .41 .36 .29 490-2466-2-ND 154.00/M PRF18BE471QB1RB95 ±5 32 470 80 -20 ~ 110 490-2465-1-ND .41 .36 .29 490-2465-2-ND 154.00/M PRF18BD471QB1RB105 ±5 32 470 90 -20 ~ 120 490-2464-1-ND .41 .36 .29 490-2464-2-ND 154.00/M PRF18BC471QB1RB115 ±5 32 470 100 -20 ~ 130 490-2463-1-ND .41 .36 .29 490-2463-2-ND 154.00/M PRF18BB471QB1RB125 ±5 32 470 110 -20 ~ 140 490-2462-1-ND .41 .36 .29 490-2462-2-ND 154.00/M PRF18BA471QB1RB135 ±5 32 470 120 -20 ~ 150 490-2460-1-ND .41 .36 .29 490-2460-2-ND 154.00/M PRF18AR471QB1RB145 ±5 32 470 130 -20 ~ 160 490-2461-1-ND .38 .34 .27 — — PRF18AS471QB1RB85 ±3 32 470 — -20 ~ 100 490-4807-1-ND .43 .38 .30 490-4807-2-ND 161.00/M PRF18BE471RB1RB95 ±3 32 470 — -20 ~ 110 490-4806-1-ND .44 .39 .31 490-4806-2-ND 165.00/M PRF18BD471RB1RB105 ±3 32 470 — -20 ~ 120 490-4805-1-ND .47 .42 .33 490-4805-2-ND 176.00/M PRF18BC471RB1RB115 ±3 32 470 — -20 ~ 130 490-4804-1-ND .44 .39 .31 490-4804-2-ND 165.00/M PRF18BB471RB1RBMurataPart No.POSISTOR® Narrow Current Band –PTC ThermistorsFor Overcurrent ProtectionDimensions in mmThis product is leaded type PTC thermistor for overcurrent protection which is suitable for the current limiting resistor.Features: Small fluctuation in the circuit due to resistance tolerance ±10% Fig. 1FDH4.0TØdFig. 2DFØ dTFig. 3DFØ dTFig.Max.Voltage(V)Non-OperatingCurrent@ 60°C(mA)† Cut Tape ‡ Tape and BoxTripCurrent@ -10°C(mA)Max.Current(A)Resistance@ 25°C(Ω) ± %CuriePoint(°C)BodyDiameterDim. D(mm)ThicknessDim. T(mm)HeightDim. H(mm)LeadSpaceDim. F(mm)LeadDiameter(phi d) Digi-Key(mm) Part No.Price Each1 10 10030 122 240 1.5 10 ±10 130 4.5 3.5 9.5 5.0 0.5 490-3963-ND .69 .63 .50 PTGL04AS100K2N51B030 167 330 2.0 10 ±10 130 4.5 3.5 9.5 5.0 0.6 490-3964-ND .70 .63 .50 PTGL04AS100K2B51B030 269 530 3.5 3.9 ±10 130 5.5 3.5 10.5 5.0 0.6 490-3965-ND .56 .51 .40 PTGL05AS3R9K2B51B030 336 663 4.5 2.7 ±10 130 7.3 3.5 12.3 5.0 0.6 490-3966-ND .61 .55 .43 PTGL07AS2R7K2B51B030 420 829 5.0 1.8 ±10 130 7.3 3.5 12.3 5.0 0.6 490-3967-ND .89 .81 .64 PTGL07AS1R8K2B51B030 556 1097 6.0 1.2 ±10 130 9.3 3.5 14.3 5.0 0.6 490-3968-ND 1.21 1.09 .86 PTGL09AS1R2K2B51B030 685 1352 7.0 0.8 ±10 130 11.5 3.5 16.5 5.0 0.6 490-3969-ND 1.92 1.73 1.36 PTGL12AS0R8K2B51B051 168 332 1.0 10 ±10 130 4.5 4.5 9.5 5.0 0.6 490-3970-ND .70 .63 .50 PTGL04AS100K3B51B051 197 388 1.5 6.8 ±10 130 5.5 5.5 10.5 5.0 0.6 490-3971-ND .58 .53 .42 PTGL05AS6R8K3B51B051 307 606 3.0 3.3 ±10 130 7.3 7.3 12.3 5.0 0.6 490-3972-ND .61 .55 .43 PTGL07AS3R3K3B51B051 412 814 4.0 2.2 ±10 130 9.3 9.3 14.3 5.0 0.6 490-3973-ND 1.19 1.07 .85 PTGL09AS2R2K3B51B051 592 1168 5.0 1.2 ±10 130 11.5 11.5 16.5 5.0 0.6 490-3974-ND 1.91 1.72 1.36 PTGL12AS1R2K3B51B01 60 88 175 1.0 22 ±10 130 4.5 4.5 9.5 5.0 0.5 490-3975-ND .76 .68 .54 PTGL04AS220K4N51B060 115 226 1.0 22 ±10 130 4.5 4.5 9.5 5.0 0.6 490-3976-ND .75 .68 .54 PTGL04AS220K4B51B060 170 335 1.5 10 ±10 130 5.5 5.5 10.5 5.0 0.6 490-3977-ND .82 .74 .58 PTGL05AS100K4B51B060 186 368 2.2 5.6 ±10 130 7.3 7.3 12.3 5.0 0.5 490-3978-ND .61 .55 .43 PTGL07AS5R6K4N51B060 229 452 3.0 5.6 ±10 130 7.3 7.3 12.3 5.0 0.6 490-3979-ND .67 .61 .48 PTGL07AS5R6K4B51B060 333 656 4.0 3.3 ±10 130 9.3 9.3 14.3 5.0 0.6 490-3980-ND .99 .89 .71 PTGL09AS3R3K4B51B060 439 867 5.0 2.2 ±10 130 11.5 11.5 16.5 5.0 0.6 490-3981-ND 1.90 1.71 1.35 PTGL12AS2R2K4B51B0140 74 147 0.5 56 ±10 130 5.5 5.5 10.5 5.0 0.6 490-3982-ND .52 .47 .38 PTGL04AS560K6B51B0140 106 209 1.0 27 ±10 130 5.5 5.5 10.5 5.0 0.6 490-3983-ND .85 .77 .61 PTGL05AS270K6B51B0140 148 292 1.5 15 ±10 130 7.3 7.3 12.3 5.0 0.6 490-3984-ND 1.07 .96 .76 PTGL07AS150K6B51B0140 192 380 2.0 12 ±10 130 9.3 9.3 14.3 5.0 0.6 490-3985-ND 1.50 1.35 1.06 PTGL09AS120K6B51B0140 227 447 2.2 7.6 ±10 130 9.3 9.3 14.3 5.0 0.6 490-3986-ND 1.23 1.11 .87 PTGL09AS7R6K6B51B0140 310 613 3.5 4.7 ±10 130 11.5 11.5 16.5 5.0 0.6 490-3987-ND 1.26 1.14 .90 PTGL12AS4R7K6B51B0250 90 300 0.5 22 ±30 — 8.0 6.0 — 5.0 0.6 490-4808-1-ND† .68 .60 .47 PTGL07BB220N0B52A02250 90 300 0.5 22 ±30 — 8.0 6.0 — 5.0 0.6 490-4808-3-ND‡ 255.00/1,000 PTGL07BB220N0B52A0250 100 280 0.6 39 ±30 — 10.0 6.0 — 5.0 0.6 490-4809-1-ND† .89 .78 .61 PTGL09AR390N0B52A0250 100 280 0.6 39 ±30 — 10.0 6.0 — 5.0 0.6 490-4809-3-ND‡ 332.00/1,000 PTGL09AR390N0B52A03 265 118 330 1.0 25 ±25 — 10.0 6.0 — 5.0 0.6 490-4810-ND 1.19 1.07 .85 PTGL09AR250H8B52B0MurataPart No.HInrush Current LimitersDTHoneywell ICL Inrush Current Limiters are a cost-effective way of limiting theinrush of current that can damage components in a switching power supply andother power devices when the equipment is turned on.Features: Specifications: °C ~ 185°CResistance @25°C(Ω)Max. SteadyState Current(A)Resistance @Steady StateCurrent (Ω)Max. CoatedDiameter Dim. D(mm)Max. CoatedThickness Dim. T(mm)LeadDiameter(mm)Digi-KeyPrice EachHoneywell SensingPart No.1 10 25 Part No.0.5 30 0.01 32 8 1 480-3176-ND 6.70 4.90 4.59 ICL320R030-011 30 0.02 32 6 1 480-3177-ND 6.43 4.40 3.96 ICL321R030-012.5 8 0.06 22 6 1 480-3175-ND 5.83 3.99 3.59 ICL222R508-015 6 0.1 15 6 0.8 480-3172-ND 3.49 2.39 2.15 ICL155R006-015 7 0.07 15 6 0.8 480-3173-ND 5.49 3.76 3.39 ICL155R007-0110 8 0.1 22 6 1 480-3174-ND 5.83 3.99 3.59 ICL2210008-0116 4 0.27 15 6 0.8 480-3171-ND 5.23 3.58 3.23 ICL1516004-0150 2 0.72 11.5 5 0.8 480-3170-ND 4.35 2.98 2.68 ICL1250002-01®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)8989

HPTC Thermistors —PTO, YM120, YQS and YS SeriesPTC (Positive Temperature Coefficient) Thermistors are thermally sensitiveresistors made of polycrystalline ceramic materials. They are characterizedby an extremely large resistance change in a small temperature span.YM120 Series: This range of PTC thermistors is designed to operate atmain voltages and is intended for general purpose usage in over-current,over-voltage and direct over-temperature protection.Each device in the range consists of a disc of barium titanate thermistormaterial with silvered faces and solder coated copper lead wires. A paintedfinish is applied which is not intended to confer insulating properties.Fig. 1A38.1Fig. 3 NEW!AFig. 5 NEW!A2525** 38.1mm for part number235-1249-NDBBBFig. 25.08AFig. 4 NEW!3.18Fig. 6 NEW!A21.973038.12.038.1B4.50.67.62Resistance @ Dimension (mm) Digi-KeyPrice EachGE SensingFig. 25°C (Ω)A B Part No.1 10 100 Part No.PTO Series2 15.24 4.06 235-1130-ND 4.62 4.16 3.28 RL5305-2-120-12-PTO5 15.24 4.57 235-1133-ND 4.62 4.16 3.28 RL5506-5-65-50-PTO10 8.89 3.81 235-1131-ND 2.26 2.04 1.61 RL3005-10-110-12-PTO10 20.32 5.84 235-1137-ND◆ 5.51 4.96 3.91 RL7510-10-120-120-PTO25 8.89 3.81 235-1132-ND◆ 2.26 2.04 1.61 RL3005-25-110-12-PTO25 15.24 5.59 235-1139-ND◆ 4.31 3.88 3.05 RL5510-25-60-120-PTO50 8.89 3.81 235-1121-ND◆‡ 2.26 2.04 1.61 RL3006-50-40-25-PTO50 8.89 3.81 235-1122-ND◆‡ 2.26 2.04 1.61 RL3006-50-50-25-PTO50 8.89 3.81 235-1123-ND◆‡ 2.26 2.04 1.61 RL3006-50-60-25-PTO50 8.89 3.81 235-1124-ND◆ 2.26 2.04 1.61 RL3006-50-70-25-PTO50 8.89 3.81 235-1125-ND◆ 2.26 2.04 1.61 RL3006-50-80-25-PTO150 8.89 3.81 235-1126-ND◆ 2.26 2.04 1.61 RL3006-50-90-25-PTO50 8.89 3.81 235-1127-ND◆‡ 2.26 2.04 1.61 RL3006-50-100-25-PTO50 8.89 3.81 235-1128-ND◆‡ 2.26 2.04 1.61 RL3006-50-110-25-PTO50 11.43 5.08 235-1135-ND 3.83 3.45 2.72 RL4010-50-110-50-PTO50 12.70 5.08 235-1140-ND◆ 3.83 3.45 2.72 RL4510-50-120-120-PTO50 15.24 6.86 235-1142-ND 4.73 4.25 3.35 RL5515-50-65-240-PTO50 16.51 6.86 235-1143-ND◆ 4.73 4.25 3.35 RL6315-50-110-240-PTO100 16.51 6.86 235-1144-ND◆ 4.73 4.25 3.35 RL6015-100-120-240-PTO200 10.16 5.84 235-1136-ND 3.04 2.74 2.16 RL3312-200-110-50-PTO1,000 19.05 8.13 235-1146-ND 5.51 4.96 3.91 RL7020-1K-100-480-PTO1,500 8.89 7.87 235-1145-ND◆ 3.08 2.74 2.16 RL3020-1500-100-240-PTO2,000 13.97 8.13 235-1147-ND 4.62 4.16 3.28 RL5020-2K-100-480-PTO5,000 8.89 7.87 235-1148-ND◆ 3.04 2.74 2.16 RL3020-5K-100-480-PTOYM120 Series — RoHS Compliant6 17.5 — 235-1085-ND 6.64 5.81 4.51 YM120D480N06010 14.5 — 235-1084-ND 5.40 4.73 3.67 YM120D370N10015 11.5 — 235-1240-ND NEW! 3.72 3.26 2.53 YM120D260N150I15 11.5 — 235-1083-ND 3.73 3.27 2.54 YM120D260N15020 9.5 — 235-1082-ND 2.68 2.35 1.83 YM120D200N200233 7.5 — 235-1080-ND 2.68 2.35 1.83 YM120D150N33045 7.0 — 235-1079-ND 1.88 1.65 1.28 YM120D125N450150 4.0 — 235-1076-ND 3.12 2.73 2.12 YM120C60N151600 4.0 — 235-1074-ND 3.12 2.73 2.12 YM120C30N6011200 4.0 — 235-1073-ND 3.12 2.73 2.12 YM120C20N1221800 4.0 — 235-1072-ND 3.12 2.73 2.12 YM120C15N182NEW! YQS Series — RoHS Compliant NEW!5,000 8.89 7.62 235-1244-ND 3.04 2.74 2.16 YQS5934PTO25 8.89 3.81 235-1243-ND 2.26 2.04 1.61 YQS5898PTO350 8.89 3.81 235-1241-ND 2.26 2.04 1.61 YQS5749PTO50 8.89 3.80 235-1242-ND 2.26 2.04 1.61 YQS5751PTO100 10.7 5.1 235-1247-ND 2.64 2.37 1.87 YQS5856PTF4 10 — — 235-1245-ND 5.51 4.96 3.91 YQS600020 9.5 4.5 235-1249-ND* 3.92 3.52 2.78 YQS806520 6.0 4.5 235-1250-ND 2.72 2.45 1.93 YQS80675100 5.5 5.0 235-1251-ND 2.72 2.45 1.93 YQS8068120 6.5 5.0 235-1253-ND 4.55 4.10 3.23 YQS8121300 4.0 5.0 235-1252-ND 4.55 4.10 3.23 YQS8069NEW! YS Series — RoHS Compliant NEW!610 14.48 4.06 235-1246-ND 4.62 4.16 3.28 YS567750 16.5 6.9 235-1248-ND 4.72 4.25 3.35 YS5876PTF◆ RoHS Compliant‡ KCPTC1-KIT-ND Digi-Key ® 2 each of all values denoted (12 total pieces). Notebook style storage case and bin storage guide included ............................................................$24.18Inrush Current Limiters — CL SeriesSpecifications: Resistance under load is for reference only. Actual values may vary due toambient temperature, air flow, or mounting con ditions.TACLineTAlternateLocation300VDCT230V115VResistance Max.† Approx.@ 25°C Steady State Res. @ Diameter Digi-KeyPrice Each GE Sensing±25% (Ω) Current (Amps) I Max. (Ω) (mm) Part No.1 10 100 Part No.0.7 12.0 0.02 19.56 KC022L-ND◆ 5.05 4.54 3.58 CL-111.3 8.0 0.04 13.97 KC023L-ND◆ 3.30 2.97 2.34 CL-212.5 8.0 0.06 19.56 KC003L-ND◆ 2.78 2.50 1.97 CL-305.0 6.0 0.11 19.56 KC004L-ND◆ 2.78 2.50 1.97 CL-407.0 5.0 0.16 19.56 KC005L-ND◆ 2.78 2.50 1.97 CL-5010.0 5.0 0.18 19.56 KC006L-ND◆ 2.78 2.50 1.97 CL-6016.0 4.0 0.27 19.56 KC007L-ND◆ 2.78 2.50 1.97 CL-7047.0 3.0 0.49 19.56 KC008L-ND◆ 2.78 2.50 1.97 CL-80120.0 2.0 1.18 23.62 KC009L-ND◆ 3.23 2.91 2.29 CL-900.5 16.0 0.02 23.62 KC024L-ND◆ 6.44 5.79 4.56 CL-10110.0 3.2 0.18 10.16 KC011L-ND 2.44 2.20 1.73 CL-11010.0 1.7 0.34 10.16 KC012L-ND 2.44 2.20 1.73 CL-12050.0 1.6 0.75 11.43 KC013L-ND◆ 2.44 2.20 1.73 CL-13050.0 1.1 0.89 11.43 KC014L-ND◆ 2.44 2.20 1.73 CL-1405.0 4.7 0.11 13.97 KC015L-ND◆ 2.50 2.25 1.77 CL-1505.0 2.8 0.20 13.97 KC016L-ND◆ 2.50 2.25 1.77 CL-16016.0 2.7 0.33 13.97 KC017L-ND◆ 2.50 2.25 1.77 CL-17016.0 1.7 0.49 13.97 KC018L-ND◆ 2.50 2.25 1.77 CL-18025.0 2.4 0.41 13.97 KC019L-ND◆ 2.50 2.25 1.77 CL-19025.0 1.7 0.49 13.97 KC020L-ND◆ 2.50 2.25 1.77 CL-20030.0 1.5 0.60 10.16 KC021L-ND◆ 2.44 2.20 1.73 CL-210◆ RoHS Compliant † These values are suggested maximums based upon 25°C ambient, no air flow environmentwith the thermistor mounted 1/2" from circuit board.TPTC Resettable Fuses — PTF SeriesMinimum Limit Current: The minimum amount of current re quired by the PTC to guarantee switchingat the minimum ambient temperatures.Maximum Limit Current: The maximum amount of current the PTC must be able to pass withoutswitching at the maximum ambient temperature.Oper.Volt.122550120240R25°C(±20%)Dim.A(mm)SwitchCurrent(Min.)No-SwitchCurrent(Max.)Digi-KeyPrice Each GE Sensing0°C 25°C 25°C 55°C Part No. 1 10 100 Part No.2.5 15.2 0.92 0.82 0.55 0.40 235-1160-ND 3.16 2.85 2.24 RL5305-2.5-110-12-PTF5 11.4 0.55 0.49 0.33 0.24 235-1150-ND◆ 2.75 2.48 1.95 RL4005-5-110-12-PTF10 8.9 0.32 0.29 0.19 0.14 235-1151-ND◆ 2.35 2.11 1.67 RL3005-10-110-12-PTF25 8.9 0.20 0.18 0.12 0.09 235-1159-ND 2.35 2.11 1.67 RL3005-25-110-12-PTF1.5 19.1 1.34 1.19 0.81 0.59 235-1161-ND◆ 5.75 5.17 4.07 RL7008-1.5-110-25-PTF3.0 14.0 0.84 0.74 0.50 0.37 235-1162-ND◆ 3.52 3.16 2.49 RL5008-3.0-110-25-PTF5.0 15.2 0.65 0.58 0.39 0.29 235-1152-ND◆ 3.16 2.85 2.24 RL5506-5-110-50-PTF10 11.4 0.39 0.34 0.23 0.17 235-1153-ND◆ 3.16 2.85 2.24 RL4006-10-110-50-PTF50 11.4 0.19 0.17 0.11 0.08 235-1158-ND 3.16 2.85 2.24 RL4010-50-110-50-PTF100 10.7 0.13 0.12 0.08 0.06 235-1154-ND◆ 2.63 2.37 1.87 RL3810-100-110-50-PTF50 12.7 0.19 0.17 0.11 0.08 235-1156-ND◆ 3.52 3.16 2.49 RL4510-50-110-120-PTF100 10.2 0.13 0.11 0.08 0.06 235-1157-ND 2.63 2.37 1.87 RL3510-100-110-120-PTF100 16.5 0.16 0.15 0.10 0.07 235-1166-ND◆ 5.75 5.17 4.07 RL6315-100-110-240-PTF250 16.5 0.10 0.09 0.06 0.05 235-1167-ND◆ 5.75 5.17 4.07 RL6315-250-110-240-PTF◆ RoHS CompliantA90 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

BCcomponentsSurface Mount PTC ThermistorsFor Overload ProtectionThe component consists of a high-performance PTC ceramic disc mounted in a lead-frame, for direct soldering onto a printed-circuitboard (PCB) or substrate. The ceramic is soldered to the lead-frame by a local reflow process, during which the solder layer is meltedto the metallized ceramic surface using a low residue flux.Features:2.83.64.04.03.457.22.01.2Dimensions in mm8.07.610.010.60.2Res. @25°CVoltageMaximumInt @It @CeramicSize Digi-KeyCut TapePrice EachVishay(Ω)(V)25°C 70°C 25°CInch (mm) Part No.1 10 50 Part No.Telecommunication Type10 245 165 100 270 0.25 (6.5) BC1568CT-ND 1.01 .69 .65 2322 661 9701617.5 300 150 100 250 0.25 (6.5) BC1561CT-ND 1.01 .69 .65 2322 661 9700320 300 120 70 250 0.25 (6.5) BC1569CT-ND 1.01 .69 .65 2322 661 9701825 265 120 70 220 0.25 (6.5) BC1563CT-ND 1.21 .83 .78 2322 661 9700535 425 110 70 175 0.25 (6.5) BC1564CT-ND 1.01 .69 .65 2322 661 9700940 265 80 50 130 0.25 (6.5) BC1560CT-ND 1.01 .69 .65 2322 661 97002General Industrial Type3.3 24 400 — 650 0.25 (6.5) BC1567CT-ND 1.01 .69 .65 2322 661 970139.4 60 150 100 300 0.25 (6.5) BC1565CT-ND 1.01 .69 .65 2322 661 97011Leaded PTC ThermistorsFor Overload Protection◆ RoHS CompliantThese directly heated thermistors have a positive temperature co efficient and are primarily intended for overload protection.Features: according to XGPU2 standard UL1434Res.@ 25°CInt Max.@ 25°CIt Min.@ 25°CVoltageMax.TypicaløDDimensions - mmMaximum Digi-KeyPrice EachVishay±20% (Ω) (mA) (mA) (V) (mm) D T Part No.1 10 50 Part No.0.9 920 1380 30 12 12.5 4.0 BC2323-ND◆ .99 .67 .64 PTCCL13H921DBE50 94 145 60 4.5 5.0 4.0 BC2319-ND◆ .63 .43 .41 PTCCL05H940EBE3.8 450 675 145 12 12.5 5.0 BC2322-ND◆ .94 .64 .60 PTCCL13H451FBE48 110 165 265 6.5 7.0 5.5 BC2321-ND◆ .72 .49 .47 PTCCL07H111HBE56 95 143 265 4.5 5.0 5.5 BC2320-ND◆ .40 .27 .26 PTCCL05H950HBE120 63 95 265 4.5 5.0 5.5 BC2318-ND◆ .63 .43 .41 PTCCL05H630HBE500 28 42 265 4.5 5.0 5.5 BC2316-ND◆ .58 .40 .38 PTCCL05H280HBE1200 19 29 265 4.5 5.0 5.5 BC2315-ND◆ .63 .43 .41 PTCCL05H190HBE4.020.0D5.0Ø0.6Dimensions in mmTDaleASurface Mount LinearPTC Chip Thermistors – TFPT SeriesBEDCFeatures:Specifications: Working Voltage for 5 secondsDimensions - mmCase SizeA B C D E0603 1.60 ±0.10 0.85 ±0.10 0.45 ±0.10 0.30 ±0.20 0.30 ±0.200805 2.00 ±0.15 1.25 ±0.15 0.45 ±0.10 0.40 ±0.20 0.40 ±0.201206 3.20 ±0.15 1.60 ±0.15 0.55 ±0.10 0.50 ±0.25 0.50 ±0.25®HResistanceMaximum PowerCut TapeTape and ReelCase ValuesWorking Voltage Rating Digi-KeyPrice EachDigi-KeyPricing Vishay DaleSize (Ω) Tolerance (VDC)†(mW) Part No.1 10 100 Part No.1,000 Part No.100 ±5% 30 75 541-1164-1-ND 1.80 1.58 1.24 541-1164-2-ND 653.00 TFPT0603L1000JV1K ±0.5% 30 75 541-1165-1-ND 2.40 2.10 1.65 541-1165-2-ND 870.00 TFPT0603L1001DV1K ±1% 30 75 541-1166-1-ND 2.00 1.75 1.38 541-1166-2-ND 725.00 TFPT0603L1001FV1K ±5% 30 75 541-1198-1-ND 1.80 1.58 1.24 541-1198-2-ND 653.00 TFPT0603L1001JV0603150 ±1% 30 75 541-1167-1-ND 2.00 1.75 1.38 541-1167-2-ND 725.00 TFPT0603L1500FV220 ±1% 30 75 541-1168-1-ND 2.00 1.75 1.38 541-1168-2-ND 725.00 TFPT0603L2200FV330 ±1% 30 75 541-1169-1-ND 2.00 1.75 1.38 541-1169-2-ND 725.00 TFPT0603L3300FV390 ±5% 30 75 541-1170-1-ND 1.80 1.58 1.24 541-1170-2-ND 653.00 TFPT0603L3900JV470 ±1% 30 75 541-1171-1-ND 2.00 1.75 1.38 541-1171-2-ND 725.00 TFPT0603L4700FV820 ±1% 30 75 541-1199-1-ND 2.00 1.75 1.38 — — TFPT0603L8200FV100 ±5% 40 100 541-1200-1-ND 1.40 1.23 .96 541-1200-2-ND 508.00 TFPT0805L1000JV1K ±1% 40 100 541-1172-1-ND 2.00 1.75 1.38 541-1172-2-ND 725.00 TFPT0805L1001FV1K ±5% 40 100 541-1173-1-ND 1.80 1.58 1.24 541-1173-2-ND 653.00 TFPT0805L1001JV1.2K ±1% 40 100 541-1174-1-ND 2.00 1.75 1.38 541-1174-2-ND 725.00 TFPT0805L1201FV1.5K ±1% 40 100 541-1175-1-ND 2.00 1.75 1.38 541-1175-2-ND 725.00 TFPT0805L1501FV1.8K ±1% 40 100 541-1176-1-ND 2.00 1.75 1.38 — — TFPT0805L1801FV1.8K ±5% 40 100 541-1177-1-ND 1.80 1.58 1.24 — — TFPT0805L1801JV2.2K ±1% 40 100 541-1178-1-ND 2.00 1.75 1.38 — — TFPT0805L2201FV2.2K ±5% 40 100 541-1179-1-ND 1.80 1.58 1.24 — — TFPT0805L2201JV08052.7K ±1% 40 100 541-1180-1-ND 2.00 1.75 1.38 541-1180-2-ND 725.00 TFPT0805L2701FV3.3K ±1% 40 100 541-1181-1-ND 2.00 1.75 1.38 541-1181-2-ND 725.00 TFPT0805L3301FV3.3K ±5% 40 100 541-1182-1-ND 1.80 1.58 1.24 — — TFPT0805L3301JV3.9K ±1% 40 100 541-1183-1-ND 2.00 1.75 1.38 541-1183-2-ND 725.00 TFPT0805L3901FV3.9K ±5% 40 100 541-1184-1-ND 1.80 1.58 1.24 — — TFPT0805L3901JV470 ±1% 40 100 541-1185-1-ND 2.00 1.75 1.38 541-1185-2-ND 725.00 TFPT0805L4700FV4.7K ±1% 40 100 541-1186-1-ND 2.00 1.75 1.38 541-1186-2-ND 725.00 TFPT0805L4701FV4.7K ±5% 40 100 541-1187-1-ND 1.80 1.58 1.24 541-1187-2-ND 653.00 TFPT0805L4701JV5K ±1% 40 100 541-1201-1-ND 2.00 1.75 1.38 541-1201-2-ND 725.00 TFPT0805L5001FV5K ±5% 40 100 541-1202-1-ND 1.80 1.58 1.24 541-1202-2-ND 653.00 TFPT0805L5001JV680 ±5% 40 100 541-1188-1-ND 1.80 1.58 1.24 — — TFPT0805L6800JV10K ±1% 50 125 541-1189-1-ND 2.00 1.75 1.38 541-1189-2-ND 725.00 TFPT1206L1002FV10K ±5% 50 125 541-1190-1-ND 1.80 1.58 1.24 541-1190-2-ND 653.00 TFPT1206L1002JV220 ±1% 50 125 541-1191-1-ND 2.00 1.75 1.38 541-1191-2-ND 725.00 TFPT1206L2200FV2.2K ±5% 50 125 541-1192-1-ND 1.80 1.58 1.24 541-1192-2-ND 653.00 TFPT1206L2201JV1206 3.9K ±5% 50 125 541-1193-1-ND 1.80 1.58 1.24 541-1193-2-ND 653.00 TFPT1206L3901JV4.7K ±1% 50 125 541-1194-1-ND 2.00 1.75 1.38 — — TFPT1206L4701FV5.6K ±5% 50 125 541-1195-1-ND 1.80 1.58 1.24 541-1195-2-ND 653.00 TFPT1206L5601JV6.8K ±1% 50 125 541-1196-1-ND 2.00 1.75 1.38 541-1196-2-ND 725.00 TFPT1206L6801FV6.8K ±5% 50 125 541-1197-1-ND 1.80 1.58 1.24 541-1197-2-ND 653.00 TFPT1206L6801JV† Rated continuous Working Voltage is maximum working voltage or square root of the power rating times resistance value, whichever is less.®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)9191

BCcomponentsLeaded PTC Thermistors –Overload Protection for TelecommunicationHDTAdvanced developments in telephone equipment in recent years have radically altered the protection requirements for both exchange and subscriber equipment. The range of Positive TemperatureCoefficient (PTC) thermistors includes devices specially designed to provide overcurrent protection.Features: them from any harsh environments and to improve their lifetime5.00.6Resistance@ 25°CVoltageMaximumNon-TripCurrentTripCurrentDimensions - mmMaximumDigi-KeyCut TapePrice EachDigi-KeyTape and ReelPricing Vishay(Ω) (V) Int (mA) Int (mA) D T H Part No.1 10 50 Part No.1,500 Part No.25 220 70 200 8.5 5.0 11.5 BC1554CT-ND .74 .51 .48 BC1554TR-ND 445.50/M 2322 661 93048Fig.12PTC Thermistors – For Capacitor ChargingFeatures: Self-protecting in case of malfunction of short-circuit relay or internal short-circuit of capacitor Encased thermistor disk with clamp contacts For high pulse currents and highnumber of operating cycles Flame-retardant plastic case Case material UL-listed Sn-plated lead-free solder pinsApplications: In-rush current limiter (charging resistor) for smoothing and DC link capacitors To replace high-power fixed resistors for capacitor chargingDimensions in mmRatedResistance(Ω)MaximumPulseCurrent(A)BreakdownVoltage(V)Vmax(VDC)Digi-KeyPart No.1Pricing10 100EpcosPart No.360 22 — — 495-4087-ND 3.96 28.32 226.56 B59105J0130A020800 100 — — 495-4089-ND 3.96 28.32 226.56 B59109J0130A020550 20 50 >700 495-3449-ND 3.50 25.00 200.00 B59201J0140B010650 56 25 >700 495-3450-ND 3.41 24.34 194.72 B59202J0135B010800 100 20 >900 495-3451-ND 3.41 24.34 194.72 B59204J0130B010Fig. 1 Fig. 2 12.5141810230.3243.257.6211910.16Surface Mount PTC Thermistors – For Temperature ProtectionFeatures: Thermistor chip with lead-free tinned terminations Small size Fast and reliable response Suitable for reflow solderingApplications: DC/DC converters Home appliances Dimmers Electronic ballasts Temperature management in automotive electronics Over temperatureprotection of power transistors and power IC’s (e.g. in battery pack, notebook) SMPSSize Dimensions - mmCode L W T0603 1.6 0.8 0.80805 2.0 1.25 0.8LWTHSizeCode0603080506030805NominalThresholdTemperatureRatedResistanceMaximumOperatingVoltage Digi-KeyCut TapePrice EachDigi-KeyTape and ReelPricing Epcos(°C)(Ω)(VDC) Part No.1 10 100 Part No.4,000 Part No.115 470 32 495-2412-1-ND .68 .60 .47 495-2412-2-ND 247.00/M B59601A0115A062125 470 32 495-2413-1-ND .70 .62 .49 — — B59601A0125A06270 ≤1K 25 495-2415-1-ND .86 .75 .59 495-2415-2-ND 334.00/M B59701A0070A06290 ≤1K 25 495-2608-1-ND .96 .56 .41 495-2608-2-ND 328.00/M B59701A0090A062100 ≤1K 25 495-2609-1-ND 1.04 .60 .44 495-2609-2-ND 328.00/M B59701A0100A062110 ≤1K 25 495-2610-1-ND .96 .56 .41 495-2610-2-ND 328.00/M B59701A0110A062130 ≤1K 25 495-2612-1-ND .96 .56 .41 495-2612-2-ND 328.00/M B59701A0130A062NEW! Superior Series NEW!85 470 32 495-4303-1-ND .88 .77 .61 495-4303-2-ND 319.00/M B59641A0085A06295 470 32 495-4304-1-ND .88 .77 .61 495-4304-2-ND 319.00/M B59641A0095A062105 470 32 495-4305-1-ND .88 .77 .61 495-4305-2-ND 319.00/M B59641A0105A062115 470 32 495-4306-1-ND .88 .77 .61 495-4306-2-ND 319.00/M B59641A0115A062125 470 32 495-4307-1-ND .88 .77 .61 495-4307-2-ND 319.00/M B59641A0125A062135 470 32 495-4308-1-ND .88 .77 .61 495-4308-2-ND 319.00/M B59641A0135A062145 470 32 495-4309-1-ND .88 .77 .61 495-4309-2-ND 319.00/M B59641A0145A06270 680 32 495-4310-1-ND 1.08 .95 .75 495-4310-2-ND 392.00/M B59721A0070A06280 680 32 495-4311-1-ND 1.08 .95 .75 495-4311-2-ND 392.00/M B59721A0080A06290 680 32 495-4312-1-ND 1.08 .95 .75 495-4312-2-ND 392.00/M B59721A0090A062100 680 32 495-4313-1-ND 1.08 .95 .75 495-4313-2-ND 392.00/M B59721A0100A062110 680 32 495-4314-1-ND 1.08 .95 .75 495-4314-2-ND 392.00/M B59721A0110A062120 680 32 495-4315-1-ND 1.08 .95 .75 495-4315-2-ND 392.00/M B59721A0120A062130 680 32 495-4316-1-ND 1.08 .95 .75 495-4316-2-ND 392.00/M B59721A0130A062Surface Mount PTCThermistors – ForOvercurrent ProtectionFeatures: Suitable for reflow soldering and for automatic placementApplications: Overcurrent protection Short-circuit protection®Fig. 1 Fig. 2 Fig. 31.6 8.06.32.50.753.21.9Max.3.010.02.3Dimensions in mm8.03.33.0SizeRatedResistanceRatedCurrentSwitchCurrentMaximumSwitchCurrent Digi-KeyCut TapePrice EachDigi-KeyTape and Reel EpcosFig. Code (Ω) (mA) (mA) (A) Part No.1 10 100 Part No.Qty. Pricing Part No.1210 27 90 180 0.5 495-2416-1-ND 1.36 1.19 .94 495-2416-2-ND 2,000 492.00/M B59606A0110A06211210 55 70 130 0.4 495-2417-1-ND 1.25 1.10 .86 495-2417-2-ND 2,000 452.00/M B59607A0120A0621210 125 50 90 0.3 495-2418-1-ND 1.25 1.10 .86 495-2418-2-ND 2,000 452.00/M B59707A0120A0621210 400 15 40 0.2 495-3878-1-ND 1.49 1.31 1.03 495-3878-2-ND 2,000 539.00/M B59807A0090A0623225 55 40 85 0.7 495-2419-1-ND 2.10 1.84 1.45 495-2419-2-ND 1,000 762.00 B59115P1080A0622 3225 25 65 135 1.0 495-2421-1-ND 2.10 1.84 1.45 495-2421-2-ND 1,000 762.00 B59215P1080A0623225 4.6 165 340 1.0 495-2420-1-ND 2.10 1.84 1.45 495-2420-2-ND 1,000 762.00 B59201P1080A0623 3225 16 150 310 1.6 495-3877-1-ND 3.14 2.76 2.17 495-3877-2-ND 1,000 1140.00 B59315P1120A062Leaded PTC Thermistors – For Temperature ProtectionFeatures: Thermistor pellet with insulating encapsulation Low-resistance Steep R/T curve Silver-plated and insulated AWG 26 litz wires Extremely fast response due to small dimensions UL approved to UL 1434 (file number E69802) Applications: Thermal protection of winding in electric motors Limit temperature monitoringNominalThresholdTemperature(°C)RatedResistance(Ω)MaximumOperatingVoltage(VDC)Digi-KeyPrice EachEpcosPart No.1 10 100 Part No.70 ≤100 30 495-2615-ND 4.30 3.08 2.46 B59100M1070A070120 ≤100 30 495-2617-ND 3.99 2.86 2.29 B59100M1120A070155 ≤100 30 495-2618-ND 3.99 2.86 2.29 B59100M1155A0707Ø0.42520Max.~10Dimensions in mmØ3Max.®For Digi-Reel ® information, please see page 73.92 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Leaded PTC ThermistorsFor Overcurrent ProtectionFig. 1 Fig. 2bTbTDimensions in mmFeatures: Short response times UL approval for UL 1434 (file number E69802) VDE approval (license number 104843 E)Applications: Overcurrent and short-circuit protectionhØ0.65h35Min.Fig.12RatedResistance(Ω)† Cut Tape ‡ Tape and ReelRatedVoltage(V)RatedCurrent(mA)SwitchCurrent(mA)Maximum SwitchCurrent(A)DimensionsmmDigi-KeyPrice Eachb T h Part No.1 10 100EpcosPart No.25 380 123 245 2.0 12.5 7.0 16.5 495-3879-ND 4.02 2.59 1.99 B59750B0120A07050 380 87 173 2.0 12.5 7.0 16.5 495-3880-ND 4.02 2.59 1.99 B59751B0120A07070 380 64 127 1.4 8.5 7.0 12.0 495-3886-ND 2.38 1.54 1.18 B59770B0120A07080 380 69 137 2.0 12.5 7.0 16.5 495-3881-ND 4.02 2.59 1.99 B59752B0120A070120 380 56 112 2.0 12.5 7.0 16.5 495-3882-ND 4.02 2.59 1.99 B59753B0120A070150 380 43 86 1.4 8.5 7.0 12.0 495-3888-ND 2.38 1.54 1.18 B59772B0120A070150 380 50 100 2.0 12.5 7.0 16.5 495-3883-ND 4.02 2.59 1.99 B59754B0120A070500 500 28 55 1.4 12.5 7.0 16.5 495-3884-ND 4.02 2.59 1.99 B59755B0115A070500 500 24 48 1.0 8.5 7.0 12.0 495-3889-ND 2.38 1.54 1.18 B59773B0120A0701100 500 16 32 1.0 8.5 7.0 12.0 495-3890-ND 2.38 1.54 1.18 B59774B0115A0707500 1000 8 17 0.5 12.5 7.0 16.5 495-3885-ND 9.67 6.22 4.79 B59758B0110A0700.8 24 850 1700 5.5 13.5 3.5 17.0 495-3897-ND 2.26 1.46 1.12 B59955C0120A0701.2 24 600 1200 4.3 11.0 3.5 14.5 495-3899-ND 1.92 1.24 .95 B59965C0120A0701.8 24 450 900 3.0 9.0 3.5 12.5 495-3901-ND 1.64 1.06 .81 B59975C0120A0704.6 24 250 500 1.0 6.5 3.5 10.0 495-3904-ND 1.41 .91 .70 B59985C0120A0705.6 63 250 500 4.3 11.0 3.5 14.5 495-3898-ND 1.93 1.24 .96 B59960C0120A0709.4 63 150 300 3.0 9.0 3.5 12.5 495-3900-ND 1.64 1.06 .81 B59970C0120A07010 230 200 400 2.2 13.5 5.0 17.0 495-3891-ND 2.48 1.60 1.23 B59850C0120A07013 24 120 240 0.7 4.0 3.5 7.5 495-3907-ND 1.18 .76 .59 B59995C0120A07015 230 140 280 1.5 11.0 5.0 14.5 495-3892-ND 2.03 1.31 1.01 B59860C0120A07025 63 50 110 1.0 6.5 3.5 10.0 495-3902-ND 1.41 .91 .70 B59980C0080A07025 63 85 170 1.0 6.5 3.5 10.0 495-3903-ND 1.41 .91 .70 B59980C0120A07025 230 100 200 1.0 9.0 5.0 12.5 495-2613-ND 1.93 1.24 .96 B59870C0120A07055 63 30 60 0.7 4.0 3.5 7.5 495-3905-ND 1.18 .76 .59 B59990C0080A07055 63 50 100 0.7 4.0 3.5 7.5 495-3906-ND 1.18 .76 .59 B59990C0120A07070 230 55 110 0.4 6.5 5.0 10.0 495-2614-1-ND† 2.61 1.51 1.11 B59880C0120A05170 230 55 110 0.4 6.5 5.0 10.0 495-2614-2-ND‡ 1477.50/1,500 B59880C0120A051150 230 30 60 0.2 4.0 5.0 7.5 495-3895-ND 1.42 .91 .70 B59890C0120A0701200 500 15 30 0.1 6.5 5.0 10.0 495-3893-ND 1.64 1.06 .81 B59885C0120A0701500 500 12 24 0.1 6.5 5.0 10.0 495-3894-ND 1.64 1.06 .81 B59886C0120A070Inrush Current LimitersFeatures: e Applications: Specifications: ±20%Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6 NEW! Fig. 7Fig. 8Dimensions in mmH68.569.5611.5715716721721726131416222328283136Ø0.636Ø0.636Ø0.632Ø0.832Ø1Ø12532Ø132Ø15557.57.57.57.57.5Fig.1234Res. @ Imax (A) B25/100 Digi-Key25°C (Ω) 0°C ~ 65°C (K) Part No.Pricing1 10 100EpcosPart No.4.7 3.0 2800 495-2079-ND .68 5.92 46.48 B57153S0479M00010 2.0 2800 495-2076-ND .68 5.92 46.48 B57153S0100M00015 1.8 2900 495-2077-ND .68 5.92 46.48 B57153S0150M00033 1.3 3000 495-2078-ND .68 5.92 46.48 B57153S0330M0005 4.2 2800 495-2093-ND .84 7.37 57.92 B57235S0509M0006 4.0 2800 495-3043-ND .58 5.08 39.88 B57235S0609M0008 3.5 2900 495-3044-ND .84 7.37 57.92 B57235S0809M00010 3.0 2900 495-2092-ND .84 7.37 57.92 B57235S0100M0002.5 5.5 2700 495-3049-ND‡ 2.88 25.20 198.00 B57236S0259L0025 4.5 2800 495-3051-ND‡ 1.22 10.69 84.01 B57236S0509L0025 4.5 2800 495-2096-ND 1.14 9.96 78.29 B57236S0509M00010 3.5 2900 495-2094-ND 1.14 9.96 78.29 B57236S0100M00012 3.2 2900 495-3045-ND 1.14 9.96 78.29 B57236S0120M00016 2.9 2965 495-3046-ND 1.14 9.96 78.29 B57236S0160M00020 2.8 3065 495-3047-ND 1.14 9.96 78.29 B57236S0200M00025 2.5 3065 495-3048-ND 1.14 9.96 78.29 B57236S0250M00050 1.9 3165 495-2095-ND 1.14 9.96 78.29 B57236S0500M0001 9.0 2700 495-2098-ND 1.39 12.15 95.45 B57237S0109M0002.2 7.0 2800 495-3055-ND 1.39 12.15 95.45 B57237S0229M0002.5 6.5 2800 495-3056-ND 1.39 12.15 95.45 B57237S0259M0004.7 5.1 2900 495-2099-ND 1.39 12.15 95.45 B57237S0479M0005 5.0 2900 495-2100-ND 1.39 12.15 95.45 B57237S0509M00010 3.7 3060 495-2097-ND 1.39 12.15 95.45 B57237S0100M00015 3.0 3000 495-3053-ND 1.39 12.15 95.45 B57237S0150M00022 2.8 3300 495-3054-ND 1.39 12.15 95.45 B57237S0220M00033 2.5 3300 495-3057-ND 1.39 12.15 95.45 B57237S0330M000Res. @ Imax (A) B25/100 Digi-KeyPricing EpcosFig. 25°C (Ω) 0°C ~ 65°C (K) Part No.1 10 100 Part No.2.5 8.4 2800 495-3062-ND 1.45 12.69 99.74 B57238S0259M0004.7 6.6 2965 495-2102-ND 1.45 12.69 99.74 B57238S0479M0005 6.4 2965 495-2103-ND 1.45 12.69 99.74 B57238S0509M000510 5.0 3065 495-2101-ND 1.45 12.69 99.74 B57238S0100M00015 4.4 3165 495-3058-ND 1.45 12.69 99.74 B57238S0150M00016 4.0 3165 495-3059-ND 1.68 14.74 115.83 B57238S0160M00022 4.0 3265 495-3060-ND 1.45 12.69 99.74 B57238S0220M00025 3.4 3265 495-3061-ND 1.68 14.74 115.83 B57238S0250M0001 16.0 2800 495-4157-ND NEW! 3.12 27.30 214.50 B57364S2109A0022 12.0 2900 495-4114-ND NEW! 2.96 25.94 203.78 B57364S209M2 12.0 2900 495-4159-ND NEW! 3.12 27.30 214.50 B57364S2209A0026 2.5 11.0 2900 495-4158-ND NEW! 3.12 27.30 214.50 B57364S2259A0024 9.5 3060 495-4160-ND NEW! 3.12 27.30 214.50 B57364S2409A0025 8.5 3060 495-4161-ND NEW! 3.12 27.30 214.50 B57364S2509A00210 7.5 3300 495-4162-ND NEW! 3.12 27.30 214.50 B57364S2100A0021 16.0 2800 495-1871-ND 2.96 25.94 203.78 B57364S0109M00072.5 11 2900 495-3063-ND 2.96 25.94 203.78 B57364S0259M0005 8.5 3060 495-2114-ND 2.96 25.94 203.78 B57364S0509M00010 7.5 3300 495-2112-ND 2.96 25.94 203.78 B57364S0100M0001 20.0 2800 495-2123-ND 5.92 51.81 407.06 B57464S0109M00082 13.5 2900 495-4112-ND NEW! 5.92 51.81 407.06 B57464S209M0005 9.5 3060 495-4113-ND NEW! 5.92 51.81 407.06 B57464S509M00010 8.0 3300 495-4111-ND NEW! 5.31 46.45 364.93 B57464S100M000‡ Tolerance ±15%More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)9393

Bimetal Cutoff Thermal SwitchesThese thin, lightweight, wafer-type AIRPAX ® thermal switches are ideal for applications when space is at a premium. The basic switchassembly is operated by a bimetal disc with positive, reinforced snap-action which is known for its repeat reliability. For high humidity andcontaminating atmosphere applications, the device is sealed with a non-volatile resin.Specifications: 5A resistive, 120VAC; 3A resistive, 240VAC; 10A resistive, 240VAC °F ~ 325° Exposure Limit: -40°FCapDiscContactsActuator Ball.640.9061.187TripContactSwitching Digi-KeyPrice EachSensataTemperature (°F)OperationCurrent Part No.1 10 50 Part No.AIRPAX ® 5003 Series (Designed for 120VAC and 240VAC)105 SPST-NO 5A/120VAC 723-1220-ND 12.32 11.66 9.90 C53GAB105A-090Y125 SPST-NC 5A/120VAC 723-1221-ND 12.32 11.66 9.90 O53GAB125A-110Y165 SPST-NC 5A/120VAC 723-1222-ND 12.32 11.66 9.90 O53GAB165A-150Y175 SPST-NC 5A/120VAC 723-1224-ND 12.32 11.66 9.90 O53GAB175A-160Y190 SPST-NO 5A/120VAC 723-1226-ND 12.32 11.66 9.90 C53GAB190A-175Y215 SPST-NO 5A/120VAC 723-1223-ND 12.32 11.66 9.90 C53GAB215B-190YAIRPAX ® 5004 Series (Designed for 240VAC)240 SPST-NC 10A/240VAC 723-1227-ND 13.86 13.12 11.14 O54EAB240B-215YPCB Mount Thermal SwitchesThe AIRPAX ® 6600 and 6700 series are subminiature bimetallic snap acting thermostats whichprovide accurate and reliable sensing and switching in a single device. Primarily developed forthermal management applications on power supplies, the AIRPAX® 6600 and 6700 series arealso ideally suited for use on crowded PC boards.Specifications: Range: 6600 Series: 40°C ~ 130°C (104°F ~ 266°F); 6700 Series: 40°C ~ 130°C (104°F ~ 266°F)Ω at 500VDC 6600 Series — 8-DIP Contact Operation6700 Series — TO-220.400SPST-NO.250SPST-NC.400Ø.1435.300Close on Rise(Case Isolatedfrom Terminals)Open on Rise(Case Isolatedfrom Terminals).706HTripTemperatureContactDigi-KeyPrice EachSensata(°C)OperationPart No.1 10 50Part No.6600 Series — 8-DIP60 SPST-NO 723-1216-ND 8.78 8.44 7.65 66F06070 SPST-NC 723-1211-ND 8.78 8.44 7.65 66L07080 SPST-NC 723-1215-ND 8.78 8.44 7.65 66L08085 SPST-NC 723-1210-ND 8.78 8.44 7.65 66L08585 SPST-NO 723-1212-ND 8.78 8.44 7.65 66F08590 SPST-NC 723-1218-ND 8.78 8.44 7.65 66L09090 SPST-NO 723-1214-ND 8.78 8.44 7.65 66F09095 SPST-NC 723-1219-ND 8.78 8.44 7.65 66L09595 SPST-NO 723-1217-ND 8.78 8.44 7.65 66F095120 SPST-NO 723-1213-ND 8.78 8.44 7.65 66F1206700 Series — TO-22045 SPST-NO 723-1191-ND 8.78 8.44 7.65 67F04550 SPST-NC 723-1203-ND 8.78 8.44 7.65 67L05050 SPST-NO 723-1192-ND 8.78 8.44 7.65 67F05060 SPST-NC 723-1204-ND 8.78 8.44 7.65 67L06060 SPST-NO 723-1193-ND 8.78 8.44 7.65 67F06065 SPST-NC 723-1205-ND 8.78 8.44 7.65 67L06565 SPST-NO 723-1194-ND 8.78 8.44 7.65 67F06570 SPST-NC 723-1206-ND 8.78 8.44 7.65 67L07070 SPST-NO 723-1190-ND 8.78 8.44 7.65 67F07075 SPST-NC 723-1207-ND 8.78 8.44 7.65 67L07575 SPST-NO 723-1195-ND 8.78 8.44 7.65 67F07580 SPST-NC 723-1187-ND 8.78 8.44 7.65 67L08080 SPST-NO 723-1189-ND 8.78 8.44 7.65 67F08085 SPST-NC 723-1188-ND 8.78 8.44 7.65 67L08585 SPST-NO 723-1196-ND 8.78 8.44 7.65 67F08590 SPST-NC 723-1186-ND 8.78 8.44 7.65 67L09090 SPST-NO 723-1182-ND 8.78 8.44 7.65 67F09090 SPST-NO 723-1197-ND† 8.78 8.44 7.65 67F090P95 SPST-NC 723-1208-ND 8.78 8.44 7.65 67L09595 SPST-NO 723-1185-ND 8.78 8.44 7.65 67F09595 SPST-NO 723-1198-ND† 9.75 9.38 8.50 67F095P100 SPST-NC 723-1184-ND 8.78 8.44 7.65 67L100100 SPST-NO 723-1181-ND 8.78 8.44 7.65 67F100105 SPST-NO 723-1179-ND 8.78 8.44 7.65 67F105110 SPST-NC 723-1183-ND 5.85 5.63 5.10 67L110110 SPST-NO 723-1180-ND 8.78 8.44 7.65 67F110110 SPST-NO 723-1199-ND† 8.78 8.44 7.65 67F110P115 SPST-NO 723-1200-ND 8.78 8.44 7.65 67F115120 SPST-NC 723-1209-ND 8.78 8.44 7.65 67L120120 SPST-NO 723-1201-ND 8.78 8.44 7.65 67F120130 SPST-NO 723-1202-ND 8.78 8.44 7.65 67F130† With plastic mounting bracket, for applications requiring VDE.94 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Encapsulated Thermal SwitchesEncapsulated Thermal Switches are ideal for sensing the temperature of a surface or ofstagnant air in an enclosure. Available with PC pins or with flexible wire leads for remoteinstallation. Their high temp er a ture resistance and high dielectric strength make it ideal forprotecting heatsink-mounted semi conductors. Other applications would be protecting powersupplies, or simply turning on a fan at a desired temperature.Current Sensitivity: The thermal switches are not current sensitive at rated currents. Atloads above the rated values, up to maximum loading there is self-heating of the currentcarrying contacts.Insulation Resistance: Leads to Earth: 2500V @ 25°C, 1500V @ 100°C. Across opencontacts, dependent on response temperature: 500V eff. AC.Marking: Response temperature in clear text (5°C steps). Normally Closed = blue or black(epoxy); Normally Open = red (epoxy)UL E46827 CSA LR28044-10 VDE 4523-4510-0702/329CULeadedDim. in inches (mm).071(1.80) .154(3.90).200(5.08)PCPins.350(8.89).350(8.89).563 (14.3).70 (17.8) 6.0 (152.4).071(1.80) .154(3.90).200(5.08).563(10.79).70 .495(17.78) (12.57).200(5.08)Electrical SpecificationsType N/C N/OVoltage Rating 50 ~ 60 Hz 120 V / 250 V 120 V / 250 VCurrent Rating Resistive 3.0 A / 2.0 A 1 A / 1 A*Current Rating Inductive 1.8 A / 1.2 A 1 A / 1 AMax. Load Resistive 4.0 A 4.0 AShort Circuit Current Up to 6.3 A 6.3 AContact Arrangement Normally Closed N/C -Normally Open N/OContact Resistance < 40 mΩ < 40 mΩResponse Temperature Range 70°C ~ 160° C 65°C ~ 150°CTolerance Range ±5°C ±5°CMax. Permanent Temperature of Housing - G410 220°C 220°CHousing Material - G410 PPS PPSThermal Conductivity 4.0 BTU - in. / hr. / ft2 / °F* When N/O contacts are closed, self heating will occur at currents exceeding normalrating. It is possible that, given certain combinations of set temperature current andambient temperature, the contacts will not reset.SwitchTemp. Digi-KeyPrice Each Cantherm(°C) Part No. 1 10 50 100 Part No.Thermal Switches With LeadsNormally Closed70 317-1000-ND 6.56 5.74 4.10 3.28 F20A07005ACFA06E75 317-1001-ND 6.56 5.74 4.10 3.28 F20A07505ACFA06E80 317-1002-ND 6.56 5.74 4.10 3.28 F20A08005ACFA06E85 317-1003-ND 6.56 5.74 4.10 3.28 F20A08505ACFA06E90 317-1004-ND 6.56 5.74 4.10 3.28 F20A09005ACFA06E95 317-1005-ND 6.56 5.74 4.10 3.28 F20A09505ACFA06E100 317-1006-ND 6.56 5.74 4.10 3.28 F20A10005ACFA06E105 317-1007-ND 6.56 5.74 4.10 3.28 F20A10505ACFA06E110 317-1008-ND 6.56 5.74 4.10 3.28 F20A11005ACFA06E115 317-1009-ND 6.56 5.74 4.10 3.28 F1111525ACFA06E120 317-1010-ND 6.56 5.74 4.10 3.28 F20A12005ACFA06E125 317-1011-ND 6.56 5.74 4.10 3.28 F20A12505ACFA06E130 317-1012-ND 6.56 5.74 4.10 3.28 F20A13005ACFA06E135 317-1013-ND 6.56 5.74 4.10 3.28 F20A13505ACFA06E140 317-1014-ND 6.56 5.74 4.10 3.28 F20A14005ACFA06E145 317-1015-ND 6.56 5.74 4.10 3.28 F20A14505ACFA06E150 317-1016-ND 6.56 5.74 4.10 3.28 F20A15005ACFA06E155 317-1017-ND 6.56 5.74 4.10 3.28 F20A15505ACFA06E160 317-1018-ND 6.56 5.74 4.10 3.28 F20A16005ACFA06ENormally Open70 317-1019-ND 8.52 7.46 5.33 4.26 F1107015ACFA06E75 317-1020-ND 8.52 7.46 5.33 4.26 F1107515ACFA06E80 317-1021-ND 8.52 7.46 5.33 4.26 F1108015ACFA06E85 317-1022-ND 8.52 7.46 5.33 4.26 F1108515ACFA06EBi-metal Cutouts / TemperatureRegulatorsSwitchTemp. Digi-Key(°C) Part No.The thermal response works a bimetal snap element electrically connected to the switch contact.The switch system is current insensitive. The thermal switches react only to external thermaleffects. Double contacts ensure high switch performance and long service life. The housing,base, and the mounting brackets are voltage-free (Standard version: base and mountingbrackets are aluminum-plated steel). Heat transfer occurs directly through the metallic base viaconvection, radiation and conduction in gaseous and solid media. The mounting flange is floatingand can be rotated to any desired position with respect to the electrical terminals.temperature.ADVANTAGES: housings, con n ec tions and mounting stylesUL E48909 CSA LR85477-1 VDE 0631Price Each1 10 50 100CanthermPart No.90 317-1023-ND 8.52 7.46 5.33 4.26 F1109015ACFA06E95 317-1024-ND 8.52 7.46 5.33 4.26 F1109515ACFA06E100 317-1025-ND 8.52 7.46 5.33 4.26 F1110015ACFA06E105 317-1026-ND 8.52 7.46 5.33 4.26 F1110515ACFA06E110 317-1027-ND 8.52 7.46 5.33 4.26 F1111015ACFA06E120 317-1029-ND 8.52 7.46 5.33 4.26 F1112015ACFA06E130 317-1031-ND 8.52 7.46 5.33 4.26 F1113015ACFA06E135 317-1032-ND 8.52 7.46 5.33 4.26 F1113515ACFA06E145 317-1034-ND 8.52 7.46 5.33 4.26 F1114515ACFA06E150 317-1035-ND 8.52 7.46 5.33 4.26 F1115015ACFA06EThermal Switches With PC PinsNormally Closed120 317-1048-ND 6.56 5.74 4.10 3.28 F11120251ZA0060135 317-1051-ND 6.56 5.74 4.10 3.28 F11135251ZA0060140 317-1052-ND 6.56 5.74 4.10 3.28 F11140251ZA0060145 317-1053-ND 6.56 5.74 4.10 3.28 F11145251ZA0060150 317-1054-ND 6.56 5.74 4.10 3.28 F11150251ZA0060155 317-1055-ND 6.56 5.74 4.10 3.28 F11155251ZA0060160 317-1056-ND 6.56 5.74 4.10 3.28 F11160251ZA006070 317-1321-ND 6.56 5.74 4.10 3.28 F1107025360006075 317-1322-ND 6.56 5.74 4.10 3.28 F1107525360006080 317-1323-ND 6.56 5.74 4.10 3.28 F1108025360006085 317-1324-ND 6.56 5.74 4.10 3.28 F1108525360006090 317-1325-ND 6.56 5.74 4.10 3.28 F1109025360006095 317-1326-ND 6.56 5.74 4.10 3.28 F11095253600060100 317-1318-ND 6.56 5.74 4.10 3.28 F11100253600060Fig. 1 Fig. 21.37 (34.80).03 (.76).374(9.50).016 (.41) Ø.66 (Ø16.76).25(6.35).146(3.71).71(18.03).94(23.88)1.2(30.48).248(6.3)SwitchTemp. Digi-Key(°C) Part No.Price Each1 10 50 100Electrical SpecificationsCanthermPart No.105 317-1319-ND 6.56 5.74 4.10 3.28 F11105253600060110 317-1327-ND 6.56 5.74 4.10 3.28 F11110253600060115 317-1328-ND 6.56 5.74 4.10 3.28 F11115253600060120 317-1329-ND 6.56 5.74 4.10 3.28 F11120253600060125 317-1330-ND 6.56 5.74 4.10 3.28 F11125253600060130 317-1331-ND 6.56 5.74 4.10 3.28 F11130253600060135 317-1332-ND 6.56 5.74 4.10 3.28 F11135253600060Normally Open125 317-1068-ND 8.52 7.46 5.33 4.26 F11125151ZA0060130 317-1069-ND 8.52 7.46 5.33 4.26 F11130151ZA0060135 317-1070-ND 8.52 7.46 5.33 4.26 F11135151ZA0060140 317-1071-ND 8.52 7.46 5.33 4.26 F11140151ZA0060145 317-1072-ND 8.52 7.46 5.33 4.26 F11145151ZA0060150 317-1073-ND 8.52 7.46 5.33 4.26 F11150151ZA0060155 317-1074-ND 8.52 7.46 5.33 4.26 F11155151ZA0060160 317-1075-ND 8.52 7.46 5.33 4.26 F11160151ZA006095 317-1320-ND 8.52 7.46 5.33 4.26 F1109515360006085 317-1342-ND 8.52 7.46 5.33 4.26 F1108515360006090 317-1343-ND 8.52 7.46 5.33 4.26 F11090153600060100 317-1344-ND 8.52 7.46 5.33 4.26 F11100153600060105 317-1345-ND 8.52 7.46 5.33 4.26 F11105153600060110 317-1346-ND 8.52 7.46 5.33 4.26 F11110153600060115 317-1347-ND 8.52 7.46 5.33 4.26 F11115153600060120 317-1348-ND 8.52 7.46 5.33 4.26 F11120153600060125 317-1349-ND 8.52 7.46 5.33 4.26 F11125153600060Dim. in inches (mm).543(13.8).661(16.8).717(18.2).937(23.8)Voltage Rating 50-60Hz 120V / 250VCurrent Rating Resistive 15A / 10.0ACurrent Rating Inductive 6.3AMaximum Load Resistive 20A / 16AContact Resistance< 50mΩNominal Temperature Range 0°C ~ 170°CTolerance Range±5°CMaximum PermanentTemperature175°CHousing MaterialDuroplastOverall Height (mm) 9.5 (+0.2)Contacts: Normally Closed Normally OpenHFig.1SwitchTemperature Digi-KeyPrice EachCantherm(°C) Part No.1 10 50 100 Part No.Normally Closed20 317-1367-ND 8.40 7.35 5.25 4.20 R200202535 317-1078-ND 8.80 7.70 5.50 4.40 R200352595 317-1089-ND 6.92 6.06 4.33 3.46 R2009525100 317-1090-ND 6.92 6.06 4.33 3.46 R2010025150 317-1468-ND 6.60 5.78 4.13 3.30 R201502515 317-1491-ND NEW! 7.92 6.93 4.95 3.96 CS701525Y20 317-1495-ND NEW! 7.92 6.93 4.95 3.96 CS702025Y30 317-1499-ND NEW! 7.92 6.93 4.95 3.96 CS703025Y35 317-1503-ND NEW! 7.92 6.93 4.95 3.96 CS703525Y40 317-1507-ND NEW! 7.92 6.93 4.95 3.96 CS704025Y45 317-1509-ND NEW! 7.92 6.93 4.95 3.96 CS704525Y50 317-1513-ND NEW! 7.92 6.93 4.95 3.96 CS705025Y60 317-1517-ND NEW! 7.92 6.93 4.95 3.96 CS706025Y65 317-1519-ND NEW! 7.92 6.93 4.95 3.96 CS706525Y70 317-1523-ND NEW! 7.92 6.93 4.95 3.96 CS707025Y75 317-1525-ND NEW! 7.92 6.93 4.95 3.96 CS707525Y80 317-1529-ND NEW! 7.92 6.93 4.95 3.96 CS708025Y85 317-1531-ND NEW! 7.92 6.93 4.95 3.96 CS708525Y90 317-1535-ND NEW! 7.92 6.93 4.95 3.96 CS709025Y95 317-1537-ND NEW! 7.92 6.93 4.95 3.96 CS709525YFig.12SwitchTemperature Digi-Key(°C) Part No.Price Each1 10 50 100CanthermPart No.100 317-1541-ND NEW! 7.92 6.93 4.95 3.96 CS710025Y115 317-1545-ND NEW! 7.92 6.93 4.95 3.96 CS711525Y120 317-1547-ND NEW! 7.92 6.93 4.95 3.96 CS712025Y130 317-1550-ND NEW! 7.92 6.93 4.95 3.96 CS713025Y150 317-1552-ND NEW! 7.92 6.93 4.95 3.96 CS715025Y20 317-1412-ND 8.40 7.35 5.25 4.20 R2002025A11925 317-1413-ND 8.40 7.35 5.25 4.20 R2002525A11930 317-1414-ND 8.40 7.35 5.25 4.20 R2003025A11935 317-1415-ND 8.40 7.35 5.25 4.20 R2003525A11965 317-1420-ND 6.60 5.78 4.13 3.30 R2006525A11970 317-1421-ND 6.60 5.78 4.13 3.30 R2007025A11980 317-1423-ND 6.60 5.78 4.13 3.30 R2008025A11990 317-1425-ND 6.60 5.78 4.13 3.30 R2009025A11995 317-1426-ND 6.60 5.78 4.13 3.30 R2009525A119100 317-1427-ND 6.60 5.78 4.13 3.30 R2010025A119110 317-1429-ND 6.60 5.78 4.13 3.30 R2011025A119115 317-1430-ND 6.60 5.78 4.13 3.30 R2011525A119120 317-1431-ND 6.60 5.78 4.13 3.30 R2012025A119125 317-1432-ND 6.60 5.78 4.13 3.30 R2012525A119130 317-1469-ND 6.60 5.78 4.13 3.30 R2013025A119(Continued)More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)9595

Bi-metal Cutouts / Temperature Regulators (Cont.)Fig.21SwitchTemperature Digi-Key(°C) Part No.Price Each1 10 50 100CanthermPart No.150 317-1433-ND 6.60 5.78 4.13 3.30 R2015025A11915 317-1492-ND NEW! 7.92 6.93 4.95 3.96 CS701525Z20 317-1496-ND NEW! 7.92 6.93 4.95 3.96 CS702025Z25 317-1498-ND NEW! 7.92 6.93 4.95 3.96 CS702525Z30 317-1500-ND NEW! 7.92 6.93 4.95 3.96 CS703025Z35 317-1504-ND NEW! 7.92 6.93 4.95 3.96 CS703525Z40 317-1508-ND NEW! 7.92 6.93 4.95 3.96 CS704025Z45 317-1510-ND NEW! 7.92 6.93 4.95 3.96 CS704525Z50 317-1514-ND NEW! 7.92 6.93 4.95 3.96 CS705025Z60 317-1518-ND NEW! 7.92 6.93 4.95 3.96 CS706025Z65 317-1520-ND NEW! 7.92 6.93 4.95 3.96 CS706525Z70 317-1524-ND NEW! 7.92 6.93 4.95 3.96 CS707025Z75 317-1526-ND NEW! 7.92 6.93 4.95 3.96 CS707525Z80 317-1530-ND NEW! 7.92 6.93 4.95 3.96 CS708025Z85 317-1532-ND NEW! 7.92 6.93 4.95 3.96 CS708525Z90 317-1536-ND NEW! 7.92 6.93 4.95 3.96 CS709025Z95 317-1538-ND NEW! 7.92 6.93 4.95 3.96 CS709525Z100 317-1542-ND NEW! 7.92 6.93 4.95 3.96 CS710025Z105 317-1543-ND NEW! 7.92 6.93 4.95 3.96 CS710525Z110 317-1544-ND NEW! 7.92 6.93 4.95 3.96 CS711025Z115 317-1546-ND NEW! 7.92 6.93 4.95 3.96 CS711525Z120 317-1548-ND NEW! 7.92 6.93 4.95 3.96 CS712025Z125 317-1549-ND NEW! 7.92 6.93 4.95 3.96 CS712525Z130 317-1551-ND NEW! 7.92 6.93 4.95 3.96 CS713025Z150 317-1553-ND NEW! 7.92 6.93 4.95 3.96 CS715025ZNormally Open20 317-1366-ND 8.40 7.35 5.25 4.20 R200201535 317-1092-ND 8.80 7.70 5.50 4.40 R200351550 317-1094-ND 6.92 6.06 4.33 3.46 R200501580 317-1096-ND 6.92 6.06 4.33 3.46 R2008015100 317-1097-ND 6.92 6.06 4.33 3.46 R201001570 317-1409-ND 8.40 7.35 5.25 4.20 R2007015SwitchTemperature Digi-KeyPrice EachCanthermFig. (°C) Part No.1 10 50 100 Part No.90 317-1410-ND 8.40 7.35 5.25 4.20 R200901515 317-1489-ND NEW! 7.92 6.93 4.95 3.96 CS701515Y20 317-1493-ND NEW! 7.92 6.93 4.95 3.96 CS702015Y35 317-1501-ND NEW! 7.92 6.93 4.95 3.96 CS703515Y40 317-1505-ND NEW! 7.92 6.93 4.95 3.96 CS704015Y1 50 317-1511-ND NEW! 7.92 6.93 4.95 3.96 CS705015Y60 317-1515-ND NEW! 7.92 6.93 4.95 3.96 CS706015Y70 317-1521-ND NEW! 7.92 6.93 4.95 3.96 CS707015Y80 317-1527-ND NEW! 7.92 6.93 4.95 3.96 CS708015Y90 317-1533-ND NEW! 7.92 6.93 4.95 3.96 CS709015Y100 317-1539-ND NEW! 7.92 6.93 4.95 3.96 CS710015Y15 317-1434-ND 8.40 7.35 5.25 4.20 R2001515A11920 317-1435-ND 8.40 7.35 5.25 4.20 R2002015A11925 317-1436-ND 8.40 7.35 5.25 4.20 R2002515A11970 317-1441-ND 6.60 5.78 4.13 3.30 R2007015A11980 317-1442-ND 6.60 5.78 4.13 3.30 R2008015A11990 317-1443-ND 6.60 5.78 4.13 3.30 R2009015A119100 317-1444-ND 6.60 5.78 4.13 3.30 R2010015A11915 317-1490-ND NEW! 7.92 6.93 4.95 3.96 CS701515Z220 317-1494-ND NEW! 7.92 6.93 4.95 3.96 CS702015Z25 317-1497-ND NEW! 7.92 6.93 4.95 3.96 CS702515Z35 317-1502-ND NEW! 7.92 6.93 4.95 3.96 CS703515Z40 317-1506-ND NEW! 7.92 6.93 4.95 3.96 CS704015Z50 317-1512-ND NEW! 7.92 6.93 4.95 3.96 CS705015Z60 317-1516-ND NEW! 7.92 6.93 4.95 3.96 CS706015Z70 317-1522-ND NEW! 7.92 6.93 4.95 3.96 CS707015Z80 317-1528-ND NEW! 7.92 6.93 4.95 3.96 CS708015Z90 317-1534-ND NEW! 7.92 6.93 4.95 3.96 CS709015Z100 317-1540-ND NEW! 7.92 6.93 4.95 3.96 CS710015ZHControl ThermostatsThese thermostats were developed as a small, inexpensive, high performancebimetal thermostat which can be used as a controller. These thermostats usea sharp semipermanent, snap spring with a flat non-distorting bimetal.ADVANTAGES: APPLICATIONS: SwitchTemp. (°C)Digi-KeyPart No.Price Each1 10 50 100CanthermPart No.Normally Closed15 317-1389-ND 94.00 82.25 58.75 47.00 MQT8K015XB20 317-1388-ND 94.00 82.25 58.75 47.00 MQT8K020XB37 317-1390-ND 94.00 82.25 58.75 47.00 MQT8K037XBNormally Open0 317-1386-ND 94.00 82.25 58.75 47.00 MQT8K000XBARB5 317-1387-ND 94.00 82.25 58.75 47.00 MQT8K005XBARB20 317-1393-ND 94.00 82.25 58.75 47.00 MQT8K020YB25 317-1391-ND 94.00 82.25 58.75 47.00 MQT8K025YB35 317-1392-ND 94.00 82.25 58.75 47.00 MQT8K035YBTS3 Series Moxie ® Thermal SensorsMoxies are variable resistance NTC thermal sensors having a highly specific “transi tion region”. Within thistransition region the devices exhibit a coefficient from -40%/°C ~ -200%/°C. Below the transition region theyexhibit a linear “thermistor” characteristic of -2%/°C ~ -4%/°C.Technical Data: TYPICAL RESPONSE CHARACTERISTICSTemp. Coefficient (%/°C) TS3-57 TS3-65 TS3-75 TS3-85Pre-Transition -2.0 -4.0 -3.5 -3.0Transition -100 -200 -70 -40Post-Transition -0.25 -0.5 -1.0 -1.5Fig.SwitchingTemperatureDigi-KeyPart No.Price Each1 10 50CanthermPart No.1 57°C 317-1098-ND 7.48 6.55 4.68 TS3-572 57°C 317-1099-ND 8.24 7.21 5.15 TS3-57B33 57°C 317-1100-ND 8.24 7.21 5.15 TS3-57C31 65°C 317-1101-ND 7.48 6.55 4.68 TS3-652 65°C 317-1102-ND 8.24 7.21 5.15 TS3-65B33 65°C 317-1103-ND 8.24 7.21 5.15 TS3-65C31 75°C 317-1104-ND 7.48 6.55 4.68 TS3-752 75°C 317-1105-ND 8.24 7.21 5.15 TS3-75B33 75°C 317-1106-ND 8.24 7.21 5.15 TS3-75C31 85°C 317-1107-ND 7.48 6.55 4.68 TS3-852 85°C 317-1108-ND 8.24 7.21 5.15 TS3-85B33 85°C 317-1109-ND 8.24 7.21 5.15 TS3-85C3Fig. 1 Fig. 20.1870.2500.148 0.540.1420.220.0160.0400.3400.530.1620.0800.530.080TO-18 PackageFig. 30.670.080Dimensions in Inches0.451.080.53YGM Series PTC ThermistorsPTC thermistors act as thermal pro tectionfor electrical machines, and are well known500.0particularly as motor-protectors. PTCthermistors have a non-linear resistance/ 3.0tem per ature response, and at a specifiedtemperature the resistance changes rapidly to10.0a very high value.10.0Dimensions in mmTechnical Data: 200°C Maximum Allowable Operating Voltage at 25°C: U maximum 25V Maximum Allowable Power Dissipation at 25°C: 690mW Insulation strength (between leads and outer insulation) also for threaded sensor: 2.5kVResponseWire Digi-KeyPrice EachCanthermTemperature Color Code Part No.1 10 50 Part No.80°C White - White 317-1110-ND 6.68 5.85 4.18 YGM1-C50890°C Green - Green 317-1111-ND 6.68 5.85 4.18 YGM1-C509110°C Brown - Brown 317-1113-ND 6.68 5.85 4.18 YGM1-C511120°C Grey - Grey 317-1114-ND 6.68 5.85 4.18 YGM1-C512170°C White - Green 317-1121-ND 6.68 5.85 4.18 YGM1-C517180°C Red - White 317-1122-ND 6.68 5.85 4.18 YGM1-C51896 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Thermal FusesVD EDescription:Thermal fuses are components which will automatically opena circuit and switch off an appliance, if the permissible operatingtemperature of the appliance is exceeded.Ø4Dimensions in mm10.57135Ø1.02 / AWG18TemperatureTFTemperatureTHDigi-KeyPart No.Price Each1 10 50CanthermPart No.77°C 55°C 317-1125-ND .98 .86 .62 SDJ1-DF077S84°C 60°C 317-1126-ND .98 .86 .62 SDJ1-DF084S91°C 67°C 317-1127-ND .98 .86 .62 SDJ1-DF091S98°C 76°C 317-1128-ND .98 .86 .62 SDJ1-DF098S100°C 78°C 317-1129-ND .98 .86 .62 SDJ1-DF100S104°C 80°C 317-1130-ND .98 .86 .62 SDJ1-DF104S119°C 95°C 317-1132-ND .98 .86 .62 SDJ1-DF119S128°C 106°C 317-1133-ND .98 .86 .62 SDJ1-DF128S141°C 117°C 317-1134-ND .98 .86 .62 SDJ1-DF141S144°C 120°C 317-1135-ND .98 .86 .62 SDJ1-DF144S152°C 128°C 317-1136-ND .98 .86 .62 SDJ1-DF152S192°C 162°C 317-1139-ND .98 .86 .62 SDJ1-DF192S240°C 200°C 317-1142-ND .98 .86 .62 SDJ1-DF240ST F T H Thermal ProtectorsSwitching Digi-KeyPrice Each CanthermTemperature Part No.1 10 50 Part No.Normally Closed60°C 317-1395-ND 7.24 6.34 4.53 B1206025AEDA0GE70°C 317-1396-ND 7.24 6.34 4.53 B1207025AEDA0GE75°C 317-1397-ND 7.24 6.34 4.53 B1207525AEDA0GE85°C 317-1398-ND 7.24 6.34 4.53 B1208525AEDA0GE95°C 317-1399-ND 7.24 6.34 4.53 B1209525AEDA0GE105°C 317-1400-ND 7.24 6.34 4.53 B1210525AEDA0GE115°C 317-1401-ND 7.24 6.34 4.53 B1211525AEDA0GE125°C 317-1402-ND 7.24 6.34 4.53 B1212525AEDA0GE135°C 317-1403-ND 7.24 6.34 4.53 B1213525AEDA0GE150°C 317-1404-ND 7.24 6.34 4.53 B1215025AEDA0GE160°C 317-1405-ND 7.24 6.34 4.53 B1216025AEDA0GENormally Open60°C 317-1447-ND 8.96 7.84 5.60 B1206015AEDA0GE65°C 317-1448-ND 8.96 7.84 5.60 B1206515AEDA0GE70°C 317-1449-ND 8.96 7.84 5.60 B1207015AEDA0GESwitching Digi-KeyTemperature Part No.Price Each1 10 50CanthermPart No.75°C 317-1450-ND 8.96 7.84 5.60 B1207515AEDA0GE80°C 317-1451-ND 8.96 7.84 5.60 B1208015AEDA0GE85°C 317-1452-ND 8.96 7.84 5.60 B1208515AEDA0GE90°C 317-1453-ND 8.96 7.84 5.60 B1209015AEDA0GE95°C 317-1454-ND 8.96 7.84 5.60 B1209515AEDA0GE100°C 317-1455-ND 8.96 7.84 5.60 B1210015AEDA0GE105°C 317-1456-ND 8.96 7.84 5.60 B1210515AEDA0GE110°C 317-1457-ND 8.96 7.84 5.60 B1211015AEDA0GE115°C 317-1458-ND 8.96 7.84 5.60 B1211515AEDA0GE120°C 317-1459-ND 8.96 7.84 5.60 B1212015AEDA0GE125°C 317-1460-ND 8.96 7.84 5.60 B1212515AEDA0GE130°C 317-1461-ND 8.96 7.84 5.60 B1213015AEDA0GE135°C 317-1462-ND 8.96 7.84 5.60 B1213515AEDA0GE140°C 317-1463-ND 8.96 7.84 5.60 B1214015AEDA0GE145°C 317-1464-ND 8.96 7.84 5.60 B1214515AEDA0GE150°C 317-1465-ND 8.96 7.84 5.60 B1215015AEDA0GE155°C 317-1466-ND 8.96 7.84 5.60 B1215515AEDA0GE160°C 317-1467-ND 8.96 7.84 5.60 B1216015AEDA0GEFeatures: Small and Insulation Type: TCO is compact and insulated,featuring quick temperature response, and mountable in a small space withoutHigh Reliability: TCO opens reliably when the equip- Solid Structure: Uniqueformed lead provides reliable TCO connection and provides easy assembly Non-Cadmium Alloy: TCO uses specially Thin Type: Thickness is less than 1mm.Available for spot welding.Recommended Applications:Transformers, solenoids, ventilation fan, electric fans, small electric motors,dryers, gas home appliances, fluorescent lights, electric shavers, adaptors,heating devices, ICs, batteries, etc. The TCO can be used for over heatingprotection.Approved Safety Standards:(Japan): 33-xxx (see chart)UL (USA): E60271CSA (Canada): LR67163Thermal Cutoffs (TCO) / Thermal-Links — EYP TypeVDE (Germany): N Series: 4811.6-1171-0001;F Series: 4811.6-4510-1026; E Series:4811.6-4510-1030BEAB (U.K.): N Series: C0736; F Series:C0738; E Series: C0739Series N, F and E — Axial Lead TypeSealant (Epoxy resin)Insulating case(Ceramic)Fusible AlloyØD1Special resinSpecial formed lead wireØdØDl L lDimensions (mm)L øD øD1 l ødN Series 9.0 2.5 3.0 38 0.60F Series 6.0 1.85 2.2 38 0.53E Series 5.0 1.5 1.8 38 0.53Series MT — Thin TypeFusiblealloy0.15Insulating film (PET)26.511Special resinTerminal (Ni)3.0 4.50.75HType No. Rated FunctioningMaximumMaximum Temp.ElectricalApproved SafetyOperating Holding(°C) 5RatingStandardsof FunctioningApproved Temp. 1Price EachTemp.2 Temp.3 Temp.4 UL, VDE,AC/ Amp VoltDigi-KeyPanasonicStandards (°C) (°C) (°C) (°C) BEAB CSA DC (A) (V) UL CSA VDE BEAB Part No.1 10 100 Part No.N Series — RoHS Compliant52 56AC 3.0 125○ ○ ○ —N082 86 82±2 60 60 200 150 AC 2.0 250 33-627 ○ ○ ○ ○ P10917-ND .76 .45 .31 EYP-2BN08245 50 DC 4.0 50 ○ ○ ○ —76 86AC 3.0 125○ ○ ○ —N109 114 110±3 80 90 150 AC 2.0 250 33-634 ○ ○ ○ ○ P10920-ND .76 .45 .31 EYP-2BN10920065 74 DC 5.0 50 ○ ○ ○ —76 86AC 3.0 125○ ○ ○ —N110 115 110 +3/-2 80 90 200 150 AC 2.0 250 33-634 ○ ○ ○ — P10921-ND .76 .45 .31 EYP-2BN11065 74 DC 5.0 50 ○ ○ ○ —105 115AC 3.0 125○ ○ ○ —N143 145 141±2 110 120 200 180 AC 2.0 250 33-621 ○ ○ ○ ○ P10925-ND .76 .45 .31 EYP-2BN14380 90 DC 6.0 50 ○ ○ ○ —F Series76 90AC 2.0 125○ ○ ○ —F115 115 110 +3/-2 80 90 200 150 AC 1.0 250 33-634 ○ ○ ○ ○ P10912-ND◆ .76 .45 .31 EYP-1BF11570 80 DC 4.0 50 ○ ○ ○ —E Series76 93AC 1.5 125○ ○ ○ —E115 115 110±2 80 95 200 150 AC 0.5 250 33-634 ○ ○ ○ ○ P10907-ND◆ .76 .45 .31 EYP-05BE11570 84 DC 3.0 50 ○ ○ ○ —MT Series †MT102 102 98±2 65 70 150 DC 2.0 50 — ○ — — — P10934-ND 1.03 .64 .47 EYP-2MT102MT102A 102 98±2 65 70 150 DC 2.0 50 — ○ — — — P10935-ND 1.03 .64 .47 EYP-2MT102AMT102B 102 98±2 65 70 150 DC 2.0 50 — ○ — — — P10936-ND 1.03 .64 .47 EYP-2MT102B† Std. DC Resistance is

The 3600 Series consists of a single pole, single throw,bimetal snap-action switch available to open or close ontemperature rise. These hermatically-sealed productshave gold contacts for logic level switching. They have nopower budget and are wave solderable.Specifications:The 3455RC Series thermostats are often suitable forapplications such as copy machines, power supplies,telecommunications and ovens.Thermal SwitchesSpecifications:2000Vac 60 Hz - Terminal to CaseSwitchingTemp. (°C)ContactOperationDigi-KeyPart No.Price Each1 10 253600 TO-5 SeriesHoneywell SensingPart No.50 SPST-NC 480-3221-ND 41.97 33.39 31.29 3600 05001000160 SPST-NC 480-3222-ND 41.97 33.39 31.29 3600 06001000165 SPST-NC 480-3223-ND 42.81 34.06 31.91 3600 06501000170 SPST-NC 480-3224-ND 41.97 33.39 31.29 3600 07001000185 SPST-NC 480-3225-ND 41.97 33.39 31.29 3600 08501000190 SPST-NC 480-3226-ND 42.81 34.06 31.91 3600 090010001100 SPST-NC 480-3227-ND 41.97 33.39 31.29 3600 1000100013601 TO-5 Series40 SPST-NO 480-3228-ND 41.97 33.39 31.29 3601-04001000145 SPST-NO 480-3229-ND 41.97 33.39 31.29 3601-04501000150 SPST-NO 480-3230-ND 41.97 33.39 31.29 3601-0500100013455RC Series29.4 SPST-NC 480-3231-ND 25.59 20.36 19.07 3455RC 0100022235 SPST-NC 480-3232-ND 25.59 20.36 19.07 3455RC 0100022340.6 SPST-NC 480-3233-ND 25.59 20.36 19.07 3455RC 0100022446.1 SPST-NC 480-3234-ND 25.59 20.36 19.07 3455RC 0100022551.7 SPST-NC 480-3235-ND 25.59 20.36 19.07 3455RC 0100022657.2 SPST-NC 480-3236-ND 25.59 20.36 19.07 3455RC 0100022762.8 SPST-NC 480-3237-ND 25.59 20.36 19.07 3455RC 0100022868.3 SPST-NC 480-3238-ND 25.59 20.36 19.07 3455RC 0100022973.9 SPST-NC 480-3239-ND 25.59 20.36 19.07 3455RC 0100023079.4 SPST-NC 480-3240-ND 25.59 20.36 19.07 3455RC 0100023185 SPST-NC 480-3241-ND 25.59 20.36 19.07 3455RC 0100023290.6 SPST-NC 480-3242-ND 25.59 20.36 19.07 3455RC 0100023321.1 SPST-NO 480-3243-ND 25.59 20.36 19.07 3455RC 0100024332.2 SPST-NO 480-3244-ND 25.59 20.36 19.07 3455RC 0100024443.3 SPST-NO 480-3245-ND 25.59 20.36 19.07 3455RC 0100024554.4 SPST-NO 480-3246-ND 25.59 20.36 19.07 3455RC 010002463600 Series 3455RC Series NEW! Hall EffectCurrent Sensors -TD and 9001 SeriesSupply Voltage: -1.0 ~ 25 VDC Voltage externallyapplied to output: 25 VDC max (output high, currentbelow Itrip), -0.5 VDC min (output high or low) Output ONcurrent (sink): 50 mA Operating Temperature Range:-40°C ~ 125°CTD SeriesCurrent Digi-KeyPrice EachE-T-A(A) Part No.1 10 25 50 Part No.TD Series15 302-1375-ND 12.85 12.00 11.14 10.57 TD-01520 302-1376-ND 12.85 12.00 11.14 10.57 TD-02025 302-1377-ND 12.85 12.00 11.14 10.57 TD-02530 302-1378-ND 12.85 12.00 11.14 10.57 TD-03035 302-1379-ND 12.85 12.00 11.14 10.57 TD-03540 302-1380-ND 12.85 12.00 11.14 10.57 TD-04045 302-1381-ND 12.85 12.00 11.14 10.57 TD-04550 302-1382-ND 12.85 12.00 11.14 10.57 TD-05055 302-1383-ND 12.85 12.00 11.14 10.57 TD-05560 302-1384-ND 12.85 12.00 11.14 10.57 TD-06065 302-1385-ND 12.85 12.00 11.14 10.57 TD-06570 302-1386-ND 12.85 12.00 11.14 10.57 TD-07075 302-1387-ND 12.85 12.00 11.14 10.57 TD-07580 302-1388-ND 12.85 12.00 11.14 10.57 TD-08085 302-1389-ND 12.85 12.00 11.14 10.57 TD-08590 302-1390-ND 12.85 12.00 11.14 10.57 TD-09095 302-1391-ND 12.85 12.00 11.14 10.57 TD-095100 302-1392-ND 12.85 12.00 11.14 10.57 TD-100105 302-1393-ND 12.85 12.00 11.14 10.57 TD-105110 302-1394-ND 12.85 12.00 11.14 10.57 TD-110115 302-1395-ND 12.85 12.00 11.14 10.57 TD-115120 302-1396-ND 12.85 12.00 11.14 10.57 TD-120125 302-1397-ND 12.85 12.00 11.14 10.57 TD-1259001 Series50 302-1398-ND 13.23 12.35 11.47 10.88 9001-05075 302-1399-ND 13.23 12.35 11.47 10.88 9001-075100 302-1400-ND 13.23 12.35 11.47 10.88 9001-100125 302-1401-ND 13.23 12.35 11.47 10.88 9001-125150 302-1402-ND 13.23 12.35 11.47 10.88 9001-15016.7613.5916.769001 SeriesØ 6.6025.4Dimensions in mm8.12810.16 Radius10.67HD3SH MiniatureDetection SwitchesOmron’s ultra small size and ultra low profile detector switch is one of the smallest designs in the industry. Offered in both left actuation andright actuation versions in both standard lever and extended-long lever types. Although designed for camera door detection originally, thecompact size of this switch makes it an ideal detector switch for portable equipment.Specifications:Contact Resistance: Vibration Resistance: Shock Resistance:Destruction: 1,000m/s 2 (approximately 100G) maximum, Malfunction: 300m/s 2 Ambient Operating Temperature: -25°C ~ 85°C®Right ActuationLeft ActuationDescriptionDigi-KeyPart No.Cut TapePrice Each1 25 50Digi-KeyPart No.T & RPricing1,000OmronPart No.Standard Lever, Right with Boss SW1043CT-ND 1.34 1.21 1.07 SW1043TR-ND 668.25 D3SH-A1RStandard Lever, Right without Boss SW1044CT-ND 1.34 1.21 1.07 SW1044TR-ND 668.25 D3SH-A0RStandard Lever, Left with Boss SW1045CT-ND 1.34 1.21 1.07 SW1045TR-ND 668.25 D3SH-A1LStandard Lever, Left without Boss SW1048CT-ND 1.34 1.21 1.07 SW1048TR-ND 668.25 D3SH-A0LLong Lever, Right with Boss SW1046CT-ND 1.34 1.21 1.07 SW1046TR-ND 668.25 D3SH-A1R1Long Lever, Right without Boss SW1047CT-ND 1.34 1.21 1.07 SW1047TR-ND 668.25 D3SH-A0R1Long Lever, Left with Boss SW1087CT-ND NEW! 1.34 1.21 1.07 SW1087TR-ND NEW! 721.71 D3SH-A1L11.12.24.4Dim. in mm0.40.55 1.65Dimensions in mmDetector SwitchesOperating Digi-Key Cut Tape Price Each E-SwitchFig. DescriptionRating Force (gf) Part No.1 10 100 Part No.SMT Right Angle with Boss 12VDC, 50mA 180 EG2525CT-ND .99 .80 .72 901AGQF1801SMT Right Angle with Boss 12VDC, 50mA 180 EG2525TR-ND∆ 768.50/2,000 901AGQF180SMT Right Angle w/o Boss 12VDC, 100mA 50 EG2622CT-ND 1.44 1.16 1.04 900AGQSMT Right Angle w/o Boss 12VDC, 100mA 50 EG2622TR-ND∆ 1060.68/1,900 900AGQ2SMT Right Angle with Boss 12VDC, 100mA 50 EG2659CT-ND 1.44 1.16 1.04 900BGQSMT Right Angle with Boss 12VDC, 100mA 50 EG2659TR-ND∆ 1060.68/1,900 900BGQ3 Vertical Mount, PCB 30VDC, 100mA 36 EG2660-ND† .86 .77 .67 TD11044 Horizontal Mount, PCB 30VDC, 100mA 36 EG2661-ND† .77 .69 .60 TD1105A∆ Tape and Reel † Bulk®Fig. 1Fig. 27.30 Ø0.903.00 2.00 4.804.004.36.11.85.50SMT TactFig. 36.32.30Ø1.25x1Ø1.10x48.53.251.653.301.30 1.001 2SMT Detector24.206.403.806.6012.02.95Fig. 43.253.7 2.35 Ø1.25Ø1.106.35.36®For Digi-Reel ® information, please see page 73.98 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Detect SwitchesDDS Series — Micro Mini Thru-HoleDetect SwitchesThe DDS Series delivers 2mm over-travel, making them ideally suited for detector applications such as CD ROM cardreaders, copiers and medical.Specifications:°C ~ 80°Force: Less than 40gFDimensions in mmDDS0010.954-Ø1.10Ø1.252.45Description3.308.56.33.3Digi-KeyPart No.DDS0022.355.361.75 1.5HDT/SDT Series — MicroMini SMT Detect Switches*®Fig. 10.952.8 Fig. 2Fig. 3a b Dimensions in mmØ 0.8 Ø 0.63.74.7 3.8baA DBECF A B C2.02.41.20.55 1.73.80.52.32.0Ø 0.753.353.30D E F3.5 5.12.11.951.46 X 0.62.3 3.51.2(x4)3.00.85 0.85Digi-KeyCut Tape Price Each Tape & Reel* C&KFig. DescriptionPart No.1 25 100 Qty. Pricing Part No.1 Low Profile, SPST-NO, 35gF 401-1733-1-ND 1.49 1.38 1.26 2,450 822.60/M HDT00012 Low Profile, SPST-NO, 35gF CKN9956CT-ND 1.49 1.38 1.26 2,800 822.60/M HDT00043 Low Profile, Top or Side Actuation CKN10010CT-ND✔ 4.51 4.17 3.82 2,200 2500.20/M SDT004The HDT Series is low profile, designed for top or side actuation. With its low actuation force, it can be used with medicaldevices, computers and consumer electronics. The SDT Series is low profile, sitting just 3.30mm off PCB. It is designedfor top or side actuation. Low actuation force, 30gF, makes the SDT Series ideal for consumer electronics, computers, andmedical devices. Specifications:5.25DDS0035.366.4 1.5 1.756.42-Ø 1.102-Ø 1.102-Ø 1.202.355.4Price Each1 25 1002-Ø 1.201.65(Lever Center)C&KPart No.Vertical Mount 401-1734-ND 1.07 .86 .69 DDS001Horizontal Mount 401-1735-ND 1.16 .94 .74 DDS002Horizontal Mount 401-1736-ND 1.19 .96 .76 DDS003KSU Series — Micro MiniDetector SwitchesThe KSU Series is a top actuated multi contact detector switchwithout tactile feedback and with normally open con tacts.Specifications: Minimum/Maximum Operating-40°C ~ 125°CDescriptionDigi-KeyPart No.Cut TapePrice Each1 25 1007 x 3.5mm, Metal ActuatorDigi-KeyPart No.Tape & ReelPricing1,000C&KPart No.Gull Wing Short Travel CKN9204CT-ND 1.52 1.41 1.29 CKN9204TR-ND 840.60 KSU213 ST LFGGull Wing 401-1598-1-ND .98 .91 .84 401-1598-2-ND 543.60 KSU213WLFG5.1®5.25Dimensions in mm7.61.73.7MDS Series — Micro Snap-ActingDetect SwitchesSnap-acting tactile feel, small package size, with 2.9mm total travelApplications: Specifications:Operating Temperature: -25°C ~ 70°CFig. 1 Fig. 2 Fig. 3Digi-KeyPrice Each T&R* Pricing C&KFig. DescriptionPart No.1 25 100 1,600 Part No.PC Thru-hole, Short CKN9566-ND 2.06 1.91 1.75 — MDS6500AL02PS1PC Thru-hole, Long CKN9571-ND 2.06 1.91 1.75 — MDS6500AL02PLPC Thru-hole, Short, Left Bend CKN9567-ND 2.70 2.49 2.29 — MDS6500AL02LSPC Thru-hole, Short, Right Bend CKN9568-ND 2.70 2.49 2.29 — MDS6500AL02RS2PC Thru-hole, Long, Right Bend CKN9569-ND 2.70 2.49 2.29 — MDS6500AL02RLPC Thru-hole, Long, Left Bend CKN9570-ND 2.70 2.49 2.29 — MDS6500AL02LLSMT, Left CKN9572CT-ND† 2.75 2.55 2.33 1524.60/M MDS6500AL02SL3SMT, Right CKN9573CT-ND† 2.75 2.55 2.33 1524.60/M MDS6500Al02SRFor Tape and Reel part number, change CT-ND to TR-ND. † Cut TapeGDS Series — Ultra Low ProfileMicro Mini Side ActuatedDetect SwitchesFeatures: Ultra low profile package sits just 0.9mm off PCB Design allows x or y axis actuationApplications: Consumer electronics Computers Medical devices Mobile Communication devicesDigi-KeyCut Tape Price Each T&R* Pricing C&KDescriptionPart No.1 25 100 5,000 Part No.Ultra Low Profile, SPST-NO, 30gF CKN9957CT-ND 6.57 6.06 5.56 3636.00/M GDS001* For Tape and Reel part number, change CT-ND to TR-ND.HDS Series — Micro MiniSide Actuated SMTDetect SwitchesFeatures: Low profile package sits just 1.4mm off PCB Design allows top or side actuationApplications: Consumer electronics Computers Medicaldevices Mobile Communication devicesFig. Description1 Micro Mini Left Side, SPST-NO, 30gF CKN9959CT-ND 1.43 1.32 1.21 790.20/M HDS001L2 Micro Mini Right Side, SPST-NO, 30gF CKN9960CT-ND 1.43 1.32 1.21 790.20/M HDS001R* For Tape and Reel part number, change CT-ND to TR-ND.ZM Series — Subminiature Snap-ActingDetect SwitchesFeatures: Reliable snap-acting mechanism in a compact sizeApplications: SDS Series — SideSpecifications:°C ~ 85°Dimensions in mmActuated Detect SwitchesDimensions in mm* For Tape and Reel part number, change CT-ND to TR-ND. ‡ Bulk Right-footed, Leaf Actuator 401-1747-ND 2.45 1.97 1.56 ZMCJF7L0RStanding only 2mm off PCB covering 5.7mm x 5.0mm of boardZMCJF7P0TZMCJF7L0TRight Footed Left Footed1.6514.0space with both NO and NC, makes these switches ideal for any4.0#15.71.25detection need.Ø 0.90.9Specifications:2.01.04.2 6.66.506.50#22.453-Ø 1.2212.8°C ~ 85°C12.85.08Digi-KeyCut Tape Price Each T&R Pricing* C&KDescriptionPart No.1 25 100 3,000 Part No.SPST-NO, Silver, Detect Switch 401-1737-ND‡ 1.17 .94 .74 — SDS001Digi-KeyPrice Each C&KSPST-NO, Silver, Detect Switch CKN10230CT-ND NEW! 1.37 1.27 1.17 759.60/M SDS001R DescriptionPart No.1 25 100 Part No.SPST-NC, Silver, Detect Switch 401-1738-ND‡ 1.17 .94 .74 — SDS002Vertical, Thru-Hole, Button Actuator 401-1742-ND 1.83 1.47 1.16 ZMCJF7P0TSPST-NC, Silver, Detect Switch CKN10231CT-ND NEW! 1.37 1.27 1.17 759.60/M SDS002RLeft-footed, Button Actuator 401-1743-ND 2.37 1.90 1.51 ZMCJF7P0LSPST-NO, Gold, Detect Switch CKN9484-ND‡ 1.17 .94 .74 — SDS004SPST-NO, Gold, Detect Switch CKN10232CT-ND NEW! 1.37 1.27 1.17 759.60/M SDS004R Right-footed, Button Actuator 401-1744-ND 2.37 1.90 1.51 ZMCJF7P0RSPST-NC, Gold, Detect Switch CKN9485-ND‡ 1.17 .94 .74 — SDS005 Vertical, Thru-Hole, Leaf Actuator 401-1745-ND 1.91 1.54 1.22 ZMCJF7L0TSPST-NC, Gold, Detect Switch CKN10233CT-ND NEW! 1.37 1.27 1.17 759.60/M SDS005R Left-footed, Leaf Actuator 401-1746-ND 2.45 1.97 1.56 ZMCJF7L0L6.003.1COM NO NC8.2ZM 1A,3A125VAC2.7COM NO NC8.26.002.7Digi-KeyPart No.ZM 1A,3A125VAC2.751.13.16.008.2 2.7Cut TapePrice Each1 25 100Ø0.9(x2)0.421.8T&R*Pricing5,000Dimensions in mmDimensions in mm6.23.62.51.51.6(x2)3.5Dimensions in mmFig. 1 Fig. 23 3.53(x2)5.5 4.2Ø0.7 1.6(x2)0.91.7C&KPart No.I®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)9999

V Series — Standard SeriesVX Series — Low Current STD SeriesBasic Type Snap SwitchesD3V Series — Low Cost SeriesD2VW Series —Watertight Series; IP67SS Series — Standard SeriesSS-P Series — Low Cost SeriesØ 3.110.3 †2.90(2 plcs.)6.42.315.910.215.9‡3.2Ø3.127.810.327.8 18.73310.319.8† 3.1 for V-16G‡ 3.4 for V-16GFig. 1Fig. 2Fig. 3Fig. 4Fig. 5Fig. 6Fig. 7XXXXXXXFig. 8XD2SW/D2JW Series —Watertight; IP672.36.419.8Fig. 9X16.89D2SW-P Series — LowCost, Watertight; IP676.42.8Fig. 10X19.87.7Pin PlungerShort LeverLong LeverShort Roller LeverLong Roller LeverSimulated Roller LeverPin PlungerLeverRoller LeverSimulated Roller LeverV/VX Series: Features: Ωoperations minimum; V15: 100,000 operations minimumD3V Series: Features: Watertight D2VW/D2FW Miniature Basic Switch: Features: SS/SS-P Series: Features: Series: 30 million operations minimum; SS-10 Series: 10 million operations minimum; SS-P Series: 1 million operations@ 250VAC) Characteristics: Watertight D2SW Miniature Basic Switch: Features: automobile, agricultural machinery, automatic vending machine, refrigerator, ice-manufacturing, bath equipment, hot-watersupply, air conditioner, and factory machine industries Characteristics: Watertight D2SW-P Series: Characteristics: D2F Series: Features: and communications equipmentD3C Series: Features: Characteristics: operations minimum at the rated switch frequencyWatertight D2HW Series: Features: On-Off actionIFig.ContactStyleContactRating(A)TerminalSizeInch (mm)Price Each1 25 50OmronPart No.SPDT 10 .187 QC (4.75) 20.2 100gf SW126-ND 2.30 2.08 1.85 V-10G-1C24-KSPDT 10 .187 QC (4.75) 20.2 200gf SW1085-ND 2.37 2.14 1.90 V-10G-1C25KSPDT 15 Solder Terminal 20.2 200gf SW1061-ND 2.37 2.14 1.90 V-15G-1A5-K1SPDT 15 .187 QC (4.75) 20.2 200gf SW129-ND 2.30 2.08 1.85 V-15G-1C25-KSPDT 15 .187 QC (4.75) 20.2 400gf SW130-ND 2.37 2.14 1.90 V-15G-1C26-KSPDT 15 .250 QC (6.35) 20.2 200gf SW874-ND 2.37 2.14 1.90 V-15G-1C5-KSPST-NO 16 .187 QC (4.75) 20.2 200gf SW1071-ND 2.49 2.24 1.99 V-16G-3C25SPST-NO 16 .187 QC (4.75) 20.2 400gf SW1072-ND 2.66 2.40 2.13 V-16G-3C262 SPDT 15 .187 QC (4.75) 22.1 200gf SW1086-ND 2.41 2.17 1.93 V-15G1-1C25-KSPDT 10 .187 QC (4.75) 38.35 125gf SW127-ND 2.41 2.17 1.93 V-10G2-1C25-KSPDT 15 .187 QC (4.75) 38.35 125gf SW875-ND 2.34 2.11 1.88 V-15G2-1C25-KSPDT 15 .187 QC (4.75) 38.35 250gf SW132-ND 2.34 2.11 1.88 V-15G2-1C26-K3SPDT 10 .187 QC (4.75) 59.4 70gf SW1068-ND 2.46 2.22 1.97 V-10G3-1C24-KSPDT 15 .187 QC (4.75) 59.4 35gf Z2252-ND 2.63 2.37 2.11 V-15G3-1C24-KSPDT 15 .187 QC (4.75) 59.4 70gf SW133-ND 2.63 2.37 2.11 V-15G3-1C25-KSPDT 15 .187 QC (4.75) 59.4 130gf SW134-ND 2.63 2.37 2.11 V-15G3-1C26-KSPDT 15 .187 QC (4.75) 59.4 250gf SW1088-ND NEW! 3.10 2.79 2.48 V-152C26K-F3SPDT 10 .187 QC (4.75) 20.1 120gf SW1069-ND 2.89 2.61 2.32 V-10G5-1C24-KSPDT 10 .187 QC (4.75) 20.1 240gf SW128-ND 2.81 2.53 2.25 V-10G5-1C25-K4 SPDT 15 Screw Terminal 20.1 240gf SW1062-ND 4.92 4.43 3.94 V-15G5-1B5-KSPDT 15 .187 QC (4.75) 20.1 240gf SW1070-ND 2.81 2.53 2.25 V-15G5-1C25-KSPDT 15 .187 QC (4.75) 20.1 480gf SW136-ND 2.89 2.61 2.32 V-15G5-1C26-K5SPDT 15 .187 QC (4.75) 34.0 125gf SW1063-ND 2.81 2.53 2.25 V-15G6-1C25-KSPDT 15 .187 QC (4.75) 34.0 250gf SW151-ND 2.89 2.61 2.32 V-15G6-1C26-K6 SPDT 15 .187 QC (4.75) 32.6 125gf SW135-ND 2.48 2.23 1.99 V-15G4-1C25-KVX Series1SPDT 5 .187 QC (4.75) 20.2 25gf SW992-ND 3.49 3.15 2.80 VX-5-1C22SPDT 5 .187 QC (4.75) 20.2 50gf SW993-ND 3.49 3.15 2.80 VX-5-1C23SPDT 0.1 .187 QC (4.75) 35.6 30gf SW987-ND 4.30 3.87 3.44 VX-012-1A3SPDT 5 .187 QC (4.75) 35.6 30gf SW994-ND 3.83 3.45 3.06 VX-52-1A33 SPDT 0.1 .187 QC (4.75) 59.4 20gf SW988-ND 4.55 4.10 3.65 VX-013-1C23SPDT 5 .187 QC (4.75) 59.4 20gf SW996-ND 4.06 3.66 3.25 VX-53-1A3SPDT 5 .187 QC (4.75) 59.4 20gf SW997-ND 4.06 3.66 3.25 VX-53-1C234 SPDT 0.1 .187 QC (4.75) 20.1 60gf SW876-ND 4.80 4.33 3.85 VX-015-1C235 SPDT 5 .187 QC (4.75) 34.0 30gf SW1002-ND 4.40 3.96 3.52 VX-56-1A36 SPDT 5 .187 QC (4.75) 32.6 30gf SW998-ND 3.90 3.51 3.12 VX-54-1A3D3V Series1SPDT 11 .187 QC (4.75) 20.2 200gf SW707-ND 1.95 1.76 1.57 D3V11G1C25KSPDT 16 .187 QC (4.75) 20.2 200gf SW700-ND 1.95 1.76 1.57 D3V16G1C25KSPDT 11 .187 QC (4.75) 35.6 200gf SW708-ND 2.24 2.02 1.80 D3V11G21C25K3 SPDT 11 .187 QC (4.75) 35.6 200gf SW709-ND 2.21 1.99 1.77 D3V11G2M1C25KSPDT 16 .187 QC (4.75) 35.6 200gf SW701-ND 2.24 2.02 1.80 D3V16G21C25KSPDT 11 .187 QC (4.75) 33.0 200gf SW712-ND 2.71 2.44 2.17 D3V11G61C25K5SPDT 16 .187 QC (4.75) 33.0 200gf SW705-ND 2.71 2.44 2.17 D3V16G61C25KSPDT 11 .187 QC (4.75) 34.0 200gf SW713-ND 2.49 2.25 2.00 D3V11G6M1C25KSPDT 16 .187 QC (4.75) 34.0 200gf SW706-ND 2.49 2.25 2.00 D3V16G6M1C25KSPDT 11 .187 QC (4.75) 32.5 200gf SW710-ND 2.24 2.02 1.80 D3V11G41C25K6SPDT 16 .187 QC (4.75) 32.5 200gf SW703-ND 2.24 2.02 1.80 D3V16G41C25KSPDT 11 .187 QC (4.75) 32.6 200gf SW711-ND 2.21 1.99 1.77 D3V11G4M1C25KSPDT 16 .187 QC (4.75) 32.6 200gf SW704-ND 2.21 1.99 1.77 D3V16G4M1C25KWatertight IP67 D2VW SeriesSPDT 0.1 .187 QC (4.75) 20.2 200gf SW427-ND 4.56 4.11 3.65 D2VW-01-1HS1SPDT 0.1 12 Wires (304.8) 20.2 200gf SW428-ND 9.40 8.46 7.52 D2VW-01-1MSSPDT 5 .187 QC (4.75) 20.2 200gf SW433-ND 4.39 3.95 3.51 D2VW-5-1HSSPDT 5 12 Wires (304.8) 20.2 200gf SW434-ND 7.25 6.53 5.80 D2VW-5-1MS2 SPDT 5 .187 QC (4.75) 24.3 200gf SW1096-ND NEW! 4.54 4.09 3.64 D2VW-5L1A-1HSSPDT 5 .187 QC (4.75) 59.4 60gf SW1097-ND NEW! 4.58 4.13 3.67 D2VW-5L1B-1HSSPST-NO 5 .187 QC (4.75) 59.4 60gf SW1101-ND NEW! 4.41 3.97 3.53 D2VW-5L1B-3HS3SPDT 0.1 .187 QC (4.75) 59.4 60gf SW863-ND 5.49 4.95 4.40 D2VW-01L1B-1HSSPST-NO 5 .187 QC (4.75) 35.6 120gf SW1099-ND NEW! 4.69 4.22 3.75 D2VW-5L1-3HSSPDT 0.1 .187 QC (4.75) 35.6 120gf SW429-ND 5.49 4.95 4.40 D2VW-01L1-1HSSPDT 0.1 12 Wires (304.8) 35.6 120gf SW430-ND 9.85 8.87 7.88 D2VW-01L1-1MSFig.3456789107810Dim.“X”ActuationDigi-Key(mm) Force Part No.V SeriesContactContactRatingTerminalSizeDim.“X”ActuationDigi-KeyPrice Each OmronStyle (A) Inch (mm) (mm) Force Part No.1 25 50 Part No.SPDT 5 .187 QC (4.75) 35.6 120gf SW435-ND 4.58 4.13 3.67 D2VW-5L1-1HSSPDT 5 12 Wires (304.8) 35.6 120gf SW436-ND 7.06 6.36 5.65 D2VW-5L1-1MSSPDT 0.1 .187 QC (4.75) 24.3 230gf SW864-ND 6.61 5.95 5.29 D2VW-01L2A-1HSSPDT 5 12 Wires (304.8) 24.3 230gf SW1066-ND 7.51 6.76 6.01 D2VW-5L2A-1MSSPDT 0.1 .187 QC (4.75) 34.0 120gf SW431-ND 7.33 6.60 5.87 D2VW-01L2-1HSSPDT 0.1 12 Wires (304.8) 34.0 120gf SW432-ND 9.57 8.62 7.66 D2VW-01L2-1MSSPDT 5 .187 QC (4.75) 34.0 120gf SW437-ND 4.85 4.37 3.89 D2VW-5L2-1HSSPDT 5 12 Wires (304.8) 34.0 120gf SW438-ND 7.56 6.81 6.05 D2VW-5L2-1MSSPDT 5 .187 QC (4.75) 32.6 120gf SW1058-ND 4.54 4.09 3.64 D2VW-5L3-1HSSPST-NO 5 .187 QC (4.75) 32.6 120gf SW1100-ND NEW! 5.74 5.17 4.60 D2VW-5L3-3HSSS Miniature SeriesSPDT 5 Solder Terminal 7.5 50gf SW870-ND 1.56 1.40 1.25 SS-5-FSPDT 5 Solder Terminal 7.5 150gf SW868-ND 1.36 1.23 1.09 SS-5SPDT 5 Right Angle PCB 7.5 150gf SW869-ND 1.72 1.55 1.38 SS-5D2SPDT 5 .110 QC (2.79) 7.5 150gf SW141-ND 1.74 1.57 1.40 SS-5TSPDT 5 .110 QC (2.79) 7.5 50gf SW142-ND 1.59 1.43 1.28 SS-5FTSPDT 5 PC Mount 7.5 150gf SW241-ND 1.59 1.43 1.28 SS-5DSPDT 10 Solder Terminal 7.5 150gf SW1060-ND 1.83 1.65 1.47 SS-10SPDT 10 .110 QC (2.79) 7.5 150gf SW245-ND 2.80 2.52 2.24 SS-10TSPDT Gold 0.1 Solder Terminal 7.5 150gf SW1059-ND 2.48 2.23 1.99 SS-01SPDT Gold 0.1 .110 QC (2.79) 7.5 50gf SW138-ND 2.67 2.41 2.14 SS-01FTSPDT Gold 0.1 PC Mount 7.5 150gf SW155-ND 2.60 2.34 2.08 SS-01DSPDT 5 Solder Terminal 14.5 16gf SW1007-ND 1.67 1.51 1.34 SS-5GL-FSPDT 5 .110 QC (2.79) 14.5 50gf SW143-ND 1.59 1.43 1.28 SS-5GLTSPDT 5 PC Mount 14.5 50gf SW242-ND 1.92 1.73 1.54 SS-5GLDSPDT 10 .110 QC (2.79) 14.5 50gf SW246-ND 2.55 2.30 2.04 SS-10GLTSPDT Gold 0.1 Solder Terminal 14.5 50gf SW1067-ND 2.67 2.41 2.14 SS-01GLSPDT Gold 0.1 .110 QC (2.79) 14.5 50gf SW139-ND 2.98 2.69 2.39 SS-01GLTSPDT Gold 0.1 PC Mount 14.5 50gf SW239-ND 2.58 2.33 2.07 SS-01GLDSPDT 5 .110 QC (2.79) 14.5 50gf SW873-ND 2.22 2.00 1.78 SS-5GL2TSPDT 5 Solder Terminal 14.5 50gf SW156-ND 1.88 1.70 1.51 SS-5GL2SPDT 5 PC Mount 14.5 50gf SW244-ND 2.22 2.00 1.78 SS-5GL2DSPDT 10 .110 QC (2.79) 14.5 50gf SW248-ND 2.86 2.58 2.29 SS-10GL2TSPDT Gold 0.1 PC Mount 14.5 50gf SW343-ND 3.10 2.80 2.49 SS-01GL2DSPDT 0.1 Solder Terminal 14.5 8gf SW1094-ND NEW! 3.04 2.74 2.44 SS-01GL2-ESPDT Gold 0.1 PC Mount 14.5 16gf SW866-ND 3.10 2.80 2.49 SS-01GL2-FDSPDT 5 .110 QC (2.79) 15.8 50gf SW144-ND 1.53 1.38 1.23 SS-5GL13TSPDT 5 Solder Terminal 15.8 50gf SW871-ND 1.56 1.40 1.25 SS-5GL13SPDT 5 PC Mount 15.8 50gf SW243-ND 1.98 1.78 1.59 SS-5GL13DSPDT 10 .110 QC (2.79) 15.8 50gf SW247-ND 2.58 2.33 2.07 SS-10GL13TSPDT Gold 0.1 PC Mount 15.8 50gf SW240-ND 2.58 2.33 2.07 SS-01GL13DSPDT Gold 0.1 Solder Terminal 15.8 50gf SW865-ND 2.67 2.41 2.14 SS-01GL13Low Cost SS-P Subminiature SeriesSPDT 3 Solder Terminal 7.55 150gf SW763-ND .78 .71 .63 SS-3GPSPDT 3 .110 QC (2.79) 7.55 150gf SW766-ND .78 .71 .63 SS-3GPTSPDT 3 PC Mt. (uneven) 7.55 150gf SW769-ND .78 .71 .63 SS-3GPDSPDT 3 PC Mt. (even) 7.55 150gf SW772-ND 1.13 1.02 .91 SS-3GPBSPDT Gold 0.1 Solder Terminal 7.55 150gf SW775-ND .78 .71 .63 SS-01GPSPDT Gold 0.1 .110 QC (2.79) 7.55 150gf SW778-ND .78 .71 .63 SS-01GPTSPDT Gold 0.1 PC Mt. (uneven) 7.55 150gf SW781-ND 1.20 1.09 .97 SS-01GPDSPDT Gold 0.1 PC Mt. (even) 7.55 150gf SW784-ND 1.13 1.02 .91 SS-01GPBSPDT 3 Solder Terminal 14.5 50gf SW764-ND .92 .83 .74 SS-3GLPSPDT 3 .110 QC (2.79) 14.5 50gf SW767-ND .92 .83 .74 SS-3GLPTSPDT 3 PC Mt. (even) 14.5 50gf SW773-ND .92 .83 .74 SS-3GLPBSPDT Gold 0.1 Solder Terminal 14.5 50gf SW776-ND .92 .83 .74 SS-01GLPSPDT Gold 0.1 .110 QC (2.79) 14.5 50gf SW779-ND .92 .83 .74 SS-01GLPTSPDT Gold 0.1 PC Mt. (even) 14.5 50gf SW785-ND 1.32 1.20 1.06 SS-01GLPBSPDT 3 Solder Terminal 15.8 50gf SW765-ND .92 .83 .74 SS-3GL13PSPDT 3 .110 QC (2.79) 15.8 50gf SW768-ND .92 .83 .74 SS-3GL13PTSPDT 3 PC Mt. (uneven) 15.8 50gf SW771-ND .92 .83 .74 SS-3GL13PD(Continued)100 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Basic Type Snap Switches (Cont.)Fig. 11 — D2F Series Fig. 12 — D2FW Series Watertight; IP67 D2MQ Series Fig. 13Fig. 142.6Ø 2.0 A B CDX16.06.5XXX6.56.512.8Pin PlungerHinge LeverSimulatedRoller LeverHinge RollerLeverØ4.08.023.58.2Fig. 15 — D3C SeriesX 1.805.99D2HW Series Watertight; IP67Ø 3.37.0Fig. 16 Fig. 17 Fig. 18 Fig. 19 Fig. 20XXXXA B C D2.545.313.3SimulatedPin Plunger Hinge Lever Leaf LeverRoller LeverLong LeafLeverFig.10ContactRating(A)TerminalSizeInch (mm)Dim.“X”(mm)ContactContactRatingTerminalSizeDim.“X”ActuationDigi-KeyPrice Each OmronFig. Style (A) Inch (mm) (mm) Force Part No.1 25 50 Part No.11CSPDT 3 PC Mount 10.0 80gf SW1093-ND NEW! 2.39 2.16 1.92 D2F-L3SPDT 0.1 PC Mount 10.0 80gf SW859-ND 1.62 1.47 1.30 D2F-01L311DSPDT 3 PC Mount 12.8 80gf SW860-ND 2.72 2.45 2.18 D2F-L2SPDT 0.1 Solder Terminal 12.8 80gf SW840-ND 2.76 2.49 2.22 D2F-01L2-DWatertight IP67 D2FW SeriesSPST-NO 0.1 12 Wires (304.8) 22.8 250gf SW511-ND 6.72 6.05 5.38 D2FW-G073M12 SPST-NO 1 12 Wires (304.8) 22.8 250gf SW512-ND 6.72 6.05 5.38 D2FW-G273MSPST-NO 0.1 12 Wires (304.8) 19.0 300gf SW513-ND 6.40 5.76 5.12 D2FW-G083MD2MQ Series13SPDT Silver 500mA .05 (1.27) 6.0 120gf SW145-ND 3.17 2.86 2.54 D2MQ-1SPDT Silver 500mA .05 (1.27) 6.0 120gf SW1057-ND 3.28 2.96 2.63 D2MQ-1-TLSPDT Silver 500mA .05 (1.27) 7.7 60gf SW146-ND 3.28 2.96 2.63 D2MQ-1L14 SPDT Silver 500mA .05 (1.27) 7.7 60gf SW1055-ND 3.35 3.02 2.69 D2MQ-1L-TLSPDT Silver 500mA .05 (1.27) 7.7 60gf SW1056-ND 3.35 3.02 2.69 D2MQ-1L-TRD3C SeriesNon-Short 0.1 PC Mount 8.69 130gf SW224-ND 1.28 1.16 1.03 D3C-121015Shorting 0.1 PC Mount 8.69 130gf SW226-ND 1.28 1.16 1.03 D3C-2210Non-Short 0.1 PC Mount 8.69 40gf SW225-ND 1.28 1.16 1.03 D3C-1220Shorting 0.1 PC Mount 8.69 40gf SW227-ND 1.28 1.16 1.03 D3C-2220Watertight IP67 D2HW Miniature Series16ASPDT 2 Right Angle PCB — 76gf SW714-ND 2.69 2.43 2.16 D2HWBR201DRSPDT 2 Down Wire Leads — 76gf SW719-ND 5.48 4.93 4.39 D2HWBR201M16BSPDT 2 Right Angle PCB — 76gf SW715-ND 2.69 2.43 2.16 D2HWBL201DLSPDT 2 Down Wire Leads — 76gf SW720-ND 5.48 4.93 4.39 D2HWBL201M16C SPDT 2 Straight PCB — 76gf SW716-ND 2.69 2.43 2.16 D2HWA201D16D SPDT 2 Down Wire Leads — 76gf SW721-ND 6.04 5.44 4.84 D2HWC201MSPDT 2 Down Wire Leads 13.0 61gf SW722-ND 5.76 5.19 4.62 D2HWBR211M17ASPST-NC 2 Right Wire Leads 13.0 61gf SW725-ND 5.76 5.19 4.62 D2HWBR212MRSPST-NO 2 Right Wire Leads 13.0 61gf SW728-ND 5.76 5.19 4.62 D2HWBR213MRSPST-NO 2 Left Wire Leads 13.0 61gf SW733-ND 5.76 5.19 4.62 D2HWBR213MLSPDT 2 Right Angle PCB 20.0 41gf SW718-ND 2.87 2.59 2.30 D2HWBL221DLSPDT 2 Down Wire Leads 20.0 41gf SW736-ND 5.76 5.19 4.62 D2HWBL221M17B SPST-NC 2 Right Wire Leads 13.0 61gf SW726-ND 8.28 7.46 6.63 D2HWBL212MRSPST-NO 2 Right Wire Leads 13.0 61gf SW729-ND 5.76 5.19 4.62 D2HWBL213MRSPST-NO 2 Left Wire Leads 13.0 61gf SW734-ND 8.28 7.46 6.63 D2HWBL213ML17C SPST-NO 2 Right Wire Leads 13.0 61gf SW730-ND 6.23 5.61 4.99 D2HWC213MR17DSPDT 2 Down Wire Leads 13.0 61gf SW724-ND 6.23 5.61 4.99 D2HWC211MSPST-NC 2 Right Wire Leads 13.0 61gf SW727-ND 6.23 5.61 4.99 D2HWC212MR18ASPDT 2 Down Wire Leads 16.0 61gf SW737-ND 5.76 5.19 4.62 D2HWBR231MSPDT 2 Down Wire Leads 16.0 183gf SW741-ND 8.28 7.46 6.63 D2HWBR271M18BSPDT 2 Down Wire Leads 16.0 61gf SW738-ND 5.76 5.19 4.62 D2HWBL231MSPDT 2 Down Wire Leads 16.0 183gf SW742-ND 5.76 5.19 4.62 D2HWBL271M19A SPDT 2 Down Wire Leads 8.0 183gf SW739-ND 5.76 5.19 4.62 D2HWBR261M20A SPDT 2 Down Wire Leads 20.85 92gf SW743-ND 5.76 5.19 4.62 D2HWBR281M20B SPDT 2 Down Wire Leads 20.85 92gf SW744-ND 5.76 5.19 4.62 D2HWBL281MActuationForceContactDigi-KeyPrice Each OmronStylePart No.1 25 50 Part No.SPDT 3 PC Mt. (even) 15.8 50gf SW774-ND .92 .83 .74 SS-3GL13PBSPDT Gold 0.1 Solder Terminal 15.8 50gf SW777-ND .92 .83 .74 SS-01GL13PSPDT Gold 0.1 .110 QC (2.79) 15.8 50gf SW780-ND .92 .83 .74 SS-01GL13PTSPDT Gold 0.1 PC Mt. (uneven) 15.8 50gf SW783-ND .92 .83 .74 SS-01GL13PDSPDT Gold 0.1 PC Mt. (even) 15.8 50gf SW786-ND 1.32 1.20 1.06 SS-01GL13PBWatertight IP67 D2SW/D2JW SeriesSPDT 3 Solder Terminal 7.5 180gf SW228-ND 3.35 3.02 2.68 D2SW-3HS7SPDT 3 .110 QC (2.79) 7.5 180gf SW229-ND 3.35 3.02 2.68 D2SW-3TSSPDT 3 PC Mount 7.5 180gf SW291-ND 3.35 3.02 2.68 D2SW-3DSSPDT 3 12” Wires (304.8) 7.5 180gf SW292-ND 5.56 5.00 4.45 D2SW-3MSSPDT 3 Solder Terminal 14.5 60gf SW293-ND 3.56 3.20 2.85 D2SW-3L1HS8 SPDT 3 .110 QC (2.79) 14.5 60gf SW294-ND 3.56 3.20 2.85 D2SW-3L1TSSPDT 3 12” Wires (304.8) 14.5 60gf SW295-ND 5.80 5.22 4.64 D2SW-3L1MSSPDT 0.1 12” Wires 14.5 60gf SW862-ND 6.58 5.93 5.27 D2SW-01L2MS9SPDT 0.1 Solder Terminal 14.5 60gf SW1084-ND 4.27 3.85 3.42 D2SW-01L2HSSPDT 3 Solder Terminal 14.5 60gf SW237-ND 4.06 3.66 3.25 D2SW-3L2HSSPDT 3 12” Wires (304.8) 14.5 60gf SW238-ND 6.12 5.51 4.90 D2SW-3L2MSSPDT 0.1 12” Wires (304.8) 15.0 97gf SW1083-ND 10.70 9.64 8.57 D2JW-01K31-MD10SPDT 0.1 .110 QC (2.79) 15.8 60gf SW1095-ND NEW! 4.02 3.62 3.22 D2SW-01L3TSSPDT 3 Solder Terminal 15.8 60gf SW296-ND 3.56 3.20 2.85 D2SW-3L3HSSPDT 3 12” Wires (304.8) 15.8 60gf SW297-ND 5.80 5.22 4.64 D2SW-3L3MSWatertight IP67 Low Cost D2SW-P Series7SPDT 0.1 PC Mt. (uneven) 7.55 183gf SW804-ND 1.96 1.77 1.58 D2SW-P01DSPDT 2 .110 QC (2.79) 7.55 183gf SW809-ND 1.23 1.11 .99 D2SW-P2T9 SPDT 2 Solder Terminal 14.5 61gf SW810-ND 1.98 1.79 1.59 D2SW-P2L2HSPDT 0.1 .110 QC (2.79) 15.8 61gf SW805-ND 1.79 1.62 1.44 D2SW-P01L3TSPDT 0.1 PC Mt. (uneven) 15.8 61gf SW806-ND 1.79 1.62 1.44 D2SW-P01L3D10SPDT 0.1 PC Mt. (even) 15.8 61gf SW807-ND 2.52 2.27 2.02 D2SW-P01L3BSPDT 0.1 12” Wires (304.8) 15.8 61gf SW808-ND 3.85 3.47 3.08 D2SW-P01L3MSPDT 2 Solder Terminal 15.8 61gf SW811-ND 1.60 1.45 1.29 D2SW-P2L3HSPDT 2 12” Wires (304.8) 15.8 61gf SW812-ND 3.66 3.30 2.93 D2SW-P2L3MD2F SeriesSPDT 0.1 PC Mount — 75gf SW502-ND 1.33 1.20 1.07 D2F-01FSPDT 0.1 PC Mount — 150gf SW501-ND 1.33 1.20 1.07 D2F-0111A SPDT 3 PC Mount — 75gf SW503-ND 1.27 1.14 1.02 D2F-FSPDT 3 PC Mount — 150gf SW500-ND 1.33 1.20 1.07 D2FSPDT 0.1 Solder Terminal — 150gf SW857-ND 1.36 1.23 1.09 D2F-01-DSPDT 0.1 PC Mount 12.8 80gf SW154-ND 1.48 1.33 1.19 D2F-01LSPDT 1 PC Mount 12.8 25gf SW153-ND 1.48 1.33 1.19 D2F-FLSPDT 3 PC Mount 12.8 80gf SW152-ND 1.48 1.33 1.19 D2F-L11BSPDT 0.1 Solder Terminal 12.8 80gf SW1054-ND 1.53 1.38 1.23 D2F-01L-DSPDT 3 Solder Terminal 12.8 80gf SW861-ND 1.41 1.28 1.14 D2F-L-DSPDT 1 Right Angle 12.8 25gf SW841-ND 1.91 1.72 1.53 D2F-FL-ASPDT 3 Right Angle 12.8 80gf SW842-ND 1.91 1.72 1.53 D2F-L-ASPDT 3 Left Angle 12.8 80gf SW843-ND 1.82 1.64 1.46 D2F-L-A1J Series – Mini Snap SwitchesFeatures: installation space and weightCharacteristics: Fig. 1 Fig. 28.912.75.16.65.114.79.15ABXXB3J Series – Tactile SwitchesSuperior snap action using Omron’s B3F tact switches and hinged lever cap. Switches include hinged capsthat are available with none, 1 or 2 LED’s. Ideal for data entry, logic and digital signal input.Characteristics:LED:Fig. 1KAKA2 41 3(Top View)2.549.02 X Led1 X Led3.462.5412.55.0 Ø 1.29.018ANo LED1218B1 LED1218C2 LEDs12IOperatingForce(gf)ActuatorDim.X Digi-KeyPrice Each OmronFig. MaximumType(mm) Part No. 1 25 50 Part No.1 140 Pin Plunger — SW813-ND 9.70 8.73 7.76 J-72A50 Short Hinge Lever 12.7 SW814-ND 14.77 13.30 11.82 J-7-V30 Hinge Lever 22.0 SW815-ND 15.08 13.58 12.07 J-7-V32B 33 Hinge Roller Lever 20.5 SW818-ND 17.45 15.71 13.97 J-7-V2Fig.1A1B1CColor of Color of Digi-KeyPrice EachOmronHinged Button LED Part No.1 25 50 Part No.Light Gray — SW819-ND 1.58 1.43 1.27 B3J-1000Black — SW820-ND 1.58 1.43 1.27 B3J-1100Orange — SW2314-ND 1.58 1.43 1.27 B3J-1200Yellow — SW2315-ND 1.58 1.43 1.27 B3J-1300Blue — SW2316-ND 1.58 1.43 1.27 B3J-1400Light Gray Red SW821-ND 2.82 2.55 2.26 B3J-2000Black Red SW822-ND 2.82 2.55 2.26 B3J-2100Light Gray Green SW823-ND 2.82 2.55 2.26 B3J-4000Black Green SW824-ND 2.82 2.55 2.26 B3J-4100Light Gray Red/Green SW825-ND 3.98 3.59 3.19 B3J-6000Black Red/Green SW826-ND 3.98 3.59 3.19 B3J-6100More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)101101

D2A Series – Pushbutton SwitchesUltra subminiature detection switch with pushbutton action.Features: equipment, etc. Characteristics:Operating ForceSwitching Digi-KeyPrice EachOmron(gf) MaximumTimingPart No.1 25 50 Part No.100 Shorting SW832-ND 1.46 1.32 1.18 D2A-211050 Non-shorting SW833-ND 1.46 1.32 1.18 D2A-112050 Shorting SW834-ND 1.46 1.32 1.18 D2A-21208.04.26.02.548.02.544.23-Ø 1.0D3D Series — Miniature Door SwitchesOmron’s Mini Door Switch has a unique mechanism allowing switching of micro loads. Choose from plunger or lever actuators, both having a low operatingforce of 204g maximum. Uses JST’s HL connectors. FeaturesFig.12Contact Actuator Operating Force Digi-KeyPrice EachOmronStyleType (gf) Maximum Part No.1 25 50 Part No.SPDT Plunger 204 SW745-ND 1.92 1.73 1.54 D3D-111SPST-NC Plunger 204 SW746-ND 1.68 1.52 1.35 D3D-121SPST-NO Plunger 204 SW747-ND 1.68 1.52 1.35 D3D-131SPDT Lever 204 SW748-ND 2.04 1.84 1.63 D3D-211SPST-NC Lever 204 SW749-ND 1.79 1.62 1.44 D3D-221SPST-NO Lever 204 SW750-ND 1.79 1.62 1.44 D3D-231Fig. 11515Ø 6.02511.4 15Fig. 26.0152511.4HLP Series for Omron D3D SeriesDigi-KeyPricingDigi-KeyTape and Reel Pricing JSTDescriptionPart No.10 100 500 Part No.6,000Part No.Connector Housing, 3-Position for D3D Switch 455-1562-ND 1.49 12.39 49.54 — — HLP-03VContacts for Connector Housing, 18~22 AWG 455-1563-1-ND† .54 4.47 17.88 455-1563-2-ND 26.82/M SSF-21T-P1.4† Cut TapeD2D Series — Door Interlock SwitchesFeatures: Offers the minimum contact gap of 3mm required for power switches as standard equipment Safetyconsiderations include a double return spring and direct drive positive contact opening feature Conforms toClass II of VDE Insulation Pull-on lock model for easy maintenanceSpecifications: /NC/NC/NC Inrushimumimum Operating Frequency: Mechanical: 300 operations perminute; Electrical: 60 operations per minute Operating Temperature: -25°C ~ 85°C Mechanical ServiceLife: 10,000,000 operations per minute VD EIContact MountingResistive Digi-KeyPrice EachOmronForm Method Type Load (A) Part No.1 25 50 Part No.SPDT-DM Screw Standard 16 SW980-ND 7.10 6.39 5.68 D2D-1000SPST-NO Screw Standard 16 SW1089-ND NEW! 6.34 5.71 5.08 D2D-1001SPDT-DM Panel snap-fit Standard 16 SW982-ND NEW! 9.69 8.72 7.75 D2D-1100SPST-NO Panel snap-fit Standard 16 SW1090-ND NEW! 7.81 7.03 6.25 D2D-1101SPST-NC Panel snap-fit Standard 16 SW1091-ND NEW! 7.81 7.03 6.25 D2D-1102SPDT-DM Screw Pull-on lock 10 SW983-ND 8.11 7.31 6.50 D2D-2000SPDT-DM Panel snap-fit Pull-on lock 10 SW984-ND 8.18 7.37 6.55 D2D-2100SPDT-DM Panel snap-fit Standard 16 SW1053-ND 10.34 9.31 8.28 D2D-3103D3M Series — Production Wired Snap SwitchesEasy wiring snap switch for general purpose snap switch applications. Contact current of 0.1A,RoHS Compliant and external levers, makes this switch an easy production type switch. Mating connectoruses JST’s XA connector: XAP-02V-1 (455-1903-ND)D2D-100016(4)A 380V~T8516A 250VACSpecifications: Mechanical: 400 operations/minute maximum; Electrical: 60 Mechanical: 500,000 operations, Electrical: 200,0000686RN1673MADE IN CHINA(Screw MountingMethod shown)Fig. 1 Fig. 2Fig. 3Fig. 4ABABAB107.231.5ContactContactDimension XActuation Digi-KeyPrice EachOmronFig. StyleRating (A)Inch (mm)Force (gf) Part No.1 25 50 Part No.1 SPST-NC 0.1 — 153 SW877-ND 2.34 2.11 1.88 D3M-012ASPST-NC 0.1 .72” (18.2) 51 SW879-ND 2.33 2.10 1.87 D3M-01K1SPST-NO 0.1 .72” (18.2) 51 SW880-ND 2.16 1.94 1.73 D3M-01K1-32BSPST-NC 0.1 .72” (18.2) 102 SW885-ND 2.33 2.10 1.87 D3M-01L1SPST-NO 0.1 .72” (18.2) 102 SW886-ND 2.18 1.97 1.75 D3M-01L1-33ASPST-NC 0.1 .70” (17.8) 51 SW881-ND 3.28 2.96 2.63 D3M-01K2SPST-NO 0.1 .70” (17.8) 51 SW882-ND 2.83 2.56 2.27 D3M-01K2-33BSPST-NC 0.1 .70” (17.8) 102 SW887-ND 3.28 2.96 2.63 D3M-01L2SPST-NO 0.1 .70” (17.8) 102 SW888-ND 2.67 2.41 2.14 D3M-01L2-34ASPST-NC 0.1 .78” (19.2) 51 SW883-ND 2.33 2.10 1.87 D3M-01K3SPST-NO 0.1 .78” (19.2) 51 SW884-ND 2.18 1.97 1.75 D3M-01K3-34BSPST-NC 0.1 .78” (19.2) 102 SW889-ND 2.33 2.10 1.87 D3M-01L3SPST-NO 0.1 .78” (19.2) 102 SW890-ND 2.18 1.97 1.75 D3M-01L3-3Digi-KeyPricingDigi-KeyTape and Reel Pricing JSTDescriptionPart No.10 100 500 Part No.8,000 Part No.Connector Housing, 2-Position for D3M Switch 455-1903-ND .63 5.26 21.02 — — XAP-02V-1Contacts for Connector Housing, 28~22AWG 455-1904-1-ND† .25 2.10 8.38 455-1904-2-ND 12.57/M SXA-001T-P0.6† Cut TapeXAP Series for Omron D3M Series102 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Basic SwitchesOmron’s “Z” Series switches feature 15A contacts which directly switches such loads as motors, halogenlamps and solenoids. Omron’s “A” Series has the same body yet switches 20A loads with large inrushcurrents. All switches feature screw terminal connections and are UL listed CSA certified. Both series aremomentary action, SPDT versions. Omron’s “TZ” Series incorporate a ceramic body, cobalt-alloy spring andspecial-alloy contact, thus ensuring high contact reliability at high ambient temperature. Smoothly operatesat an ambient temperature of 400°C. Operates from -65°C ~ 400°C. Omron’s “D4MC” Series: Compactenclosed limit switch suitable for applications demanding higher mechanical strength, dust proof and dripproof properties that are in tight service locations. High precision and long life.Fig. 1 Fig. 2 Fig. 3 Fig. 4A-206-B7-K20A 125.250 or 450VAC 1HP.125VAC.2hp.250VAC1/2.125VAC.1/4A250VDC10A 125VAC"L" (Tungsten)Fig. 5 Fig. 6 Fig. 7 Fig. 8Z, A and TZ Series D4MC Series - Industrial Sealed (IP67)(Hinge Roller Lever version shown)OperatingForce(max.)SwitchCurrent(A)D4C Industrial Sealed Limit SwitchesActuatorLength(mm)ActuatorDigi-KeyPrice EachOmronFig.TypePart No.1 25 50 Part No.Snap Action Switches — Z Series1 350g 15 Pin Plunger — SW190-ND 9.10 8.19 7.28 Z15G-B350g 15 Spring Plunger — SW191-ND 11.17 10.05 8.94 Z15GD-B2 350g 15 Short Spring Plunger — SW1004-ND 14.82 13.34 11.86 Z-15GD55-B550g 15 Slim Spring Plunger — SW892-ND 11.74 10.57 9.39 Z15GS-B3 350g 15 Panel Plunger — SW192-ND 15.24 13.72 12.19 Z15GQ-B4 350g 15 Panel Roller — SW193-ND 17.99 16.19 14.39 Z15GQ21-B5 350g 15 Panel Roller — SW194-ND 17.99 16.19 14.39 Z15GQ22-B670g 15 Lever 63.5 SW195-ND 12.18 10.97 9.75 Z15GW-B6g 15 Low Force Lever 63.5 SW198-ND 12.60 11.35 10.09 Z15HW24-B7-K7 100g 15 Long Roller Lever 48.49 SW196-ND 12.18 10.97 9.75 Z15GW2-B8160g 15 Short Roller Lever 26.59 SW197-ND 11.41 10.28 9.14 Z15GW22-B200g 15 Short Roller Lever 26.59 SW893-ND 17.21 15.50 13.77 Z15GW2255-BSnap Action Switches — A Series1625g 20 Pin Plunger (Solder Terminal) — SW1092-ND NEW! 12.30 11.07 9.84 A-20G625g 20 Pin Plunger — SW230-ND 12.30 11.07 9.84 A20G-B7-K3 625g 20 Panel Plunger — SW233-ND 18.70 16.84 14.97 A20GQ-B7-K6 70g 20 Lever 63.5 SW231-ND 12.36 11.12 9.89 A20GV-B7-K790g 20 Long Roller Lever 48.4 SW1079-ND 12.36 11.12 9.89 A-20GV2-B90g 20 Long Roller Lever 48.4 SW232-ND 12.36 11.12 9.89 A20GV2-B7-K8 160g 20 Short Roller Lever 26.2 SW234-ND 13.28 11.96 10.63 A20GV22-B7-KPhenolic Terminal Cover for A/Z Series SW235-ND 1.06 .96 .85 AP-BTerminal Cover with Strain Relief for A/Z Series SW236-ND 5.52 4.97 4.42 AP-ZHigh Temperature Basic Switches — TZ Series1 500g 1 Pin Plunger — SW759-ND 408.70 367.83 326.96 TZ-1G8 240g 1 Short Roller Lever 26.59 SW762-ND 694.52 625.07 555.62 TZ-1GV22Industrial Sealed (IP67) Basic Switches — D4MC Series3 5.88N 10 Panel Plunger — Z2728-ND 25.09 23.24 21.69 D4MC-50004 5.88N 10 Panel Cross Roller Plunger — Z2730-ND 26.25 24.31 22.69 D4MC-50405 5.88N 10 Panel Roller Plunger — Z2729-ND 26.25 24.31 22.69 D4MC-50207 1.96N 10 Long Roller Lever 63.7 Z2726-ND 20.89 19.35 18.06 D4MC-20008 2.94N 10 Short Roller Lever 41.0 Z2727-ND 19.38 17.95 16.76 D4MC-2020Omron's D4C series limit switches are industrial enclosed limit switches with rugged die cast housing, triple sealed constructionand pre-wired 10' cable.Perfect for harsh environments and indoor/outdoor uses where small size is a consideration.Fig. 1 Fig. 2 Fig. 3 Fig. 4IFig.1Dim. OperatingA Force(mm) (max.)SwitchCurrent(A)Digi-KeyPrice Each OmronActuator Type Part No. 1 25 50 Part No.54.2 1200g 5 Pin Plunger Z1055-ND 72.22 66.87 62.41 D4C-160175.7 1800g 5 Sealed Pin Plunger Z2720-ND 73.41 67.97 63.44 D4C-163167.0 1200g 5 Roller Plunger Z1056-ND 72.22 66.87 62.41 D4C-1602A49A51.5*102.76510440267.0 1200g 5 Cross Roller Plunger Z2719-ND 72.22 66.87 62.41 D4C-160385.1 1800g 5 Sealed Roller Plunger Z2721-ND 73.41 67.97 63.44 D4C-1632404040163 — 580g 5 Roller Lever Z1057-ND 88.41 81.86 76.41 D4C-16204 — 150g 5 Nylon Plastic Rod Z2723-ND 72.22 66.87 62.41 D4C-1650* WL Robust Industrial Limit SwitchesFeatures: Meets EN/IEC standards (only switches with ground terminals and pre-wired connectors with DC specifications) Long Life Models for High Frequency applications SPDT-DM Operation: the Single pole, double-break structure ensurescircuit breaking Waterproof to IP67 Operation Indicators for Easier Daily Inspections (LD types only)OperatingForce(N)SwitchCurrent(A)Digi-KeyPrice Each OmronFig.Actuator TypePart No. 1 25 50 Part No.13.34 10 Adjustable Roller Lever Z2749-ND 85.31 79.00 73.73 WLCA12-TS113.34 10 90° Adjustable Roller Lever Z2748-ND 112.33 104.01 97.08 WLCA12-2-TS13.34 10 Roller Lever Z2751-ND 73.08 67.67 63.16 WLCA2-TS2 8.83 10 90° Roller Lever Z2750-ND 77.57 71.83 67.04 WLCA2-2-TS9.81 10 High Sensitivity Roller Lever Z2755-ND 160.26 148.40 138.50 WLG2-LD3 1.39 10 Adjustable Rod Lever Z2752-ND 79.35 73.48 68.58 WLCL-TS4 1.47 10 8.0mm Dia. Coil Spring (Resin Rod) Z2756-ND 107.62 99.65 93.01 WLNJ-2-TS— 26.67 10 Top-Roller Plunger Z2754-ND 106.04 98.19 91.64 WLD2-TS1 42 3LoadLoadSchematicFig. 1 Fig. 2 Fig. 3 Fig. 414058.758.7 4058.758.7404040Adjustable Roller Roller Lever Adjustable Rod Resin RodMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)103103

®®ZE Industrial SealedHigh Capacity SwitchesFig. 1 Fig. 2 Fig. 3 Fig. 4Long service life, rugged die cast housing sealed industrial switches with a high capacity contact (15A). NEMA sealed forextremely long service life (SPDT 15A @ 125VAC).Operating SwitchActuator Digi-KeyPrice Each OmronFig. Force (max.) Current (A)Type Part No. 1 25 50 Part No.1 640g 15 Roller Arm Lever Z1058-ND 53.57 49.60 46.30 ZE-NA2-2S2 150g 15 Coil Spring Z1059-ND 54.73 50.68 47.30 ZE-NJ-2S3 800g 15 Plunger Z1060-ND 41.55 38.48 35.91 ZE-N-2S4 500g 15 Roller Plunger Z1061-ND 55.61 51.50 48.06 ZE-N22-2S53.48644.5861304445.88644.549.78644.5Safety-Door SwitchFeatures:Dimensions (mm)Digi-KeyPrice EachOmronFig. A B C DescriptionPart No.1 25 50 Part No.1111.5 40 31.4 Safety Switch DP-N/C (2NC) 10A Sealed Z2433-ND 74.17 68.68 64.11 D4BS-3AFS111.5 40 31.4 Safety Switch SPDT (1NC/1NO) 10A Sealed Z2434-ND 74.17 68.68 64.11 D4BS-35FS— — — Horizontal Mount Key for D4BS Switch Z2430-ND 8.63 7.99 7.46 D4BS-K12 — — — Vertical Mount Key for D4BS Switch Z2431-ND 9.89 9.16 8.55 D4BS-K2— — — Adjustable Horizontal Mount Key for D4BS Switch Z2432-ND 30.67 28.40 26.51 D4BS-K396 31 30.2 Safety Switch SPDT (1NC/1NO) 3A Sealed Z2731-ND 59.56 55.16 51.48 D4NS-3AF196 31 30.2 Safety Switch DP-N/C (2NC) 3A Sealed Z2732-ND 59.56 55.16 51.48 D4NS-3BF96 31 30.2 Safety Switch 3P-N/C (2NC/1NO) 3A Sealed Z2733-ND 59.56 55.16 51.48 D4NS-3CF96 31 30.2 Safety Switch 3P-N/C (3NC) 3A Sealed Z2734-ND 55.92 51.78 48.33 D4NS-3DF3— — — Horizontal Mount Key for D4NS Switch Z2724-ND 43.29 38.97 34.64 D4DS-K3— — — Horizontal/Vertical Mount Key for D4NS Switch Z2725-ND 51.86 46.68 41.49 D4DS-K5AD4BS-3AFSBA-BIA940107CFig. 1 Fig. 2Fig. 30985Z4D4BS-K1Horizontal/VerticalType ShownMICRO SWITCH Limit SwitchesHoneywell’s limit switches combine product selection, quality and reliability to give you the right product for your application, every time. Honeywell’s extensiveproduct line offers features and benefits at a competitive price to solve your switching needs.Dimensions in inchesFig. 1.17Slotwidth3.2A.792.17BØ.751.02.55CØ.39D.18Fig. 2Ø .752.0530°1.5-3.6Fig. 3A.872.17B C D EØ.755.081.34-3.110.8-6Ø.751.83FØ.055.50GHØ.491.55Ø.491.22.711.20.14IFig. 4A.871.652.36BØ.751.34-3.11CØ.751.83D5.08EØ.49Fig. 5AØ.31.312.44.49.871.20BØ1.96Ø.67.77C1.24.77DØ.67.77Ø1.96E.81.77FØ.39.912.052.56.161/2 Inch NPTConduit ThreadFig. 6 Fig. 7 Fig. 8 Fig. 9Ø .751.6201.8752.756 Max.4.2044.6852.3443.8942.992.3441.62Fig. 105.51.623.804Fig. 112.05.75Fig. 12AØ.49 x .15Ø.16 x2 .58Mounting 1.50holes2.21B1.633.94C2.033.941.65.831.10CurrentActuatorDigi-KeyPrice EachHoneywell SensingFig. Rating (A) CircuitTypePart No.1 10 25 Part No.1A 10 SPDT Roller Plunger 480-2701-ND 22.98 18.28 17.13 EVN2000C1B 10 SPDT Side Rotary with Roller 480-2699-ND 26.14 20.80 19.49 EVN2000A1C 10 SPDT Top Plunger 480-2700-ND 22.98 18.28 17.13 EVN2000B1D 10 SPDT Roller Arm 480-2702-ND 22.98 18.28 17.13 EVN2000D2 10 SPDT Side Rotary - No Lever 480-2924-ND 68.18 56.48 54.05 GLAA01A2 10 SPDT Side Rotary, Adjustable Lever with Plastic Roller 480-2925-ND 84.60 70.09 67.06 GLAA01A2A3A 10 SPDT Top Pin Plunger 480-2719-ND 44.05 35.05 32.84 GLCA01B3A 10 SPDT Top Pin Plunger 480-2728-ND 28.22 22.45 21.03 GLDA01B3B 10 SPDT Wobble Coil Spring 480-2712-ND 46.93 37.34 34.98 GLCA01E7B3B 10 SPDT Wobble Coil Spring 480-2721-ND 37.72 30.01 28.12 GLDA01E7B3C 10 SPDT Side Rotary, Adjustable Lever Metal Roller 480-2713-ND 46.36 36.88 34.55 GLCA01A2B3C 10 SPDT Side Rotary, Adjustable Lever Metal Roller 480-2722-ND 36.28 28.86 27.04 GLDA01A2B3C 10 SPDT Side Rotary, Adjustable Lever Plastic Roller 480-2714-ND 46.36 36.88 34.55 GLCA01A2A3C 10 SPDT Side Rotary, Adjustable Lever Plastic Roller 480-2723-ND 36.28 28.86 27.04 GLDA01A2A3D 10 SPDT Side Rotary with Metal Rod, Adjustable Lever 480-2715-ND 46.36 36.88 34.55 GLCA01A4J3D 10 SPDT Side Rotary with Metal Rod, Adjustable Lever 480-2724-ND 36.28 28.86 27.04 GLDA01A4J3E 10 SPDT Side Rotary, Fixed Lever Metal Roller 480-2716-ND 41.17 32.76 30.69 GLCA01A1B▲ With 4-pin DC Micro Connector104 (US2011)(TZS111.US)§ With 4-pin M12 ConnectorMore Product Available Online: www.digikey.comToll-Free: 1-800-344-45(Continued)

MICRO SWITCH Limit Switches (Cont.)Fig. 13 Fig. 14 Fig. 15 Fig. 16 Fig. 17 Fig. 18 Fig. 191.031.031.031.03Fig. 20Ø .31Dim. in inches2.72.73.593.591.971.571.571.571.571.571.921.921.18Fig. 21 Ø .47Fig. 22 Fig. 23Ø .47.161.36.70Fig. 24.39 StainlessSteel Plunger.30Ø.20 x2MountingholesFig. 25.30Ø.20 x2Mountingholes1.971.972.62Mfg No. Dim. ASuffix (in.)-3 36-6 72-9 1082.13A1.73Mfg No. Dim. ASuffix (in.)-3 36-6 72-9 1082.64A1.731.18.631.18.63 1.18.981.58.981.58Fig. 262.64.30.981.58Ø.20 x2Mountingholes1.73Fig. 27Mfg No. Dim. ASuffix (in.)-3 36-6 72-9 108.302.64A.981.58Ø.20 x2Mountingholes1.73Fig. 28Mfg No. Dim. ASuffix (in.)-3 36-6 72Ø.29.74.30A.981.58Ø.20 x2Mountingholes1.73Fig. 29Mfg No. Dim. ASuffix (in.)-3 36-6 72-9 1082.48A.30.981.58Ø.20 x2Mountingholes1.73Fig. 302.64.59.30.981.58Ø.20 x2Mountingholes1.73CurrentActuatorDigi-KeyPrice EachHoneywell SensingFig. Rating (A) CircuitTypePart No.1 10 25 Part No.3E 10 SPDT Side Rotary, Fixed Lever Metal Roller 480-2725-ND 31.10 24.74 23.18 GLDA01A1B3E 10 SPDT Side Rotary, Fixed Lever Plastic Roller 480-2717-ND 41.17 32.76 30.69 GLCA01A1A3E 10 SPDT Side Rotary, Fixed Lever Plastic Roller 480-2726-ND 25.92 20.62 19.32 GLDA01A1A3F 10 SPDT Wobble Cat Whisker 480-2720-ND 46.93 37.34 34.98 GLCA01K8A3G 10 SPDT Top Roller Arm 480-2718-ND 48.18 39.92 38.20 GLCA01D3G 10 SPDT Top Roller Arm 480-2727-ND 38.29 30.46 28.54 GLDA01D3H 6 SPDT Top Roller Plunger 480-2729-ND 34.55 27.49 25.75 GLDA01C4A 10 SPDT Top Plunger 480-2735-ND 49.22 40.78 39.02 GLEA01B4A 10 DPDT Top Plunger 480-2739-ND 67.61 56.01 53.59 GLEA24B4B 10 SPDT Side Rotary, Adjustable Lever Metal Roller 480-2730-ND 50.77 42.06 40.25 GLEA01A2B4B 10 SPDT Side Rotary, Adjustable Lever Plastic Roller 480-2731-ND 50.77 42.06 40.25 GLEA01A2A4B 10 DPDT Side Rotary, Adjustable Lever Plastic Roller 480-2737-ND 69.16 57.30 54.83 GLEA24A2A4C 10 SPDT Side Rotary, Fixed Lever Metal Roller 480-2732-ND 50.96 40.54 37.99 GLEA01A1B4C 10 SPDT Side Rotary, Fixed Lever Plastic Roller 480-2733-ND 50.96 40.54 37.99 GLEA01A1A4C 10 DPDT Side Rotary, Fixed Lever Metal Roller 480-2738-ND 64.50 53.44 51.13 GLEA24A1B4D 10 SPDT Wobble Coil Spring 480-2734-ND 51.81 42.92 41.07 GLEA01E7B4E 10 SPDT Top Roller Plunger 480-2736-ND 54.92 45.50 43.53 GLEA01C4E 10 DPDT Top Roller Plunger 480-2740-ND 73.57 60.95 58.32 GLEA24C5A 10 SPDT Top Plunger 480-2707-ND 17.74 13.58 12.83 GLLA01B5B 10 SPDT Side Rotary, Fixed Lever Metal Roller 480-2703-ND 20.46 15.67 14.80 GLLA01A1B5C 10 SPDT Side Rotary, Fixed Lever Rubber Roller 480-2704-ND 22.29 17.73 16.61 GLLA01A1Y5D 10 SPDT Side Rotary, Adjustable Lever Metal Roller 480-2705-ND 21.86 16.74 15.81 GLLA01A2B5E 10 SPDT Side Rotary, Adjustable Lever Rubber Roller 480-2706-ND 23.61 18.79 17.60 GLLA01A2Y5F 10 SPDT Top Roller Plunger 480-2708-ND 19.07 14.60 13.79 GLLA01C6 6 SPDT Side Rotary 480-2926-ND 12.55 9.61 9.07 GLZ51B7 10 SPDT Side Rotary - No Lever 480-2927-ND 110.33 93.43 89.79 LSA1A7 10 SPDT Side Rotary - No Lever 480-2935-ND 130.61 110.59 106.29 LSN1A7 10 SPDT Side Rotary - No Lever 480-2936-ND 116.98 99.05 95.20 LSP1A7 6 SPDT Side Rotary - No Lever 480-2937-ND 160.38 135.81 130.52 LSQ3007 10 SPDT Side Rotary - No Lever 480-2942-ND 126.87 107.43 103.25 LSYAB1A7 10 SPDT Side Rotary - No Lever 480-2943-ND 113.00 95.69 91.96 LSYAB3K8 10 DPDT Side Rotary - No Lever 480-2928-ND 136.96 115.97 111.46 LSA2B8 10 DPDT Side Rotary - No Lever 480-2930-ND 136.96 115.97 111.46 LSA6B8 10 DPDT Side Rotary - No Lever 480-2931-ND 136.96 115.97 111.46 LSA7L8 10 DPDT Side Rotary - No Lever 480-2933-ND 143.99 121.92 117.18 LSM6D8 10 DPDT Side Rotary - No Lever 480-2934-ND 126.34 106.98 102.81 LSM7N8 10 DPDT Side Rotary - No Lever 480-2944-ND 151.32 128.13 123.14 LSYAB6B8 10 DPDT Side Rotary - No Lever 480-2946-ND 157.86 133.67 128.47 LSYMB6D9 10 SPDT Top Roller Plunger 480-2932-ND 134.29 113.71 109.29 LSD1A10 10 SPDT Wobble Coil Spring 480-2945-ND 139.97 118.52 113.90 LSYKB1A-8C11 10 SPDT Side Rotary - No Lever 480-2938-ND 174.52 150.37 143.21 LSXA3K11 10 SPDT Side Rotary - No Lever 480-2939-ND 187.80 161.82 154.11 LSXYAB3K11 10 DPDT Side Rotary - No Lever 480-2940-ND 207.45 178.75 170.23 LSXYAB4L— — — Contact Block for LSX Series 480-2941-ND 62.12 51.46 49.24 LSXZ3K12A 5 SPDT-DB Roller Plunger 480-2709-ND 25.17 20.02 18.76 SZL-VL-H12B 5 SPDT-DB Wobble, Plastic Rod 480-2710-ND 25.17 20.02 18.76 SZL-VL-F12C 5 SPDT-DB Wobble, Stainless Steel Wire 480-2711-ND 25.17 20.02 18.76 SZL-VL-G13 10 SPDT Side Rotary, Fixed Lever with Front Mounted Steel Roller 480-2909-ND 133.18 112.77 108.38 1LS113 10 SPDT Side Rotary - No Lever 480-2914-ND 129.59 109.73 105.46 1LS913 10 SPDT Side Rotary, Fixed Lever with Front Mounted Steel Roller 480-2912-ND 142.00 120.24 115.56 1LS1914 10 SPDT Side Rotary, Adjustable Lever with Front Mounted Nylon Roller 480-2913-ND 146.22 123.82 119.00 1LS315 10 SPDT Side Rotary, Adjustable Lever Rod 480-2910-ND 142.00 120.24 115.56 1LS1015 10 SPDT Side Rotary, Adjustable Lever Rod 480-2911-ND 142.00 120.24 115.56 1LS10-L16 10 SPDT Top Roller Plunger 480-2917-ND 143.12 121.19 116.47 5LS1▲ With 4-pin DC Micro Connector § With 4-pin M12 Connector (Continued)IMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)105105

MICRO SWITCH Limit Switches (Cont.)Dim. in inchesFig. 31.308.9436Fig. 38.981.58Ø.08Ø.37.27.16Ø.07Ø.20 x2Mountingholes1.732.621.72.3112.00Fig. 322.84108Fig. 391.50.981.58AØ.20 x2MountingholesB1.391.59Fig. 331.50AAB.39.83BB.32.52Fig. 34Fig. 40 Fig. 41 Fig. 42 Fig. 43 Fig. 44 Fig. 45BØ.25Ø .75 X .25BA13A.74.16.274.04.311.5-3.5.74A.27.16B.31Fig. 35 Fig. 361.501.501.5.89.741.08.47.27.28 .47Fig. 37.16NONC.251.476A.473.59ICurrentActuatorDigi-KeyPrice EachHoneywell SensingFig. Rating (A) CircuitTypePart No.1 10 25 Part No.17 10 SPDT Wobble Flexible Spring 480-2922-ND 133.66 113.18 108.77 8LS117 10 SPDT Wobble Spring Rod 480-2923-ND 133.66 113.18 108.77 8LS318 10 SPDT Side Rotary, Fixed Lever with Front Mounted Steel Roller 480-2915-ND 148.07 125.38 120.50 201LS119 10 SPDT Wobble Flexible Spring 480-2916-ND 129.59 109.73 105.46 208LS120 10 DPST Top Pin Plunger 480-2894-ND 42.33 33.67 31.55 91MCE1-P120 10 DPST Top Pin Plunger 480-2895-ND 42.33 33.67 31.55 91MCE1-S121 10 DPST Roller Plunger 480-2896-ND 44.75 35.60 33.35 91MCE2-P121 10 DPST Roller Plunger 480-2897-ND 44.75 35.60 33.35 91MCE2-S121 10 DPST Roller Plunger 480-2898-ND§ 44.75 35.60 33.35 91MCE2-SQ22 10 DPST Cross Roller Plunger 480-2899-ND 44.75 35.60 33.35 91MCE3-P122 10 DPST Cross Roller Plunger 480-2900-ND 44.75 35.60 33.35 91MCE3-S123 10 DPST Side Rotary with Plastic Lever and Metal Roller 480-2901-ND 45.95 36.56 34.25 91MCE16-P123 10 DPST Side Rotary with Plastic Lever and Metal Roller 480-2902-ND 45.95 36.56 34.25 91MCE16-S124 5 SPDT Top Plunger 480-2741-ND 63.21 52.36 50.10 914CE1-324 5 SPDT Top Plunger 480-2742-ND 69.42 57.51 55.03 914CE1-624 5 SPDT Top Plunger 480-2743-ND 75.12 62.23 59.55 914CE1-925 5 SPDT Roller Plunger 480-2744-ND 73.31 60.73 58.11 914CE2-325 5 SPDT Roller Plunger 480-2745-ND 79.01 65.45 62.63 914CE2-625 5 SPDT Roller Plunger 480-2746-ND 84.97 70.39 67.35 914CE2-926 5 SPDT Roller Plunger 480-2756-ND 75.12 62.23 59.55 914CE2-3A27 5 SPDT Roller Plunger 480-2747-ND 73.31 60.73 58.11 914CE3-327 5 SPDT Roller Plunger 480-2748-ND 79.01 65.45 62.63 914CE3-628 5 SPDT Side Rotary 480-2750-ND 89.11 73.82 70.64 914CE16-328 5 SPDT Side Rotary 480-2751-ND 88.51 74.95 72.03 914CE16-629 5 SPDT Top Plunger with Boot Seal 480-2752-ND 76.16 63.09 60.37 914CE18-329 5 SPDT Top Plunger with Boot Seal 480-2753-ND 82.38 68.24 65.30 914CE18-629 5 SPDT Top Plunger with Boot Seal 480-2754-ND 87.82 72.75 69.61 914CE18-930 5 SPDT Roller Plunger 480-2757-ND▲ 77.71 64.38 61.60 914CE2-Q31 5 SPDT Wobble Spring Wire 480-2755-ND 86.81 73.51 70.65 914CE20-332 10 SPDT-DB Roller Plunger 480-2758-ND 101.12 85.63 82.29 924CE2-S9▲ With 4-pin DC Micro Connector § With 4-pin M12 ConnectorLevers for SwitchesRollerDimensions (Inch)Digi-KeyPrice EachHoneywell SensingFig.MaterialMountingA B Part No.1 10 25 Part No.33A Nylon Front .75 .25 480-2759-ND 13.87 10.62 10.03 LSZ51A33A Steel Front .75 .25 480-2760-ND 13.87 10.62 10.03 LSZ51B33B Nylon Back .75 .25 480-2761-ND 13.87 10.62 10.03 LSZ51C33B Steel Back .75 .25 480-2762-ND 13.87 10.62 10.03 LSZ51D34 Stainless Steel — — — 480-2952-ND 17.43 13.34 12.60 LSZ5234 Nylon Back .75 .25 480-2763-ND 21.67 16.59 15.67 LSZ52A34 Steel Back .75 .25 480-2764-ND 21.67 16.59 15.67 LSZ52B34 Nylon Front .75 .25 480-2765-ND 21.67 16.59 15.67 LSZ52C34 Steel Front .75 .25 480-2766-ND 21.67 16.59 15.67 LSZ52D34 Nylon Front 1.0 .50 480-2767-ND 27.93 22.22 20.82 LSZ52J34 Nylon Front 1.5 .25 480-2768-ND 27.93 22.22 20.82 LSZ52K34 Nylon Front .75 .50 480-2953-ND 21.67 16.59 15.67 LSZ52N35 Steel Front — — 480-2954-ND 21.67 16.59 15.67 LSZ53D36 Stainless Steel — — — 480-2955-ND 17.43 13.34 12.60 LSZ5437 Aluminum — 5.5 — 480-2769-ND 21.67 16.59 15.67 LSZ54M37 Stainless Steel — 13.0 — 480-2770-ND 21.67 16.59 15.67 LSZ54N38 Spring Wire — — — 480-2771-ND 21.67 16.59 15.67 LSZ54R39 Nylon Front .75 .25 480-2772-ND 21.67 16.59 15.67 LSZ55C40 Nylatron — 6.0 2.3 480-2773-ND 21.35 16.35 15.44 LSZ6141 Delrin Rod — 12.0 9.8 480-2774-ND 27.93 22.22 20.82 LSZ68Accessories for SwitchesDigi-KeyPrice EachHoneywell SensingFig. DescriptionPart No.1 10 25Part No.42 Lever and Seal Boot Limit Switch 480-2919-ND 43.31 34.45 32.28 6PA243 Stainless Steel Adjustable Rod 480-2921-ND 40.83 32.48 30.43 6PA6344 Fixed Lever Front Steel Roller 480-2918-ND 19.39 14.84 14.02 6PA121— Seal Boot for Limit Switch 480-2920-ND 29.83 23.73 22.23 6PA20— Seal Boot for Limit Switch 480-2907-ND 11.76 8.60 8.06 10PA2— Switch Limit Operating Head 480-2947-ND 61.55 50.99 48.79 LSZ1A— Switch Limit Operating Head 480-2948-ND 61.55 50.99 48.79 LSZ1R— Switch Limit Contact Block 480-2949-ND 52.33 43.35 41.48 LSZ3A— Switch Limit Plug-in Unit 480-2956-ND 97.19 82.30 79.10 LSZ7A1A— Receptacle Plug in Single Pole 480-2950-ND 21.13 16.81 15.75 LSZ4001— Replacement Spring Wire Actuator 480-2951-ND 21.13 16.81 15.75 LSZ401045 Terminal Block 480-2908-ND 44.23 35.18 32.96 18PA1106 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

MICRO SWITCH Basic SwitchesNot all basic switches are alike. More than 60 years of experience go into Honeywell’s high quality, high reliability switches, so you can count on Honeywell for first time, every time functionality, superior support and service.Fig. 1A .38.09 .36.19.09.34 .26(Solder Termination shown)BC Ø.19.13 wideTurretTerminationPCBTerminationØ .058Double TurretTerminationSolder PinTerminationØ .058Quick ConnectTerminationFig. 2A .78.38 .20.40.09.34 .26.09(Turret Termination shown)BC Ø.19.13 wideDLever width: .13ELever width: .13SolderTermination.020Ø .058 Ø .110Fig. 3 Fig. 4 Fig. 5.29.09Ø.09.06.19.50(Turret Termination shown)Quick ConnectTerminationØ .058Double TurretTermination.040.060A.36.09.06.58.19.50Ø.09BCRollerwidth: .09DLeverwidth: .093.092.251.38.27Fig. 6 Fig. 7 Fig. 8 Fig. 91.901.881.22A.5B1.221.881.68.8121.221.221.811.591.301.591.5943 X .187 wideX .020 thickQuick connect term.1.594Fig. 10.188x.020Quick connectterminal x3Normallyopen terminalNormallyclosed terminalCommonterminal1.25COMMONCLOSEDOPEN.92.46.045-.10ThickMountingPanelFig. 11Fig. 12Fig. 13Fig. 14Fig. 15A1.25CommonClosedOpen.92BA.081.03COM2C2O2O1C11.321.57COM1B.045-.10ThickMountingPanel2.132.50Ø.35A Ø.14BØ.09HoleØ.14 Hole1.00 .471.94.59.25.59.21.461.00 .471.94.68 .17CurrentRatingActuatorDigi-Key Price Each Honeywell SensingFig. (A) Circuit Type Termination Part No. 1 10 25 Part No.1A 5 SPDT Pin Plunger Solder 480-2307-ND 8.77 6.42 6.01 1SM11A 5 SPDT Pin Plunger Solder 480-2309-ND 7.30 5.35 5.01 11SM11A 5 SPDT Pin Plunger Solder 480-2316-ND 13.45 10.30 9.72 411SM11A 5 SPDT Pin Plunger Turret 480-2308-ND 9.81 7.18 6.73 1SM1-T1A 5 SPDT Pin Plunger Turret 480-2310-ND 6.61 4.84 4.53 11SM1-T1A 5 SPDT Pin Plunger Turret 480-2312-ND 5.91 4.05 3.65 11SM3-T1A 1 SPDT Pin Plunger Turret 480-2313-ND 13.15 10.07 9.51 11SM23-T1A 5 SPDT Pin Plunger Turret 480-2314-ND 11.95 8.74 8.19 11SM401-T1A 5 SPDT Pin Plunger PCB 480-3010-ND 7.06 4.84 4.35 11SM1-H21A 5 SPDT Pin Plunger Dbl. Turret 480-2311-ND 6.63 4.86 4.55 11SM1-T21A 5 SPDT Pin Plunger Screw 480-3011-ND 8.14 5.96 5.58 11SM2441A 5 SPDT Pin Plunger Turret 480-3012-ND 7.77 5.69 5.32 11SM244-T1A 5 SPDT Pin Plunger Solder Pin 480-3013-ND 6.80 4.66 4.19 11SM701-H581A 5 SPDT Pin Plunger Dbl. Turret 480-3016-ND 10.15 7.43 6.95 21SM284-T21A 11 SPDT Pin Plunger Dbl. Turret 480-2315-ND 7.20 5.27 4.93 41SM1-T21B 5 SPDT Straight Lever Solder 480-2326-ND 9.18 6.72 6.29 111SM11B 5 SPDT Straight Lever Turret 480-2327-ND 9.08 6.64 6.22 111SM1-T1C 5 SPDT Roller Lever Solder 480-2328-ND 10.76 7.88 7.37 111SM21C 5 SPDT Roller Lever Turret 480-2329-ND 10.04 7.35 6.88 111SM2-T1C 1 SPDT Roller Lever Turret 480-2330-ND 18.89 14.46 13.66 111SM23-T1C 5 SPDT Roller Lever QC 480-3009-ND 9.24 6.76 6.33 111SM602-H42A 5 SPDT Straight Lever Turret 480-2317-ND 8.29 6.07 5.68 311SM1-T2A 5 SPDT Straight Lever Turret 480-2319-ND 7.17 5.25 4.91 311SM2-T2A 1 SPDT Straight Lever Turret 480-2318-ND 13.17 10.08 9.53 311SM23-T2A 5 SPDT Straight Lever Turret 480-2320-ND 7.61 5.57 5.22 311SM3-T2A 4 SPDT Straight Lever Turret 480-2321-ND 7.46 5.46 5.12 311SM703-T2B 5 SPDT Simulated Roller Turret 480-2322-ND 7.66 5.60 5.25 311SM4-T2B 5 SPDT Simulated Roller Turret 480-2323-ND 6.66 4.88 4.57 311SM5-T2B 4 SPDT Simulated Roller Turret 480-3020-ND 7.11 5.21 4.87 311SM704-T2C 5 SPDT Roller Lever Solder 480-3018-ND 7.67 5.62 5.26 311SM62C 5 SPDT Roller Lever Turret 480-2324-ND 8.58 6.28 5.88 311SM6-T2C 4 SPDT Roller Lever Turret 480-2325-ND 7.91 5.79 5.42 311SM706-T2D 4 SPDT Straight Lever Turret 480-3019-ND 6.92 5.07 4.74 311SM702-T2E 4 SPDT Simulated Roller Turret 480-3021-ND 8.54 6.25 5.85 311SM705-T3 7 SPDT Pin Plunger QC 480-3015-ND 12.53 9.60 9.06 1SX1-H583 7 SPDT Pin Plunger Turret 480-2297-ND 12.53 9.60 9.06 1SX1-T3 7 SPDT Pin Plunger Turret 480-2299-ND 14.29 10.94 10.33 1SX48-T3 7 SPDT Pin Plunger Turret 480-2298-ND 13.55 10.38 9.80 2SX1-T3 7 SPDT Pin Plunger Turret 480-3025-ND 18.76 14.36 13.57 4SX36-T3 3 SPDT Pin Plunger Turret 480-2296-ND 12.50 9.57 9.04 11SX1-T3 5 SPDT Pin Plunger Turret 480-2300-ND 12.10 8.86 8.29 11SX21-T3 1 SPDT Pin Plunger Turret 480-2295-ND 20.49 15.68 14.81 12SX1-TCurrentRatingActuatorDigi-Key Price Each Honeywell SensingFig. (A) Circuit Type Termination Part No. 1 10 25 Part No.3 7 SPDT Pin Plunger Turret 480-2301-ND 8.91 6.52 6.11 21SX39-T3 7 SPDT Pin Plunger Dbl. Turret 480-3017-ND 8.28 6.06 5.67 21SX39-T24A 5 SPDT Straight Lever Turret 480-2302-ND 13.81 10.58 9.99 311SX1-T4A 5 SPDT Straight Lever Turret 480-2303-ND 13.43 10.29 9.71 311SX2-T4A 5 SPDT Straight Lever Turret 480-2304-ND 14.31 10.96 10.35 311SX3-T4B 5 SPDT Simulated Roller Turret 480-2305-ND 12.63 9.67 9.14 311SX4-T4B 5 SPDT Simulated Roller Turret 480-2306-ND 13.55 10.38 9.80 311SX5-T4B 1 SPDT Simulated Roller Turret 480-3023-ND 19.43 14.88 14.05 313SX4-T4C 1 SPDT Roller Lever Turret 480-3022-ND 21.82 16.71 15.78 313SX30-T4D 1 SPDT Simulated Roller Turret 480-3024-ND 18.79 14.39 13.59 313SX5-T5 15 SPDT Rod Screw 480-2484-ND 63.16 52.33 50.07 1AC26A 15 SPDT Rod Screw 480-2483-ND 46.43 36.94 34.61 13AC16B 10 SPDT Rod Screw 480-2488-ND 51.06 40.62 38.06 2AC596B 15 SPDT Rod Screw 480-2489-ND 98.96 83.79 80.53 2AC66B 15 SPDT Rod Screw 480-2490-ND 37.57 29.89 28.00 3AC67 15 SPDT Rod Screw 480-2485-ND 32.57 25.91 24.28 22AC17 15 SPDT Rod Screw 480-2486-ND 32.17 25.59 23.98 22AC27 15 SPDT Rod Screw 480-2487-ND 29.73 23.65 22.16 23AC28 5 SPDT Rod QC 480-2873-ND 24.98 19.87 18.62 23AC808 5 SPDT Rod QC 480-2875-ND 45.58 36.26 33.97 23AC829 5 SPDT Rod QC 480-2874-ND 53.79 44.56 42.64 23AC8110 10 SPDT Concave Plunger QC 480-2491-ND 7.19 4.93 4.43 1DM1810 10 SPDT Convex Plunger QC 480-2492-ND 7.86 5.76 5.39 1DM2110 10 SPDT Finger Grip QC 480-2493-ND 7.58 5.55 5.20 1DM40111A 10 SPDT Pin Plunger QC 480-3202-ND 7.84 5.74 5.37 1DM5711B 1 SPDT Finger Grip QC 480-3201-ND 8.74 6.40 5.99 1DM43712A 10 DPDT Bullet Nose QC 480-2494-ND 11.10 8.13 7.61 2DM112B 10 DPDT Finger Grip QC 480-2495-ND 11.57 8.47 7.93 2DM40913 15 DPDT-DB Pin Plunger Screw 480-2465-ND 31.44 25.01 23.43 3MN113 15 DPDT-DB Pin Plunger Screw 480-2466-ND 49.96 39.74 37.23 3MN614A 10 SPDT Plunger Solder 480-2416-ND 14.56 11.15 10.53 BZ-R2114A 15 SPDT Plunger Solder 480-2417-ND 8.83 6.46 6.05 BZ-2R14A 20 SPDT Plunger Screw 480-2418-ND 10.04 7.35 6.88 BA-2R14B 15 SPDT Plunger Solder 480-2431-ND 15.74 12.05 11.38 BZ-2RQ14B 15 SPDT Plunger Solder 480-2432-ND 18.28 14.00 13.22 BZ-2RQ114B 15 SPDT Plunger Solder 480-3217-ND 15.69 12.02 11.35 BZ-2RS15 15 SPDT Pin Plunger Screw 480-2425-ND 18.46 14.14 13.35 BZ-3AT15 25 SPDT Pin Plunger Screw 480-2426-ND 21.27 16.28 15.38 BA-3ST16A 20 SPDT Pin Plunger Screw 480-2420-ND 11.36 8.70 8.22 BA-2R-A216A 20 SPDT Pin Plunger Screw 480-2421-ND 12.49 9.14 8.55 BA-2R-A4‡ With Plunger Seal(Continued)IMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)107107

MICRO SWITCH Basic Switches (Cont.)Fig. 16AØ.14HoleB C D.16Ø.16.30EØ.28Fig. 17AØ.50.19 wideBØ.50.19 wide.21.591.00 .47.78 .80 .171.94F G H.31Ø.37.15 wideI.63Ø.14Hole.211.00 .47.78 .80 .171.94CØ.33DFig. 18Ø.3261/2-20 UNFThread towithin .094of shoulder1.94.570Fig. 19 Fig. 20Ø.094Ø.140 HoleØ.094.59.261.941.94Ø.14 Hole.58.25Ø.25Fig. 21ABØ.37.15 wide1.00 .471.94CØ.14Hole.25Ø.37.15 wideFig. 22A.38 1.03 (1.04 for480-2452-ND).79Ø.14Hole.211.00 .47.78 .80 .171.94BDCØ.37.15 wideØ.37.15 wideFig. 23 Fig. 24A.83Ø.37.15 wide1.00 .471.94Ø.14Hole.25BØ.59 .30.38 .97.83AØ.14Hole.211.00 .47.78 .80 .171.94BCØ.37.15 wideØ.37.15 wideFig. 25.791.00 .471.94Ø.14Hole.25Fig. 26A 1.941.00.57.66.47Ø.14Hole.31NC C NO.51 .54 .42CBØ.37.15 wideFig. 27 Fig. 28 Fig. 29 Fig. 30 Fig. 31Fig. 32A Ø.14 Hole.251.00 .471.94BAØ.140.63.25.671.00 1.94BØ.37.15 wide.41.11.801.09Ø.11Hole.76.27.1101.094.625.27.1101.094.625.203.1101.094.625.203ICurrentRatingActuatorDigi-Key Price Each Honeywell SensingFig. (A) Circuit Type Termination Part No. 1 10 25 Part No.16A 15 SPDT Pin Plunger Screw 480-2419-ND 9.87 7.22 6.76 BZ-2R-A216A 10 SPDT Pin Plunger Screw 480-3219-ND 14.10 10.79 10.19 BZ-R21-A216A 15 SPDT Pin Plunger‡ Screw 480-3209-ND 11.94 9.14 8.63 BZ-2R5551-A216A 1 SPDT Pin Plunger Screw 480-2423-ND 12.34 9.45 8.92 BZ-2R72-A216A 15 SPDT Pin Plunger Screw 480-2415-ND 11.83 8.66 8.11 BZ-R-A216A 10 SPDT Pin Plunger Screw 480-2422-ND 12.22 9.36 8.84 BZ-R88-A216B 15 SPDT Pin Plunger‡ Screw 480-2424-ND 17.64 13.51 12.76 BZ-2R55-A2-S16C 15 SPDT Pin Plunger Screw 480-2427-ND 12.06 9.23 8.72 BZ-2RD-A216D 20 SPDT Pin Plunger Screw 480-2428-ND 11.91 9.12 8.62 BA-2RB-A216D 25 SPDT Pin Plunger Screw 480-3207-ND 14.24 10.90 10.30 BE-2RB-A416E 15 SPDT Pin Plunger‡ Screw 480-2429-ND 21.49 17.10 16.02 BZ-2RDS-A2-S16F 15 SPDT Pin Plunger Screw 480-2430-ND 12.49 9.56 9.03 BZ-2RS-A216G 15 SPDT Straight Lever Screw 480-2456-ND 12.99 9.95 9.40 BZ-2RL-A216H 15 SPDT Roller Lever Screw 480-2457-ND 15.17 11.61 10.97 BZ-2RL2-A216H 20 SPDT Roller Lever Screw 480-3205-ND 16.16 12.37 11.69 BA-2RL2-A216I 15 SPDT Plunger Screw 480-3215-ND 21.81 16.70 15.77 BZ-2RQ6617A 15 SPDT Roller Plunger Screw 480-2436-ND 25.94 20.64 19.33 BZ-2RQ18-A217B 15 SPDT Roller Plunger Screw 480-2437-ND 28.01 22.29 20.88 BZ-2RQ181-A217C 15 SPDT Plunger Screw 480-2433-ND 11.63 8.90 8.41 BZ-2RQ1-A217C 15 SPDT Plunger Screw 480-2439-ND 18.02 13.80 13.03 BZ-3RQ1-A217C 20 SPDT Plunger Screw 480-2438-ND 17.69 13.54 12.79 BA-2RQ1-A217C 15 SPDT Plunger Screw 480-2434-ND 19.29 14.76 13.95 BZ-2RQ1T17C 15 SPDT Plunger Screw 480-2435-ND 20.95 16.04 15.15 BZ-2RN-A217D 15 SPDT Roller Plunger Screw 480-3216-ND 30.37 24.16 22.64 BZ-2RQ78518 15 SPDT Plunger Screw 480-3211-ND 25.34 20.16 18.89 BZ-2RN70218 15 SPDT Plunger Screw 480-3212-ND 26.72 21.26 19.92 BZ-2RN77019 15 SPDT Pin Plunger Screw 480-3214-ND 11.78 8.62 8.07 BZ-2R-P420 15 SPDT Pin Plunger Solder 480-3220-ND 18.34 14.04 13.26 BZ-RX21A 15 SPDT Straight Lever Solder 480-2440-ND 11.89 9.10 8.60 BZ-2RW8021A 20 SPDT Straight Lever Solder 480-3206-ND 13.70 10.49 9.91 BA-2RV21B 15 SPDT Roller Lever Solder 480-2450-ND 13.37 10.24 9.67 BZ-2RW82221C 15 SPDT Roller Lever Solder 480-2447-ND 14.90 11.41 10.77 BZ-2RW8222A 15 SPDT Straight Lever Screw 480-2441-ND 11.65 8.53 7.98 BZ-2RW80-A222A 15 SPDT Straight Lever Screw 480-2444-ND 12.44 9.11 8.53 BZ-2RW863-A222B 15 SPDT Straight Lever Screw 480-2442-ND 12.03 8.80 8.24 BZ-2RW84-A222B 15 SPDT Straight Lever Screw 480-2443-ND 16.08 12.31 11.63 BZ-2RW824-A222C 15 SPDT Roller Lever‡ Screw 480-2452-ND 23.34 18.57 17.40 BZ-2RW82255-A2-S22C 15 SPDT Roller Lever Screw 480-3218-ND 12.93 9.90 9.35 BZ-2RW82276T22C 15 SPDT Roller Lever Screw 480-2451-ND 11.74 8.99 8.49 BZ-2RW822-A222D 15 SPDT Roller Lever Screw 480-2448-ND 13.57 10.39 9.81 BZ-2RW82-A223A 20 SPDT Roller Lever Solder 480-2453-ND 16.87 12.92 12.20 BA-2RV2223B 20 SPDT Pin Plunger Solder 480-3203-ND 12.23 9.37 8.85 BA-2RB24A 20 SPDT Straight Lever Screw 480-2445-ND 13.08 10.01 9.46 BA-2RV-A224A 20 SPDT Straight Lever Screw 480-2446-ND 14.90 11.41 10.78 BA-2RV6-A224A 25 SPDT Straight Lever Screw 480-3208-ND 14.72 11.27 10.65 BE-2RV-A4CurrentRatingActuatorDigi-Key Price Each Honeywell SensingFig. (A) Circuit Type Termination Part No. 1 10 25 Part No.24B 20 SPDT Roller Lever Screw 480-2454-ND 14.95 11.45 10.81 BA-2RV22-A224C 20 SPDT Roller Lever Screw 480-2449-ND 16.80 12.87 12.15 BA-2RV2-A225 15 SPDT Straight Lever Solder 480-2455-ND 18.55 14.20 13.41 BZ-RW80X26A 10 DPDT Pin Plunger Screw 480-2458-ND 54.68 45.30 43.34 DT-2R-A726B 10 DPDT Roller Lever Screw 480-2460-ND 64.01 53.03 50.74 DT-2RV22-A726C 10 DPDT Straight Lever Screw 480-2459-ND 91.71 77.66 74.64 DT-2RV-A727A 10 SPDT Pin Plunger Solder 480-2461-ND 67.34 55.78 53.38 MT-4R27B 20 SPDT Straight Lever Solder 480-3204-ND 14.32 10.97 10.36 BA-2RL28A 10 SPDT Leaf Screw 480-2462-ND 83.20 68.92 65.95 MT-4RL-A2828A 10 SPDT Straight Lever Screw 480-2463-ND 89.60 74.22 71.02 MT-4RV-A2828B 10 SPDT Roller Lever Screw 480-2464-ND 94.79 80.26 77.14 MT-4RV22-A2829 10 SPDT Plunger Screw 480-2408-ND 9.81 7.18 6.73 V3-100129 10 SPDT Plunger Screw 480-2409-ND 44.07 35.06 32.85 V3-24529 11 SPDT Plunger Screw 480-2407-ND 19.57 14.98 14.15 V3-12930 15 SPDT Plunger Screw 480-2877-ND 7.83 5.73 5.37 V3-130 11 SPDT Plunger Screw 480-2878-ND 7.38 5.05 4.55 V3-10131 10 SPDT Plunger Solder 480-2879-ND 3.16 2.06 1.87 V3-111332 11 SPDT Plunger Solder 480-2880-ND 6.41 4.39 3.95 V3-11532 15 SPDT Plunger Solder 480-2882-ND 6.06 4.15 3.74 V3-2233 11 SPDT Plunger Solder 480-2881-ND 6.32 4.33 3.90 V3-11933 10 SPDT Plunger Solder 480-2883-ND 9.20 6.74 6.31 V3-305733 15 SPDT Plunger Solder 480-2884-ND 6.81 4.99 4.67 V3-305934 15 SPDT Plunger Solder 480-2404-ND 6.00 4.11 3.70 V3-1535 15 SPDT Plunger Solder 480-2405-ND 6.10 4.18 3.76 V3-1935 15 SPDT Plunger Solder 480-2406-ND 6.84 4.69 4.22 V3-19M36 11 SPDT Roller Lever Screw 480-2885-ND 9.56 7.00 6.55 V3L-11137 10 SPDT Straight Lever Solder 480-2887-ND 24.25 19.30 18.08 V3L-122938 15 SPDT Straight Lever Solder 480-2888-ND 9.16 6.70 6.27 V3L-329639 15 SPDT Roller Lever Solder 480-2889-ND 8.59 6.28 5.88 V3L-333940 15 SPDT Simulated Roller Solder 480-2890-ND 7.70 5.64 5.28 V3L-8441A 0.1 SPDT Pin Plunger QC 480-2359-ND 5.34 3.66 3.29 V7-1S17D841A 0.1 SPDT Pin Plunger QC 480-2360-ND 3.75 2.57 2.31 V7-3S17E941A 3 SPDT Pin Plunger QC 480-2361-ND 3.86 2.65 2.38 V7-5F17D841A 1 SPDT Pin Plunger QC 480-3189-ND 6.42 4.70 4.40 V7-1D10D841A 5 SPDT Pin Plunger QC 480-2362-ND 3.96 2.71 2.44 V7-4A17D841A 10 SPDT Pin Plunger QC 480-2363-ND 3.75 2.57 2.31 V7-3E19E941A 10 SPDT Pin Plunger QC 480-3194-ND 3.75 2.57 2.31 V7-3E17D841A 11 SPDT Pin Plunger QC 480-3193-ND 4.23 2.90 2.61 V7-2B17D841A 11 SPDT Pin Plunger QC 480-3181-ND 3.62 2.48 2.23 V7-1B17D841A 11 SPDT Pin Plunger QC 480-2364-ND 3.59 2.46 2.22 V7-2B17E941A 11 SPST-NO Pin Plunger QC 480-2365-ND 3.95 2.71 2.44 V7-2B27E941A 11 SPST-NC Pin Plunger QC 480-2366-ND 3.64 2.49 2.24 V7-2B37E941A 11 SPDT Pin Plunger QC 480-2367-ND 4.19 2.87 2.59 V7-6B19D8‡ With Plunger Seal(Continued)108 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

MICRO SWITCH Basic Switches (Cont.)Fig. 33 Fig. 34Fig. 35 Fig. 36Fig. 37Fig. 38Fig. 39Fig. 40.1101.094.625.27.41.80.361.09.11Ø.11Hole.20.411.09.80.11.271.341.094.625.271.41.094.625.271.41.094.625.203.811.094.625.2031.2851.094.625.203Fig. 41A0.80.11BEFig. 42A2.34BCFig. 430.41C11.09NC2N040.63CDF1.135.625D.1101.135.625Fig. 44A.1101.135B.625Fig. 45A.631.09BNOCOMCFig. 46AB.78.42CDSolderTerminationPCBTerminationQuick ConnectTerminationFig. 47A.42B.78Fig. 48AB.50.26(Solder Terminationshown)CPCB Snap-inTerminationFig. 49 Fig. 50Fig. 51A.780Fig. 52Fig. 53 Fig. 54 Fig. 55A.78.36BC.090.188.290Ø .060.156B.303.780.303.374 .203.374 .281.303.252.780.374.20.217.157.264.504.173.197.197.504.173CurrentRatingActuatorDigi-Key Price Each Honeywell SensingFig. (A) Circuit Type Termination Part No. 1 10 25 Part No.41A 11 SPDT Pin Plunger QC 480-2368-ND 3.85 2.64 2.38 V7-7B17D841A 15.1 SPDT Pin Plunger QC 480-3184-ND 4.18 2.86 2.58 V7-1C17D841A 15 SPDT Pin Plunger QC 480-2369-ND 4.32 2.96 2.66 V7-1C17E941A 21 SPDT Pin Plunger QC 480-2370-ND 4.20 2.88 2.59 V7-1V19E941A 25 SPDT Pin Plunger QC 480-2371-ND 3.99 2.74 2.46 V7-1Z19E941A 16 SPDT Pin Plunger QC 480-2991-ND 2.65 1.72 1.57 V15H16-CZ100-K41A 16 SPDT Pin Plunger QC 480-2986-ND 2.03 1.32 1.20 V15T16-CZ100-K41A 16 SPDT Pin Plunger QC 480-3002-ND 2.65 1.72 1.57 V15H16-CZ300-K41A 16 SPDT Pin Plunger QC 480-2997-ND 2.13 1.39 1.26 V15T16-CZ300-K41A 26 SPDT Pin Plunger QC 480-2996-ND 3.00 1.95 1.77 V15T26-CZ300-K41B 0.1 SPDT Straight Lever QC 480-2373-ND 5.91 4.05 3.64 V7-1S17D8-02241B 0.1 SPDT Straight Lever QC 480-3196-ND 4.18 2.87 2.58 V7-3S17D8-02241B 5 SPDT Straight Lever QC 480-2378-ND 3.60 2.47 2.22 V7-1A17D8-04841B 11 SPDT Straight Lever QC 480-2375-ND 4.29 2.94 2.64 V7-1B17D8-02241B 11 SPDT Straight Lever QC 480-2379-ND 4.37 3.00 2.70 V7-1B17D8-04841B 15 SPDT Straight Lever QC 480-2372-ND 5.18 3.55 3.19 V7-1C17D8-00241B 15 SPDT Straight Lever QC 480-2377-ND 5.17 3.54 3.19 V7-1C17D8-02241B 15 SPDT Straight Lever QC 480-2381-ND 5.18 3.55 3.19 V7-1C17D8-04841B 15 SPDT Straight Lever QC 480-3197-ND 4.18 2.87 2.58 V7-6C17D8-05741B 11 SPDT Straight Lever QC 480-3199-ND 4.04 2.77 2.49 V7-7B17D8-04841B 11 SPDT Straight Lever QC 480-2376-ND 4.25 2.91 2.62 V7-2B17D8-02241B 11 SPDT Straight Lever QC 480-2380-ND 4.25 2.91 2.62 V7-2B17D8-04841B 10 SPDT Straight Lever QC 480-2394-ND 3.88 2.66 2.39 V7-3E17D8-14841B 3 SPDT Paddle QC 480-2395-ND 10.55 7.72 7.23 V7-5F17D8-33641B 5 SPDT Straight Lever QC 480-3179-ND 5.26 3.60 3.24 V7-1A17D8-05741B 11 SPDT Straight Lever QC 480-3182-ND 4.37 3.00 2.70 V7-1B19D8-02241B 11 SPDT Straight Lever QC 480-2374-ND 4.87 3.33 3.00 V7-6B19E9-02241B 16 SPDT Straight Lever QC 480-2992-ND 2.68 1.74 1.59 V15H16-CZ100A02-K41B 16 SPDT Straight Lever QC 480-2987-ND 2.06 1.34 1.22 V15T16-CZ100A02-K41B 16 SPDT Straight Lever QC 480-3003-ND 2.68 1.74 1.59 V15H16-CZ300A02-K41B 16 SPDT Straight Lever QC 480-2998-ND 2.06 1.34 1.22 V15T16-CZ300A02-K41B 16 SPDT Long Str. Lever QC 480-2993-ND 2.78 1.81 1.65 V15H16-CZ100A03-K41B 16 SPDT Long Str. Lever QC 480-2988-ND 2.08 1.36 1.23 V15T16-CZ100A03-K41B 16 SPDT Long Str. Lever QC 480-3004-ND 2.70 1.76 1.60 V15H16-CZ300A03-K41B 16 SPDT Long Str. Lever QC 480-2999-ND 2.08 1.36 1.23 V15T16-CZ300A03-K41C 0.1 SPDT Simulated Roller QC 480-2382-ND 5.85 4.01 3.61 V7-1S17D8-26341C 11 SPDT Simulated Roller QC 480-2383-ND 5.16 3.54 3.18 V7-1B17D8-26341C 15 SPDT Simulated Roller QC 480-2384-ND 5.18 3.55 3.19 V7-1C17D8-26341C 15 SPDT Simulated Roller QC 480-2385-ND 4.18 2.87 2.58 V7-6C17D8-26341C 5 SPDT Simulated Roller QC 480-2891-ND 4.16 2.85 2.56 V7-7H15D8-263-141D 0.1 SPDT Roller Lever QC 480-2386-ND 5.41 3.70 3.33 V7-2S17D8-20141D 5 SPDT Roller Lever QC 480-2391-ND 4.04 2.77 2.49 V7-2A17D8-20741D 11 SPDT Roller Lever QC 480-2388-ND 4.25 2.91 2.62 V7-2B17D8-20141D 11 SPDT Roller Lever QC 480-2392-ND 4.25 2.91 2.62 V7-2B17D8-20741D 11 SPDT Roller Lever QC 480-2387-ND 4.04 2.77 2.49 V7-7B17D8-201CurrentRatingActuatorDigi-Key Price Each Honeywell SensingFig. (A) Circuit Type Termination Part No. 1 10 25 Part No.41D 15 SPDT Roller Lever QC 480-2389-ND 5.18 3.55 3.19 V7-1C17D8-20141D 15 SPDT Roller Lever QC 480-2393-ND 5.17 3.54 3.19 V7-1C17D8-20741D 1 SPDT Roller Lever QC 480-2390-ND 7.05 5.17 4.84 V7-7D17D8-20741D 16 SPDT Roller Lever QC 480-2994-ND 2.73 1.78 1.62 V15H16-CZ100A05-K41D 16 SPDT Roller Lever QC 480-2989-ND 2.12 1.38 1.25 V15T16-CZ100A05-K41D 16 SPDT Roller Lever QC 480-3005-ND 2.73 1.78 1.62 V15H16-CZ300A05-K41D 16 SPDT Roller Lever QC 480-3000-ND 2.12 1.38 1.25 V15T16-CZ300A05-K41E 16 SPDT Long Roller Lever QC 480-2995-ND 2.75 1.79 1.63 V15H16-CZ100A06-K41E 16 SPDT Long Roller Lever QC 480-2990-ND 2.13 1.39 1.26 V15T16-CZ100A06-K41E 16 SPDT Long Roller Lever QC 480-3006-ND 2.75 1.79 1.63 V15H16-CZ300A06-K41E 16 SPDT Long Roller Lever QC 480-3001-ND 2.13 1.39 1.26 V15T16-CZ300A06-K41F 15 SPDT Straight Lever QC 480-3198-ND 4.18 2.87 2.58 V7-6C18D8-00242A 10 SPDT Straight Lever QC 480-3195-ND 3.88 2.66 2.39 V7-3E17E9-02242A 15 SPDT Straight Lever QC 480-2892-ND 6.40 4.38 3.94 V7-9W1AE9-04842A 21 SPDT Straight Lever QC 480-3190-ND 4.45 3.05 2.75 V7-1V19E9-04842B 15 SPDT Roller Lever QC 480-3185-ND 4.55 3.12 2.81 V7-1C17E9-20142C 11 SPDT Pin Plunger QC 480-3200-ND 3.85 2.64 2.38 V7-7B19E942D 15 SPDT Roller Lever QC 480-3186-ND 4.55 3.12 2.81 V7-1C17E9-20743 11 SPNC Pin Plunger QC 480-3183-ND 3.96 2.71 2.44 V7-1B37D843 15.1 SPNC Pin Plunger QC 480-3188-ND 3.77 2.59 2.33 V7-1C37D844A 15.1 SPNO Pin Plunger QC 480-3187-ND 3.75 2.57 2.31 V7-1C27E944A 21 SPNO Pin Plunger QC 480-3191-ND 3.79 2.60 2.34 V7-1V29E944A 15 SPST-NO Pin Plunger QC 480-2893-ND 6.20 4.25 3.82 V7-9W2AE944A 25 SPNO Pin Plunger QC 480-3192-ND 4.11 2.82 2.53 V7-1Z29E944B 5 SPNO Roller Lever QC 480-3180-ND 4.33 2.97 2.67 V7-1A27D8-20745A 10 SPDT Pin Plunger QC 480-2396-ND 3.21 2.20 1.98 V9-11S43D80045A 16 SPST-NO Pin Plunger QC 480-2397-ND 3.27 2.24 2.02 V9-16S23D80045A 20 SPST-NO Pin Plunger QC 480-2399-ND 3.39 2.32 2.09 V9-20S23D90045A 20 SPDT Pin Plunger QC 480-2400-ND 3.44 2.36 2.12 V9-20S43D90045A 25 SPST-NO Pin Plunger QC 480-2401-ND 3.50 2.40 2.16 V9-25N23D90045A 25 SPDT Pin Plunger QC 480-2402-ND 3.50 2.40 2.16 V9-25S43D80045B 16 SPDT Roller Lever QC 480-2398-ND 3.56 2.44 2.19 V9-16S43D905A45C 25 SPST-NO Roller Lever QC 480-2403-ND 3.67 2.52 2.27 V9-25S43D906A46A 5 SPDT Straight Lever Solder 480-2349-ND 2.74 1.78 1.62 ZM50E10C0146B 10.1 SPDT Pin Plunger PCB 480-2348-ND 2.36 1.54 1.40 ZM90G20A0146B 0.1 SPDT Pin Plunger QC 480-2344-ND 3.09 2.01 1.83 ZM10B70A0146B 5 SPDT Pin Plunger QC 480-2346-ND 2.40 1.57 1.42 ZM50E70A0146B 0.1 SPDT Pin Plunger Solder 480-2345-ND 3.09 2.01 1.83 ZM10E10A0146B 5 SPDT Pin Plunger Solder 480-2347-ND 2.40 1.57 1.42 ZM50E10A0146C 10.1 SPDT Roller Lever PCB 480-2351-ND 2.82 1.83 1.67 ZM90G20F0146D 5 SPDT Simulated Roller Solder 480-2350-ND 2.74 1.78 1.62 ZM50E10E0147A 0.1 SPDT Pin Plunger QC 480-2352-ND 3.43 2.23 2.03 ZV10B70A0147A 6 SPDT Pin Plunger Solder 480-2353-ND 2.66 1.73 1.57 ZV50E10A01‡ With Plunger Seal(Continued)IMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)109109

MICRO SWITCH Basic Switches (Cont.)Fig. 56.130.197Fig. 57.1561.53.578Fig. 58.41.012 ThickFig. 59Ø .19 X .19 wide.41Fig. 60Ø .19 X .12 wide.60Fig. 61.41Ø .19 X.19 wideFig. 62.41Ø .19 X.19 wide.5041.1.375 REF..375.375.375.375Fig. 63 Fig. 64Fig. 65Fig. 66Fig. 67.012 thick.41.188Ø .19 X .09 wide.41.188A.09.20.19.09.38BA.09.188.187BA B Ø.19.09.12 wide.30.38 .20CFig. 68.56Dotted linesindicate basicswitches in placeØ .19 X.12 wide.31.375Fig. 69.16 Wide.375.31Fig. 70.38.34.09.25Fig. 71Ø .19 X .09 wide.34.375Fig. 72.16 wide.31.22.375Fig. 73Ø .19 X.19 wide.56.520Fig. 74.72.84.881.09.20.41.11Fig. 751.27.41.881.09.21.73.11Fig. 76 Fig. 77 Fig. 78Fig. 79.81A.81 .20 A.59 .14 B.28.41.881.09.72.11.881.09.41 .80.11.851.381.021.16.47 Ø.37.15wide.161.00BCFig. 80ABC D E F G H.06.95 .81Ø.50.19 wideØ.50.19 wide1.00 .532.06IFig. 81 6-32 NCX 1.50Fig. 82 Fig. 83 Fig. 842.44Round Head.631.0Machine Screw x2 Lock1.00Washer.16.23x4.16.231.666-32 NC.81Hex. Nut2.08x2.53 1.00.41(.56 for2.94 .501/2-14 N.P.T. Thread3 1/2 Threads Min.480-2480-ND)CurrentRatingActuatorDigi-Key Price Each Honeywell SensingFig. (A) Circuit Type Termination Part No. 1 10 25 Part No.47B 6 SPDT Straight Lever Solder 480-2354-ND 3.01 1.96 1.78 ZV50E10B0147B 6 SPDT Straight Lever QC 480-2355-ND 3.01 1.96 1.78 ZV50E70C0148A 0.1 SPDT Pin Plunger Solder 480-2339-ND 3.09 2.01 1.83 ZX10E10A0148A 3 SPDT Pin Plunger PCB Snap-In 480-2340-ND 2.40 1.57 1.42 ZX40E30A0148B 0.1 SPDT Straight Lever Solder 480-2341-ND 3.43 2.23 2.03 ZX10E10C0148B 3 SPDT Straight Lever Solder 480-2342-ND 2.74 1.78 1.62 ZX40E10C0148C 3 SPDT Simulated Roller Solder 480-2343-ND 1.75 1.14 1.04 ZX40E10E0149A 0.1 SPDT Straight Lever Solder 480-2356-ND 8.38 6.13 5.74 ZW10E15CD149B 5 SPDT Pin Plunger Solder Angled 480-2357-ND 7.98 5.84 5.47 ZW50F15AD149C 0.1 SPDT Roller Lever Cable Exit 480-2358-ND 12.10 9.27 8.75 ZW10E90FW150 7 SPDT Pin Plunger Turret 480-3026-ND 12.97 9.93 9.38 91SX39-T51A 5 SPDT Straight Lever Solder 480-3045-ND 7.32 5.01 4.51 UM50E10C0151B 5 SPDT Roller Lever QC 480-3047-ND 6.92 5.07 4.74 UM50E70F0152 5 SPDT Pin Plunger QC 480-3046-ND 5.97 4.09 3.68 UM50E70A0153 0.1 SPDT Simulated Roller Solder 480-3048-ND 7.87 5.76 5.39 US10D10E0054 0.1 SPDT Straight Lever Solder 480-3049-ND 6.36 4.36 3.92 UX10E10C0155 3 SPDT Straight Lever Solder 480-3050-ND 5.60 3.84 3.45 UX40E10C0156 3 SPDT Simulated Roller Solder 480-3051-ND 5.60 3.84 3.45 UX40E10E01‡ With Plunger SealAccessoriesActuatorDigi-KeyPrice Each Honeywell SensingFig.TypePart No. 1 10 25 Part No.Switch Actuators57 Plunger Lever 480-3014-ND 22.73 18.09 16.95 17AC1-T58 Leaf Lever 480-3027-ND 9.42 6.89 6.45 JE-159 Roller Lever 480-3028-ND 28.74 22.86 21.42 JE-1760 Roller Lever 480-3029-ND 41.38 32.92 30.84 JE-2161 Roller Lever 480-3030-ND 21.66 16.58 15.66 JE-462 Roller Lever 480-3031-ND 37.23 29.62 27.75 JE-6163 Leaf Lever 480-3032-ND 11.85 9.07 8.57 JM-164 Roller Lever 480-3033-ND 15.05 11.53 10.89 JM-565A Straight Lever 480-2331-ND 7.88 5.77 5.40 JX-2065B Roller Lever 480-2332-ND 13.07 10.01 9.45 JX-2566A Straight Lever 480-2333-ND 3.52 2.41 2.17 JX-4066A Straight Lever 480-3042-ND 3.88 2.66 2.39 JX-4166A Straight Lever 480-3043-ND 3.63 2.49 2.24 JX-44Fig.‡ With Plunger SealActuatorTypeDigi-KeyPart No.2.371.006-32 NCThreadPrice Each1 10 25.84Honeywell SensingPart No.66B Roller Lever 480-2334-ND 6.85 5.02 4.70 JX-4566B Roller Lever 480-3044-ND 6.35 4.35 3.91 JX-5167A Straight Lever 480-2335-ND 4.47 3.06 2.76 JS-267B Roller Lever 480-2336-ND 6.90 5.05 4.73 JS-567C Simulated Roller 480-2337-ND 5.95 4.08 3.67 JS-768 Roller Lever 480-3038-ND 11.83 9.06 8.55 JS-3169 Leaf Lever 480-3034-ND 15.02 11.50 10.87 JS-15270 Straight Lever 480-2338-ND 7.40 5.07 4.56 JS-22071 Roller Lever 480-3035-ND 15.18 11.62 10.98 JS-24671 Roller Lever 480-3037-ND 21.91 17.43 16.33 JS-30872 Leaf Lever 480-3036-ND 36.13 28.75 26.93 JS-25473 Roller Lever 480-3040-ND 15.19 11.63 10.99 JT-574 Straight Lever 480-2410-ND 5.73 3.92 3.53 JV-175 Straight Lever 480-2411-ND 23.19 18.45 17.28 JV-776 Roller Lever 480-2413-ND 15.34 11.75 11.10 JV-577A Pivot Lever 480-2412-ND 17.76 13.60 12.85 JV-2677B Pivot Lever Roller 480-2414-ND 31.08 24.73 23.17 JV-2078 Roller Lever 480-2876-ND 25.56 20.34 19.05 JV-8279A Roller Lever 480-2467-ND 21.52 16.47 15.56 AD3721R79B Roller Lever 480-2468-ND 18.59 14.23 13.44 AD5721R79C Roller Lever 480-2469-ND 21.52 16.47 15.56 ADD3721R80A Plunger 480-2470-ND 20.66 15.82 14.94 MC271180B Cross Roller Plunger 480-2477-ND 61.49 50.94 48.74 MD3211Q180C Plunger‡ 480-2471-ND 41.37 32.91 30.83 MC2711H80D Plunger 480-2472-ND 30.77 24.48 22.94 MC771180E Plunger 480-2473-ND 52.45 43.45 41.58 MCA771180F Plunger 480-2474-ND 32.22 25.64 24.02 MCD271180G Plunger 480-2475-ND 53.88 44.64 42.71 MCD771180H Roller Plunger 480-2476-ND 47.11 37.48 35.11 MD3211-QSwitch Enclosures81 Side Mount for Large Switch 480-2478-ND 29.83 23.73 22.23 3PA182 Solder Terminals for Large Switch 480-2479-ND 2.65 1.72 1.57 5PA182 Screw Terminals for Large Switch 480-2480-ND 2.47 1.61 1.46 5PA283 Auxiliary Actuator for Large Switch 480-2481-ND 7.97 5.83 5.46 5PA384 Adjustable Bracket Mount for Large Switch 480-2482-ND 16.31 12.49 11.80 8MA1— Insulator 480-3041-ND 1.57 .97 .87 JX-10131110 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Panasonic Electric WorksABJ Micro SeriesSealed Snap SwitchesFeatures: technology and industry first ultrasonic swaging technology contribute touniform sealing in high production quantitiesApplications: and switching applicationsSealed Turquoise SwitchesFig. 1 — Plunger Type Fig. 2 — Lever Type4.4Fig. 3 — SimulatedRoller Type6.512.86.06.56.012.8Mtg. Hole6.56.012.8Dimensions in mm3.3Mtg. HoleFig.1Contact Contact Actuation TerminalContact Digi-KeyPrice EachPanasonicTypeRating (A) ForceTypePlatingPart No.1 25 50 Part No.SPDT 0.1 123gF Solder Gold over Silver‡ 255-2004-ND 3.82 3.51 3.12 ABJ1410419SPDT 0.1 196gF Solder Gold over Silver‡ 255-2006-ND 3.82 3.51 3.12 ABJ1410619SPDT 1.0 123gF Solder Silver over Nickel 255-2003-ND 2.77 2.55 2.26 ABJ1410409SPDT 2.0 196gF Solder Silver over Nickel 255-2005-ND 2.77 2.55 2.26 ABJ14106092 SPDT 2.0 64gF Solder Silver over Nickel 255-2007-ND 3.16 2.91 2.58 ABJ14126093 SPDT 1.0 39gF Solder Silver over Nickel 255-2009-ND 3.16 2.91 2.58 ABJ1414409‡ Gold over silver contact plating - Low level switching from 1mA to 2A power levelsABS Mini SeriesSealed Snap SwitchesFig. 1 — Plunger TypeFig. 2 — ShortLever Type5.0Fig. 3 — LongLever Type13.1Dimensions in mmFig. 4 — Simulated 6.3Roller TypeFeatures: reduces possible miscontact due to contaminants such as dust ultrasonic swaging technology contribute to uniform sealing inhigh production quantitiesApplications: 19.311.16.411.119.36.4Mtg. Hole11.119.36.4Mtg. Hole11.119.36.4Mtg. HoleContact ContactTerminalActuationContact Digi-KeyPrice EachPanasonicFig. Type Rating (A)TypeForcePlating Part No.1 25 50 Part No.SPDT 0.1 .110 Quick Connect 147gF Gold over Silver‡ 255-2020-ND 3.82 3.51 3.12 ABS1110519SPDT 0.1 Solder 147gF Gold over Silver‡ 255-2028-ND 3.82 3.51 3.12 ABS1410519SPDT 0.1 PC Mount 147gF Gold over Silver‡ 255-2032-ND 3.82 3.51 3.12 ABS15105191 SPDT 0.1 Wire Leads 147gF Gold over Silver‡ 255-2036-ND 10.95 10.06 8.94 ABS1610519SPDT 2.0 .110 Quick Connect 147gF Silver over Nickel 255-2019-ND 2.77 2.55 2.26 ABS1110509SPDT 2.0 Solder 147gF Silver over Nickel 255-2027-ND 2.77 2.55 2.26 ABS1410509SPDT 2.0 PC Mount 147gF Silver over Nickel 255-2031-ND 2.77 2.55 2.26 ABS1510509SPDT 0.1 .110 Quick Connect 54gF Gold over Silver‡ 255-2022-ND 4.53 4.17 3.70 ABS1112519SPDT 0.1 PC Mount 54gF Gold over Silver‡ 255-2034-ND 4.53 4.17 3.70 ABS1512519SPDT 0.1 Wire Leads 54gF Gold over Silver‡ 255-2038-ND 11.96 10.98 9.76 ABS16125192SPDT 2.0 .110 Quick Connect 54gF Silver over Nickel 255-2021-ND 3.28 3.02 2.68 ABS1112509SPDT 2.0 PC Mount 54gF Silver over Nickel 255-2033-ND 3.28 3.02 2.68 ABS1512509SPDT 2.0 Wire Leads 54gF Silver over Nickel 255-2037-ND 10.19 9.36 8.32 ABS16125093 SPDT 0.1 .110 Quick Connect 44gF Gold over Silver‡ 255-2024-ND 4.53 4.17 3.70 ABS11135194 SPDT 2.0 .110 Quick Connect 54gF Silver over Nickel 255-2025-ND 3.28 3.02 2.68 ABS1114509‡ Gold over silver contact plating - Low level switching from 1mA to 2A power levelsIABV Standard Series Sealed Snap SwitchesFeatures: struction for use in adverse environments possible miscontact due to contaminants such molding technology, an industry first, andultrasonic swaging technology contribute touniform sealing in high production quantitiesApplications: ContactContactTerminalContact Digi-KeyPrice EachPanasonicFig.TypeRating (A)TypePlating‡ Part No.1 25 50 Part No.1 SPDT 5 Wire Leads Gold over Silver 255-2044-ND 12.25 11.25 10.00 ABV16106192SPDT 5 .187 Quick Connect Gold over Silver 255-2040-ND 6.08 5.58 4.96 ABV1212619SPDT 5 Wire Leads Gold over Silver 255-2045-ND 13.52 12.42 11.04 ABV16126193 SPDT 5 .187 Quick Connect Gold over Silver 255-2041-ND 6.10 5.61 4.98 ABV12146194 SPDT 3 .187 Quick Connect Gold over Silver 255-2391-ND 7.40 6.80 6.04 ABV1215619R5SPDT 5 .187 Quick Connect Gold over Silver 255-2043-ND 7.42 6.82 6.06 ABV1216619SPDT 5 Wire Leads Gold over Silver 255-2048-ND 9.82 9.03 8.02 ABV1616619‡ Gold over Silver contact plating - Low level switching from 1mA to 5A power levelsFig. 1 — Plunger Type Fig. 2 — Lever Type Fig. 3 — Simulated Roller Type Fig. 4 — Short Roller Type Fig. 5 — Long Roller Type15.910.333NC2 NO1 3C35.810.321NCNO3CMore Product Available Online: www.digikey.comwww.digikey.com/sensors15.932.810.3Toll-Free: 1-800-344-45 (US2011)(TZS111.US)11121NCNO3C15.920.610.321NCNO3C15.934.210.3Dimensions in mm21NCNO3C15.9111

Snap Type SwitchesUL Recognized and CSA CertifiedFig. 1 – Subminiature, DG SeriesAFig. 2 – Subminiature, DH SeriesA.157(3.99)B.064(1.63)Hole.098(2.5)++.175(4.45).122(3.09)ActuatorLengthBActuatorLengthSwitch Mtg. HoleRatings:DG1: 2 Amps 30VDC, PCBDG2: 50mA 30VDC, PCBRight0.083(2.1)0.122 (3.1)Left0.083(2.1)0.122 (3.1)CRatings:DH2C: 5-500mA @ 30VDC; Gold-PlatedBrass contacts.064(1.63)Hole.025(0.64)++.323(8.2).175(4.45)Fig. 3 – Water and Dust Sealed, DC SeriesA.256(6.5)Fig. 4 – Subminiature, DB SeriesA.787(20)BLength ofactuator0.256(6.5)B.272(6.9) .093(2.4)COM N.O. N.C..787(20)CCOM N.O. N.C.COM N.O. N.C..189(4.8)Length ofactuator0.787Max.(20.0)0.374(9.5)0.262(6.65)0.093(2.35)ActuatorLengthCITerminalActuator Length Oper. Force Digi-KeyPricingCherryFig. Description Circuitry Current Inch (mm) Actuator Inch (mm) (Max. gms.) Part No.1 10 50 100 500 Part No.1ASPDT 5 ~ 50mA Vertical PCB Button — 140 CH167-ND 2.08 18.48 77.00 132.83 608.30 DG23-B1AA1B SPDT 5 ~ 50mA Vertical PCB Lever 0.169 (4.29) 45 CH168-ND 2.35 20.88 87.00 150.08 687.30 DG23-B1LA1B SPDT 5 ~ 50mA Right Angle - PCB Lever 0.169 (4.29) 45 CH621-ND 2.35 20.88 87.00 150.08 687.30 DG23-B2LA1B Subminiature SPDT 5 ~ 50mA Left Angle - PCB Lever 0.169 (4.29) 45 CH624-ND 2.35 20.88 87.00 150.08 687.30 DG23-B3LA1C DG Series SPDT 5 ~ 50mA Vertical PCB Roller Lever 0.075 (1.91) 60 CH169-ND 4.62 41.04 171.00 294.98 1350.90 DG23-B1RA1C SPDT 5 ~ 50mA Right Angle - PCB Roller Lever 0.075 (1.91) 60 CH622-ND 4.78 42.48 177.00 305.33 1398.30 DG23-B2RA1B SPDT 3A Vertical PCB Lever 0.169 (4.29) 45 CH165-ND 2.30 20.40 85.00 146.63 671.50 DG13-B1LA1C SPDT 3A Vertical PCB Roller Lever 0.075 (1.91) 60 CH166-ND 4.32 38.40 160.00 276.00 1264.00 DG13-B1RA2ASPDT 5 ~ 500mA Straight - Solder Button — 90 CH172-ND 3.38 30.00 125.00 215.63 987.50 DH2CB1AA2A SPDT 5 ~ 500mA Right Angle - PCB Button — 90 CH920-ND 4.59 40.80 170.00 293.25 1343.00 DH2CC5AA2BSubminiatureDH SeriesSPDT 5 ~ 500mA Straight - Solder Simulated Roller 0.252 (6.4) 50 CH173-ND 3.46 30.72 128.00 220.80 1011.20 DH2CB1PA2B SPDT 5 ~ 500mA Right Angle - PCB Simulated Roller 0.252 (6.4) 50 CH921-ND 4.70 41.76 174.00 300.15 1374.60 DH2CC5PA2B SPDT 5 ~ 500mA Left Angle - PCB Simulated Roller 0.252 (6.4) 50 CH923-ND 4.70 41.76 174.00 300.15 1374.60 DH2CC6PA3ASPDT 0.1A Solder Eyelet Button — 200 CH293-ND 5.13 45.60 190.00 327.75 1501.00 DC3C-A1AA3A SPDT 0.1A Wire 18AWG Leads Button — 204 CH614-ND 9.53 84.72 353.00 608.93 2788.70 DC3C-D5AA3B SPDT 0.1A Solder Eyelet Lever 0.189 (4.80) 80 CH613-ND 6.26 55.68 232.00 400.20 1832.80 DC3C-A1LB3A Sealed SPDT 5A Solder Eyelet Button — 200 CH290-ND 4.73 42.00 175.00 301.88 1382.50 DC1C-A1AA3ADC SeriesWater & Dust SPDT 5A Right Angle - PCB Button — 200 CH608-ND 4.05 36.00 150.00 258.75 1185.00 DC1C-K6AA3B SPDT 5A Solder Eyelet Lever 0.189 (4.80) 80 CH291-ND 5.24 46.56 194.00 334.65 1532.60 DC1C-A1LB3C SPDT 5A Solder Eyelet Roller Lever 0.098 (2.49) 90 CH606-ND 7.64 67.92 283.00 488.18 2235.70 DC1C-A1RB3B SPDT 10.1A Solder Eyelet Lever 0.189 (4.80) 150 CH610-ND 6.16 54.72 228.00 393.30 1801.20 DC2C-A1LB4ASPDT 0.1A .110 (2.79) QC Button 0.189 (4.8) 60 CH880-ND 2.70 24.00 100.00 165.00 750.00 DB3CB1LB4B SPDT 1A Solder Short Lever 0.189 (4.8) 60 CH884-ND 2.48 22.08 92.00 151.80 690.00 DB1CA1LB4A SPDT 1A .110 (2.79) QC Button — 150 CH885-ND 1.92 17.04 71.00 117.15 532.50 DB1CB1AA4CDB SeriesSubminiatureSPDT 1A .110 (2.79) QC Roller Lever 0.185 (4.7) 55 CH882-ND 3.59 31.92 133.00 219.45 997.50 DB1CB1RC4A SPDT 5A Solder Plunger Only — 150 CH288-ND 1.78 15.84 66.00 113.85 521.40 DB1CA1AA4A SPDT 10A Solder Short Button — 250 CH886-ND 1.92 17.04 71.00 117.15 532.50 DB2CA1AA4A SPDT 10A Straight PCB Button — 250 CH883-ND 1.92 17.04 71.00 117.15 532.50 DB2CC1AAStandard Lever for DC Series, LC Suffix CH668-ND .22 1.92 8.00 13.80 63.20 0614-1233Extra Long Lever, LD Suffix CH669-ND .49 4.32 18.00 31.05 142.20 0614-1234—ReplacementActuatorRoller Lever for DC Series, RB Suffix CH673-ND .78 6.96 29.00 50.03 229.10 0714-0260Simulated Roller Lever, SC Suffix CH671-ND .30 2.64 11.00 18.98 86.90 0614-1238Simulated Roller Lever, SD Suffix CH672-ND .41 3.60 15.00 25.88 118.50 0614-1239112 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Snap and Lever Type SwitchesFig. 1 E13, E14, E19, E20, G13 SeriesAC D EBRatings:E13: 15A – 125/250VAC,3/4 HP – 125VAC, 1-1/2 HP – 250VACE14: 25A – 125/250VAC,1 HP – 125VAC, 2 HP – 250VACE19: 15A – 125/250VAC,3/4 HP – 125VACE20: 20A – 125/250VAC, 1 HP – 125VACG13: 0.1A – 125VAC,Gold crosspoint contactsFig. Circuitry CurrentTerminalInch (mm)ActuatorActuatorLengthInch (mm)Oper.Force(Max.gms.)Digi-KeyPart No.Price Each1 10 50CherryPart No.Fig. 2 E61, E62, E63 SeriesGeneral Purpose – E13, E14, E19, E20 and G13 Power Series1A SPDT 15A .250 QC (6.35) Plastic Button — 425 CH102-ND 3.38 3.00 2.50 E13-00E1B SPDT 15A .250 QC (6.35) THD Bushing, Plastic Button — 425 CH100-ND 3.94 3.51 2.92 E13-00J1C SPDT 15A .250 QC (6.35) THD Bushing, Metal Button — 425 CH101-ND 4.97 4.42 3.68 E13-00M1D SPDT 15A .250 QC (6.35) Long Lever 1.5 (38.10) 100 CH312-ND 4.81 4.28 3.56 E13-00H1E SPDT 15A .250 QC (6.35) Long Roller 1.391 (35.33) 100 CH313-ND 5.81 5.16 4.30 E13-00K1E DPDT 20A .250 QC (6.35) Long Lever 1.071 (27.20) 285 CH506-ND 12.07 10.73 8.94 E20-50H1C SPDT 25A .250 QC (6.35) THD Bushing, Metal Button — 850 CH318-ND 5.91 5.26 4.38 E14-00M1A DPDT 15A .250 QC (6.35) Plastic Button — 850 CH320-ND 7.37 6.56 5.46 E19-00A1B DPDT 15A .250 QC (6.35) THD Bushing, Plastic Button — 850 CH322-ND 9.32 8.28 6.90 E19-00J1C DPDT 15A .250 QC (6.35) THD Bushing, Metal Button — 850 CH324-ND 9.21 8.19 6.82 E19-00M1E DPDT 15A .250 QC (6.35) Long Roller 1.645 (41.78) 150 CH326-ND 9.72 8.64 7.20 E19-50K1E DPDT 20A .250 QC (6.35) Long Roller 1.391 (35.33) 312 CH330-ND 13.69 12.17 10.14 E20-50K1D SPST-N/O 15A .250 QC (6.35) Long Lever 1.5 (38.10) 100 CH501-ND 4.81 4.28 3.56 E13-01HBrass Mounting Nut for Threaded Bushing CH284-ND .19 .17 .14 0012-0023A - Plunger B - Lever C - RollerRatings: E61: 5A – 125/250VACE62: 10.1A – 125/250VAC, 1/4 HP – 125VACE63: 0.1A – 125VAC, 0.25A – 30VDCFig. 3 DA3 SeriesKnurled Dress Nut Brass for J/M E13/E19/G13 CH651-ND 1.54 1.37 1.14 0012-0025Hex Nut Nickel Plated for J/M E13/E19/G13 CH652-ND .24 .22 .18 0012-0028Lock Washer for J/M E13/E19/G13 CH653-ND .59 .53 .44 0012-0073Subminiature – E61, E62 and E63 Series2C SPDT 0.1A Solder Eyelet Roller Lever .201 (5.11) 30 CH552-ND 6.26 5.57 4.64 E63-10K2C SPDT 0.1A .093 QC (2.36) Roller Lever .201 (5.11) 30 CH382-ND 6.48 5.76 4.80 E63-00K2C SPDT 0.1A .110 QC (2.79) Roller Lever .201 (5.11) 30 CH555-ND 6.43 5.72 4.76 E63-30K2A SPDT 5A .093 QC (2.36) Plunger Only — 90 CH103-ND 4.05 3.60 3.00 E61-00A2A SPDT 5A Solder Eyelet Plunger Only — 90 CH104-ND 4.05 3.60 3.00 E61-10AI2B SPDT 5A Solder Eyelet Lever, Standard Ratio .271 (6.88) 27 CH106-ND 5.83 5.19 4.32 E61-10H2C SPDT 5A .110 QC (2.79) Roller Lever .201 (5.11) 30 CH372-ND 6.18 5.50 4.58 E61-30K2C SPDT 5A .110 QC (2.79) Roller Lever .326 (8.28) 10 CH544-ND 5.78 5.14 4.28 E61-80K2C SPDT 5A Solder Eyelet Roller Lever .326 (8.28) 10 CH543-ND 5.78 5.14 4.28 E61-60K2A SPDT 10.1A .093 QC (2.36) Plunger Only — 212 CH109-ND 4.59 4.08 3.40 E62-00A2B SPDT 10.1A .093 QC (2.36) Lever, Standard Ratio .271 (6.88) 56 CH111-ND 5.83 5.19 4.32 E62-00H2B SPDT 10.1A Solder Eyelet Lever, Standard Ratio .271 (6.88) 56 CH112-ND 5.83 5.19 4.32 E62-10H2C SPDT 10.1A .093 QC (2.36) Roller, Standard Ratio .201 (5.11) 65 CH113-ND 6.70 5.96 4.96 E62-00K2C SPDT 10.1A Solder Eyelet Roller, Standard Ratio .201 (5.11) 65 CH114-ND 6.70 5.96 4.96 E62-10K2C SPDT 10.1A .093 QC (2.36) Roller Lever .326 (8.28) 33 CH379-ND 6.70 5.96 4.96 E62-50K2A SPDT 10.1A PC Mount Plunger Only — 212 CH545-ND 4.59 4.08 3.40 E62-50A2C SPDT 10.1A Solder Eyelet Roller Lever .326 (8.28) 33 CH548-ND 5.89 5.24 4.36 E62-60KSubminiature Snap Switches – DA3 Series3 SPDT 0.1A .093 QC (2.36) Lever, Standard Ratio .271 (6.88) 27 CH142-ND 5.51 4.90 4.08 DA3C-F1LBRatings:DA3: 0.1A 125VACFig. 4E68,E69 SeriesE79, F79A - MomentaryLeverB - Cheat InterlockReplacement Actuator Lever, 3.066” (77.88mm) Extra Long CH931-ND .30 .27 .22 00147283Panel Mount Pushbutton – E68, E69, E79 and F79 Series4B SPDT 0.1A .187 QC (4.75) Momentary Cheat Interlock .730 (18.54) 385 CH387-ND 6.56 5.84 4.86 E68-30A4C SPDT 0.1A .187 QC (4.75) Short Button Momentary .420 (10.67) 425 CH388-ND 6.78 6.03 5.02 E68-40A4A SPDT 10A .187 QC (4.75) Momentary .875 (22.23) 425 CH154-ND 4.40 3.92 3.26 E69-00A4B SPDT 10A .187 QC (4.75) Momentary Cheat Interlock .980 (24.89) 425/285 CH155-ND 5.21 4.64 3.86 E69-30A4C SPDT 10A .187 QC (4.75) Short Button Momentary .450 (11.43) 425 CH156-ND 4.40 3.92 3.26 E69-40A(Continued)(Pulled Out)C - Short ButtonMomentaryRatings:E69: 10A 125/250VAC, 1/3 HP, 125/250VACE68: 0.1A 125VACE79/F79: 10A 125/250VAC, 1/3 HP, 125/250VACMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)113113

Snap and Lever Type Switches (Cont.)Fig. 5 E72 Series.212(5.38).032(.813)15.858(21.79)Fig. 6 F80 Series2.10831.55.5930.8136.703 for 1.143 thick panel36.957 for 2.54 thick panel13.9736.83Fig. Circuitry CurrentTerminalInch (mm)ActuatorActuatorLengthInch (mm)Oper.Force(Max.gms.)Digi-KeyPart No.Price Each1 10 50CherryPart No.Fig. 7 E Series4A DPDT 10A .187 QC (4.75) Momentary .875 (22.23) 680 CH157-ND 9.13 8.12 6.76 E79-00A20.24Ø2.874B DPDT 10A .187 QC (4.75) Push-Pull (Reset) .920 (23.37) 510 CH392-ND 7.16 6.36 5.30 E79-20A4B DPDT 10A .187 QC (4.75) Momentary Cheat Interlock .980 (24.89) 757/567 CH158-ND 9.13 8.12 6.76 E79-30AWater and Dust Sealed — E72 Series5 SPDT 10A 10” Wires Lever .858 (21.79) 67 CH391-ND 14.18 12.60 10.50 E72-40HT10.3115.882.85 x 3.20N.C.N.O.COM22.23Line Interrupt Switches – F806 SPST 16A .250 QC (6.35) Plunger Only — 866 CH307-ND 13.34 11.86 9.88 F82A-A120Light Force and Standard Force Switches — E Series7A SPDT 0.1A .187 QC (4.75) Plunger Only — 75 CH331-ND 4.10 3.65 3.04 E21-00A7B SPDT 0.1A .187 QC (4.75) Long Lever 1.40 (35.56) 35 CH333-ND 6.94 6.17 5.14 E21-50H7B SPDT 3A .187 QC (4.75) Light Force - Long Lever 1.40 (35.56) 8 CH337-ND 4.59 4.08 3.40 E22-50HX7B SPDT 3A .187 QC (4.75) Light Force - Long Lever 2.932 (74.47) 2 CH341-ND 4.81 4.28 3.56 E22-85HX7C SPDT 3A .187 QC (4.75) Long Roller 1.34 (34.04) 35 CH339-ND 5.02 4.47 3.72 E22-50K7D SPDT 3A .187 QC (4.75) Short Roller .810 (20.57) 75 CH336-ND 5.02 4.47 3.72 E22-00K7A SPDT 5A .187 QC (4.75) Plunger Only — 45 CH342-ND 3.48 3.10 2.58 E23-00AX7A SPDT 5A .187 QC (4.75) Plunger Only — 170 CH343-ND 3.65 3.24 2.70 E23-00A7B SPDT 5A .187 QC (4.75) Light Force - Long Lever 2.757 (70.03) 10 CH347-ND 4.73 4.20 3.50 E23-55HX7C SPDT 5A .187 QC (4.75) Long Roller 1.34 (34.04) 86 CH346-ND 5.16 4.59 3.82 E23-50K7D SPDT 5A .187 QC (4.75) Short Roller .81 (20.57) 170 CH344-ND 5.16 4.59 3.82 E23-00K7B SPDT 10A .187 QC (4.75) Long Lever 1.40 (35.56) 144 CH351-ND 3.83 3.41 2.84 E33-50H7C SPDT 10A .187 QC (4.75) Long Lever 1.58 (40.13) 22 CH354-ND 3.35 2.98 2.48 E33-75HX7D SPDT 10A .187 QC (4.75) Short Roller .81 (20.57) 285 CH350-ND 4.32 3.84 3.20 E33-00KA - PlungerC - Long RollerRatings:E21: 0.1A 125VAC, Goldcon tactsE22: 3A 250VACFig. 8 D4 SeriesB - LeverD - Short RollerE23: 5A 250VACE33: 10A 250VACE34: 15A 250VAC, UL 94HBI7B SPDT 15A .187 QC (4.75) Standard Force - Lever 1.58 (40.13) 120 CH535-ND 4.19 3.72 3.10 E34-50HL7B SPDT 15A .187 QC (4.75) Light Force - Long Lever 1.40 (35.56) 50 CH358-ND 4.24 3.77 3.14 E34-50HX7B SPDT 15A .187 QC (4.75) Light Force - Long Lever 2.757 (70.03) 22 CH362-ND 4.32 3.84 3.20 E34-55HXStandard Size Insulator for E34 Series CH663-ND .38 .34 .28 0015-005Small Size Insulator for E62 Series CH664-ND .38 .34 .28 0015-0052Large Black Plastic Insulator for E34 Series CH665-ND .49 .44 .36 0015-0054Miniature International – D4 Series8A SPDT 0.1A .187 QC (4.75) Button — 75 CH115-ND 4.97 4.42 3.68 D41C-R1AA8B SPDT 0.1A .187 QC (4.75) Lever, Standard Ratio 1.40 (35.56) 35 CH297-ND 5.40 4.80 4.00 D41C-R1LD8C SPDT 0.1A .187 QC (4.75) Roller, Standard Ratio .81 (20.57) 75 CH117-ND 5.67 5.04 4.20 D41C-R1RA8B SPDT 3A .187 QC (4.75) Lever, High Ratio 2.93 (74.47) 2 CH123-ND 4.78 4.25 3.54 D42L-R1XL8A SPDT 5A .187 QC (4.75) Button — 170 CH125-ND 2.70 2.40 2.00 D43C-R1AA8A SPDT 5A .187 QC (4.75) Button — 45 CH129-ND 2.92 2.60 2.16 D43L-R1AAHigh RatioStandard RatioActuator Length4.50 9.02SwitchMtg. Hole8A SPDT 10A .187 QC (4.75) Button — 285 CH130-ND 2.86 2.55 2.12 D44C-R1AA8A SPDT 10A .187 QC (4.75) Button — 75 CH134-ND 2.97 2.64 2.20 D44L-R1AA8B SPDT 10A .187 QC (4.75) Lever, Standard Ratio 1.40 (35.56) 37 CH299-ND 3.29 2.93 2.44 D44L-R1LD8B SPDT 10A .187 QC (4.75) Lever, High Ratio 2.93 (74.47) 10 CH133-ND 3.54 3.15 2.62 D44L-R1ML8C SPDT 10A .187 QC (4.75) Lever, Standard Ratio .810 (20.57) 75 CH301-ND 3.97 3.53 2.94 D44L-R1RA8A SPDT 15A .187 QC (4.75) Button — 100 CH139-ND 3.27 2.91 2.42 D45L-R1AAA - PlungerB - LeverC - Roller8B SPDT 15A .187 QC (4.75) Lever, Standard Ratio .865 (21.97) 400 CH136-ND 3.43 3.05 2.54 D45C-R1LA8B SPDT 15A .187 QC (4.75) Lever, High Ratio 2.93 (74.47) 13 CH138-ND 3.67 3.27 2.72 D45L-R1MLMiniature International — D4 Series – U.S. Version8B SPDT 0.1A .187 QC (4.75) Alum. Lever, Standard Ratio 1.40 (35.56) 8 CH578-ND 5.21 4.64 3.86 D41L-R1YD8B SPDT 3A .187 QC (4.75) Lever, Standard Ratio 1.40 (35.56) 35 CH579-ND 3.02 2.69 2.24 D42C-R1LD8B SPDT 3A .187 QC (4.75) Alum. Lever, Standard Ratio 1.40 (35.56) 8 CH581-ND 4.62 4.11 3.42 D42L-R1YD8A SPDT 15A .250 QC (6.35) Button — 400 CH594-ND 3.08 2.74 2.28 D45C-V1AARatings: 187 QC terminals.D41: .1A 125VAC, Gold crosspoint contactsD42: 3A 125/250VACD43: 5A, 1/4 H.P., 125/250VACD44: 10A, 1.2 H.P., 125/250VACD45: 15A, 1/2 H.P., 125/250VAC.114 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

MicroswitchesThese miniature microswitches, with high reliability and low cost are offered with many options to suit most typicalapplications and can be used in instrumentation, household appliances, vending machines, industrial control systems,medical equipment and security systems.Specifications: Mechanical Life: Ø3.1Fig. 1XFig. 2XFig.1Contact Dimension X Operating Digi-KeyPrice Each Tyco ElectronicsRating (mm) Force (gF) Part No.1 10 100 Part No.16A 20.2 300 450-1442-ND 1.86 1.65 1.29 1478605-10.1A 20.2 60 450-1444-ND 2.64 2.34 1.83 1478670-110.3 NCCOM NO22.2216A 35.6 180 450-1447-ND 2.11 1.87 1.47 1478605-35A 35.6 60 450-1448-ND 2.26 2.01 1.57 1478667-316A 50.5 30 450-1450-ND 2.14 1.90 1.49 1478603-4Fig. 3XFig. 4X16A 50.5 90 450-1452-ND 2.14 1.90 1.49 1478605-45A 50.5 30 450-1453-ND 2.36 2.09 1.64 1478667-410.3316A 34 120 450-1455-ND 2.79 2.48 1.94 1478604-60.1A 34 35 450-1457-ND 2.95 2.62 2.05 1478670-64 0.1A 32.6 35 450-1460-ND 2.95 2.62 2.05 1478670-7Snap Action SwitchesVD ELS SeriesSpecifications: Contact Rating: 15 Amps @ 125/250 VAC Fig.12345678Dimension X(mm)OperatingForce (gF)MS SeriesSpecifications: Contact Rating: 5 Amps @ 125/250 VAC TerminationDigi-KeyPart No.1Price Each10 100LS Series — Snap Action Switches, 15 AmpsE-SwitchPart No.20.35 100 .187QC EG4518-ND 1.80 1.61 1.39 LS0851500F100C1A20.35 100 .250QC EG4519-ND 1.80 1.61 1.39 LS0851500F100C2A20.35 100 Solder Lug EG4520-ND 1.80 1.61 1.39 LS0851500F100S1A20.35 160 .187QC EG4521-ND 1.80 1.61 1.39 LS0851500F160C1A20.35 160 .250QC EG4522-ND 1.80 1.61 1.39 LS0851500F160C2A36.2 45 .187QC EG4523-ND 1.86 1.67 1.44 LS0851502F045C1A36.2 45 Solder Lug EG4524-ND 1.86 1.67 1.44 LS0851502F045S1A36.2 75 .187QC EG4525-ND 1.86 1.67 1.44 LS0851502F075C1A60.1 40 .187QC EG4527-ND 1.86 1.67 1.44 LS0851503F040C1A33 85 .187QC EG4528-ND 1.93 1.73 1.49 LS0851504F085C1A33 140 .187QC EG4529-ND 1.93 1.73 1.49 LS0851504F140C1A20.9 250 .187QC EG4530-ND 1.99 1.78 1.53 LS0851505F250C1A34.3 120 .187QC EG4531-ND 1.99 1.78 1.53 LS0851506F120C1AMS Series — Miniature Snap Action Switches, 5 Amps2 60 Solder Lug EG4533-ND 1.09 .98 .84 MS0850500F060S1A2 80 .110QC EG4534-ND 1.09 .98 .84 MS0850500F080C1A2 80 Solder Lug EG4535-ND 1.09 .98 .84 MS0850500F080S1A2 250 Solder Lug EG4537-ND 1.09 .98 .84 MS0850500F250S1A14.5 25 .110QC EG4539-ND 1.15 1.03 .89 MS0850501F025C1A14.5 45 Solder Lug EG4540-ND 1.15 1.03 .89 MS0850501F045S1A14.5 70 Solder Lug EG4541-ND 1.15 1.03 .89 MS0850501F070S1A16.5 20 Solder Lug EG4542-ND 1.15 1.03 .89 MS0850502F020S1A16.5 50 Solder Lug EG4543-ND 1.15 1.03 .89 MS0850502F050S1A22.6 10 Solder Lug EG4544-ND 1.15 1.03 .89 MS0850503F010S1A22.6 25 Solder Lug EG4545-ND 1.15 1.03 .89 MS0850503F025S1A22.6 40 Solder Lug EG4546-ND 1.15 1.03 .89 MS0850503F040S1A14.65 20 Solder Lug EG4547-ND 1.21 1.08 .93 MS0850504F020S1A14.65 35 .110QC EG4548-ND 1.21 1.08 .93 MS0850504F035C1A14.65 35 Solder Lug EG4549-ND 1.21 1.08 .93 MS0850504F035S1A14.5 35 .110QC EG4551-ND 1.26 1.13 .98 MS0850505F035C1A14.5 45 Solder Lug EG4552-ND 1.26 1.13 .98 MS0850505F045S1A14.5 50 .110QC EG4553-ND 1.26 1.13 .98 MS0850505F050C1A14.5 75 Solder Lug EG4554-ND 1.26 1.13 .98 MS0850505F075S1ALS SeriesFig. 1 Fig. 2XFig. 3 Fig. 4XMS Series10.3010.40 22.2015.90Ø3.40Ø2.5019.8027.90Fig. 5 Fig. 6XFig. 7 Fig. 8XØ3.10Ø2.4010.602.909.50XXXXISwitch Connector: Accepts 14-28 AWG Maxi mum Voltage Mount ing Ears: No .06WM2553-ND ..................... $.52/1; $4.58/10; $30.53/100 (1.52)Terminal:14-22AWG, or (2) 18AWG Spade, Tin platedWM2684CT-ND† ........... $1.43/10; $11.46/100; $47.75/500WM2684TR-ND‡ ..................................$186.00/3,000† Cut Tape ‡ Tape and ReelSwitch Connectorand Terminal.74(18.72).33(8.38)1.67(42.34).22 (5.61).29 (7.49).16(3.96)AMPIP Post-Insulation Pods1.405(35.69).875(22.23)HousingStraight Style .187” Series Receptacle Housings:A24758-ND ............................................................................. $4.65/10; $40.92/100Fastons:A27696CT-ND† 20-24AWG, Brass, Fit tab .020” (.51mm) .......................... $7.42/100; $30.93/500A27700CT-ND† 16-20AWG, Brass, Fit tab .020” (.51mm) .......................... $8.03/100; $33.45/500† Cut TapeMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)115115

Snap-acting SwitchesA SERIES: Specifications:Temperature:: Heat resistant phenolic (UL 94V-0)HB SERIES: Specifications::: -55°C ~ 150°C: Heat resistant/electrical grade phenolicLC SERIES: Specifications: :: -25°C ~ 85°C:: EpoxyMM SERIES: Specifications:: -55°C ~ 135°C: Heat resistant phenolic (UL 94V-0)TF SERIES: Specifications::: -40°C ~ 85°C: Thermoplastic (UL 94V-0)TM SERIES: Specifications:: : -55°C ~ 150°C: Thermoplastic or general purpose phenolic (UL 94V-0)ZMS SERIES: Specifications: : : -40°C ~ 85°CZMC SERIES: Specifications: : 15,000 cycles at 3A : -30°C ~ 85°C Housing: NylonZMA SERIES: Specifications: : : -40°C ~ 85°CLCS SERIES: Specifications: : : -40°C ~ 105°CLCA SERIES: Specifications: : : -10°C ~ 125°CDimensions in mmFig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 516.312.746.016.325.428.446.0 25.446.0 AA25.43/8-32NEF THD.Stainless steelplunger16.3A25.446.0Requires Hexnut 0633B25.438.119.05Ø 25.4Ø 3.1846.016.3Fig. 616.325.446.0AFig. 7A46.025.428.4Fig. 8Fig. 9 Fig. 10 Fig. 11 Fig. 12 Fig. 13 Fig. 1412.715/32-32UNS-225.4 14.749.3 6.4Hardware Included14.76.425.449.3A14.76.425.449.3A7.622.39A9.5319.846.4Ø2.248.894.78A12.708.894.78 A12.70Ø2.90A22.2329.010.31Fig. 15Ø2.90A22.2329.010.31Fig. 16Ø2.90A22.2329.010.31Fig. 17Ø2.90A22.2329.010.31Fig. 18 Fig. 19 Fig. 20 NEW! Fig. 21 Fig. 227.5A4.1310.16.55.8 5.8A A6.512.86.66.512.89.519.99.46.46.310.69.520.0A9.8IFig.ContactCircuitryRating(A)TerminalDim.A(mm)OperatingForceMax.(grams)Digi-KeyPart No.1Price Each25 100General Purpose — A SeriesC&KPart No.1 DPDT 15 .250” QC — 850 CKN10090-ND ✔ 9.29 7.44 5.89 ADPDC2P04AC1 SPDT 15 .250” QC — 567 CKN1408-ND 4.59 3.68 2.91 ASKHC2P04AC1 SPDT 25 .250” QC — 567 CKN9830-ND ✔ 4.67 3.74 2.97 ASKHF3P04AY2 DPDT 15 .250” QC 41.1 510 CKN1409-ND 10.07 8.06 6.38 ADPDC2L04AC3 SPDT 15 .250” QC 35.1 113 CKN1410-ND 7.31 5.85 4.64 ASKHC2A04AC3 SPDT 25 .250” QC 35.1 567 CKN10092-ND ✔ 7.39 5.92 4.69 ASKHF3A04AY4 DPDT 15 .250” QC 20.6 850 CKN1411-ND 11.06 8.85 7.01 ADPDC2J04AC4 DPDT 25 .250” QC 20.6 — CKN10091-ND ✔ 9.38 7.50 5.94 ADPFF3J04AY4 SPDT 15 .250” QC 20.6 567 CKN1412-ND 6.36 5.09 4.03 ASKHC2J04AC4 SPDT 25 .250” QC 20.6 567 CKN10093-ND ✔ 6.44 5.16 4.08 ASKHF3J04AY5 SPDT 15 .250” QC Blk Cap 567 CKN1413-ND 9.08 7.27 5.75 ASKHC2B14AC5 SPDT 15 .250” QC Red Cap 567 CKN1414-ND 9.08 7.27 5.75 ASKHC2BB4AC5 SPDT 25 .250” QC Blk Cap 567 CKN9829-ND ✔ 9.16 7.33 5.81 ASKHF3B14AY6 DPDT 15 .250” QC 38.1 170 CKN1415-ND 10.07 8.06 6.38 ADPDC2T04AC6 SPDT 15 .250” QC 38.1 113 CKN1416-ND 5.37 4.30 3.41 ASKHC2T04AC6 SPST 15 .250” QC 38.1 113 CKN1417-ND 4.77 3.82 3.02 ASKHC2T04AY6 SPDT 25 .250” QC 38.1 567 CKN9948-ND ✔ 6.05 4.85 3.84 ASKHF3T04AC7 DPDT 15 .250” QC 38.1 510 CKN1418-ND 11.20 8.96 7.10 ADPDC2W04ACHexNut 3/8-32 NEF-2B THD CKN1829-ND .35 .28 .23 0633BPrecision Sealed IP65 — HB Series7 SPDT 20 4-40 Screw — 368 CKN10029-ND ✔ 11.17 8.94 7.08 HBS2KCB4SP011C7 SPDT 20 4-40 Screw — 510 CKN10030-ND ✔ 11.17 8.94 7.08 HBS2KGB4SP011C8 SPDT 20 6-32 Screw — 370 CKN1419-ND 17.08 13.67 10.82 HBS2KCB4SJ055C8 SPDT 20 4-40 Screw 21.8 567 CKN10032-ND ✔ 16.83 13.47 10.66 HBS2KHB4SJ011C9 SPDT 20 6-32 Screw 21.8 100 CKN1421-ND 14.53 11.63 9.21 HBS2KGB4SA055C10 SPDT 20 4-40 Screw 37.3 71 CKN1422-ND 13.72 10.98 8.69 HBS2KGB4ST011C10 SPDT 20 4-40 Screw 37.3 510 CKN10031-ND ✔ 15.06 12.05 9.54 HBS2KGB4STS11C10 SPDT 20 4-40 Screw 21.44 368 CKN10028-ND ✔ 16.69 13.36 10.57 HBS2KCB4SD011C10 SPDT 20 6-32 Screw 21.44 368 CKN9872-ND ✔ 16.94 13.55 10.73 HBS2KCB4SD055CSubminiature Precision — LC Series11 SPDT 1 Solder 7.1 48 CKN1424-ND 7.76 6.21 4.92 LCGGX1A10EC11 SPDT 1 Lt. Angle 7.1 57 CKN1425-ND 9.08 7.27 5.76 LCGHF5A10LCCircuitryContactRatingDim.AOperatingForceMax. Digi-KeyPrice Each C&KFig.(A) Terminal (mm) (grams) Part No.1 25 100 Part No.11 SPDT 1 Rt. Angle 7.1 57 CKN1426-ND 9.08 7.27 5.76 LCGHF5A10RC11 SPDT 1 Solder Plunger 142 CKN10037-ND ✔ 6.81 5.45 4.32 LCGGX1P00EC11 SPDT 1 Solder 7.3 142 CKN10038-ND ✔ 7.39 5.91 4.68 LCGGX1T10EC11 SPDT 1 Solder 5.5 142 CKN10039-ND ✔ 7.56 6.05 4.79 LCGGX1T13ECMini Precision — MM Series12 SPDT 7 Sld Turret 13.5 170 CKN1427-ND 20.74 16.60 13.14 MMGGD1L2C12 SPDT 7 Sld Turret Plunger 142 CKN10048-ND ✔ 24.62 19.70 15.60 MMGGD1D0C12 SPDT 5 Sld Turret Plunger 142 CKN10131-ND ✔ 13.11 10.49 8.31 MMGGE2POC13 SPDT 7 Sld Turret 6.9 115 CKN1428-ND 26.57 21.26 16.83 MMGGD1W0C13 SPDT 7 Sld Turret 8.6 142 CKN10049-ND ✔ 20.74 16.60 13.14 MMGGD1L0CMiniature — TF Series14 SPDT 11 .187” QC 20.6 90 CKN1429-ND 8.05 6.45 5.10 TFCGV3VA105BC14 SPDT 11 .187” QC 34 75 CKN1430-ND ✔ 8.10 6.49 5.14 TFCGV3VA155BC15 SPDT 5 .250” QC Plunger 150 CKN9185-ND 5.65 4.52 3.58 TFCJJ6SP004AC16 SPDT 5A 277 .187” QC 34 12 CKN9183-ND 5.97 4.78 3.78 TFCDH8ST1340C16 SPDT 5A 277 .187” QC 35.6 12 CKN9182-ND 5.97 4.78 3.78 TFCDH8ST1540C16 SPDT 11 .187” QC 35.6 40 CKN1432-ND 7.24 5.80 4.59 TFCGV3VT155BC16 SPDT 11 .187” QC 35.6 75 CKN9914-ND ✔ 7.04 5.64 4.46 TFCGV3ST155BC16 SPDT 11 .187” QC 69.9 20 CKN1433-ND 7.31 5.85 4.63 TFCGV3VT185BC16 SPST 11 .187” QC 65.3 75 CKN9913-ND ✔ 5.76 4.61 3.65 TFCGK6ST2640Y16 SPST 1 .187” QC 41.1 150 CKN9915-ND ✔ 6.81 5.45 4.32 TFCJF5VT2540YMiniature — TM Series14 SPDT 10 .187” QC 20.6 75 CKN10057-ND ✔ 6.49 5.19 4.11 TMCGD6SA1040C14 SPDT 10 .187” QC 34 75 CKN10058-ND ✔ 6.55 5.25 4.15 TMCGD6SA1540C14 SPDT 10 .250” QC 34 75 CKN9916-ND ✔ 6.55 5.25 4.15 TMCGD6SA154AC14 SPDT 15 .187” QC 39.6 150 CKN10152-ND ✔ 6.29 5.04 3.99 TMCJG6SA2540C15 SPDT 10 .187” QC 20.3 75 CKN1434-ND 4.78 3.83 3.03 TMCGD6SP0040C15 SPDT 10 .250” QC 20.3 75 CKN1435-ND 4.78 3.83 3.03 TMCGD6SP004AC15 SPDT 1 .187” QC Plunger 75 CKN10059-ND ✔ 4.76 3.81 3.02 TMCGF5SP0040C16 SPDT 10 .187” QC 69.9 20 CKN1437-ND 5.73 4.59 3.63 TMCGD6ST1840C✔ NEW!(Continued)116 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Snap-acting Switches (Cont.)CircuitryContactRatingDim.AOperatingForceMax. Digi-KeyPrice Each C&KFig.(A) Terminal (mm) (grams) Part No.1 25 100 Part No.16 SPDT 10 .250” QC 50.8 75 CKN9917-ND ✔ 5.76 4.62 3.65 TMCGD6ST174AC16 SPDT 1 .187” QC 21.3 75 CKN10060-ND ✔ 5.48 4.39 3.47 TMCGF5ST1040C16 SPDT 15 .187” QC 35.6 150 CKN9918-ND ✔ 5.43 4.35 3.45 TMCJG6ST1540C16 SPST 15 .187” QC 59.4 150 CKN9919-ND ✔ 5.24 4.20 3.32 TMCJG6VT1640Y16 SPDT 15 Solder 75.4 150 CKN9920-ND ✔ 7.28 5.82 4.61 TMCJG6VT2810C17 SPDT 10 .187” QC 32.8 50 CKN1439-ND 5.70 4.56 3.61 TMCGD6ST1440CDoor InterlocksDust Proof — ZMS Series18 SPDT 0.01 PC Pins Plunger 130 CKN10165-ND ✔ 3.18 2.55 2.02 ZMSH00130P00PSC18 SPDT 3 Solder Plunger 130 CKN9159-ND 3.71 2.97 2.35 ZMSH03130P00SSC18 SPDT 3 Lt. Angle Plunger 130 CKN10166-ND ✔ 3.71 2.97 2.35 ZMSH03130P00LLC18 SPDT 3 Lt. Angle 14.7 130 CKN10167-ND ✔ 3.71 2.97 2.35 ZMSL03130T10LLC18 SPDT 3 Solder 14.7 195 CKN9160-ND 3.71 2.97 2.35 ZMSH03130T10SSC18 SPDT 3 Solder 18.6 130 CKN10168-ND ✔ 3.71 2.97 2.35 ZMSL03130T11SSCNEW! Subminiature — ZMC Series NEW!19 SPDT 3 Rt. Angle 4.03 30 CKN10160-ND 2.45 1.97 1.56 ZMCHF7L3R19 SPDT 0.2 PC Pins 4.03 30 CKN9940-ND 2.39 1.92 1.52 ZMCHM9L3T19 SPDT 0.2 PC Pins 5.36 25 CKN10161-ND 2.39 1.92 1.52 ZMCHM9T23K19 SPDT 0.2 Rt. Angle 5.36 25 CKN9941-ND 2.93 2.35 1.86 ZMCHM9T23R19 SPDT 0.2 PC Pins 4.03 50 CKN10162-ND 2.39 1.92 1.52 ZMCJM9L0T19 SPDT 0.2 Rt. Angle 5.36 40 CKN10164-ND 2.93 2.35 1.86 ZMCJM9T13R20 SPDT 0.2 PC Pins Plunger 150 CKN10163-ND 2.30 1.84 1.46 ZMCJM9P0TSubminiature — ZMA Series19 SPDT 0.1 PC Pins 2.03 80 CKN10156-ND ✔ .85 .68 .54 ZMA00A080S06PC19 SPDT 0.1 PC Pins 4.03 150 CKN10157-ND ✔ .85 .68 .54 ZMA00A150L04PC20 SPDT 0.1 PC Pins Plunger 150 CKN10158-ND ✔ .89 .72 .57 ZMA00A150P00PC19 SPDT 3 PC Pins Plunger 150 CKN9164-ND .89 .72 .57 ZMA03A150P00PC19 SPDT 3 PC Pins 3.94 50 CKN9165-ND 1.16 .93 .74 ZMA03A150L04PC19 SPDT 3 Rt. Angle Plunger 150 CKN9167-ND 1.25 1.00 .79 ZMA03A150P00RC20 SPDT 3 PC Pins 2.03 150 CKN10159-ND ✔ 1.16 .93 .74 ZMA03A150S06PCSubminiature Sealed — LCS Series21 SPDT 6 Solder Plunger 60 CKN9168-ND 3.34 2.67 2.12 LCS06A060P00SC21 SPDT 6 12” wires Plunger 60 CKN10040-ND ✔ 4.96 3.97 3.14 LCS06A060P00WC21 SPDT 6 .110” QC 2.8 20 CKN9172-ND 3.83 3.06 2.43 LCS06A060L03QC21 SPDT 6 .110” QC 26.4 8 CKN9173-ND 3.94 3.16 2.50 LCS06A060L27QCSubminiature — LCA Series22 SPDT 10 Solder 9.1 140 CKN10035-ND ✔ 2.14 1.71 1.36 LCA10A140L09SC22 SPDT 10 Solder 1.5 140 CKN10036-ND ✔ 2.14 1.71 1.36 LCA10A140LS2SC22 SPDT 10 Solder Plunger 140 CKN9174-ND 1.95 1.56 1.24 LCA10A140P00SC22 SPDT 10 .110” QC Plunger 140 CKN9175-ND 2.28 1.83 1.45 LCA10A140P00QC✔ NEW!ITT’s door interlock switches feature a push/pull motion makingthese switches ideal for computer enclosures, panel builders, andindustrial enclosures.Contact Rating: trical Life: perature: Material: : Stainless SteelDigi-KeyPrice Each C&KDescriptionPart No.1 10 100 Part No.SPDT Screw Terminals CKN1400-ND 22.73 19.64 16.54 11TL602SPDT .250” QC CKN9632-ND NEW! 20.59 17.79 14.98 11TL4A2SPDT .187” QC, Tapped Plunger CKN9631-ND NEW! 23.65 20.43 17.21 11TL404SPDT .250” QC, Tapped Plunger CKN10074-ND NEW! 24.60 21.25 17.90 12TL4A4SPDT Screw Terminals, Tapped Plunger CKN1401-ND 25.80 22.29 18.77 11TL604SPDT Screw Terminals, Tapped Plunger CKN1402-ND 26.75 23.10 19.46 12TL6042-SPDT Screw Terminals CKN1404-ND 33.35 28.81 24.26 23TL6022-SPDT .250” QC, Tapped Plunger CKN9636-ND NEW! 32.12 27.75 23.37 23TL4A42-SPDT Screw Terminals, Tapped Plunger CKN1405-ND 36.41 31.45 26.49 23TL604.820.700.100.375.3125.1251/4-32threadC2 and C3 Series RotarySwitches 1/4 AmpThe C2 and C3 series offers an 8 position and a 12 position vertical PC board mountable design. Specifications:Electrical: Current and Voltage Ratings: Dielectric Strength: 1,000VAC Contact Resistance:Average initial 30mΩ Insulation Resistance: In excess of 10,000MΩ Mechanical: Terminal and Contacts: Brass with Insulation: Index Life: Index Angle: Index Stop: Adjustable Stop Strength: 8 inches/pound minimum Hardware: Mounting nut and lockwasher are shipped assembled.C4 Series Rotary Switches 1/2 Amp.390Mtg.surface.625Mtg.SurfaceThe C4 Series provides a versatile, fully enclosed design, that helps keepdirt and moisture out of the contact area while locking in lifetime lubricants.Specifications: Electrical: Current and Voltage Rating: 0.5 amp @ 28VDC; 0.3amp @ 125VAC Die lectric Strength: 1,000VAC Contact Resistance: Averageinitial 3mΩ Insulation Resistance: In excess of 10,000MΩ Mechanical: Ter min als and Contacts: Brass with silver-plate Index Life: 25,000 cyclesminimum Index Angle: 30° Standard, 36°, 45°, 60°, and 90° available IndexStop: Adjust able Stop Strength: 25 inches/pound minimum Insulation: Diallylphthalate Hardware: Mounting nut and lockwasher are shipped assembled..150#8.100#1Ø .043.390C2 PCBMtg.Surface.50.250 3/8-32thread.150#12.100#1Ø .043.390C3 PCBActive Poles/ No. ofDigi-KeyPrice EachElectroswitchPoles Positions Deck Decks Shorting Part No.1 10 50 Part No.C2 Series — 8 Pin — RoHS Compliant1 2-8 1 1 No 451-1002-ND 21.25 17.00 14.88 C2P0108N-A2 2-8 1 2 No 451-1004-ND 25.00 20.00 17.50 C2P0208N-A2 2-4 2 1 No 451-1003-ND 21.25 17.00 14.88 C2P0204N-AC3 Series — 12 Pin1 2-12 1 1 No 451-1005-ND◆ 21.50 17.20 15.05 C3P0112N-A1 2-12 1 2 No 451-1007-ND 25.25 20.20 17.68 C3P0212N-A2 2-6 2 1 No 451-1006-ND◆ 21.50 17.20 15.05 C3P0206N-A3 2-4 3 1 No 451-1008-ND◆ 21.50 17.20 15.05 C3P0304N-A4 2-6 2 2 No 451-1009-ND◆ 26.25 21.00 18.38 C3P0406N-A6 2-4 3 2 No 451-1010-ND◆ 27.25 21.80 19.08 C3P0604N-A◆ RoHS CompliantActive Poles/ No. ofDigi-KeyPrice EachElectroswitchPoles Positions Deck Decks Shorting Part No. 1 10 50 Part No.1 2-12 1 1 No 451-1011-ND 17.25 13.80 12.08 C4D0112N-A2 2-06 2 1 No 451-1012-ND 17.00 13.60 11.90 C4D0206N-A2 2-12 1 2 No 451-1013-ND 23.75 19.00 16.63 C4D0212N-A3 2-12 1 3 No 451-1015-ND 27.75 22.20 19.43 C4D0312N-A3 2-04 3 1 No 451-1014-ND 18.00 14.40 12.60 C4D0304N-A4 2-12 1 4 No 451-1017-ND 33.00 26.40 23.10 C4D0412N-A4 2-06 2 2 No 451-1016-ND 22.75 18.20 15.93 C4D0406N-A5 2-12 1 5 No 451-1018-ND 45.75 36.60 32.03 C4D0512N-A6 2-06 2 3 No 451-1020-ND 28.50 22.80 19.95 C4D0606N-A6 2-04 3 2 No 451-1019-ND 23.25 18.60 16.28 C4D0604N-A6 2-12 1 6 No 451-1021-ND 51.25 41.00 35.88 C4D0612N-A8 2-06 2 4 No 451-1022-ND 34.50 27.60 24.15 C4D0806N-A10 2-06 2 5 No 451-1024-ND 43.25 34.60 30.28 C4D1006N-A12 2-04 3 4 No 451-1025-ND 35.50 28.40 24.85 C4D1204N-A15 2-04 3 5 No 451-1026-ND 49.00 39.20 34.30 C4D1504N-AC5 Series Sealed RotarySwitches 1.0 AmpThe C5 Series offers a very economical and lightweight design.Standard features include 30° indexing up to 12 positions, solderlug terminals, and both internal and external seals for washability.Specifications: Electrical: Current and Voltage Rating: 1 amp@ 28VDC; 1 amp @ 125VAC Die lectric Strength: 1,000VAC Contact Resistance: Average initial 20mΩ InsulationResistance: in excess of 10,000MΩ Mechanical: Terminalsand Contacts: Brass with silver-plate Index Life: 25,000 cyclesminimum Index Angle: Positive 30° Index Stop: Adjustable Stop Strength: 4.5 inches/pound minimum Insulation: PolyesterHardware: Mounting nut and lock washer are shipped assembled.Ø .250C7 Series Rotary Switches 1.0 AmpThe C7 Series provides a fully enclosed, modular design that enables switching upto 24 positions. Our standard design offers 15° indexing and solder lug terminals.Specifications: Electrical: Current and Voltage Rating: 1.0 amp @ 28VDC; 0.5 amp@ 125VAC Die lectric Strength: 1,000VAC between current carrying parts and ground Contact Resistance: Average Initial 3mΩ Insulation Resistance: In excess of10,000MΩ Mechanical: Ter minals and Contacts: Brass with silver-plate as standard Insulation: Diallyl phthalate Index Life: 25,000 cycles minimum Index Stop: Fixed Stop Strength: 25 inches/pound minimum Hardware: Mounting nut and lockwasherare shipped assembled..250.50Ø .406Ø .140Active Poles/ No. ofDigi-KeyPrice EachElectroswitchPoles Positions Deck Decks Shorting Part No. 1 10 50 Part No.C5 Series — Sealed Solder Lug1 2-12 1 1 No 451-1027-ND 9.25 7.40 6.48 C5P0112N-A2 2-06 2 1 No 451-1028-ND 10.00 8.00 7.00 C5P0206N-A3 2-04 3 1 No 451-1029-ND 10.50 8.40 7.35 C5P0304N-A4 2-03 4 1 No 451-1030-ND 11.00 8.80 7.70 C5P0403N-A3/8-32threadActive Poles/ No. ofDigi-KeyPrice EachElectroswitchPoles Positions Deck Decks Shorting Part No. 1 10 50 Part No.1 23 1 1 No 451-1035-ND 27.75 22.20 19.43 C7D0123N2 23 1 2 No 451-1037-ND 43.50 34.80 30.45 C7D0223N1 24 1 1 No 451-1036-ND 27.25 21.80 19.08 C7D0124N-C2 24 1 2 No 451-1038-ND 44.00 35.20 30.80 C7D0224N-C.375.3125 .790.5625Ø .9203/8-32 thread1IMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)117117

500 SeriesMagnetic EncodersThe Electroswitch 500 Series Magnetic Encoders are built upon a contact free integrated circuit design. This encoder integrates hall effect sensingand digital signal processing to provide high-resolution angular measurement solutions..395.459Specification:Electrical:Operating Voltage: 4.7 ~ 5.7 VDC Supply Current: 30mA max. Logic Output: VCC High; 0.4 Low Power Consumption:165mW max. Operating Temperature: -40°C ~ 105°CNote: Mounting Hardware IncludedDescriptionDigi-KeyPart No.Price Each1 10 50ElectroswitchPart No.Quadrature Output, 32 PPR 451-1127-ND 45.28 36.22 31.70 505Q-0032-S010Quadrature Output, 64 PPR 451-1128-ND 45.28 36.22 31.70 505Q-0064-S010Quadrature Output, 128 PPR 451-1129-ND 45.28 36.22 31.70 505Q-0128-S010Quadrature Output, 256 PPR 451-1130-ND 45.28 36.22 31.70 505Q-0256-S010ø.047- B A +.1001.7591.024.619ø.5093/8-32 UNEF-2AThreadNEW! EncodersThe OPE1275 and OPE2275 are designed for small shaft motors with a shaft diameter of 2mm and a minimum length of 3.8mm. The OPE1275 provides a single channel analog outputfor speed of rotation while the OPE2275 provides a dual channel analog output for speed and direction of rotation.Applications:Output TypePulses perRevolution Actuator Type Supply Voltage Mounting TypeDigi-KeyPart No.Price Each1 100 250TTE/OPTEKTechnologyPart No.Quadrature (Incremental) 128 2mm Open Center 5VDC Chassis Mount 365-1539-ND 39.41 22.93 22.05 OPE2275H-128Quadrature (Incremental) 256 2mm Open Center 5VDC Chassis Mount 365-1540-ND 39.41 22.93 22.05 OPE2275H-256Quadrature (Incremental) 128 1/4" Dia. Round End 5VDC Panel Mount 365-1541-ND 39.41 22.93 22.05 OPE2275S-128Quadrature (Incremental) 256 1/4" Dia. Round End 5VDC Panel Mount 365-1542-ND 39.41 22.93 22.05 OPE2275S-256Tachometer 128 2mm Open Center 5VDC Chassis Mount 365-1535-ND 39.41 22.93 22.05 OPE1275H-128Tachometer 256 2mm Open Center 5VDC Chassis Mount 365-1536-ND 39.41 22.93 22.05 OPE1275H-256Tachometer 128 1/4" Dia. Round End 5VDC Panel Mount 365-1537-ND 39.41 22.93 22.05 OPE1275S-128Tachometer 256 1/4" Dia. Round End 5VDC Panel Mount 365-1538-ND 39.41 22.93 22.05 OPE1275S-256ISpectrolNEW! Single Turn BushingMount Hall Effect SensorFeatures: Specifications:1kΩ minimum for analog and PWM outputDescriptionDigi-KeyPart No.Price Each1 10 50VishayPart No.7.923 WiresAWG 20300mm15.88.9221.07Ø9.5259.51360° Analog Output 693-1000-ND 44.63 38.99 35.24 351HE0B4WA1S22NEW! Hall Effect Position SensorsFeatures: in harsh environmentsSpecifications:1kΩ minimumFig. 1 Fig. 2Fig.DescriptionDigi-KeyPart No.Price Each1 10 50VishayPart No.1360° Analog Output Continuous Rotation 693-1001-ND 27.89 24.37 22.02 981HE0B4WA1F1690° Analog Output Spring Return CW 693-1002-ND 27.89 24.37 22.02 981HE2B1WA1F162 360° Analog Output Continuous Rotation 693-1003-ND 24.54 21.45 19.38 981HE0B4WA8H01118 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Optical Rotary Encoders Series 61CFeatures: ra di o frequency, drill depth, RPM, etc. Plastic shaft and bushing.Shaft: Pin Spacing: .1”Thread:Overall Diameter:En cod erRatings: Operating Voltage: 5 ±.25VDC Supply Current: Life: 1 mil-Rotational Torque: 1.5Load Current:Turn-On Time: ≤30 mSec at 16.6 RPMTurn-Off Time:Pushbutton Switch Ratings: Rating: at 5VDC, 10mA, re sis-Contact Resistance:Life Expectancy:Contact Bounce: 1 mil lion cycles of operation (cycle is rotationthrough all positions and return)Detent PushbuttonDigi-KeyPrice Each GrayhillPositionsTermination Part No. 1 25 100 Part No.32 No 2” Cable/Connector GH3046-ND 37.39 29.91 22.44 62A11-01-020S32 Yes 2” Cable/Connector GH3047-ND 40.86 32.69 24.52 62A11-02-020S32 No 5” Cable/Connector GH3048-ND 38.15 30.53 22.90 62A11-01-050S32 Yes 5” Cable/Connector GH3049-ND 41.66 33.33 25.00 62A11-02-050S32 No Pin; .100” centers GH7383-ND 37.39 29.91 22.44 62A11-01-P32 Yes Pin; .100” centers GH7384-ND 40.86 32.69 24.52 62A11-02-P32 No 6” Cable/Connector GH7385-ND 38.40 30.73 23.05 62A11-01-060C32 Yes 6”Cable/Connector GH7386-ND 41.93 33.55 25.16 62A11-02-060C24 No Pin; .100” centers GH7387-ND 37.39 29.91 22.44 62A15-01-P24 Yes Pin; .100” centers GH7388-ND 40.86 32.69 24.52 62A15-02-P24 No 6” Cable/Connector GH7389-ND 38.40 30.73 23.05 62A15-01-060C24 Yes 6” Cable/Connector GH7390-ND 41.93 33.55 25.16 62A15-02-060C16 No Pin; .100” centers GH7391-ND 37.39 29.91 22.44 62A22-01-P16 Yes Pin; .100” centers GH7392-ND 40.86 32.69 24.52 62A22-02-P16 No 6” Cable/Connector GH7393-ND 38.41 30.73 23.05 62A22-01-060C16 Yes 6” Cable/Connector GH7394-ND 41.93 33.55 25.16 62A22-02-060COptical Rotary Encoders Series 62SThese low cost encoders offer long life(over 1 million operations) with smallsize and optional integrated push button.These encoders are ideal for radiofrequency setting, drill depth setting andother applications where detents aredesired for operator feedback. Ruggedmetal shaft and bushing for long life.Mates with AMP Connector 7-215079-6Vertical and 7-215460-6 Right Angle.Electrical Ratings:Operating Voltage: Supply Current: 30 mA Opera ting Torque:Rotational Life: >1 million cycles of operation(cycle is rotation through all positions and return)R*Pin #6543211005%Detent PushbuttonDigi-KeyPrice Each GrayhillPositionsTermination Part No.1 25 100 Part No.32 Yes 5” Cable/Connector GH7297-ND 41.66 33.33 25.00 62S11-M5-050C32 No 5” Cable/Connector GH7298-ND 38.15 30.53 22.90 62S11-M0-050C32 No Pin; .050” centers GH7395-ND 37.39 29.92 22.44 62S11-M0-P32 Yes Pin; .050” centers GH7396-ND 40.86 32.69 24.52 62S11-M5-P32 No 6” Cable/Connector GH7397-ND 38.40 30.73 23.05 62S11-M0-060C32 Yes 6” Cable/Connector GH7398-ND 41.93 33.55 25.16 62S11-M5-060C24 No Pin; .050” centers GH7399-ND 37.39 29.92 22.44 62S15-M0-P24 Yes Pin; .050” centers GH7400-ND 40.86 32.69 24.52 62S15-M5-P24 No 6” Cable/Connector GH7401-ND 38.40 30.73 23.05 62S15-M0-060C24 Yes 6” Cable/Connector GH7402-ND 41.93 33.55 25.16 62S15-M5-060C16 No Pin; .050” centers GH7403-ND 37.39 29.92 22.44 62S22-M0-P16 Yes Pin; .050” centers GH7404-ND 40.86 32.69 24.52 62S22-M5-P16 No 6” Cable/Connector GH7405-ND 38.41 30.73 23.05 62S22-M0-060C16 Yes 6” Cable/Connector GH7406-ND 41.93 33.55 25.16 62S22-M5-060CThese rugged encoders are designed for continuous operations with high re so lu tion. Made with stain less steel shaft andbushing for ex ceed ing ly long life (10 million life cycles). Features:Specifications:Range: -40°C ~ 85°CPulse Per Digi-KeyPrice EachGrayhillDescriptionRevolution Part No.1 25 100 250 Part No.4 Pin PC Mount 64 GH3064-ND 52.23 41.79 36.57 32.39 61K644 Pin PC Mount 128 GH3065-ND 52.23 41.79 36.57 32.39 61K1285” Cable/Connector 128 GH3066-ND 56.80 45.44 39.76 35.22 61K128-0505 Pin PC Mount 64 GH3067-ND 52.23 41.79 36.57 32.39 61R645 Pin PC Mount 128 GH3068-ND 52.23 41.79 36.57 32.39 61R1285 Pin PC Mount 256 GH7381-ND 52.23 41.79 36.57 32.39 61R2565 Pin PC Mount 64 GH7382-ND 57.99 46.40 40.60 35.96 63R645 Pin PC Mount 128 GH3069-ND 57.99 46.40 40.60 35.96 63R1285 Pin PC Mount 256 GH3070-ND 60.04 48.04 42.03 37.23 63R256Note: Contact Digi-Key for cable versionsOptical Rotary Encoders Series 62PGrayhill’s low cost, highly reliable Series+5150162P Optical En cod ers are be ing de signedGND2into automotive con trols, white goods, and10KOutput A3au dio. Features:10KOutput B4PB5Specifications:PB6 Note: 10K External pull-up resistorsrequired on Pin 3 and Pin 4150 external resistor required on Pin 1Position1616Digi-KeyPrice EachGrayhillDescriptionPart No.1 100 1,000 Part No.High Torque GH7291-ND 5.94 4.70 4.16 62P22-H0High Torque, 400 gF Pushbutton GH7292-ND 6.10 4.82 4.28 62P22-H4High Torque, 600 gF Pushbutton GH7293-ND 6.42 5.08 4.50 62P22-H6Low Torque GH7294-ND 5.46 4.32 3.83 62P22-L0Low Torque, 400 gF Pushbutton GH7295-ND 6.10 4.82 4.28 62P22-L4Low Torque, 600 gF Pushbutton GH7296-ND 6.42 5.08 4.50 62P22-L6Mechanical Rotary EncodersSeries 25LThe 25L series of encoders are inexpensive single deck mechanical encoders designed forhuman interface terminals. FeaturesSpecificationsloads; one cycle of operation is a rotation through all of the active positions and a returnMaterials and FinishesDetent Angle of Output Digi-KeyPrice EachGrayhillPositions ThrowCode Part No.1 25 100 250 Part No.36 10° Quadrature (2-bit) GH3071-ND 5.35 4.28 3.21 2.68 25LB10-Q32 11° Quadrature (2-bit) GH7407-ND 5.35 4.28 3.21 2.68 25LB11-Q24 15° Quadrature (2-bit) GH3072-ND 5.35 4.28 3.21 2.68 25LB15-Q20 18° Quadrature (2-bit) GH7408-ND 5.35 4.28 3.21 2.68 25LB18-Q16 22.5° Quadrature (2-bit) GH3073-ND 5.35 4.28 3.21 2.68 25LB22-Q16 22.5° Hexadecimal (4-bit) GH3074-ND 5.35 4.28 3.21 2.68 25LB22-H16 22.5° Gray (4-bit) GH7299-ND 5.35 4.28 3.21 2.68 25LB22-G12 30° Quadrature (2-bit) GH7409-ND 5.35 4.28 3.21 2.68 25LB30-Q8 45° Quadrature (2-bit) GH7410-ND 5.35 4.28 3.21 2.68 25LB45-QIMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)119119

ISeries 26 rotary en codersare PC mount ed mechanicalen coders that comecom plete with a threadedshaft (mount ing hard warein cluded) and in ter nalde tents for user feed backcon tin uous rotation orpre sent stops (two sup-- continuous rotation - no Mechanical RotaryEncoders Series 288 and 290288 Series 290 SeriesBody Size 16mm 9mmShaft Material Metal MetalOperating Temperature -25°C ~ 100°C -30°C ~ 70°CSwitch Life 15,000 Actuations 100,000 ActuationsResolution 16 CPR 20 CPRFig. Description1Shaft Dim. L Digi-KeyPrice EachType (mm) Part No. 1 10 50 100Series 288 — Binary Switching Codes — RoHS CompliantCTSPart No.2 Bit Non-Detent Round — CT3001-ND 2.58 2.40 2.00 1.80 288T232R161A12 Bit Detent Round — CT3002-ND 2.43 2.26 1.88 1.70 288T232R161A22 2 Bit Detent Round — CT2999-ND 2.99 2.79 2.31 2.09 288V232R161B23 2 Bit Detent Round — CT3000-ND 2.97 2.76 2.30 2.07 288X232R161B24Series 290 — Commercial Miniature Encoder2 Bit Non-Detent Round 20 CT3004-ND 2.63 2.45 2.03 1.84 290VAB0R201A12 Bit Detent Round 20 CT3005-ND◆ 2.65 2.47 2.05 1.86 290VAB0R201A22 Bit Non-Det., w/Switch Round 20 CT3006-ND◆ 3.08 2.87 2.38 2.15 290VAB0R201B12 Bit Detent, w/Switch Round 20 CT3007-ND◆ 3.11 2.90 2.41 2.17 290VAB0R201B22 Bit Non-Detent Round 20 CT3008-ND◆ 2.49 2.32 1.93 1.74 290VAA5F201A12 Bit Detent Flatted 15 CT3009-ND◆ 2.52 2.35 1.95 1.76 290VAA5F201A22 Bit Non-Det., w/Switch Flatted 15 CT3010-ND◆ 2.94 2.74 2.28 2.06 290VAA5F201B12 Bit Detent, w/Switch Flatted 15 CT3011-ND◆ 2.97 2.77 2.30 2.08 290VAA5F201B2◆ RoHS CompliantMechanical RotaryEncoders Series 26.375.250.332.1251/4-28UNF-2Awith pan el and shaft seal for use in the harsh estenvironments. Specifications: 25,000 cycles with logic compatible loads. Make andbreak 200mA Materials and Finishes: tin/zinc alloy, zinc-platedCode And Truth TableSwitch Code BCD Output* Gray Output*Position Position 1 2 4 8 1 2 4 81 02 1 ● ●3 2 ● ● ●4 3 ● ● ●5 4 ● ● ●6 5 ● ● ● ● ●7 6 ● ● ● ●8 7 ● ● ● ●9 8 ● ● ●10 9 ● ● ● ● ●11 10 ● ● ● ● ● ●12 11 ● ● ● ● ● ●13 12 ● ● ● ●14 13 ● ● ● ● ● ●15 14 ● ● ● ● ●16 15 ● ● ● ● ●* Dot indicates terminal tied to common.Detent Angle of Output Digi-KeyPrice EachGrayhillPositions Throw Code Part No. 1 25 100 250 Part No.8 45° Binary Code GH3075-ND 16.08 12.87 9.65 8.04 26ASD45-01-1-AJSFig. 18 45° Gray Code GH7411-ND 27.27 21.82 16.37 13.64 26GSD45-01-1-AJS16 22.5° Binary Code GH3076-ND 16.08 12.87 9.65 8.04 26ASD22-01-1-AJS16 22.5° Gray Code GH7412-ND 27.27 21.82 16.37 13.64 26GSD22-01-1-AJS16 22.5° Gray Code GH3077-ND 24.64 19.72 14.79 12.32 26GS22-01-1-16S-CFig. 3 – Horizontal Mount with Switch Fig. 412.2610.76Mtg. Surface3/8-32NEF6.356.4010.19 25.4Mtg. SurfaceM8X.75P6.425.40.5 Travel(Reference)Fig. 2 – Vertical Mount with Switch11.4 9.812.2610.764.875.5 6.310.6Mtg. SurfaceM8X.75P6.425.45.00.5 Travel(Reference)6.04.57.0L 5.0Ø7.06.23.5 2.57.0 7.5Optical Rotary Encoders Series: 510, 600, 601V,Transducers and SensorsSeries 510: The Series 510 controls are manually operated, rotary, mechanical encoders that provide atwo-bit gray code for relative reference applications and a four-bit gray code for absolute electrical referenceapplications. They are commonly used in limited space panel-mounted applications where the need forcostly, front-panel displays can be completely eliminated. Environmental Characteristics: Temperature: -40°C ~ 105°CSeries 600 and 601: Electrical Specifications: The Series 600 and 601 controls are manually operated,rotary, op ti cal encoders that output two square waves in quadrature at a rate of 128 pulses per channelper revolution as a stand ard with other resolutions down to 60 pulses available. The outputs are TTL Environmental Characteristics:Temperature: -20°C ~ 65°C Me chan i cal Char ac ter is tics: and pull and a 90° bend.Dim. in mmModel 510 – 4 Cycle Model 510 – 16 Cycle Model 600 – Cable StyleModel 601 – PCTerminal (Vertical)1.918.711 4 23 .1.272.54.64 x .30 THK21.08squ.12.2917.484.0621.08 squ.8.71Rotary PositionTransducer45.90Ø16.1312.79.5312.299.5317.47DescriptionDigi-KeyPart No.PriceEachHoneywellPart No.4 Cycle Gray Code PCB 480-3273-ND 6.81 510E1A48F204PB6 Cycle Gray Code PCB 480-3274-ND 6.81 510E1A48F206PB6 Cycle Gray Code PCB 480-3275-ND 6.32 510E1A48F206PC9 Cycle Gray Code PCB 480-3276-ND 7.16 510E1A48F209PB9 Cycle Gray Code PCB 480-3277-ND 6.38 510E1A48F209PC16 Cycle Gray Code PCB 480-3278-ND 6.78 510E1A48F416PCCable Version 600CS-ND 33.37 600128CBLVertical PC Version 601VCS-ND 32.61 600128C24Rotary Position Transducer, 180°, 10KΩ 480-3279-ND 18.93 640CS103A06NAAYRotary Position Transducer, 90°, 10KΩ 480-3280-ND 18.93 640ES103A06NAAYRotary Hall Effect Sensor 480-3281-ND 32.26 HRS100SSAB090Panel MountOptical EncodersElectrical Specifications±Code: 2-bit Quadature, Channel A leads Channel B by 90° with clockwise rotation Push Switch SpecificationsVoltage: 12VDC, 50mA Environmental Specifications°C ~ 60°CDim. in mm39.476.343/8 x 32 NEF-2AFig. 1 A B C17.56.356.350.75321456190.520.653.1828.5813.4917.48Rotary HallEffect Sensor27.69 13.21Digi-KeyPrice Each CUI Inc.Fig. Positions Detent Pushbutton Part No.1 10 25 Part No.16 Yes No 102-1903-ND 22.96 21.81 20.66 C14D16N-A316 Yes Yes 102-1904-ND 22.96 21.81 20.66 C14D16P-A316 No Yes 102-1919-ND 22.96 21.82 20.67 C14N16P-A316 No No 102-1920-ND 22.96 21.82 20.67 C14N16N-A31A32 Yes Yes 102-1923-ND 22.96 21.82 20.67 C14D32P-A332 Yes No 102-1924-ND 22.96 21.82 20.67 C14D32N-A332 Yes Yes 102-2032-ND† NEW! 25.72 24.43 23.15 C14D32P-A3A32 Yes No 102-2033-ND† NEW! 25.72 24.43 23.15 C14D32N-A3A32 No No 102-1911-ND 22.96 21.81 20.66 C14N32N-A332 No Yes 102-1912-ND 22.96 21.81 20.66 C14N32P-A316 Yes Yes 102-1921-ND 26.08 24.78 23.48 C14D16P-B316 Yes No 102-1922-ND 26.08 24.78 23.48 C14D16N-B316 No No 102-1905-ND 26.08 24.78 23.47 C14N16N-B316 No Yes 102-1906-ND 26.08 24.78 23.47 C14N16P-B31B32 Yes No 102-1913-ND 26.08 24.78 23.47 C14D32N-B332 Yes Yes 102-1914-ND 26.08 24.78 23.47 C14D32P-B332 Yes Yes 102-2034-ND† NEW! 29.20 27.74 26.28 C14D32P-B3A32 Yes No 102-2035-ND† NEW! 29.20 27.74 26.28 C14D32N-B3A32 No Yes 102-1925-ND 26.08 24.78 23.48 C14N32P-B332 No No 102-1926-ND 26.08 24.78 23.48 C14N32N-B316 Yes No 102-1907-ND 26.08 24.78 23.47 C14D16N-C316 Yes Yes 102-1908-ND 26.08 24.78 23.47 C14D16P-C316 No No 102-1909-ND 26.08 24.78 23.47 C14N16N-C316 No Yes 102-1910-ND 26.08 24.78 23.47 C14N16P-C31C32 Yes No 102-1915-ND 26.08 24.78 23.47 C14D32N-C332 Yes Yes 102-1916-ND 26.08 24.78 23.47 C14D32P-C332 Yes Yes 102-2036-ND† NEW! 29.20 27.74 26.28 C14D32P-C3A32 Yes No 102-2037-ND† NEW! 29.20 27.74 26.28 C14D32N-C3A32 No No 102-1917-ND 26.08 24.78 23.47 C14N32N-C332 No Yes 102-1918-ND 26.08 24.78 23.47 C14N32P-C3† IP65: Waterproof130611319.053214569.60.86.7120 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Modular 16 Resolutions Programmable AMT EncoderThe code generation technology of the AMT modular encoder represents a breakthrough in cost versusresolution with benefits such as low current consumption, broad operating temperature range and a lowprofile, lightweight mechanical design. Benefits the AMT encoder offers over competitors include 16selectable resolutions, index pulse included, more mounting options, and 9 bore size options all included inone package. Features: Digi-KeyPrice EachCUIFig. DescriptionPart No.1 10 50 100 500 Part No.1 Modular Encoder Horizontal Version 102-1308-ND 29.95 28.50 26.00 23.00 21.00 AMT103-V KIT— Line Driver Cable for AMT-103 1M 102-1788-ND 7.15 6.50 5.85 5.53 5.04 CUI-103E-10— Shielded Interface Cable Horizontal 1ft 102-1504-ND 4.15 2.93 — 2.40 2.14 CUI-435-1FT— Shielded Interface Cable Horizontal 6ft 102-1310-ND 9.30 7.00 — 6.00 5.50 CUI-3934-6FT2 Modular Encoder Vertical Version 102-1307-ND 29.95 28.50 26.00 23.00 21.00 AMT102-V-KIT— Line Driver Cable for AMT-102 1M 102-1787-ND 7.15 6.50 5.85 5.53 5.04 CUI-102E-10— Shielded Interface Cable Vertical 1ft 102-1503-ND 4.15 2.93 — 2.40 2.14 CUI-3132-1FT— Shielded Interface Cable Vertical 6ft 102-1309-ND 7.20 5.76 — 4.80 4.48 CUI-3131-6FTSpecifications: or E5 replacement. Includes sleeve size to fit these diameter shafts: 2mm, 3mm, 3.175mm, 4mm, 4.76mm,5mm, 6mm, 6.35mm and 8mmFig. 1 –HorizontalNEW! AMT203 Absolute Encoder and AMT303 Commutation Encoder19.69AMT10328.6034.219.0011.50Fig. 2 –Vertical29.8628.77Dimensions in mm43.389.00The AMT203 is a 12 bit absolute rotatary encoder with SPI serial bus for working as a slave to an external microprocessor. Direct,incremental A, B, and Index signals are included as an option for high speed operation. The Index occurs once per rotation. The SPI serialbus outputs a position reading that is absolute over a full turn with 12 bit (4,096) resolution.The AMT303 is a commutation encoder with standard U, V, W signals and up to 1,024ppr (4,096 counts) of incremental A/B positionfeedback and Index position signals. These are direct outputs compatible with any device requiring encoder or commutation input. TheAMT303-DMK can accommodate brushless motors with 2, 4, 5, 8, 10 or 12 poles. The SPI serial bus allows programming of commutationsettings, resolution, BLDC motor pole count and other encoder features. The Incremental Index channel is aligned to the codewheelpattern which is one pulse per 360 degrees. Commutation zero position is programmable by grounding a pin, eliminating a time-consumingand tedious mechanical alignment.The AMT203 and AMT303 encoders contain two capacitive channels: a Fine channel and a Coarse channel. The Fine channel has16 wavelengths of a periodic capacitive pattern, while the Coarse channel has 5 wavelengths. Each channel has its own ASIC thatinterpolates the channels to a resolution of 256 increments per wavelength. A microprocessor on the encoder PCB combines the twochannels to achieve the absolute, incremental and commutation outputs depending on the model.The AMT203-DMK and ATM303-DMK are easy to use demo kits designed for the AMT203 absolute and ATM303 communtation modularencoders. The kits allow for stand alone demonstration or direct access to programmable features in production. They are outstandingtools for experimentation and familiarization with AMT203 and AMT202 featuresDimensions in mm15.1728.5810.9337.22Voltage ResolutionOperating Digi-KeyPrice Each CUIDescriptionSupply (VDC) (ppr) Channels Temperature Part No.1 10 50 Part No.AMT203 12 bit SPI ABS Encoder Kit 4.5 ~ 5.5 2 12 (4,096) ABS, A, B, Z -40°C ~ 115°C 102-2050-ND 63.18 57.92 53.46 AMT203-VAMT303 Commutation SPI Encoder Kit 4.5 ~ 5.5 1,024A, A, B, B, Z,Z, U, V, W-40°C ~ 115°C 102-2051-ND 46.40 42.53 39.26 AMT303-VDemo KitsKit Contents: AMT203-V modular encoder kit, Demo Board, AMT203 to demo board cable,USB cable, Flash drive, and power adapter4.5 ~ 5.5 2 12 (4,096) — — 102-2052-ND 159.00 — — AMT203-DMKKit Contents: AMT303-V modular encoder kit, Demo Board, AMT303 to demo board cable,USB cable, Flash drive, and power adapter4.5 ~ 5.5 1,024 — — 102-2053-ND 149.00 — — AMT303-DMKMechanical RotaryEncodersCUI’s mechanical rotary encodes provide high versatility at a very low cost. The functionality is similar to optical encoders but without the high price tag. Withoptions in shaft length, shaft style, mounting orientation, and push button function, these items are ideal for consumer electronics, appliance, automotive, andmany other applications. Features: 12ppr ~ 24pprDimensions(mm) Digi-KeyPrice EachCUIFig. Description Shaft Bushing L H Part No.1 10 100 500 Part No.Horizontal 12ppr, 10mA B Threaded 15 5 102-1739-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-15KQA1-12CHorizontal 12ppr, 10mA B Threaded 20 5 102-1740-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-20KQA1-12CHorizontal 12ppr, 10mA B Smooth 15 5 102-1741-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-15KQA1-12CHorizontal 12ppr, 10mA B Smooth 20 5 102-1742-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-20KQA1-12CHorizontal 12ppr, 10mA A Threaded 15 5 102-1743-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-15FA1-12CHorizontal 12ppr, 10mA A Threaded 20 5 102-1744-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-20FA1-12CHorizontal 12ppr, 10mA A Smooth 15 5 102-1745-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-15FA1-12C1Horizontal 12ppr, 10mA A Smooth 20 5 102-1746-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-20FA1-12CHorizontal 20ppr, 10mA B Threaded 15 5 102-1747-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-15KQA1-20CHorizontal 20ppr, 10mA B Threaded 20 5 102-1748-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-20KQA1-20CHorizontal 20ppr, 10mA B Smooth 15 5 102-1749-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-15KQA1-20CHorizontal 20ppr, 10mA B Smooth 20 5 102-1750-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-20KQA1-20CHorizontal 20ppr, 10mA A Threaded 15 5 102-1751-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-15FA1-20CHorizontal 20ppr, 10mA A Threaded 20 5 102-1752-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-20FA1-20CHorizontal 20ppr, 10mA A Smooth 15 5 102-1753-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-15FA1-20CHorizontal 20ppr, 10mA A Smooth 20 5 102-1754-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-20FA1-20CVertical 12ppr, 10mA B Threaded 15 5 102-1755-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-15KQD1-12CVertical 12ppr, 10mA B Threaded 20 5 102-1756-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-20KQD1-12CVertical 12ppr, 10mA B Smooth 15 5 102-1757-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-15KQD1-12CVertical 12ppr, 10mA B Smooth 20 5 102-1758-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-20KQD1-12CVertical 12ppr, 10mA A Threaded 15 5 102-1759-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-15FD1-12CVertical 12ppr, 10mA A Threaded 20 5 102-1760-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-20FD1-12CVertical 12ppr, 10mA A Smooth 15 5 102-1761-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-15FD1-12C2Vertical 12ppr, 10mA A Smooth 20 5 102-1762-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-20FD1-12CVertical 20ppr, 10mA B Threaded 15 5 102-1763-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-15KQD1-20CVertical 20ppr, 10mA B Threaded 20 5 102-1764-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-20KQD1-20CVertical 20ppr, 10mA B Smooth 15 5 102-1765-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-15KQD1-20CVertical 20ppr, 10mA B Smooth 20 5 102-1766-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-20KQD1-20CVertical 20ppr, 10mA A Threaded 15 5 102-1767-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-15FD1-20CVertical 20ppr, 10mA A Threaded 20 5 102-1768-ND 3.60 3.12 2.40 1.99 ACZ11BR1E-20FD1-20CVertical 20ppr, 10mA A Smooth 15 5 102-1769-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-15FD1-20CVertical 20ppr, 10mA A Smooth 20 5 102-1770-ND 3.60 3.12 2.40 1.99 ACZ11BR4E-20FD1-20CHorizontal 12ppr, 0.5mA B Threaded 15 5 102-1771-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-15KQA1-12CHorizontal 12ppr, 0.5mA B Threaded 20 5 102-1772-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-20KQA1-12CHorizontal 12ppr, 0.5mA A Threaded 15 5 102-1773-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-15FA1-12C3Horizontal 12ppr, 0.5mA A Threaded 20 5 102-1774-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-20FA1-12CHorizontal 24ppr, 0.5mA B Threaded 15 5 102-1775-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-15KQA1-24CHorizontal 24ppr, 0.5mA B Threaded 20 5 102-1776-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-20KQA1-24CHorizontal 24ppr, 0.5mA A Threaded 15 5 102-1777-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-15FA1-24CHorizontal 24ppr, 0.5mA A Threaded 20 5 102-1778-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-20FA1-24CHorizontal 12ppr, 0.5mA B Threaded 15 5 102-1779-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-15KQD1-12CHorizontal 12ppr, 0.5mA B Threaded 20 5 102-1780-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-20KQD1-12CHorizontal 12ppr, 0.5mA A Threaded 15 5 102-1781-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-15FD1-12C4Horizontal 12ppr, 0.5mA A Threaded 20 5 102-1782-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-20FD1-12CHorizontal 24ppr, 0.5mA B Threaded 15 5 102-1783-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-15KQD1-24CHorizontal 24ppr, 0.5mA B Threaded 20 5 102-1784-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-20KQD1-24CHorizontal 24ppr, 0.5mA A Threaded 15 5 102-1785-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-15FD1-24CHorizontal 24ppr, 0.5mA A Threaded 20 5 102-1786-ND 2.10 1.82 1.40 1.16 ACZ16NBR1E-20FD1-24CFig. 1A.11.7H7.25B.6.5HFig. 2 A.H11.77.25B.6.5HFig. 3A.16H89.5B.HFig. 4A.16H8B.9.5HLØ6LØ6LØ6LØ6LØ6LØ6LØ6LØ6IMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)121121

Mechanical Rotary EncodersFig. 1 Recommended PWB Piercing Plan pitch tolerance: ±0.1Fig. 2(view from mounting side)CDC 5V5 513.20.72-2.12-210k10k10k10k1412.4A BCOM12.4Centerof shaft57.5SignalAA0.01 0.01EncoderBCOMSignalB2.0C5.5 77.5M9 P=0.753.5 1.0MountingSurface7.510kSignal A13.20.01µ2-2.02-2.1Cntr. of shaft3 - Ø1.05D.C. 5V10k 10kSignal BA BEncoder 0.01µBlockCOMFig. 3D.C. 5VFig. 4C5.5 72.010k 10k 10kSignal ASignal BA B7.50.01µ Encoder 0.01µ13.2Block3.5 Mounting2-2.0SurfaceCOM2-2.17.5 Cntr. of shaft3 - Ø1.057.0C5.0 7.07.53.65 MountingSurfaceCOMSW COMSIGNALASIGNALB7.07.513.22-2.02-2.1Cntr. of shaft5 - Ø1.05.010kSignal A0.01µD.C. 5V10k 10kSignal BA BEncoder 0.01µBlockCOMSpecifications:Mechanical: 10mN-m to 50mN-mElectrical: Physical, Environment Life: minimumOperating Temperature: -10°C ~ 60°CStorage Temperature: -40°C ~ 85°CFig.Description(mm)Dim. C(mm)Detent/PulseDigi-KeyPart No.Price Each1 10 100PanasonicPart No.12 17.5 24/24 P10859-ND 1.31 1.09 .92 EVE-GA1F1724B1 12 20 24/24 P10860-ND 1.31 1.09 .92 EVE-GA1F2024B12 20 12/12 P12331-ND .69 .58 .49 EVE-GA1F2012B212 20 12/12 P12332-ND .76 .64 .53 EVE-GC1F2012B12 20 –/24 P12334-ND .76 .64 .53 EVE-KC2F2024B312 20 12/12 P12333-ND .64 .54 .45 EVE-GE1F2012B12 20 –/24 P12335-ND .64 .54 .45 EVE-KE2F2024B4 12 20 20/20 P12336-ND 1.57 1.31 1.10 EVE-JBBF2020BICenter Space EncodersEVQ Series:Encoder with a center space, which meets the requirements of multiple operation controllers.Recommended Applications: con trol of car navigation sys temsFeatures: Specifications:Mechanical: 30 pointsElectrical: With standing Voltage: 300VAC for 1 minuteEndurance: min imumOperating Temperature: -40°C ~ 85°C11mm Square Encoder withPush-lock FeatureRecommended Applications:and AV equipmentFeatures:Specifications:Mechanical: . m to 17 mN . points Electrical: 300VAC for 1 minute Endurance:(Push-lock): 10,000 cyclesOperating Temperature: -30°C ~ 85°CEdge Drive JogEncodersEVQWK Series: Recommended Applications: electronic equipmentFeatures: Specifications:Mechanical: . m ~ 10mN . Electrical:Endurance: ®For Digi-Reel ® information, please see page 73.®Fig. 1 Fig. 2Fig.23.6Description(mm)10k10kSignal ATerm.A0.018.4D.C. 5V10k10kSignal BTerm.B0.01TerminalC2-30˚2-Ø 2.052-11.8Detent/Pulse617Digi-KeyPart No.2-Ø 1.519.513.03-Ø 1.0Digi-KeyPrice EachPanasonicDescriptionPart No.1 10 100 Part No.Rotary Encoder, Vertical P12425-ND 7.17 5.98 5.02 EVQ- WEH00115B14.9Ø16.511.6Price Each1 10 1002-2.12-1.8PanasonicPart No.1 22 20/10 P12337-ND 2.05 1.71 1.44 EVQ-1WF00210B2 27 30/15 P12419-ND 5.05 4.21 3.54 EVQ-WFP00415BFig. 1 Fig. 2Ø 15ComA1.60B SW1SW2 3.6512 456SW11 A 4 SW2 2 Com 5 SW1 6 B28(View from mtg. side)27.41.52.1 2-R0.75 11.523Ø1.5162-Ø2.73-Ø15Center of shaft145 Ø7.277.5P=2.5A C B 5-Ø15(View from mtg. side)Digi-KeyCut TapePrice Each Digi-KeyTape & ReelPricing PanasonicFig. Description Part No.1 10 100 Part No.600 Part No.1 5.4mm SMD P13382S-ND* 6.66 5.56 4.67 — — EVQ-WK40012 3.65mm SMD P13381SCT-ND 7.01 5.85 4.91 P13381STR-ND 2102.40 EVQ-WKA001* Bulk13.6ComSW1SW1ABSW2122 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

11mm and 16mm Square Encoders Fig. 1EVE-P/EVE-Q: Recommended Applications: conditioners. Features: 0.1mm max. Specifications: Mechanical: . EVE-P: 16; EVE-Q: 32 Electrical: Switch Part: Endurance:Operating Temperature: -40°C ~ 85°C (45-85% RH)EVE-V: Recommended Applications: Features: Specifications: Mechanical: Push Strength: 100 N . . m to 20 mN . Electrical:Switch Part:Endurance:Operating Temperature: -40°C ~ 85°CDigi-KeyPrice Each PanasonicFig.DescriptionPart No.1 10 100 Part No.18 PPR, SPST, 16 Detents, 21.5mm Height P12420-ND◆ 10.55 8.80 7.39 EVE-PDBRG508B16 PPR, SPST, 32 Detents, 21.5mm Height P12422-ND 9.86 8.23 6.91 EVE-QDBRG516B28 PPR, SPST, 16 Detents, 25.4mm Height P12421-ND◆ 10.55 8.80 7.39 EVE-PDBRL408B16 PPR, SPST, 32 Detents, 25.4mm Height P12423-ND 9.86 8.23 6.91 EVE-QDBRL416B3 16 PPR, SPST, 32 Detents, 20mm Height P12418-ND◆ 3.21 2.68 2.25 EVE-VCGJL016B◆ RoHS CompliantFig. 2Fig. 37.07.5Ø1221.57.5E S.P.S.TḊ 21.5Ø1225.47.54203.5S.P.S.T.ECOMD25.4S.P.S.T.7.57.5SCommonness of encoderØ12Ø12(View from mtg. side)16.64-Ø1.9Center8.3of shaft Ø1.2152.8Ø1.859DACom.BEP2.5X4=10 5-Ø1(View from mtg. side)16.64-Ø1.92.8 8.3Ø1.2Centerof shaft15Ø1.859DACom.BE5-Ø1P2.5X4=10 5-Ø1(View from mtg. side)11.4COM 5 S2-Ø2.37Centerof shaftBBA57.514mm Rotary Optical EncoderElectrical Characteristics: Supply Voltage (V CC ): 5.0VDC±Supply Current (I CC ):Output Voltage: Low (V CE(sat) ), per Channel: 800mVmaximum @ I (SINK) O(HI) ), per Channel: 4.0VDC minimum @ V CC Current I (SINK) , per Channel: 25mA minimum 200ns 167mWmaximum 180°e Rotation): 90°e ±45°e 1,000MΩ minimum Non-Dentent, 300 maximum 12VDC/20mA (600Ω maximum load) Resistance: 200Ω maximum Slotted StyleBushingDimensionsD x L (mm)ShaftDimensionsD x L (mm)ShaftStyleTerminalStyleW/SwitchYes/NoCycles Per Digi-KeyRevolution Part No.Price Each1 25 50Flatted StyleMetalShaft MetalBushing10.032.08“R” Pin3.18“L” Pin1.75“L” Pin1.52“R” Pin8.0014.2514.769.52 x 9.52 6.35 x 22.23 Slotted Axial Yes 8 EM14A0D-B28-L008S-ND 19.10 14.62 13.859.52 x 9.52 6.35 x 19.05 Flatted Axial No 32 EM14A0D-C24-L032N-ND 17.90 13.70 12.989.52 x 9.52 6.35 x 19.05 Flatted Axial Yes 64 EM14A0D-C24-L064S-ND 19.10 14.62 13.856.35 x 6.35 3.18 x 19.05 Slotted Axial Yes 64 EM14C0D-E24-L064S-ND 19.10 14.62 13.856.35 x 6.35 3.18 x 22.23 Slotted Axial No 64 EM14C0D-E28-L064N-ND 17.90 13.70 12.98Digital Contacting EncodersOutput: Resistance: 1,000VAC minimum 120 maximum Environmental Characteristics: -40°C ~ 85°C Mechanical Characteristics: Anti-RotationLug PositionCycles PerRevolutionDigi-KeyPart No.Price Each1 25 50None 24 ECW1D-B24-BC0024L-ND 3.46 2.70 2.209:00 24 ECW1J-B24-BC0024L-ND 3.46 2.70 2.20Digi-KeyPricingDescriptionPart No.1 10 100 1,000Lockwasher for ECW Encoder H-37-2-ND .16 1.24 7.47 59.85Mounting Nut for ECW Encoder H-38-11-ND .53 4.13 24.90 199.50Ø.107 ACB2.545.08.765.749.0214.47826.975IRotary Optical EncodersElectrical Characteristics:Output: 2-bit gray code, Channel A leads Channel B by 90° electrically turning clockwise 200ns 136mW (Index Channel): 90° ±45° 0° ±45°Environmental Characteristics:Mechanical Characteristics:Fig. 1 Fig. 2 Fig. 33/8-32 UNEF1/4-32 UNEF8.636 9.53Ø6.342.635 18.59.53Cycles PerRevolutionDigi-KeyPart No.6.35Ø 3.1753/8-32UNEFØ6.342Price Each1 25 50Fig.64 ENA1J-B28-L00064L-ND 51.37 40.00 32.671100 ENA1J-B28-L00100L-ND 51.37 40.00 32.672 128 ENC1J-D28-L00128L-ND 51.37 40.00 32.673 256 ENS1J-B28-L00256L-ND 82.74 64.43 52.629.5259.5315.882.3621.219mm Square/Sealed Encoder Output: 2-bit gray code, Channel A leads Channel B by electrically turning clockwise (CW): 6 120maximum Environmental Characteristics: Mechanical Characteristics: 360° Fig.DescriptionDigi-KeyPart No.Price Each1 10 50 1001 9mm Square Right Angle Encoder 3315C-001-006L-ND 2.17 1.98 1.70 1.382 9mm Square Vertical Encoder 3315Y-001-006L-ND 2.77 2.45 2.06 1.76Fig. 1 Fig. 21/4-32 UNF-2A9.53threaded.38 bushing¯3.189.53CB C AB AØ.51 5.97.766.354.8312.702.542.549.532.542.549.532.545.085.97More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)123123

Magnetic Reed SwitchesReed Switches consists of two ferromagnetic reeds that when introduced to a magnetic field, attract toward each other to close. Once the magnetic field is removed, the contacts again spring open. Reed switches are ideal inauto, marine and moist environments including water, fuels, and dust-laden atmospheres. The smaller Ampere Turns number, the more sensitive the reed switch to magnetic fields.®Fig. 1 - Axial Lead Fig. 2 - Axial Lead Fig. 3 - SMTFig. 4 - SMTEpoxy BodyABCABCCABABCIFig.12Fig.34AmpereMaximum DCContact RatingSwitchingCurrentCarryCurrentOperate/ReleaseDimensions (mm) Digi-KeyPrice EachHamlinCircuit Turns Watts Volts (A) (A) (ms) A B C Part No.1 10 50 Part No.Axial Lead Reed SwitchesSPST 6 ~ 12 10 170 0.5 0.5 .45/.2 7.00 46.00 1.80 HE516-ND 1.37 1.16 .97 MITI-3V1 6-12.5SPST 10 ~ 15 10 200 0.5 1.0 .5/.1 10.16 40.38 1.80 HE560-ND NEW! .75 .64 .53 MDSR-10 AW 10-15SPST 15 ~ 20 10 200 0.5 1.0 .5/.1 10.16 40.38 1.80 HE561-ND NEW! .75 .64 .53 MDSR-10 AW 15-20SPST 20 ~ 25 10 200 0.5 1.0 .5/.1 10.16 40.38 1.80 HE562-ND NEW! .75 .64 .53 MDSR-10 AW 20-25SPST 10 ~ 20 10 200 0.5 0.8 .6/.2 12.70 40.39 1.83 HE500-ND .81 .69 .58 MDSR-7 10-20SPST 20 ~ 25 10 200 0.5 0.8 .6/.2 12.70 40.39 1.80 HE535-ND .81 .69 .58 MDSR-7 20-25SPST 10 ~ 15 10 200 0.5 1.0 .55/.2 14.00 44.30 2.28 HE555-ND NEW! .52 .44 .37 FLEX-14 10-15SPST 15 ~ 20 10 200 0.5 1.0 .55/.2 14.00 44.30 2.28 HE556-ND NEW! .52 .44 .37 FLEX-14 15-20SPST 20 ~ 25 10 200 0.5 1.0 .55/.2 14.00 44.30 2.28 HE557-ND NEW! .52 .44 .37 FLEX-14 20-25SPST 17 ~ 23 20 200 1.0 1.2 .7/.2 15.24 56.64 2.66 HE133-ND .81 .69 .58 MLRR-3 17-23SPST 22 ~ 28 20 200 1.0 1.2 .7/.2 15.24 56.64 2.66 HE538-ND .81 .69 .58 MLRR-3 22-28SPST 32 ~ 38 20 200 1.0 1.2 .7/.2 15.24 56.64 2.66 HE539-ND .81 .69 .58 MLRR-3 32-38SPST 17 ~ 23 20 200 1.0 1.0 .6/.2 15.24 40.38 2.66 HE540-ND .85 .72 .60 MLRR-4 17-23SPST 22 ~ 28 20 200 1.0 1.0 .6/.2 15.24 40.38 2.66 HE541-ND .85 .72 .60 MLRR-4 22-28SPST 12 ~ 23 10 200 0.5 1.2 .6/.2 15.24 40.39 2.29 HE502-ND .72 .61 .51 MDSR-4 12-23SPST 27 ~ 33 10 200 0.5 1.2 .6/.2 15.24 40.39 2.29 HE533-ND .72 .61 .51 MDSR-4 27-33SPST 32 ~ 38 10 200 0.5 1.2 .6/.2 15.24 40.39 2.29 HE534-ND .72 .61 .51 MDSR-4 32-38SPST 12 ~ 33 10 200 0.5 1.2 .6/.2 15.24 40.39 2.29 HE503-ND .72 .61 .51 MDCG-4 12-33SPST 17 ~ 23 10 1000 0.5 1.3 .75/.3 19.05 56.77 2.66 HE544-ND 2.34 1.98 1.66 MARR-5 17-23SPST 22 ~ 33 10 1000 0.5 1.3 .75/.3 19.69 56.77 2.66 HE504-ND 2.34 1.98 1.66 MARR-5 22-33SPST 32 ~ 38 10 1000 0.5 1.3 .75/.3 19.69 56.77 2.66 HE529-ND 2.34 1.98 1.66 MARR-5 32-38SPST 27 ~ 33 50 200 1.5 3.0 .75/.3 19.69 56.64 2.84 HE546-ND 1.04 .88 .74 MRPR-3 27-33SPST 32 ~ 38 50 200 1.5 3.0 .75/.3 19.69 56.64 2.84 HE547-ND 1.04 .88 .74 MRPR-3 32-38SPST 17 ~ 23 50 250 1.0 2.5 .75/.3 20.32 56.64 2.84 HE543-ND 1.30 1.10 .92 MRPR-8 17-23SPST 22 ~ 38 50 250 1.0 2.5 .75/.3 20.32 56.64 2.84 HE505-ND 1.30 1.10 .92 MRPR-8 22-38SPST 17 ~ 23 10 200 0.3 1.4 .6/.2 15.24 40.38 2.28 HE558-ND NEW! .72 .61 .51 HA-15-2 17-23SPST 22 ~ 28 10 200 0.35 1.5 .6/.2 15.24 40.38 2.28 HE559-ND NEW! .72 .61 .51 HA-15-2 22-28SPST 42 ~ 48 100 400 3.0 6.0 4.5/2.5 50.80 82.55 5.25 HE517-ND 3.38 2.86 2.40 DRR-129 42-48SPST 47 ~ 68 100 400 3.0 6.0 4.5/2.5 50.80 82.55 5.25 HE509-ND 3.38 2.86 2.40 DRR-129 47-68SPST 67 ~ 73 100 400 3.0 6.0 4.5/2.5 50.80 82.55 5.25 HE518-ND 3.38 2.86 2.40 DRR-129 67-73SPST 87 ~ 93 100 400 3.0 6.0 4.5/2.5 50.80 82.55 5.25 HE520-ND 3.38 2.86 2.40 DRR-129 87-93SPDT 15 ~ 25 5 175 0.25 1.5 .7/1 14.73 51.66 2.54 HE506-ND 2.96 2.51 2.10 MDRR-DT 15-25 FSPDT 30 ~ 35 5 175 0.25 1.5 .7/1 14.73 51.66 2.54 HE532-ND 2.93 2.48 2.07 MDRR-DT 30-35 USPDT 70 ~ 75 50 500 1.5 2.0 5.5/8 38.10 85.73 5.33 HE525-ND 15.63 13.23 11.07 DRT-DTH 70-75SPDT 75 ~ 80 30 500 0.5 3.0 4.5/7 38.10 85.73 5.33 HE134-ND 11.41 9.66 8.08 DRR-DTH 75-80SPDT 45 ~ 50 30 500 0.5 3.0 4.5/7 38.10 85.73 5.33 HE522-ND 11.41 9.66 8.08 DRR-DTH 45-50SPDT 85 ~ 90 30 500 0.5 3.0 4.5/7 38.10 85.73 5.33 HE524-ND 11.41 9.66 8.08 DRR-DTH 85-90SPDT 50 ~ 65 50 500 1.5 2.0 5.5/8 39.37 85.73 5.33 HE508-ND 15.63 13.23 11.07 DRT-DTH 50-65CircuitOperateTime (ms)ReleaseTime (ms)SwitchingSwitching CurrentVolt. (max.) (A)CarryCurrent(A)Dimensions (mm) Digi-KeyCut TapePrice Each Digi-KeyTape and ReelA B C Part No.1 10 50 Part No.Qty. PricingSMT Reed SwitchesSPST 0.5 0.1 200VDC 0.5 1.0 12.45 15.62 2.00 HE564CT-ND NEW! .88 .75 .63 HE564TR-ND NEW! 3,000 337.50/M MDSM-10R 20-25 ATSPST 0.6 0.2 200VDC 0.5 1.2 17.52 19.30 2.84 HE151CT-ND .84 .72 .60 HE151TR-ND 3,000 294.00/M MDSM-4R 12-18SPDT 0.7 1.0 175VDC 0.25 1.5 20.32 25.40 2.87 HE563CT-ND NEW! 2.37 2.01 1.68 HE563TR-ND NEW! 2,500 912.50/M MDSM-DTR 20-25ATSPST 0.6 0.2 200VDC 0.5 0.8 11.43 16.25 1.52 HE549CT-ND 1.44 1.23 1.03 HE549TR-ND 1,500 533.00/M 59170-1-S-00-DSPST 1.0 0.5 200VDC 0.5 0.8 11.43 16.25 1.52 HE551CT-ND 1.44 1.23 1.03 HE551TR-ND 2,000 533.00/M 59170-1-T-00-DSPST 1.0 0.5 200VDC 0.5 0.8 11.43 16.25 1.52 HE553CT-ND 1.44 1.23 1.03 HE553TR-ND 2,000 533.00/M 59710-1-U-00-DHamlinPart No.MagnetsA permanent magnet is the most common source for operating the magnetic reed switch. The method used to position themagnet depends upon the switching requirement but can be used in one of four basic techniques; perpendicular or parallelmotion (up and down, side to side) rotation (revolving magnet or switch), shielding (passing a ferromagnetic material betweenthe switch and magnet) or biasing which is using one magnet of opposite polarity to cancel another magnet’s lines of force.Fig. 1 - Square Fig. 2 - Round Fig. 3 - ButtonAALLALDimension (mm)Use withGaussDigi-KeyPrice EachHamlinFig.A x LA.T.RangeStrength Part No.1 10 50 Part No.1.57 Sq. x 12.70 10-38 45 HE510-ND 1.20 1.02 .86 H-3114.83 Sq. x 25.40 10-38 200 HE511-ND 2.99 2.53 2.12 H-323.2 Sq. x 19.1 10-38 135 HE512-ND 1.63 1.38 1.15 H-336.35 Sq. x 25.4 10-68 260 HE513-ND 3.41 2.89 2.42 H-343.05 Dia. x 14.99 10-38 120 HE155-ND 1.85 1.57 1.32 31523.81 Dia. x 19.81 10-38 175 HE514-ND 1.59 1.35 1.13 4206.00 Dia. x 25.00 10-68 235 HE515-ND 4.52 3.83 3.20 6253 12.70 Dia. x 5.08 10-38 800 HE153-ND 1.17 .99 .83 CM-1®For Digi-Reel ® information, please see page 73.124 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Magnetic Reed Position SensorsFig. 1AFig. 315/32-32TPIBAFig. 2BFig. 415/32-32 TPIAADimension (Inch) Digi-KeyPrice Each CherryFig. DescriptionA B Part No.1 10 50 Part No.Magnetic Position Sensor, 10W, SPST-NO, .5A 1.00 ø.243 CH402-ND 3.62 3.22 2.68 MP2017011 Magnetic Position Sensor, 3W, SPST-NC, .2A 1.00 ø.243 CH403-ND 5.99 5.33 4.44 MP201702Smooth Barrel Actuator 1.00 ø.243 CH411-ND 3.40 3.03 2.52 AS201701Mini Flange Mount Proximity Sensors,10W, SPST-NO, .5A .906 .550 CH405-ND 3.94 3.51 2.92 MP201801Mini Flange Mount Proximity Sensors, 3W, SPST-NC, .2A .906 .550 CH406-ND 6.05 5.38 4.48 MP2018022Mini Flange Mount Actuator .906 .550 CH412-ND 3.54 3.15 2.62 AS201801Flange Mount Proximity Sensors, 10W, SPST-NO, .5A 1.125 .750 CH407-ND† 4.08 3.63 3.02 MP201901Flange Mount Proximity Sensors, 3W, SPDT-CO, .2A 1.125 .750 CH409-ND† 6.75 6.00 5.00 MP201903Flange Mount Actuator 1.125 .750 CH413-ND 3.83 3.41 2.84 AS2019013 Magnetic Position Sensor Aluminum 10W, SPST-NO, .5A 1.00 — CH410-ND 11.50 10.23 8.52 MP2007014 Threaded Actuator, South pole magnet 1.00 — CH397-ND 14.45 12.84 10.70 HE610400† Wire leads extend from opposite side of switchMagnetic Sensors®KMY/KMZ Sensors: Due to its featured properties - high sensitivity and almost no hysteresis - the KMY/KMZ sensors are used in a wide range of applications, like magnetic field measurement, revolution counters,proximity detecting, and position measurement. MS32 Switching Sensors: The MS32 is a magnetic field sensor which is built in the form of a Wheatstone bridge. Applications: Contactless Position (Presence, Open/Close)Detection in : Industrial Consumer Automotive. KMT32B/KMT36H Magnetic Angle Sensors: The KMT32B/KMT36H are magnetic field sensors based on the anisotropic magnetoresistance effect, i.e. it is sensing themagnetic field direction independently of the magnetic field strength. MLS Sensors: Sliding the MLS-Sensors along a magnetic scale will produce a sine and a cosine output signal as a function of the position. The sensordetects a magnetic gradient field and is thus almost insensitive to homogenous stray fields.Dimensions in mmFig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 66.703.702.5016.73.715.0 4.0+OR SW BR GN GE RT+Sensor MLS17.88.1565.107.505.201Supply OutputAngle of Digi-KeyPrice EachDigi-KeyTape and Reel Measurement SpecialtiesFig. Voltage (V) Voltage (mV) Magnet Measurement Part No.1 25 100 Part No.Qty Pricing Part No.5 ±10 Yes — 356-1077-1-ND 9.59 4.85 2.99 — — — KMY20M1 5 ±10 No — 356-1078-1-ND 9.39 4.73 2.79 — — — KMY20S5 ±5 Yes — 356-1079-1-ND 9.09 4.62 2.49 — — — KMY21M5 -5/+6 — — 356-1080-1-ND 8.80 4.20 2.20 — — — MS32G2 5 20 — 180° 356-1083-1-ND 9.53 5.65 3.25 — — — KMT32B-TD5 20 — 360° 356-1084-1-ND 9.68 5.75 3.75 356-1084-2-ND 3,000 2420.00/M KMT36H-TD3 5 20 — 180° 356-1081-1-ND 9.68 5.70 2.85 — — — KMT32B-SM4 5 20 — 180° 356-1082-5-ND 9.11 5.62 2.71 — — — KMT32B-SO5 5 20 — — 356-1086-ND 13.20 11.89 11.15 — — — MLS7 HS6 5 20 — — 356-1089-ND 16.87 15.19 14.24 — — — MLS5000 HKILevel Sensors withMagnetic FloatFig. 142.5Fig. 2 Fig. 372.580Compact sensors for detection of liquid levels such as oils, petroleum and fluids. LS01/02 seriesare for vert i cal tank mounting and LS03 is for horizontal mounting. Perfect for tank monitoring inhousehold, automot ive, control-test and measurement industries. Sensors are made of strongPolyimide material and in clude seals and mounting nut.Specifications:2423.517.2OperatingTerminationDigi-KeyPrice EachMederFig. BushingTemperatureor WiringPart No.1 10 50 Part No.M8x1.25 0°C ~ 70°C 500mm PVC Leads 374-1000-ND 17.42 15.55 12.60 LS01-1A71-PA-500W1M8x1.25 -20°C ~ 90°C 500mm PVC Leads 374-1057-ND NEW! 17.55 15.66 12.69 LS01-1B66-PA-500W2 M10x1.0 -20°C ~ 100°C 500mm PVC Leads 374-1001-ND 17.42 15.55 12.60 LS02-1A71-PA-500W3 M16x1.5 -20°C ~ 100°C 500mm PVC Leads 374-1002-ND 19.21 17.14 13.89 LS03-1A66-PA-500WMagnetsMade from Neodymium Iron Boron (NdFeB), rare earth magnets. These magnets are nickel plated. Neo dymium Magnets are the most powerful permanent magneticmaterials commercially available. Increasing the size of a magnet also increases magnetic strength.Gauss Digi-KeyPrice EachDescriptionStrength Part No.1 10 50 1001” Diameter x 1/8” Thick 10,800 469-1000-ND 1.70 1.60 1.50 1.303/4” Diameter x 1/8” Thick 10,800 469-1001-ND .89 .84 .79 .691/2” Diameter x 1/8” Thick 10,800 469-1002-ND .51 .48 .45 .391/4” Diameter x 1./4” Thick 10,800 469-1003-ND .30 .28 .27 .23Gauss Digi-KeyPrice EachDescriptionStrength Part No.1 10 50 1001/4” Diameter x 1/8” Thick 10,800 469-1004-ND .21 .20 .19 .171/4” Diameter x 1/16” Thick 10,800 469-1005-ND .17 .16 .15 .131” x 2” x 1/8” Thick 10,800 469-1006-ND 5.10 4.80 4.50 3.901” x 2” x 1/4” Thick 10,800 469-1007-ND 7.65 7.20 6.75 5.85®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)125125

Magnetic Position SensorsSpecifications:Switching Voltage: SPST - N/O - 200VDC, SPST - HV - 300VDC, SPDT - 175VDC, SPST - N/C - 175VDC Contact Rating: 10W maximum Switching Current: .5A maximum Initial Contact Resistance: 0.200ΩTypical Operate Time:Shock without False Operation:Operate and Storage Tem per a ture: -40°C ~ 105°CFig. 1 Fig. 2 Fig. 3Fig. 4Fig. 5B4-40 HoleA59021 - Aluminum BodyBA38.10AB25.40 19.05Fig. 6 Fig. 7Fig. 8Fig. 9 (SMT)19.0528.57Mates withWM2900 (connector),WM2510 (contact)BAABGull-LeadIDimension (mm)MustDigi-KeyMatchingOperate/Release Termination SensorPrice EachMagnetPrice EachFig. A B Distance (mm) or Wiring Part No.1 10 50 Part No.1 10 50SPST-N/O1 9.00 3.00 6.0/— 12” PVC Leads 59010-1-S-02-F-ND 9.36 7.92 6.63 57020-000-ND 3.54 3.00 2.511 9.00 3.00 4.5/— 12” PVC Leads 59010-1-T-02-F-ND 9.36 7.92 6.63 57020-000-ND 3.54 3.00 2.511 16.4 5.10 2.54/7.62 12” PVC Leads 59020-010-ND 5.62 4.76 3.98 57020-000-ND 3.54 3.00 2.511 25.4 6.22 3.81/20.32 12” PVC Leads 2.83 2.40 2.01 2.57 2.18 1.822 17.78 4.32 1.90/13.97 PCB Pins 59045-010-ND 1.72 1.46 1.22 57045-000-ND 2.99 2.53 2.122 22.86 4.57 3.81/19.05 PCB pins 1.24 1.05 .88 — — — —3A — — 3.81/20.32 12” PVC Leads 3.67 3.11 2.60 3.19 2.70 2.263B — — 3.81/20.32 12” PVC Leads 59070-010-ND 3.67 3.11 2.60 57070-000-ND 2.99 2.53 2.124 46.0 M12 10.0/30.0 16’ 4” HD Cable 59075-1-T-50-F-ND 18.69 15.82 13.23 57075-000-ND 29.65 24.80 20.224 46.0 M12 10.0/30.0 20” HD Cable 59075-1-U-03-A-ND 18.69 15.82 13.23 57075-000-ND 29.65 24.80 20.225 — — 2.54/6.35 12” PVC Leads 59085-010-ND 8.94 7.57 6.33 — — — —6 — — 3.81/20.32 Connector 59105-010-ND 4.29 3.63 3.04 57105-000-ND 2.67 2.26 1.897 28.57 19.05 3.81/20.32 Pins 3.74 3.17 2.65 2.67 2.26 1.898 28.57 19.05 8.89/29.21 12” Teflon Leads 59135-010-ND 6.08 5.15 4.31 57135-000-ND 3.54 3.00 2.517 23.01 14.00 4.44/20.32 12” PVC Leads 59140-010-ND 2.86 2.42 2.03 57140-000-ND 2.86 2.42 2.037 28.57 19.05 5.71/20.32 12” PVC Leads 3.06 2.59 2.17 2.67 2.26 1.898 28.57 19.05 5.71/20.32 12” PVC Leads 3.06 2.59 2.17 2.67 2.26 1.899 16 2.51 7.5/ — Gull Lead SMT 59165-1-S-00-C-ND 1.07 .91 .76 — — — —9 16 2.51 6.5/ — Gull Lead SMT 59165-1-T-00-C-ND 1.07 .91 .76 — — — —9 16 2.51 5.0/ — Gull Lead SMT 59165-1-U-00-C-ND 1.07 .91 .76 — — — —SPST-HV-N/O1 25.4 6.22 3.81/20.32 12” PVC Leads 59025-020-ND 3.28 2.78 2.33 57025-000-ND 2.57 2.18 1.823A — — 3.81/20.32 12” PVC Leads 59065-020-ND 3.97 3.36 2.81 57065-000-ND 3.19 2.70 2.263B — — 3.81/20.32 12” PVC Leads 59070-020-ND 3.97 3.36 2.81 57070-000-ND 2.99 2.53 2.126 — — 3.81/20.32 Connector 59105-020-ND 4.91 4.16 3.48 57105-000-ND 2.67 2.26 1.897 28.57 19.05 3.81/20.32 Pins 59125-020-ND 4.29 3.63 3.04 57125-000-ND 2.67 2.26 1.898 28.57 19.05 8.89/29.21 12” Teflon Leads 59135-020-ND 6.44 5.45 4.56 57135-000-ND 3.54 3.00 2.517 23.01 14.00 4.44/20.32 12” PVC Leads 59140-020-ND 3.48 2.95 2.47 57140-000-ND 2.86 2.42 2.037 28.57 19.05 5.71/20.32 12” PVC Leads 59145-020-ND 3.61 3.06 2.56 57145-000-ND 2.67 2.26 1.898 28.57 19.05 5.71/20.32 12” PVC Leads 59150-020-ND 3.61 3.06 2.56 57150-000-ND 2.67 2.26 1.89SPDT-O/C1 25.4 6.22 3.81/20.32 12” PVC Leads 4.78 4.05 3.39 2.57 2.18 1.823A — — 3.81/20.32 12” PVC Leads 5.30 4.49 3.75 3.19 2.70 2.263B — — 3.81/20.32 12” PVC Leads 59070-030-ND 5.30 4.49 3.75 57070-000-ND 2.99 2.53 2.123B 46.0 M12 10.0/30.0 40” PVC Leads 59070-3T05-F-ND 5.46 4.62 3.87 57070-000-ND 2.99 2.53 2.125 — — 2.54/6.35 12” PVC Leads 59085-030-ND 9.39 7.95 6.65 — — — —8 28.57 19.05 8.89/29.21 12” Teflon Leads 59135-030-ND 7.70 6.52 5.46 57135-000-ND 3.54 3.00 2.517 23.01 14.00 4.44/20.32 12” PVC Leads 5.10 4.32 3.62 2.86 2.42 2.037 28.57 19.05 5.71/20.32 12” PVC Leads 5.07 4.29 3.59 2.67 2.26 1.898 28.57 19.05 5.71/20.32 12” PVC Leads 4.94 4.18 3.50 2.67 2.26 1.89SPST-N/C1 25.4 6.22 3.81/20.32 12” PVC Leads 59025-040-ND 4.52 3.83 3.20 57025-000-ND 2.57 2.18 1.823A — — 3.81/20.32 12” PVC Leads 59065-040-ND 4.97 4.21 3.52 57065-000-ND 3.19 2.70 2.263B — — 3.81/20.32 12” PVC Leads 59070-040-ND 4.97 4.21 3.52 57070-000-ND 2.99 2.53 2.128 23.01 19.05 4.44/20.32 12” PVC Leads 59140-040-ND 4.81 4.07 3.41 57140-000-ND 2.86 2.42 2.03Digi-Key ® Assortment of switches denoted. (22 total pieces) Includes notebook style standard case ......................................................................................$69.95Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5Fig. 6 Fig. 7Magnetic SensorsMPS Series Magnetic Proximity Sensors operate when a magnetic field approaches two magnetic reed blades. The magnetic fieldovercomes the spring tension of the blades and brings the contacts together. When the magnetic actuator is removed, the reeds separateby their own spring tension. Comes complete with reed switch and matching actuator. FEATURES: less critical. SPECIFICATIONS: Contact Ratings: 30VDC or 30VAC maximum @ 0.3 Amp Maximum; 1.0 Amp Maximum Carry CurrentOper ating Temperature:Mechanical & Electrical Life: 10 Million Operations MATERIALS: Housing/Spacer/Cover:Wire Leads: UL1061, 22 AWG: stranded, made of copper or aluminum; Length: 12” (30.48cm) with endsMagnets: Alnico V and Ceramic Ferrite 8 (MPS80WG model only)NOTE: Wide gap contacts are polarity sensitive. Use alignment dots for proper installation of surface mount contacts.MakeGap(mm)ReleaseGap(mm)Digi-KeyPrice EachC&KFig.Part No.1 10 100 250 Part No.1 31.75 40.64 CKN6002-ND 6.98 6.03 5.08 4.60 MPS9WGW2 31.75 31.75 CKN6003-ND 8.62 7.45 6.27 5.68 MPS20WGW3 25.40 33.02 CKN6004-ND 7.39 6.38 5.38 4.87 MPS45WGW4 31.75 40.64 CKN6005-ND 8.21 7.09 5.97 5.41 MPS70WGW5 31.75 40.64 CKN6006-ND 8.21 7.09 5.97 5.41 MPS73WGW6 50.80 50.80 CKN6007-ND 8.37 7.23 6.09 5.52 MPS80WGW7 31.75 40.64 CKN6008-ND 6.98 6.03 5.08 4.60 MPS95WGW126 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Reed RelaysSRC Devices offers a selection of molded SIP and DIP 14 Reed Relays to meet customer applications. The DSS4 was developed several years ago andcontinues to be the relay of choice for hook switch in modems and general purpose applications. CoilVoltage CoilSwitchingCurrentCarryCurrent Digi-KeyPrice Each SRC DevicesCircuit (DC) Resistance (A) (A) Part No.1 10 50 Part No.SPST 12 1000 0.5 2 420-1024-ND* 3.80 3.22 2.70 DSS41A12B* With Diode.750(19.05).300(7.62).100(2.54).200(5.08).200(5.08).019(0.49)Diode – pin #3is positive7531Ultra-Mini Reed SwitchesSRC Devices Industry unique flat bladed, square reed switches. Ideally suited for small signal to moderate load switching tasks. With sputtered ruthenium contacts and laser-sealed glass, the FR series reed switch from SRC Devices is one of the mostreliable reed switches available today. In addition, our square glass and flat leads allow for seamless integration into a high speed, automated assembly process via our standard SMT configuration. SRC Devices reed switches are the only reed switchesfully SMT compatible by design, with or without overmolding. The magnetic force (expressed in NI, AT or Ampere Turns) required to cause the reed switch contacts to close is called the pull-in or operate AT..895.89Circuit(min.-max.)(min.-max.)SwitchingVolt. (max.)SwitchingCurrentCarryCurrentDigi-KeyPart No.Axial Lead OverMolded SwitchesPricing1 10 50 100SRC DevicesPart No.SPST 15-20 5-30 175VDC/VAC 0.25A 0.5A 420-1038-ND 3.15 26.68 111.55 181.88 UM2S1520SPST 20-25 5-30 175VDC/VAC 0.25A 0.5A 420-1040-ND 1.82 15.40 64.40 105.00 UM2S2025 Operate and Release values are given in Ampere-Turns.Magnetic ReedSwitchesFig. 1to 2-ND.Reed switches have been used in thousands of applications from non-contact switches to sensing direction,speed and position. Reed switches are a reliable, low cost, low cur rent switch that are hermitically sealedfor op er a tion in the most demanding en vi ron ments. The magnetic force (expressed in NI, AT or Ampere1.321.0217.53 Operate and Release values are given in Ampere-Turns. * For Tape and Reel part number, change 1-NDTurns) required to cause the reed switch contacts to close is called the pull-in or operate AT. Switching Switching Carry Digi-KeyPricingSRC DevicesCircuit (min.-max.) (min.-max.) Volt. (max.) Current Current Part No.1 10 50 100 Part No.Fig. 1 — Magnetic Reed SwitchesSPST 10-15 5-15 200VDC/VAC 0.5A 1.5A 420-1000-ND 1.79 15.13 63.25 101.75 FR2S1015-051500SPST 10-20 5-20 200VDC/VAC 0.5A 1.5A 420-1001-ND 1.72 14.58 60.95 98.05 FR2S1020-052000SPST 15-25 5-20 200VDC/VAC 0.5A 1.5A 420-1003-ND 1.53 12.93 54.05 86.95 FR2S1525-0525SPST 20-25 5-25 200VDC/VAC 0.5A 1.5A 420-1004-ND 1.79 15.13 63.25 101.75 FR2S2025-052500SPST 20-30 5-30 200VDC/VAC 0.5A 1.5A 420-1005-ND 1.72 14.58 60.95 98.05 FR2S2030Circuit(min.-max.)(min.-max.)SwitchingVolt. (max.)SwitchingCurrentCarryCurrentDigi-KeyPart No.1Cut Tape Pricing10 50Tape & Reel Pricing*3,000Fig. 2 — SMT Reed Switches on TapeSPST 15-25 5-22 200VDC/VAC 0.5A 1.5A 420-1006-1-ND 2.00 17.10 74.10 712.50/M FR2249SPST 10-20 5-18 200VDC/VAC 0.5A 1.5A 420-1007-1-ND 2.07 17.70 76.70 737.50/M FR2259SPST 10-30 5-30 200VDC/VAC 0.5A 1.5A 420-1027-1-ND 2.00 17.10 74.10 712.50/M FR2282SPST 10-15 5-30 200VDC/VAC 0.5A 1.5A 420-1104-1-ND 2.14 18.30 79.30 762.50/M FR2024SPST 15-20 5-30 200VDC/VAC 0.5A 1.5A 420-1028-1-ND 2.14 18.30 79.30 762.50/M FR2025SPST 20-25 5-30 200VDC/VAC 0.5A 1.5A 420-1029-1-ND 2.14 18.30 79.30 762.50/M FR202634.5415.24Fig. 2 — SMT15.242.03SRC DevicesPart No.IOvermolded Reed SwitchesAll the advantages of the non-molded DYAD®, plus the addedstrength of a low-stress plastic encapsulation. The SRC DevicesMolded DYAD is designed for the harshest, most demandingapplications. This plastic shell provides superior mechanicalstrength, eliminates concerns over handling glass switches, andprovides an ideal solution for high speed, automated assemblyenvironments. The magnetic force (expressed in NI, AT or AmpereTurns) required to cause the reed switch contacts to close is calledthe pull-in or operate AT.Applications:Security Proximity Sensing Smoke AlarmsAutomotive Level Sensor Lamp Current SensorCM151.32CM51.009.70Max.14.42Max.34.5416.2534.546.73 Switching Switching Carry Digi-KeyPricingSRC DevicesCircuit (min.-max.) (min.-max.) Volt. (max.) Current Current Part No.1 10 50 100 Part No.Axial Lead Overmolded SwitchesSPST 10-15 5-30 200VDC/VAC 0.5A 1.5A 420-1047-ND 1.98 16.78 70.15 112.85 CM15S1015SPST 10-20 5-30 200VDC/VAC 0.5A 1.5A 420-1048-ND 1.85 15.68 65.55 105.45 CM15S1020SPST 10-30 5-30 200VDC/VAC 0.5A 1.5A 420-1049-ND 1.85 15.68 65.55 105.45 CM15S1030SPST 15-20 5-30 200VDC/VAC 0.5A 1.5A 420-1050-ND 1.98 16.78 70.15 112.85 CM15S1520SPST 15-25 5-30 200VDC/VAC 0.5A 1.5A 420-1051-ND 1.85 15.68 65.55 105.45 CM15S1525SPST 20-25 5-30 200VDC/VAC 0.5A 1.5A 420-1052-ND 1.98 16.78 70.15 112.85 CM15S2025(min.-max.)(min.-max.)SwitchingVolt. (max.) Operate and Release values are given in Ampere-Turns.SwitchingCurrentCarryCurrentDigi-KeyPart No.* For Tape and Reel part number, change 1-ND to 2-ND.More Product Available Online: www.digikey.comwww.digikey.com/sensorsCut Tape Pricing Tape and Reel* SRC Devices1 10 50 Qty. Pricing Part No.CircuitSMT Overmolded Reed SwitchesSPST 10-15 5-30 200VDC/VAC 0.5A 1.5A 420-1041-1-ND 2.31 20.59 83.43 — — CM15-2024SPST 10-20 5-30 200VDC/VAC 0.5A 1.5A 420-1042-1-ND 2.35 20.10 87.10 1,000 871.00 CM15-2259SPST 10-30 5-30 200VDC/VAC 0.5A 1.5A 420-1043-1-ND 2.11 18.85 76.38 — — CM15-2282SPST 15-20 5-30 200VDC/VAC 0.5A 1.5A 420-1044-1-ND 2.49 21.30 92.30 2,000 923.00/M CM15-2025SPST 15-25 5-30 200VDC/VAC 0.5A 1.5A 420-1045-1-ND 2.35 20.10 87.10 2,000 871.00/M CM15-2249SPST 20-25 5-30 200VDC/VAC 0.5A 1.5A 420-1046-1-ND 2.49 21.30 92.30 2,000 923.00/M CM15-2026SPST 10-15 5-30 175VDC/VAC 0.25A 0.5A 420-1053-1-ND 3.54 31.61 128.08 — — CM5-2319SPST 15-20 5-30 175VDC/VAC 0.25A 0.5A 420-1056-1-ND 3.54 31.61 128.08 — — CM5-2325SPST 15-25 5-30 175VDC/VAC 0.25A 0.5A 420-1057-1-ND 4.16 37.12 150.40 — — CM5-2341Toll-Free: 1-800-344-45 (US2011)(TZS111.US)127127

Magnetic Reed Switches®Fig. 1Fig. 2 – Gull WingFig. 3 – SMD VersionABø CØ CABBCADFig.1AmpereMaximum DCContact RatingSwitchingCurrentCarryCurrentOperate/ReleaseDimensions - Inches (mm)Digi-KeyPrice EachCotoCircuit Turns Watts Volts (A)(A) (ms/µs)A B C Part No.1 10 50 Part No.SPST 14-23 10 200 0.5 1 .25/30 .591 (15) 1.811 (46) .1 (2.54) 306-1168-ND 1.98 1.68 1.41 RI-01BAASPST 16-25 10 200 0.5 1 .35/50 .531 (13.5) 1.811 (46) .071 (1.8) 306-1169-ND 1.98 1.68 1.41 RI-01CASPST 18-32 10 200 0.5 2.5 .25/30 .591 (15) 1.811 (46) .1 (2.54) 306-1171-ND 2.15 1.82 1.52 RI-03ASPST 16-25 10 200 0.5 1.75 .25/30 .531 (13.5) 1.811 (46) .071 (1.8) 306-1172-ND 2.15 1.82 1.52 RI-07AASPST 18-32 10 200 0.5 2.5 .25/30 .591 (15) 1.811 (46) .1 (2.54) 306-1188-ND 2.05 1.74 1.45 RI-21ASPST 18-32 10 200 0.5 2.5 .25/30 .591 (15) 1.811 (46) .1 (2.54) 306-1087-ND 2.15 1.82 1.52 RI-23ASPST 14-23 10 200 0.5 1.5 .25/30 .591 (15) 1.811 (46) .1 (2.54) 306-1086-ND 2.15 1.82 1.52 RI-23AASPST 14-23 15 200 1 1.75 .25/30 .591 (15) 1.811 (46) .1 (2.54) 306-1091-ND 2.05 1.74 1.45 RI-25AASPST 8-16 10 200 0.75 1.5 .25/70 .591 (15) 1.811 (46) .1 (2.54) 306-1090-ND 2.05 1.74 1.45 RI-25AAASPST 28-52 25 200 1 2.75 .25/30 .591 (15) 1.811 (46) .1 (2.54) 306-1093-ND 2.05 1.74 1.45 RI-25BSPST 46-70 25 200 1 3 .25/30 .591 (15) 1.811 (46) .1 (2.54) 306-1094-ND 2.05 1.74 1.45 RI-25CSPST 20-34 10 200 0.5 1.75 .25/30 .531 (13.5) 1.811 (46) .071 (1.8) 306-1082-ND 2.15 1.82 1.52 RI-27ASPST 16-25 10 200 0.5 1.75 .25/30 .531 (13.5) 1.811 (46) .071 (1.8) 306-1081-ND 2.15 1.82 1.52 RI-27AASPST 10-19 10 180 0.5 1.5 .25/30 .531 (13.5) 1.811 (46) .071 (1.8) 306-1080-ND 2.15 1.82 1.52 RI-27AAASPST 16-25 15 200 1 1.25 .25/30 .531 (13.5) 1.811 (46) .071 (1.8) 306-1083-ND 2.15 1.82 1.52 RI-29AASPST 10-19 30 200 0.75 2 .35/30 .807 (20.5) 2.157 (54.8) .106 (2.7) 306-1098-ND 2.15 1.82 1.52 RI-46AASPST 24-51 40 200 1 3 .35/30 .807 (20.5) 2.157 (54.8) .106 (2.7) 306-1100-ND 2.15 1.82 1.52 RI-46BSPST 46-70 70 200 1 2.25 .35/30 .807 (20.5) 2.157 (54.8) .106 (2.7) 306-1104-ND 2.15 1.82 1.52 RI-48CSPST 15-20 10 200 0.5 0.5 .15/20 .394 (10) 1.811 (46) .071 (1.8) 306-1122-ND 1.56 1.32 1.11 RI60GP1520Fig.CircuitAmpereTurnsMax. DCContact Rating Switching Carry Operate/Cut TapeCurrent Current ReleaseDimensions - Inches (mm) Digi-KeyPrice EachWatts Volts (A) (A) (ms/µs) Package A B C Part No.1 10 50SPST 9-15 10 200 0.5 0.5 .30/70 Gullwing .394 (10) .768 (19.5) .069 (1.75) 306-1190-1-ND 1.69 1.43 1.20 RI-02SMD-G22SPST 9-15 10 200 0.5 0.5 .30/70 Gullwing .394 (10) .768 (19.5) .069 (1.75) 306-1190-2-ND‡ 4732.00/7,000 RI-02SMD-G2‡ Tape and ReelCotoPart No.IAmpereMax. DCContact RatingSwitchingCurrentCarryCurrentDimensions - Inches (mm)Digi-KeyCut TapePrice Each Digi-KeyTape and ReelPricing CotoFig. Circuit Turns Watts Volts (A) (A) Package A B C D Part No.1 10 50 Part No.2,000 Part No.SPST 30-50 5 140 0.35 0.5 Gullwing .252 (6.4) .091 (2.31) .091 (2.31) .376 (9.55) 306-1148-1-ND 2.96 2.51 2.10 306-1148-2-ND 1274.00/M CT05-3050-G1SPST 15-35 5 140 0.35 0.5 Gullwing .252 (6.4) .091 (2.31) .091 (2.31) .376 (9.55) 306-1149-1-ND 2.96 2.51 2.10 306-1149-2-ND 1274.00/M CT05-1535-G1SPST 30-50 5 140 0.35 0.5 J-Lead .252 (6.4) .091 (2.31) .091 (2.31) .376 (9.55) 306-1150-1-ND 2.96 2.51 2.10 306-1150-2-ND 1274.00/M CT05-3050-J13 SPST 15-35 5 140 0.35 0.5 J-Lead .252 (6.4) .091 (2.31) .091 (2.31) .376 (9.55) 306-1151-1-ND 2.96 2.51 2.10 306-1151-2-ND 1274.00/M CT05-1535-J1SPST 15-30 10 200 0.5 0.5 Gullwing .458 (11.63) .095 (2.41) .115 (2.92) .635 (16.13) 306-1125-1-ND 1.20 1.02 .86 306-1125-2-ND 518.00/M CT10-1530-G1SPST 15-40 10 200 0.5 0.5 Gullwing .458 (11.63) .095 (2.41) .115 (2.92) .635 (16.13) 306-1124-1-ND 1.20 1.02 .86 306-1124-2-ND 518.00/M CT10-1540-G1SPST 25-40 10 200 0.5 0.5 Gullwing .458 (11.63) .095 (2.41) .115 (2.92) .635 (16.13) 306-1126-1-ND 2.18 1.85 1.55 306-1126-2-ND 871.00/M CT10-2540-G1Magnetic Reed Switches, Reed Relays,Reed Sensors and MagnetsReed Switches: Reed switches consist of two ferromagnetic blades of iron and nickel, hermetically sealed in a glass capsule. The introduction or removal of a magnetic field actuates the Reed Switch. Over500 reed switches to choose from ranging in size from the ultra miniature 4mm to 52mm. Reed Sensors: Reed sensors magnetically actuated proximity switches available in a variety of mounting options.The switching function is activated by the introduction or removal of a magnetic field. Reed Relays: Reed relays are ideal for applications requiring low and stable contact resistance, low capacitance, highinsulation resistance, long life and small package size. They are also suitable for high RF switching and low current switching.Dimensions(mm) Switching Termination Digi-KeyPrice Each Tape and Reel‡ MederFig. Circuit A B Voltage Current (A) or Wiring Part No.1 10 50 Qty. Pricing Part No.NEW! Reed Switches NEW!SPST-NO 10 2.0 24 0.1 Axial (2 Leads) 374-1083-ND .91 .82 .66 — — ORD211-1015SPST-NO 10 2.0 24 0.1 Axial (2 Leads) 374-1084-ND .91 .82 .66 — — ORD211-1520SPST-NO 7 1.8 24 0.1 Axial (2 Leads) 374-1085-ND 1.37 1.22 .99 — — ORD213-1015SPST-NO 7 1.8 24 0.1 Axial (2 Leads) 374-1086-ND 1.37 1.22 .99 — — ORD213-1520SPST-NO 7 1.8 24 0.1 SMD Tab 374-1087-ND 1.76 1.57 1.27 — — ORD213S-1-1015SPST-NO 14 2.2 100 0.5 Axial (2 Leads) 374-1088-ND .78 .70 .57 — — ORD228VL-1015SPST-NO 14 2.2 100 0.5 Axial (2 Leads) 374-1089-ND .78 .70 .57 — — ORD228VL-1520SPST-NO 21 2.75 350 0.7 Axial (2 Leads) 374-1090-ND 1.37 1.22 .99 — — ORD229-2025SPST-NO 21 2.75 350 0.7 Axial (2 Leads) 374-1091-ND 1.37 1.22 .99 — — ORD229-2530SPST-NO 7 1.8 100 1 Axial (2 Leads) 374-1127-ND 1.33 1.19 .97 — — ORD311-10151SPST-NO 12 2.0 200 0.5 Axial (2 Leads) 374-1128-ND 1.37 1.22 .99 — — ORD312-1015SPST-NO 14 2.2 200 0.5 Axial (2 Leads) 374-1092-ND .65 .58 .47 — — ORD324-1015SPST-NO 3.95 1.3 60 0.3 Axial (2 Leads) 374-1131-ND 5.98 5.34 4.33 — — KSK-1A04-1015SPST-NO 10.5 1.95 200 1 Axial (2 Leads) 374-1076-ND .98 .87 .71 — — KSK-1A35-1015SPST-NO 10.5 1.8 200 1 Axial (2 Leads) 374-1122-ND .98 .87 .71 — — KSK-1A35-1520SPST-NO 14 2.2 180 0.5 Axial (2 Leads) 374-1077-ND 1.04 .93 .76 — — KSK-1A66-1015SPST-NO 14 2.2 180 0.5 Axial (2 Leads) 374-1078-ND 1.04 .93 .76 — — KSK-1A66-1520SPST-NO 7 1.8 170 0.5 Axial (2 Leads) 374-1079-ND 1.72 1.54 1.25 — — KSK-1A80-1015SPST-NO 10 2.0 200 0.5 Axial (2 Leads) 374-1080-ND 1.33 1.19 .97 — — KSK-1A87-1015SPST-NO 10 2.0 200 0.5 Axial (2 Leads) 374-1081-ND 1.33 1.19 .97 — — KSK-1A87-1520SPST-NO 21 2.75 350 0.5 Axial (2 Leads) 374-1123-ND 2.11 1.89 1.53 — — KSK-1A52-2025SPST-NO 21 2.75 1000 1 Axial (2 Leads) 374-1124-ND 1.92 1.72 1.39 — — KSK-1A85-2030† Cut Tape ‡ For Tape and Reel part number, change 1-ND to 2-ND.®Fig. 1NEW!Fig. 2NEW!Fig. 3NEW!Fig. 4NEW!Fig. 5NEW!Fig. 6NEW!Fig. 7NEW!BØ2.54Max.Ø2.54Max.2.547.623.23315.24651010.4A14.0Max.14.0Max.22.8627.9430A14.512.61015.8(Continued)®For Digi-Reel ® information, please see page 73.128 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Magnetic Reed Switches, Reed RelaysReed Sensors and Magnets (Cont.)®Fig. 8NEW!3.8115.20Dimensions(mm) Switching Termination Digi-KeyPrice Each Tape and Reel‡ MederFig. Circuit A B Voltage Current (A) or Wiring Part No.1 10 50 Qty. Pricing Part No.2 SPDT — — 30 0.2 Axial (3 Leads) 374-1093-ND 2.73 2.44 1.98 — — ORT551-1015SPDT — — 175 0.5 Axial (3 Leads) 374-1082-ND 3.51 3.14 2.54 — — KSK-1C90F-10153 SPDT — — 175 0.5 Axial (3 Leads) 374-1125-ND 3.51 3.14 2.54 — — KSK-1C90F-1520SPDT — — 175 0.5 Axial (3 Leads) 374-1126-ND 3.51 3.14 2.54 — — KSK-1C90F-2025NEW! Reed Relays NEW!4 DPST — — 1.0 1.0 PC Pins 374-1132-ND 18.59 16.59 13.45 — — BE05-2A85-PSPST-NO 7.0 — 200 1.0 PC Pins 374-1107-ND 4.78 4.27 3.46 — — DIP05-1A72-11D5 SPST-NO 6.4 — 200 1.0 PC Pins 374-1051-ND 4.06 3.63 2.94 — — DIP05-1A72-11LSPDT 7.0 — 175 0.25 PC Pins 374-1052-ND 11.18 9.98 8.09 — — DIP05-1C90-51D6SPST-NO — — 7.5 3.0 PC Pins 374-1108-ND 66.01 58.90 47.73 — — HE12-1A83-03SPST-NO — — 7.5 3.0 PC Pins 374-1109-ND 66.01 58.90 47.73 — — HE24-1A83-027 SPST-NO — — 1000 1.0 PC Pins 374-1110-ND 16.87 15.06 12.20 — — LI12-1A858SPST-NO — — 200 0.5 PC Pins 374-1046-5-ND 5.82 5.20 4.21 — — MS05-1A87-75LHRSPST-NO — — 200 0.5 PC Pins 374-1049-5-ND 5.30 4.73 3.84 — — MS12-1A87-75L9 DPST — — 200 0.5 PC Pins 374-1053-ND 15.11 13.49 10.93 — — MS05-2A87-78DSPST-NO — — 200 1.0 PC Pins 374-1113-ND 4.45 3.98 3.22 — — SIL05-1A72-71D10 SPST-NO — — 200 1.0 PC Pins 374-1054-ND 4.26 3.80 3.08 — — SIL05-1A72-71LSPST-NO — — 200 1.0 PC Pins 374-1114-ND 4.45 3.98 3.22 — — SIL12-1A72-71L11SPST-NO — — 1000 1.0 PC Pins 374-1056-ND 15.73 14.04 11.38 — — SIL05-1A85-76D2KSPST-NO — — 1000 1.0 PC Pins 374-1055-ND 14.20 12.68 10.27 — — SIL05-1A85-76L2KReed SensorsSPST-NO — — 200 0.5 500mm PVC Leads 374-1115-ND NEW! 8.81 7.86 6.37 — — MK04-1A66B-500W12 SPST-NC — — 175 0.25 500mm PVC Leads 374-1059-ND NEW! 14.30 12.76 10.34 — — MK04-1B90C-500WSPDT — — 175 0.25 500mm PVC Leads 374-1060-ND NEW! 14.30 12.76 10.34 — — MK04-1C90C-500W13 SPST-NO — — 200 0.5 500mm PVC Leads 374-1061-ND NEW! 8.81 7.86 6.37 — — MK05-1A66B-500W14 SPST-NO — — 200 0.5 PCB 374-1062-ND NEW! 7.90 7.05 5.72 — — MK06-10-ESPST-NO 12.06 3.3 170 0.5 PCB 374-1063-ND NEW! 3.58 3.19 2.59 — — MK06-4-BSPST-NO 17.24 4.2 200 0.5 PCB 374-1064-ND NEW! 1.89 1.69 1.37 — — MK06-6-B15 SPST-NO 17.24 4.2 200 0.5 PCB 374-1035-ND NEW! 1.89 1.69 1.37 — — MK06-6-CSPST-NO 19.78 4.2 200 0.5 PCB 374-1066-ND NEW! 1.76 1.57 1.27 — — MK06-7-BSPST-NO 22.32 4.2 180 0.5 PCB 374-1067-ND NEW! 1.63 1.45 1.18 — — MK06-8-B16 SPST-NO — — 200 0.5 500mm PVC Leads 374-1008-ND NEW! 9.52 8.50 6.89 — — MK12-1A66B-500W17SPST-NO — — 200 0.5 500mm PVC Leads 374-1010-ND NEW! 8.06 7.20 5.83 — — MK13-1A66B-500WSPST-NO — — 200 0.5 500mm PVC Leads 374-1011-ND NEW! 8.06 7.20 5.83 — — MK13-1A66C-500WSPST-NO 15.60 1.80 200 1.0 SMD 374-1070-1-ND† NEW! 1.01 .90 .73 2,500 403.00/M MK23-35-B-2SPST-NO 14.0 2.2 200 0.5 SMD 374-1071-1-ND† NEW! 1.14 1.02 .83 2,500 455.00/M MK23-66-B-218 SPST-NO 7.0 2.0 170 0.25 SMD 374-1072-1-ND† NEW! 2.21 1.98 1.60 2,500 884.00/M MK23-80-B-2SPST-NO 10.0 2.0 200 0.5 SMD 374-1073-1-ND† NEW! 1.59 1.43 1.16 2,500 637.00/M MK23-87-B-2SPDT 20.32 2.8 175 0.5 SMD 374-1074-1-ND† NEW! 3.84 3.43 2.78 2,500 1534.00/M MK23-90-C-219 SPST-NO — — 170 0.5 SMD 374-1120-1-ND† NEW! 3.02 2.70 2.19 2,000 1209.00/M MK17-B-320 SPST-NO — — 60 0.3 SMD 374-1075-1-ND† NEW! 7.64 6.82 5.53 2,000 3055.00/M MK24-B-3SPST-NO 17.00 5.00 200 0.5 100mm PVC Leads 374-1023-ND 8.06 7.20 5.83 — — MK18-B-100WSPST-NO 17.00 5.00 200 0.5 100mm PVC Leads 374-1024-ND 8.06 7.20 5.83 — — MK18-C-100W21SPST-NO 10.00 3.0 175 0.25 100mm PVC Leads 374-1069-ND NEW! 8.87 7.92 6.42 — — MK20/1-B-100WSPST-NO 25.50 5.75 180 0.5 500mm PVC Leads 374-1027-ND 6.27 5.60 4.54 — — MK3-1A71B-500WSPST-NO 25.50 5.75 180 0.5 500mm PVC Leads 374-1028-ND 6.27 5.60 4.54 — — MK03-1A66C-500WSPST-NC 25.50 5.75 175 0.25 500mm PVC Leads 374-1029-ND 11.86 10.59 8.58 — — MK3-1B90C-500WSPST-NO 16.00 2.50 200 0.5 SMD 374-1013-1-ND† 1.85 1.66 1.34 2,500 598.00/M MK15-B-2SPST-NO 11.50 2.30 200 0.5 SMD 374-1017-1-ND† 2.21 1.98 1.60 2,500 780.00/M MK16-B-222 SPST-NO 11.50 2.30 200 0.5 SMD 374-1019-1-ND† 2.21 1.98 1.60 2,500 780.00/M MK16-C-2SPST-NO 8.50 2.10 170 0.5 SMD 374-1021-1-ND† 2.86 2.56 2.07 2,000 1079.00/M MK17-B-2SPST-NO 11.6 2.70 200 1.0 SMD 374-1043-1-ND† 1.72 1.46 1.22 2,500 559.00/M MK22-B-223SPST-NO 24.90 — 180 0.5 500mm PVC Leads 374-1007-ND 13.39 11.95 9.69 — — MK11-1A66C-500WSPST-NO 25.00 — 200 0.5 500mm PVC Leads 374-1006-ND NEW! 13.39 11.95 9.69 — — MK11-1A66B-500W24 SPST-NO — — 200 0.5 500mm PVC Leads 374-1068-ND NEW! 9.95 8.88 7.20 — — MK11/M8-1A66B-500WSPST 8.6 4.4 170 0.5 SMD 374-1039-1-ND† 8.19 6.93 5.80 1,000 3120.00 CRR05-1A25SPST 8.6 4.4 170 0.5 SMD 374-1040-1-ND† 11.96 10.12 8.47 1,000 4648.00 CRR05-1ASSPST-NO 8.6 4.4 170 0.5 SMD 374-1041-1-ND† 9.02 7.81 6.68 1,000 4511.00 CRF05-1ASPST-NO 8.6 4.4 170 0.5 SMD 374-1042-1-ND† 11.91 10.31 8.82 1,000 5732.00 CRF05-1AS26SPST-NO 15.2 6.8 200 0.5 PCB Pins 374-1047-5-ND 6.34 5.37 4.49 — — MS05-1A87-75DHRSPST-NO 15.2 6.8 200 0.5 PCB Pins 374-1050-5-ND 5.82 4.93 4.12 — — MS12-1A87-75D27 SPST-NO — — 3 0.1mA SMD Tab 374-1121-1-ND† NEW! 22.43 20.01 16.22 1,000 8970.00 MMS-B-2† Cut Tape ‡ For Tape and Reel part number, change 1-ND to 2-ND.DescriptionDimensionsL x W x HMaterialTypical Magnetic DipoleMoment (x10-5)Digi-KeyPart No.Price Each1 10 50MederPart No.NEW! Magnets NEW!M04 Actuator Magnet, Panel Screw Mount 23 x 13.9 x 5.9 AINiCo 1.21 374-1094-ND 2.99 2.67 2.17 2500000004M05 Actuator Magnet, Panel Screw Mount 23 x 19.4 x 5.9 AINiCo 1.21 374-1095-ND 2.99 2.67 2.17 2500000005M13 Actuator Magnet, Panel Screw Mount 23 x 13.9 x 5.9 AINiCo 1.21 374-1097-ND 2.99 2.67 2.17 2500000013M06 Actuator Magnet, Floating 12.06 ~ 22.32 x 3.3 x 4.2 AINiCo 0.53 374-1096-ND 2.73 2.44 1.98 2500000006M14 Actuator Magnet, Floating 23 x 19 AINiCo 0.35 374-1098-ND 2.73 2.44 1.98 2500000014M11/M8 Actuator Magnet, Threaded 8mm Cylindrical 25 ~ 38 x ø0.5 AINiCo 2.22 374-1099-ND 3.71 3.31 2.68 25000011081.9mm Permanent Cylindrical Magnet 3 x ø1.9 SmCo5 0.0727 374-1102-ND 1.17 1.05 .85 40030040172.5mm Permanent Cylindrical Magnet 12.7 x ø2.5 AINiCo 0.5 374-1129-ND .91 .82 .66 40030040153mm Permanent Cylindrical Magnet 4 x ø3 SmCo5 0.248 374-1103-ND 1.07 .96 .78 40030040254mm Permanent Cylindrical Magnet 19 x ø4 AINiCo 2.22 374-1100-ND 1.07 .96 .78 40030040035mm Permanent Cylindrical Magnet 4 x ø5 SmCo5 0.709 374-1104-ND 1.53 1.37 1.11 40030040266mm Permanent Cylindrical Magnet 10 x ø6 NdFeB 3.19 374-1105-ND 2.02 1.80 1.46 40030040307.6mm Permanent Cylindrical Magnet 27 x ø7.6 AINiCo 9.34 374-1101-ND 3.06 2.73 2.21 4003004006Permanent Rectangular Magnet 19 x 3.2 x 3.2 AINiCo 1.92 374-1130-ND 1.50 1.34 1.09 4003004018Permanent Rectangular Magnet 10 x 5 x 1.9 NdFeB 1.075 374-1106-ND 1.01 .90 .73 4003004032Fig. 9NEW!Fig. 10NEW!Fig. 11NEW!Fig. 12NEW!Fig. 13NEW!Fig. 14NEW!Fig. 15NEW!Fig. 16NEW!Fig. 17NEW!Fig. 18NEW!2.108.503.813.386.9Fig. 19 NEW!Fig. 21Fig. 22Fig. 23Fig. 24NEW!Fig. 25AFig. 27NEW!2.1019.8A15.11A32231.78.767.85.086.806.3524.138.135.087.62BBA173.8138.00B1.3552.8B13.9B5.05.9Fig. 20 NEW!AMK18-1A39A-300W2323A13.919.428.58M5 X .5 ThreadsM8x1.25ThreadsFig. 262.055.95.95.72A2.2BI®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)129129

SemiconductorPhototransistors®Dimensions in mmFig. 1 Fig. 2Ø 5.0Ø 3.0NFig.PackagePeakWavelength(nm)Bandwidth(nm)† For Tape and Reel Part number, change 1-ND to 2-ND. ‡ Cut TapePIN PhotodiodesCollector LightCurrentIca (mA) Typ.ViewAngle(°)† For Tape and Reel Part number, change 1-ND to 2-ND. ‡ Cut TapeInfrared Emitters† For Tape and Reel Part number, change 1-ND to 2-ND. ‡ Cut TapeOn/OffTime(µs)Digi-KeyPart No.Price Each Tape and Reel† Vishay1 10 100 Qty. Pricing Part No.1 5.0 mm 850 620 ~ 980 10 30 6/5 751-1003-ND .96 .85 .66 — — BPV111 5.0 mm 930 900 ~ 980 9 30 6/5 751-1004-ND .96 .85 .66 — — BPV11F2 3.0 mm 850 620 ~ 980 1.5 50 2.0/2.3 751-1023-ND .67 .56 .42 — — BPW852 3.0 mm 925 875 ~ 1000 3.2 60 2.0/2.3 751-1041-ND .67 .57 .43 — — TEFT43003 1.8 mm 825 620 ~ 960 1 24 4.8/5 751-1011-ND .74 .65 .50 — — BPW17N4 Side View 920 850 ~ 980 2.5 60 6/5 751-1061-ND .92 .82 .65 — — TEST26005 Side View 920 850 ~ 980 4 74 6/5 751-1042-ND .93 .82 .63 — — TEKT5400S6 TO-18 850 620 ~ 980 0.6 80 6/5 751-1018-ND 2.11 1.91 1.54 — — BPW76A6 TO-18 850 620 ~ 980 1.2 80 6/5 751-1019-ND 2.11 1.91 1.54 — — BPW76B6 TO-18 850 620 ~ 980 10 20 6/5 751-1020-ND 2.11 1.91 1.54 — — BPW77NA6 TO-18 850 620 ~ 980 20 20 6/5 751-1021-ND 2.11 1.91 1.54 — — BPW77NB7 1.9 mm 950 750 ~ 980 7 30 2.0/2.3 751-1052-1-ND‡ .85 .74 .58 1,000 309.00 TEMT10008 1.9 mm 950 750 ~ 980 7 30 2.0/2.3 751-1053-1-ND‡ .85 .74 .58 1,000 309.00 TEMT10209 1.9 mm 950 750 ~ 980 7 30 2.0/2.3 751-1054-1-ND‡ .85 .74 .58 1,000 309.00 TEMT103010 PLCC-2 830 620 ~ 980 0.5 120 2 751-1237-1-ND‡ .95 .83 .65 1,500 346.00/M VEMT3700-GS08Fig.PackagePeakWavelength(nm)Bandwidth(nm)SensitivityIraTyp. (µA)ViewAngle(°)Rise/FallTime(ns)Digi-KeyPart No.Price Each Tape and Reel† Vishay1 10 100 Qty. Pricing Part No.1 5.0 mm 920 570 ~ 1040 70 40 2.5 751-1001-ND .99 .87 .67 — — BPV101 5.0 mm 940 790 ~ 1050 60 40 2.5 751-1002-ND .99 .87 .67 — — BPV10NF7 1.9 mm 900 840 ~ 1050 10 30 4 751-1043-1-ND‡ .95 .83 .65 1,000 346.00 TEMD10008 1.9 mm 900 840 ~ 1050 10 30 4 751-1044-1-ND‡ .95 .83 .65 1,000 346.00 TEMD10209 1.9 mm 900 840 ~ 1050 10 30 4 751-1045-1-ND‡ .95 .83 .65 1,000 346.00 TEMD103011 Flat Side View 900 600 ~ 1050 50 130 100 751-1017-ND .95 .84 .67 — — BPW4611 Flat Side View 950 790 ~ 1050 45 130 100 751-1022-ND .95 .84 .67 — — BPW8312 TO-18 900 600 ~ 1050 60 24 7 751-1014-ND 3.83 3.42 2.81 — — BPW24R13 Side View 950 870 ~ 1050 80 120 100 751-1006-ND .97 .86 .68 — — BPV22F13 Side View 940 790 ~ 1050 85 120 100 751-1007-ND .97 .86 .68 — — BPV22NF13 Side View 950 870 ~ 1050 63 120 70 751-1008-ND .90 .80 .63 — — BPV23F13 Side View 940 790 ~ 1050 65 120 70 751-1009-ND .90 .80 .63 — — BPV23NF14 TO-5 920 550 ~ 1040 42 100 3400/3700 751-1012-ND 5.01 4.48 3.67 — — BPW20RF14 TO-5 565 420 ~ 675 9 100 3100/3000 751-1013-ND 8.83 7.95 6.54 — — BPW21R15 Top View 900 600 ~ 1050 50 130 100 751-1015-ND 1.06 .94 .74 — — BPW3415 Top View 950 870 ~ 1050 45 130 100 751-1000-ND 1.02 .90 .72 — — BP10416 Mini SMD 900 600 ~ 1050 55 130 100 751-1046-1-ND‡ 1.61 1.45 1.15 1,500 636.00/M TEMD5010X0116 Mini SMD 900 600 ~ 1050 35 130 100 751-1047-1-ND‡ 1.53 1.37 1.09 1,500 605.00/M TEMD5020X0116 Mini SMD 940 790 ~ 1050 55 130 100 751-1048-1-ND‡ 1.61 1.45 1.15 1,500 636.00/M TEMD5110X0116 Mini SMD 940 790 ~ 1050 35 130 100 751-1049-1-ND‡ 1.53 1.37 1.09 — — TEMD5120X01Fig.PackagePeakWavelength(nm)ViewingAngle(°)RadiantIntensityTyp. (mW/sr)Rise/FallTime(ns)Digi-KeyPart No.Price Each Tape and Reel† Vishay1 10 100 Qty. Pricing Part No.1 5 mm 940 44 45 800 751-1202-ND .55 .43 .30 — — TSAL53001 5 mm 940 20 130 800 751-1203-ND .55 .43 .30 — — TSAL61001 5 mm 940 34 60 800 751-1204-ND .55 .43 .30 — — TSAL62001 5 mm 940 50 40 800 751-1205-ND .55 .43 .30 — — TSAL64001 5 mm 940 60 25 800 751-1206-ND .55 .43 .30 — — TSAL76001 5 mm 870 20 180 15 751-1207-ND 1.01 .90 .71 — — TSFF52101 5 mm 870 44 70 15 751-1208-ND 1.01 .90 .71 — — TSFF54101 5 mm 890 20 140 30 751-1210-ND .64 .54 .41 — — TSHF52101 5 mm 890 44 65 30 751-1211-ND .64 .54 .41 — — TSHF54101 5 mm 850 20 160 20/13 751-1212-ND 1.24 1.10 .87 — — TSHG62001 5 mm 850 44 70 20/13 751-1213-ND 1.24 1.10 .87 — — TSHG64001 5 mm 830 20 160 20/13 751-1214-ND 1.24 1.10 .87 — — TSHG82001 5 mm 830 44 70 20/13 751-1215-ND 1.24 1.10 .87 — — TSHF84002 3 mm 875 40 20 600 751-1209-ND .53 .45 .34 — — TSHA44002 3 mm 940 50 30 800 751-1201-ND .55 .43 .30 — — TSAL44004 Side View 950 50 2.6 800 751-1233-ND .65 .55 .41 — — TSSS26005 Side View 950 60 2 ~ 7 400/450 751-1216-ND .86 .76 .59 — — TSKS5400S7 1.9 mm 870 34 5 30 751-1217-1-ND‡ .99 .86 .68 1,000 360.00 TSMF10007 1.9 mm 950 24 7 800 751-1220-1-ND‡ .85 .74 .58 1,000 309.00 TSML10008 1.9 mm 870 34 5 30 751-1218-1-ND‡ .99 .86 .68 1,000 360.00 TSMF10208 1.9 mm 950 24 7 800 751-1221-1-ND‡ .85 .74 .58 1,000 309.00 TSML10209 1.9 mm 870 34 5 30 751-1219-1-ND‡ .99 .86 .68 1,000 360.00 TSMF10309 1.9 mm 950 24 7 800 751-1222-1-ND‡ .85 .74 .58 1,000 309.00 TSML103010 PLCC-2 950 120 4.5 800 751-1258-1-ND‡ .50 .40 .30 1,500 153.00/M VSMS3700-GS0810 PLCC-2 940 120 8 800 751-1257-1-ND‡ .69 .55 .42 1,500 213.00/M VSML3710-GS0810 PLCC-2 870 120 10 15 751-1254-1-ND‡ .84 .73 .58 1,500 307.00/M VSMF4710-GS0810 PLCC-2 830 120 10 25 751-1255-1-ND‡ 1.31 1.18 .94 1,500 518.00/M VSMG2700-GS0810 PLCC-2 850 120 10 20/13 751-1256-1-ND‡ 1.21 1.09 .87 — — VSMG3700-GS0810 PLCC-2 890 120 10 30 751-1253-1-ND‡ .70 .61 .48 1,500 256.00/M VSMF3710-GS0817 TO-18 875 60 6 300 751-1234-ND 2.52 2.28 1.84 — — TSTA750017 TO-18 950 60 1.6 400 751-1235-ND 2.43 2.20 1.77 — — TSTS750018 1.8 mm 950 110 1.5 400/450 751-1026-ND .62 .52 .39 — — CQY36N18 1.8 mm 950 24 5 400/450 751-1027-ND .62 .52 .39 — — CQY37N®For Digi-Reel ® information, please see page 73.®®8.64.5Fig. 3 Fig. 42.43.62.23.33.4Fig. 5 4.9Fig. 64.95.2Ø 5.5Fig. 7Fig. 81.41.42.02.0 2.52.5Fig. 9 Fig. 101.4 1.652.0 2.52.83.0Fig. 11 Fig. 125.0Ø 5.56.46.15Fig. 13 Fig. 145.0 4.5Ø 8.1363.1Fig. 15Fig. 162.01.124.654.3 5.0 4.24Fig. 17Fig. 18Ø 5.52.92.45.23.3130 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Fig. 1Fig. 3Fig. 4OPIC PhotointerruptersFig. 2GNDVOUTAMPVCCVoltage RegulatorAmpFig. 5 Fig. 6VCCVOUTGNDDetectorSensing TerminalTubeVceo IC Rise/Fall DistanceDigi-KeyPrice Each SharpFig. (V) Max. (mA) Max. (µs) Typ. (mm) Type Part No.1 10 100 Part No.35 20 38/48 2.0 PCB 425-1973-5-ND◆ 1.47 1.23 .98 GP1S560J000F35 20 38/48 2.0 PCB 425-1974-5-ND◆ 1.05 .88 .70 GP1S56TJ000F35 20 50/50 1.0 PCB 425-1965-5-ND◆ .42 .35 .26 GP1S096HCZ0F35 20 50/50 2.0 PCB 425-1963-5-ND◆ .56 .45 .31 GP1S093HCZ0F135 20 50/50 2.0 PCB 425-1966-5-ND◆ .56 .45 .31 GP1S097HCZ0F35 20 50/50 3.0 PCB 425-1964-5-ND◆ .56 .45 .31 GP1S094HCZ0F35 20 150/150 1.1 PCB 425-2509-5-ND◆§ .56 .45 .31 GP1S196HCZ0F35 20 150/150 1.1 SMT 425-2510-5-ND◆§ .51 .43 .31 GP1S196HCZSF2 35 20 3/4 3.0 PCB 425-1970-5-ND◆ 1.05 .88 .70 GP1S51VJ000F3 10 20 2/2 5.0 PCB 425-2680-5-ND◆ 1.00 .80 .55 GP1S525XJ00F35 20 50/50 2.0 PCB 425-1962-1-ND†◆ .72 .58 .40 GP1S092HCPIF435 20 50/50 2.0 PCB 425-1962-2-ND‡◆ 540.00/2,000 GP1S092HCPIF5 35 20 3/3 — Conn. 425-1934-ND◆ 2.48 2.08 1.49 GP1S44S1J00F635 20 3/4 5.0 Conn. 425-2449-ND◆ 1.11 .93 .74 GP1S73P2J00F35 20 3/4 5.0 Conn. 425-2450-5-ND◆ 1.20 1.00 .80 GP1S74PJ000F◆ RoHS Compliant † Cut Tape ‡ Tape and Reel § Low profileDetector SensingVCC Icc Distance Terminal Digi-KeyPrice Each SharpFig. (V) Max. (mA) Max. (mm) Type Part No.1 10 100 Part No.15.5 16.5 5.0 Connector 425-1771-5-ND§ 2.19 1.83 1.46 GP1A073LCS5.5 16.5 5.0 Connector 425-1953-5-ND† 1.65 1.38 1.10 GP1A73AJ000F25.5 20.0 5.0 Connector 425-2565-ND 2.22 1.85 1.48 GP1A75E3J00F5.5 20.0 5.0 Connector 425-1954-5-ND 1.41 1.18 .94 GP1A75EJ000F5.25 30.0 1.0 ~ 9.0 Connector 425-2044-5-ND† 4.95 3.96 3.27 GP2A25J0000F3 5.25 30.0 2.0 ~ 22.0 Connector 425-2529-ND† 5.18 4.14 3.42 GP2A240LCS0F5.25 30.0 2.0 ~ 22.0 Connector 425-2042-ND† 5.18 4.14 3.42 GP2A200LCS0F17.0 3.8 3.0 PCB 425-1950-5-ND 1.50 1.25 1.00 GP1A52HRJ00F17.0 3.8 3.0 PCB 425-1951-5-ND 1.59 1.33 1.06 GP1A52LRJ00F4 17.0 3.8 5.0 PCB 425-2432-5-ND 2.10 1.75 1.40 GP1A53HRJ00F17.0 3.8 10.0 PCB 425-1935-5-ND 2.34 1.95 1.56 GP1A57HRJ00F17.0 50.0 5.0 PCB 425-1952-5-ND 1.86 1.55 1.24 GP1A58HRJ00F5 17.0 3.8 3.0 PCB 425-1948-5-ND 1.53 1.28 1.02 GP1A50HRJ00F6 17.0 3.8 3.0 PCB 425-1949-5-ND 1.41 1.18 .94 GP1A51HRJ00F§ Inverted † ReflectiveReflective PhotointerruptersFig. 1 Fig. 2 Fig. 3Fig. 4DetectorSensing TerminalTubeVceo IC Rise/Fall DistanceDigi-KeyPrice Each SharpFig. (V) Max. (mA) Max. (µs) Typ. (mm) Type Part No.1 10 100 Part No.35 20 3/4 3.0 PCB 425-1971-5-ND◆ .90 .75 .60 GP1S52VJ000F35 20 3/4 4.2 PCB 425-1976-5-ND◆ 1.14 .95 .76 GP1S59J0000F135 20 3/4 5.0 PCB 425-1972-ND◆ .87 .73 .58 GP1S53VJ000F35 20 3/4 5.0 PCB 425-1975-5-ND◆ .90 .75 .60 GP1S58VJ000F35 20 35/35 1.6 PCB 425-1978-5-ND◆ 1.23 1.03 .82 GP1S95J0000F35 20 35/35 1.6 PCB 425-1062-5-ND 1.03 .87 .62 GP1S95DetectorSensing TerminalDigi-KeyPrice Each SharpTubeVceo IC Rise/Fall DistanceFig. (V) Max. (mA) Max. (µs) Typ. (mm) Type Part No.1 10 100 Part No.35 20 20/20 0.7 SMD 425-2569-1-ND†◆ 1.20 1.00 .80 GP2S27T2J00F35 20 20/20 0.7 SMD 425-2569-2-ND‡◆ 560.00/1,000 GP2S27T2J00F35 20 20/20 0.7 SMD 425-2570-1-ND†◆ 1.17 .98 .78 GP2S27T3J00F135 20 20/20 0.7 SMD 425-2570-2-ND‡◆ 546.00/1,000 GP2S27T3J00F35 20 20/20 0.7 SMD 425-2051-1-ND†◆ 1.11 .93 .74 GP2S27TJ000F35 20 20/20 0.7 SMD 425-2051-2-ND‡◆ 518.00/1,000 GP2S27TJ000F35 20 20/20 0.7 SMD 425-1097-1-ND†◆ .68 .55 .38 GP2S6035 20 20/20 1 SMD 425-1097-2-ND‡◆ 510.00/2,000 GP2S60235 20 20/20 0.7 SMD 425-2670-1-ND†◆ .72 .58 .40 GP2S60B35 20 20/20 0.7 SMD 425-2670-2-ND‡◆ 540.00/2,000 GP2S60B35 20 20/20 1.2 ~ 5.5 SMD 425-1913-1-ND†◆ 1.17 .98 .78 GP2S700HCP335 20 20/20 1.2 ~ 5.5 SMD 425-1913-2-ND‡◆ 546.00/1,000 GP2S700HCP35 20 20/20 0.7 PCB 425-2567-5-ND◆ .90 .75 .60 GP2S24BJ000F35 20 20/20 0.7 PCB 425-2568-5-ND◆ .90 .75 .60 GP2S24CJ000F435 20 20/20 0.7 PCB 425-2050-5-ND◆ .84 .70 .56 GP2S24J0000F35 50 80/70 0.7 PCB 425-2049-5-ND◆ .96 .80 .64 GP2L24J0000F◆ RoHS Compliant † Cut Tape ‡ Tape and ReelPhotointerruptersFig. 1 Fig. 2Fig. 3 Fig. 4 Fig. 5 Fig. 6Contactless Tilt SwitchesDSB SERIES:Photointerrupter, rather than con tacts, ensures high relia bility. Sealed construction for protection from environmentalelements, in cluding hydrogen sulfide, sulfur dioxide, and nitrogen hydroxide. Termin als are made of ammonia re sistentmaterials. The switch is triggered when tilted beyond 30° in any directionSpecifications: Mechanical and Electrical Life: 150,000 Operations Minimum Forward Current: 20mA Forward Voltage:1.3V Oper ating Temperature: -25°C ~ 80°CNote: Prevent exposure to magnetic fields. Do not install switch near vibration source.DSA SERIES:Environmentally friendly, contains no mercury tilted beyond ±10° of the horizontal Specifications: Load: 0.1A@ 12VDC Life: 100,000 opera tions Temp er ature: -10°C ~ 70°CDim. in Inches (mm)Fig. 1 Fig. 2.394(10.0).346(8.8)1.154(29.3).374(9.5).201(5.1)2 CathodeØ.05(1.3)3 Collector.469(11.9)1 Anode 4 Emitter.122(3.1)ø.453(11.5).374(9.5).394(10.0)Fig. 3 Fig. 4.512(13.0)2 Cathode.201(5.1)3 Collector.346(8.8)1.180(29.97).469(11.9)1 Anode.122(3.1)4 EmitterØ.05(1.3)1.375(34.93)Digi-KeyPrice EachNKKFig. DescriptionPart No.1 25 100 Part No.1 Tilt Switch, Straight 360-2187-ND 6.58 4.55 4.03 DSBA1P2 Tilt Switch, Right Angle 360-2188-ND 6.58 4.55 4.03 DSBA1H3 Tilt Switch, SPST, On/Off 360-2291-ND 7.92 5.61 4.95 DSA014 PCB Adaptor for DSA01 360-2292-ND 3.36 2.08 1.83 AT094Mating Connector, Contact andCrimp ToolDigi-KeyPricing Tape and Reel JSTDescriptionPart No.1 10 100 Pricing‡ Part No.3-Pos., 2.5mm, DisconnectableCrimp Style NH Connector455-1120-ND◆ .08 .74 6.13 — H3P-SHF-AATin-Plated Phosphor BronzeCrimp Contact, 22-28AWG455-1121-1-ND◆ .04 .38 3.14 94.20/5,000 SHF-001T-0.8BSCrimp Tool with Die for22-28AWG Contacts455-1122-ND 466.56/1 — WC-122◆ RoHS Compliant ‡ For Tape and Reel part number, change 1-ND to 2-ND.NMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)131131

IR Phototransistorsand PhotodiodesPhototransistorsFig.1VceoMax.(V)PhotodiodesShortCircuitCurrentIsPeakSensitivityWavelength(nm) Typ.DarkCurrentIdMax.Rise/FallTyp.(µs)BeamAngle(2x Theta)Fig. 1 Fig. 2 Fig. 3IC(mA)Digi-KeyPart No.1Price Each10 100SharpPart No.35 20 860 400/300 30 425-2665-1-ND◆†◊ .56 .45 .31 PT100MF1MP135 20 900 5.0/6.0 30 425-1005-1-ND◆† .48 .39 .27 PT100MC0MP35 20 900 5.0/6.0 30 425-1005-2-ND◆‡ 324.00/2,000 PT100MC0MP35 50 800 80/70 26 425-1013-5-ND§ .39 .33 .24 PT481235 50 800 80/70 26 425-2382-5-ND◆§◊ .39 .33 .24 PT481E00000F◆ RoHS Compliant † Cut Tape ‡ Tape and Reel § Transparent blue resin ◊ DarlingtonPeak Rise/ BeamVrSensitivity Fall AngleCut TapeMax.Wavelength Typ. (2x Digi-KeyPrice EachSharpFig. (V) (µA) Typ. (nA) (nm) Typ. (ns) Theta) Part No.1 10 100 Part No.120 0.6 10 850 10 40 425-1028-1-ND◆§ .48 .39 .27 PD100MF0MP20 0.6 10 850 10 40 425-1028-2-ND◆‡§ 324.00/2,000 PD100MF0MP330 9.2 2.0 940 5 — 425-1030-5-ND† .93 .78 .56 PD3122F30 9.2 2.0 940 5 — 425-2215-5-ND◆† .93 .78 .56 PD3122FE000F◆ RoHS Compliant ‡ Tape and Reel † Tube § Visible Light cut-off resin, blackMating Connector, Contactand Crimp ToolDescriptionDigi-KeyPart No.1Pricing10 100Tape and ReelPricing‡13,000JSTPart No.6-Pos., 1.5mm, DisconnectableCrimp Style ZH Connector455-1129-ND◆ .10 .89 7.40 — ZHR-6Tin-Plated Phosphor BronzeCrimp Contact, 26-28AWG455-1130-1-ND◆† .02 .18 1.51 8.01/M SZH-002T-P0.5Crimp Tool with Die for26-28AWG Contacts455-1131-ND 466.56/1 — WC-491◆ RoHS Compliant † Cut Tape ‡ For Tape and Reel part number, change 1-ND to 2-ND.®VccTyp.(V)Sensitivity(V) Typ.Distance Measuring SensorsVccTyp.(V)OutputCurrentICC (mA)TypicalDistanceMeasuringRange(cm) Typ.Diff. ofOutputVoltage(V) Typ.Compact OpticalDust SensorDigi-KeyPart No.Price Each1 25 100OutputCurrentICC (mA) Output Digi-KeyTyp. Type Part No.SharpPart No.5 0.5 28 425-2068-ND 11.38 8.65 7.51 GP2Y1010AU0FFig. 1Fig. 2 Fig. 3Price Each SharpFig.1 25 100 Part No.15 5 — 10.5 Digital 425-2615-5-ND 3.41 2.60 2.26 GP2Y0D805Z0F5 10 — 10.5 Digital 425-2616-5-ND 3.41 2.60 2.26 GP2Y0D810Z0F2 5 70 ~ 90 — 33 Digital 425-2064-ND 10.93 8.63 7.77 GP2Y0D02YK0F3 5 4 ~ 30 1.6 30 Analog 425-2498-ND 39.90 31.50 28.35 GP2Y3A001K0FSee below for JST Mating ConnectorMating Connector, Contactand Crimp ToolDescriptionDigi-KeyPart No.1Pricing10 100Tape and ReelPricing‡8,000JSTPart No.3-Pos., 2.0mm, DisconnectableCrimp Style PH Connector455-1126-ND◆ .05 .49 4.12 — PHR-324-30AWG, Tin-Plated PhosphorBronze Crimp Contact455-1127-1-ND◆† .03 .28 2.35 14.12/M SPH-002T-P0.5SCrimp Tool with Die for24-30AWG Contacts455-1128-ND 466.56/1 — WC-240◆ RoHS Compliant † Cut Tape ‡ For Tape and Reel part number, change 1-ND to 2-ND.NInterrupter Modules and DetectorsSemiconductor Interrupter ModulesSemiconductor Infrared Photo DetectorsFig.4Min.Ic (on)(mA)Min.Ic @ 5Vce(mA)TestConditionsIf/VceRise/Fall(µ sec)SlotWidth(mm)ReceptionAngle± (°)LeadSpacing(mm)OutputDigi-KeyPrice EachFig. Circuit TypePart No.1 10 100 5001 A Transistor 1.0 20mA @ 5V 3.18 5.59 QVA11134-ND 1.91 1.69 1.09 .882 A Transistor 2.0 20mA @ 5V 3.15 7.24 H22A2-ND 1.51 1.23 .86 .653 C Transistor 0.5 20mA @ 5V 3.81 7.62 QVE11233-ND 1.93 1.71 1.11 .88PeakWavelengthSensitivity(nm)BVCEODigi-KeyPrice EachCircuit (V)Part No.1 10 100 500D 30 1 5/5 8 880 QSC112-ND .48 .35 .23 .17D 30 2 5/5 8 880 QSC113-ND .48 .35 .23 .17D 30 4 5/5 8 880 QSC114-ND .48 .35 .23 .175D 30 3.2 7/7 12 880 QSD123-ND .50 .40 .29 .22D 30 7.5 7/7 12 880 QSD124-ND .50 .40 .29 .226 D 30 1.2 8/8 12 880 QSD722-ND .48 .35 .23 .17D 30 0.64 8/8 8 880 QSE113-ND .54 .43 .31 .24B 30 0.25 8/8 25 880 QSE113E3R0CT-ND† .75 .58 .42 .327 B 30 0.25 8/8 25 880 QSE113E3R0TR-ND‡ 401.43/2,000D 30 1.28 8/8 8 880 QSE114-ND .54 .43 .31 .24D 30 0.4 8/8 25 880 QSE122-ND .71 .56 .40 .31† Cut Tape ‡ Tape and ReelLogic DetectorsFig.8CircuitRise/Fall(ns)ReceptionAngle± (°)PeakWavelengthSensitivity(nm)OutputIsink IsourceDigi-KeyPrice EachType VCC (mA) (mA)Part No.1 10 100 500E O.C. BUFF 4.5 ~ 16 50 — 100 25 880 QSE158-ND 1.07 .84 .60 .46F O.C. INV. 4.5 ~ 16 50 — 100 25 880 QSE159-ND 1.07 .84 .60 .46Miniature Reflective Object SensorVoltage CurrentTape &SensingCollector Emitter CollectorCut TapeReel†Fig. CircuitDistance(mm)SensingMethodBreakdown(Max)Forward(IF)Digi-KeyPart No.1Price Each25 100Pricing1,0009 G 5 Reflective 30V 20mA QRE1113GRCT-ND 1.22 .97 .87 482.0010 G 5 Reflective 30V 20mA QRE1113-ND‡ NEW! .89 .71 .62 —† For Tape and Reel part number, change CT-ND to TR-ND ‡ Bulk®Fig. 1Fig. 6123CircuitsADFFig. 24 12Fig. 71 2 1 2Anode12 3Cathode CollectorVcc3V out2Gnd1Emitter43 4 12BEFig. 3 Fig. 4Fig. 81 2 33 4Vcc3V out2Gnd1VoltageRegulatorLACollectorEmitter1 2Fig. 9CGCathode1LAFig. 51 2Fig. 10 NEW!Collector42 3Anode EmitterVoltageReg.1 2 3 4®For Digi-Reel ® information, please see page 73.132 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

IlluminationSensors andPhotointerrupterIllumination Sensors: SMD Photo-ICs for illuminancesensor which consist of one chip integrated photodiodeand amplifier circuit Features: Photointerrupter: Consisting of GaAs infrared LEDand Si phototransistor with gap width as wide as 5mmFeatures: ®Dim in mmFig. 13 2 14 5 60.200.3 typ.0.50 0.501.600.201.200.201.60Fig. 2 NEW!7.55.05˚0.10 9.70.55Sensitivity Digi-KeyCut Tape Pricing Digi-KeyTape and Reel Pricing ToshibaFig. (µA) Part No.1 10 100 Part No.3,000 Part No.Illumination Sensors1 40 TPS852TCT-ND 1.37 12.24 97.20 TPS852TTR-ND 504.00/M TPS852NEW! Photointerrupter NEW!2 — TLP841-ND‡ .72 6.30 48.60 — — TLP841‡ Tube6.35Dimensions in mmEncoders and Sensors®Dimensions in mmFig. 1 Fig. 2 Fig. 3Fig. 426.672.5414.3015220.810.1611.741.1Max.30.018.3Max.41.1Max.18.3Max.30.052.118.0Fig. 5Fig. 6 Fig. 7Fig. 814.3018.01523/8”-32 UNEF Thread15.113.6 11.4StarWasherHex Nut7/16”(11.1)Flat to Flat8.112.717.31523/8”-32 UNEF Thread8.0Star 15.2WasherHex Nut7/16”(11.1)Flat to Flat17.32.76.97.13.882.75Fig. 9 Fig. 10 Fig. 11 Fig. 121.253 2 10.37 1.600.823 2 11.602.000.300.800.141.40451.501.6060.553.201.100.374 5 61.500.55Fig. 13Fig. 14Fig. 15 NEW!1.62.401 2 31.5 1.1 .823.22.002.202.600.556 5 40.80Encoder ModulesFig.OutputSupplyVoltageTypical (V)SupplyCurrent(mA)Counts perRevolution(CPR)Rise/FallTime (ns)(Typical)Shaft DiameterDigi-KeyPart No.Price Each1 10 1002-Channel 5.0 17 500 200 / 50 — 516-2029-ND 28.58 25.40 20.32 HEDS-9100#A0012-Channel 5.0 17 1,000 200 / 50 — 516-2030-ND 28.58 25.40 20.32 HEDS-9100#B003-Channel 5.0 57 500 180 / 49 — 516-1888-ND 32.18 28.60 22.88 HEDS-9140#A003-Channel 5.0 57 1,000 180 / 49 — 516-2028-ND 28.80 25.60 20.48 HEDS-9040#B002-Channel 5.0 17 500 200 / 50 1/4 Inch 516-2019-ND 51.04 48.49 35.73 HEDS-5500#A062-Channel 5.0 17 500 200 / 50 4 mm 516-2020-ND 51.04 48.49 35.73 HEDS-5500#A112 2-Channel 5.0 57 1,000 180 / 40 1/4 Inch 516-2018-ND 51.04 48.49 35.73 HEDM-5500#B062-Channel 5.0 17 500 200 / 50 1/4 Inch 516-2021-ND† 51.04 48.49 35.73 HEDS-5505#A063-Channel 5.0 57 500 180 / 40 1/4 Inch 516-2022-ND 51.04 48.49 35.73 HEDS-5540#A062-Channel 5.0 17 500 200 / 50 1/4 Inch 516-2023-ND‡ 51.04 48.49 35.73 HEDS-5600#A0632-Channel 5.0 17 100 200 / 50 1/4 Inch 516-1887-ND‡ 51.04 48.49 35.73 HEDS-5600#C062-Channel 5.0 17 500 200 / 50 1/4 Inch 516-2024-ND‡† 51.04 48.49 35.73 HEDS-5605#A063-Channel 5.0 17 500 200 / 50 1/4 Inch 516-2025-ND‡ 51.04 48.49 35.73 HEDS-5640#A064 2-Channel Wire Assembly with Locking Connector at One End and 4 Flying Leads at the Other End 516-2026-ND 9.45 8.75 6.65 HEDS-89025 3-Channel Wire Assembly with Locking Connector at One End and 5 Flying Leads at the Other End 516-2027-ND 9.45 8.75 6.65 HEDS-8903‡ With External Mounting Ears † 8.9 mm Through Hole (Continued)AvagoPart No.N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)133133

Encoders and Sensors (Cont.)®Miniature Panel Mount EncodersFig.67SupplyVoltageMax. (V)SupplyCurrentMax. (mA)Surface Mount Proximity SensorForward If Supply Voltage Photo Current Dark Current Digi-KeyCut Tape Price Each Digi-KeyTape and Reel Pricing AvagoFig. Voltage (Maximum) (Maximum) (Typical) (Maximum) Part No.1 10 100 Part No.2,500Part No.8 1.5V 50mA 1.3V 0.1mA 10nA 516-1555-1-ND 2.74 2.41 2.05 516-1555-2-ND 1168.00/M HSDL-9100-021Ambient Light SensorsCounts perRevolution(CPR)ShaftLength x Diameter(Inch)Digi-KeyPrice EachAvagoTermination Part No.1 10 100 Part No.5.5 40 Smooth 120 0.50 x 0.25 Pins Rear with Bracket 516-2115-ND 34.20 30.40 24.32 HRPG-ASCA#14R5.5 40 Smooth 120 0.50 x 0.25 D-Cut Pins Rear with Bracket 516-2117-ND 34.20 30.40 24.32 HRPG-ASCA#16R5.5 40 Detented 32 0.50 x 0.25 D-Cut Connector with Strain Relief 516-2113-ND 34.20 30.40 24.32 HRPG-AD32#16C5.5 40 Smooth 120 0.50 x 0.25 Connector with Strain Relief 516-2114-ND 34.20 30.40 24.32 HRPG-ASCA#14C5.5 40 Smooth 120 0.50 x 0.25 D-Cut Connector with Strain Relief 516-2116-ND 34.20 30.40 24.32 HRPG-ASCA#16CSupply Voltage Light Current Rise/Fall Time Peak Wavelength Digi-KeyCut Tape Price Each Digi-KeyTape and Reel Pricing AvagoFig. Range Ratio (Typical) (ms) (Typical) Sensitivity (nm) Part No.1 10 100 Part No.2,500 Part No.9 2.4V ~ 5.5V 1.2 0.95 / 0.8 620 516-1714-1-ND 1.04 .89 .76 516-1714-2-ND 455.00/M APDS-9002-02110 2.4V ~ 5.5V 1.2 0.95 / 0.8 620 516-1715-1-ND 1.20 1.02 .87 516-1715-2-ND 525.00/M APDS-9003-02011 2.4V ~ 5.5V 1.2 0.95 / 0.8 620 516-1716-1-ND 1.24 1.06 .90 516-1716-2-ND 542.50/M APDS-9004-02012 1.8V ~ 5.5V 1.1 5 / 5 500 516-1717-1-ND 1.28 1.09 .93 516-1717-2-ND 560.00/M APDS-9005-02013 2.4V ~ 5.5V 1.1 5 / 5 500 516-1718-1-ND 1.44 1.23 1.05 516-1718-2-ND 630.00/M APDS-9006-02014 2.0V ~ 3.6V 1.2 0.2 / 0.2 560 516-1719-1-ND 1.00 .85 .73 516-1719-2-ND 437.50/M APDS-9007-02015 2.4V ~ 3.0V — 300ns / 300ns 640 / 940 516-2134-1-ND NEW! 1.88 1.65 1.40 516-2134-2-ND NEW! 650.00/M APDS-9300-020Infrared Emitting Diodes, Photodetectors and Photodiodes®FEATURES: Infrared Emitting Diodes Fig. 1 Fig. 2 Fig. 3Fig. 4arsenide infrared emitting diodes Photodetectors and Photodiodesplastic packageDimensions in mmFig. 5 Fig. 6 Fig. 7 Fig. 83.01.0 5.25.812.7.51.02.544.0Flat denotesCathode1.00.52.545.05.6Flat DenotesCathode8.625.41.0(Collector for160-1031-ND)4.452.225.72Cathode12.7 .51.0 2.541.22.761.5531.45.08.702.355.802.542.922.010.67-both sidesØ 1.82.2Anode22.6416Anode5+.54Radiantsensitive area12.546.62.22.010.67-both sidesØ 1.82.2Ø 1.54.063.055.59Ø 1.8Anode2.02.2Infrared Emitting DiodesNIViewPeakLength Digi-KeyPricingLite-OnFig.Vf(ma)Angle(nm) Part No.1 10 100 Part No.1 1.20 60 20° 940 160-1028-ND .54 3.92 25.60 LTE-42061.20 50 20° 940 160-1029-ND .54 3.92 25.60 LTE-420821.20 100 40° 940 160-1061-ND .54 3.92 25.60 LTE-5208A1.30 100 35° 940 160-1062-ND .50 3.90 28.00 LTE-5228A3 1.20 50 40° 940 160-1063-ND .54 3.92 25.60 LTE-3021.50 100 30° 875 516-1261-ND 1.00 8.13 56.25 HSDL-422041.50 100 17° 875 516-1262-ND 1.00 8.13 56.25 HSDL-42301.40 100 52° 870 516-1706-ND .65 5.07 36.40 HSDL-42611.50 100 24° 875 516-1263-ND 1.00 8.13 56.25 HSDL-442051.50 100 24° 875 516-1265-1-ND‡ 1.15 8.86 63.25 HSDL-4420#0311.50 100 24° 875 516-1265-2-ND† 517.50/1,500 HSDL-4420#031‡ Cut Tape † Tape and ReelMatching PhotodetectorsOn-StateRise/Fall Digi-KeyPricingLite-OnFig. Vce VecI (ma)(us) Part No.1 10 100 Part No.1 30 5 2 5 160-1030-ND .43 3.00 20.00 LTR-4206E2 30 5 2 5 160-1031-ND .51 3.68 24.00 LTR-3208E3 30 5 1 5 160-1065-ND .51 3.68 24.00 LTR-301PhotodiodesDigi-KeyPricingLite-OnFig. DescriptionPart No.1 10 100 Part No.6 Black Plastic Diode 160-1032-ND .70 5.43 38.75 LTR-516ADIR DetectorsOutputCurrent(µA)DarkCurrent(nA)PeakSensitivity(nm)ForwardVoltage(Typical)View Digi-KeyPricingLite-OnFig.Angle Part No.1 10 100 Part No.5 6.0 1 875 0.8V 28° 516-1267-ND .77 5.95 42.50 HSDL-54207 1.6 1 875 0.8V 110° 516-1266-ND .77 5.95 42.50 HSDL-54008 6.0 1 875 0.8V 28° 516-1268-1-ND‡ .90 6.93 49.50 HSDL-5420#0318 6.0 1 875 0.8V 28° 516-1268-2-ND† 405.00/1,500 HSDL-5420#031‡ Cut Tape † Tape and Reel Absolute Maximum Ratings at TAλ®For Digi-Reel ® information, please see page 73.134 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Amplified Mini OpticalSensors with Pin Point Beam Sensing Mounting Distance (Max.) Digi-KeyPrice Each OmronMethod Type/Features Inches (M/mm) Part No.1 25 100 Part No.Through-BeamSide/Light-On 39.37 (1M) OR591-ND 127.21 114.49 108.13 E3T-ST11Side/Dark-On 39.37 (1M) OR592-ND 127.21 114.49 108.13 E3T-ST12Convergent BeamLight-On 0.59 (15mm) Z1104-ND 88.13 81.60 70.72 E3T-SL11Dark-On 0.59 (15mm) Z1105-ND 88.13 81.60 70.72 E3T-SL12Optional Flat Reflector for distances of 10-100 mm Z2429-ND◆ 8.62 7.99 6.92 E39-R37◆ RoHS CompliantAmplified Optical Sensorsin te rface with TTL circuits, relays andpro grammable con trol lers– 2m cables with con nectorsReceiver39"(1 Meter)Sensor Side ViewDescriptionDigi-KeyPart No.PriceEachOmronPart No.Through-Beam Receiver/Transmitter Pair - Dark on OR544-ND 126.59 EE-SPW311Through-Beam Receiver/Transmitter Pair - Light on OR545-ND 126.59 EE-SPW411Long Distance Amplified Optical SensorsFig. 1 — HorizontalFig. 2 — VerticalTransmitterThese general purpose optical sensors are smallDC Sensors (10 ~ 30VDC Input) available in botha transmitter-receiver pair or a reflected beam typewith sensing distances of 23 feet (7 meters). Ideal forconveyor systems and doorway sensing with direct interfaceto PLC’s. Meets NEMA 4X, 6 and IP67 standards.Through-beam sensors include separate trans mitter andre ceiver. Reflective sensors include transceiver and E39-R1 re flector. Horizontal mount sensors include mountingbracket. All sensors include mounting hardware.Sensing Mounting Dist. (Max.) Terminal Digi-Key Price Each OmronFig. Method Type/Features Ft. (M) Type Part No. 1 25 100 Part No.1Through-Beam Horizontal 22.97 (7) 2m Cable OR584-ND 292.47 263.23 210.59 E3S-AT11Reflective Horizontal 6.56 (2) 2m Cable OR585-ND 330.38 297.35 237.88 E3S-AR112 Through-Beam Vertical 22.97 (7) 2m Cable OR586-ND 233.98 210.59 198.89 E3S-AT61—Mounting Bracket for Vertical Sensors(2 required for Through-Beam Type)OR588-ND 10.76 9.69 7.75 E39-L59—Light Reflector for Confirming Optical Alignment duringSetup (Clips onto Receiver)OR589-ND 25.48 22.94 21.66 E39-R5Amplified Optical SensorsEE-SPX74/84 seriesof optical sensors featurea snap in connectorwhich pro videsexcellent shock andvi bra tion resistanceand prevents accidentaldis connection of thesen sor.Fig. 1 Fig. 2 Fig. 3Fig. 4Sensing Sensing OutputDigi-KeyPrice Each OmronFig. Method Distance Type Output Part No. 1 25 50 Part No.1Slot 3.6mm NPN Dark-On OR615-ND 101.59 91.44 81.28 EE-SPX740Slot 3.6mm NPN Light-On OR616-ND 133.76 120.39 107.02 EE-SPX8402Slot 3.6mm NPN Dark-On OR617-ND 101.59 91.44 81.28 EE-SPX742Slot 3.6mm NPN Light-On OR618-ND 133.76 120.39 107.02 EE-SPX8423Slot 3.6mm NPN Dark-On OR619-ND 101.59 91.44 81.28 EE-SPX743Slot 3.6mm NPN Light-On OR620-ND 133.76 120.39 107.02 EE-SPX8434Slot 3.6mm NPN Dark-On OR621-ND 101.59 91.44 81.28 EE-SPX741Slot 3.6mm NPN Light-On OR622-ND 101.59 91.44 81.28 EE-SPX841Snap-In connector w/cable for EE-SPX74/84 Series OR623-ND◆ 7.13 6.42 5.71 EE-1013◆ RoHS CompliantNon-Amplified Optical SensorsFig. 1 Fig. 2 Fig. 3Fig.123Sensing Sensing Terminal Switch Digi-KeyPrice Each OmronMethod Distance Type Time (MS) Part No. 1 25 50 Part No.Slot 5mm PC Board 4/4 OR627-ND 1.85 1.67 1.48 EE-SX1081Slot 2mm PC Board 4/4 OR624-ND 1.85 1.67 1.48 EE-SX1018Slot 5mm PC Board 4/4 OR625-ND 1.85 1.67 1.48 EE-SX1041Slot 3.4mm PC Board 4/4 OR626-ND 1.85 1.67 1.48 EE-SX1071Slot 3mm PC Board 4/4 OR631-ND 1.85 1.67 1.48 EE-SX198NCSlot 3mm PC Board 4/4 OR632-ND 1.85 1.67 1.48 EE-SX199Slot 2mm PC Board 10/10 OR633-ND 1.35 1.22 1.09 EE-SX1103Slot 2mm PC Board 10/10 OR634-ND 1.35 1.22 1.09 EE-SX1105Slot 3mm PC Board 10/10 OR635-ND 1.35 1.22 1.09 EE-SX1106Slot 5mm AMP Connect 3KHz OR629-ND 4.02 3.62 3.22 EE-SX4009-P1Slot 5mm Molex Connect 3KHz OR630-ND 4.96 4.47 3.97 EE-SX4009-P10Non-Amplified OpticalSensors SMTSMT compact size makes these sensors ideal for use in ap pli ca tions with restrictedspace. Dual channel model (EE-SX1131) is ideal for en coder ap pli cations.Sensing Sensing Term.TypeOn/ Digi-KeyCut TapePrice Each Digi-Key Tape and Reel OmronMethod Distance Type Off Part No. 1 25 50 Part No. Qty. Pricing Part No.Slot (Dual) 2mm SMT 10/10 OR628CT-ND 1.35 1.22 1.09 OR628TR-ND 2,000 676.13/M EE-SX11311mm SMT 10/10 OR636CT-ND 1.35 1.22 1.09 OR636TR-ND 2,500 676.13/M EE-SX1107Slot 2mm SMT 10/10 OR637CT-ND 1.35 1.22 1.09 OR637TR-ND 2,000 676.13/M EE-SX11083mm SMT 10/10 OR638CT-ND 1.35 1.22 1.09 OR638TR-ND 1,000 676.13 EE-SX1109®Visible Radiant Optical Sensors — PhotodiodesDimensions in mm®These photodiodes use an amorphous silicone semiconductor on the glass substrate. They are the most suitable for brightness adjustment andcontrol of lighting systems.FEATURES: Highly receptive to visible light but not receptive to infrared light (close to human eye visibility) Accurate illumination measurementcan be taken without the use of an infrared filterSPECIFICATIONS: Operating Temperature: -20°C ~ 85°C Spectral Sensitivity Area: 350 ~ 750nm Peak of sensitivity: 580nm ±20APPLICATIONS: Brightness control for LCD, EL, and CRT Brightness control for keypads (e.g., mobile phones) Positioning scan line for rearprojection TV Exposure adjust for compact camera Sub exposure adjust for digital cameraMax. OutputCurrent (µA)Max.Reverse BiasMax. DarkCurrent (pA) Digi-KeyCut TapePrice EachTDK(VR=5V) Voltage (V) VR=.05V Part No.1 10 Part No.0.55 6 100 445-2590-1-ND 6.24 4.75 BCS5030G12.650Polarity3.02.55.00.81.35 1.350.65 1 0.65- + 1.80.6PolarityPanasonic Electric WorksLight Sensor — NaPiCaFEATURES:APPLICATIONS: detection for circuits in household lighting, crime prevention lighting and automatic lightingfor bicycles Operating Temperature: -30°C ~ 85°CReverse Voltage:Dark Current: 0.3µA @ 5VDigi-KeyCut TapePrice Each Digi-KeyTape and ReelPricing PanasonicDescriptionPart No.1 25 50 Part No.3,000 Part No.Cadmium Free Light Sensor with Spectral Response, 4SOP SMT 255-1848-1-ND 2.23 2.05 1.82 255-1848-2-ND 1274.00/M AMS104YCadmium Free Light Sensor with Spectral Response, 4SOP SMT 255-2654-1-ND NEW! 2.23 2.05 1.82 255-2654-2-ND NEW! 1319.50/M AMS104WCadmium Free Light Sensor with Spectral Response, T-1 RND 255-2655-ND† NEW! 2.23 2.05 1.82 — — AMS302† Box Packaging®For Digi-Reel ® information, please see page 73.®Dim. in mm14- AMP. +232.01.03.2(SMT Shown)NMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)135135

Photo Detectors®NSilicon Detectorsand EmittersFig. 1 – Ceramic,Epoxy GlobEpoxy GlobSide viewof PackageFig. 3 – Plastic Pkg.Fig. 5 – PlasticSide-lookerFig. 7Fig. 9 – Mini SMT Pkg.Fig. 11AnodeFig. 2 – Ceramic,Epoxy FilledFig. 12Fig. 13– Solderable Photo CellFig. 14– SolderablePhoto CellFig. 16AnodeFig. 4 – Flat TopNotchdenotesAnodeFig. 6 – Plastic SidelookerLightFig. 8 – 1206 SMT Pkg.Fig. 10 NEW!Fig. 15Fig. 17FlatWindowFig.Active Area(mm)Short Cir. DarkCurr. (Isc) Curr. (Id)(uA) Typ. (nA) Max.SensitivityWavelength (nm)JunctionCap.ResponseTimeViewingAngle Digi-KeyPrice EachMin. Peak Max. (pF) Typ. (nS) Typ. (2x Theta) Part No.1 25 100Blue Enhanced Photo Conductive Detectors, Curve Line A1 17.74 235 50 350 950 1,100 100 20 120 PDB-C107-ND◆ 20.59 17.32 15.922 100 1,300 30 350 950 1,100 300 25 120 PDB-C110-ND◆ 55.68 49.13 46.671 7.95 110 30 350 950 1,100 60 16 120 PDB-C113-ND 44.96 38.88 36.453 1.55 60 30 400 900 1,100 6 10 30 PDB-C134-ND◆ 3.01 2.43 2.194 4.10 67 30 400 900 1,100 18 50 59 PDB-C139-ND◆ 3.01 2.43 2.191 29.02 400 25 350 950 1,100 200 18 120 PDB-C140-ND 32.50 27.63 25.603 4.10 150 30 400 900 1,100 18 50 40 PDB-C142-ND◆ 3.08 2.48 2.265 8.02 90 15 400 900 1,100 10 15 120 PDB-C156-ND◆ 3.01 2.43 2.196 9.00 145 30 400 900 1,100 10 50 120 PDB-C158-ND 3.01 2.43 2.197 7.95 110 10 350 950 1,100 60 100 — PDB-C165-ND◆ 28.00 23.80 22.058 0.74 10 10 400 900 1,100 15 50 120 PDB-C152SMCT-ND◆ 8.22 6.82 6.208 0.74 10 10 400 900 1,100 15 50 120 PDB-C152SMTR-ND◆ 3930.00/3,0009 2.10 25 10 400 900 1,100 4 10 120 PDB-C154SMCT-ND 8.61 7.15 6.509 2.10 25 10 400 900 1,100 4 10 120 PDB-C154SMTR-ND 2916.00/3,00010 7.67 90 30 400 950 1,100 15 20 130 PDB-C171SMCT-ND◆ NEW! 2.79 1.71 1.4910 7.67 90 30 400 950 1,100 15 20 130 PDB-C171SMTR-ND◆ NEW! 1117.00/1,000Photo Conductive Detectors with Daylight Filter, Curve Line B — RoHS Compliant3 1.55 60 30 700 950 1,100 6 10 30 PDB-C134F-ND 3.01 2.43 2.194 4.10 67 30 700 950 1,100 18 50 61 PDB-C139F-ND 3.01 2.43 2.193 4.10 150 30 700 950 1,100 18 50 40 PDB-C142F-ND 3.08 2.48 2.266 9.00 145 30 700 950 1,100 10 50 120 PDB-C158F-ND 3.01 2.43 2.19Blue Enhanced Photovoltaic Detectors, Curve Line A11 1.17 x 2.64 40 300 350 — 1,100 340 190 65 PDB-V104-ND◆ 51.06 44.16 41.401 17.74 200 0.80 350 950 1,100 2,000 1,000 120 PDB-V107-ND 26.84 22.82 21.141 7.95 80 0.50 350 950 1,100 800 750 120 PDB-V113-ND 24.58 20.90 19.36Red Enhanced Solderable Photo Cells, Curve Line A12 1.88 x 0.56 17 2.00 350 — 1,100 10 10 — PDB-C601-1-ND◆ 3.64 2.93 2.6712 1.88 x 0.56 13 7.00 350 — 1,100 250 300 — PDB-V601-1-ND◆ 3.64 2.93 2.6714 42.40 545 75 350 940 1,100 240 30 — PDB-C609-2-ND◆ 21.00 17.85 16.5415 6.07 x 6.98 545 75 350 — 1,100 240 30 — PDB-C609-3-ND◆ 21.50 18.28 16.9415 6.07 x 6.98 545 100 350 — 1,100 5,500 1,500 — PDB-V609-3-ND◆ 34.96 29.72 27.5413 68.70 900 150 350 940 1,100 300 45 — PDB-C612-2-ND 24.94 21.20 19.6513 3.91 x 17.55 800 80 350 — 1,100 9,000 2,800 — PDB-V612-2-ND 27.20 23.12 21.4214 86.40 1,000 180 350 940 1,100 350 50 — PDB-C613-2-ND◆ 28.00 23.80 22.0513 9.25 x 25.17 2,800 700 350 — 1,100 25,800 7,000 — PDB-V615-2-ND◆ 55.45 48.93 46.49Blue Enhanced Bi-Cells, Quadrants and Multi-Element Detector Arrays, Curve Line A — RoHS Compliant18 2.03 x 0.97‡ — 2.70 350 — 1,100 28 190 — SD219-51-03-301-ND 313.64 287.68 —Photo Conductive Silicon Photodiodes20 2.90 38 1.00 400 950 1,100 60 100 — PDB-C168-ND 7.25 5.95 5.3720 1.70 27 0.60 400 950 1,100 30 100 — PDB-C170-ND 7.25 5.95 5.37InGaAs Photodetectors — RoHS Compliant16 .200 — 1.00 800 — 1,700 0.75 0.18 (max.) — SD004-11-41-211-ND 23.00 19.55 18.1216 .200 — 5.00 800 — 1,700 6 1.15 (max.) 88 SD012-11-41-211-ND 53.04 46.80 44.4616 1.50 — 50 800 — 1,700 250 10.0 (max.) 113 SD060-11-41-211-ND 175.09 160.60 156.98Silicon Avalanche Photodiode — RoHS Compliant16 0.30 — 10 400 — 1,100 — 1 — SD012-70-62-541-ND 128.86 116.19 112.3916 0.90 — 30 400 — 1,100 — 2 — SD036-70-62-531-ND 139.39 125.68 121.5721 5.00 — 18 350 — 1,050 25 10 — SD197-70-72-591-ND 933.40 — —21 5.00 — 18 350 — 1,050 25 10 — SD197-70-74-591-ND 933.40 — —21 10 — 35 350 — 1,050 50 12 — SD394-70-72-591-ND 1280.50 — —21 10 — 35 350 — 1,050 50 12 — SD394-70-74-591-ND 1280.50 — —22 16 — 600 350 — 1,050 130 15 — SD630-70-72-500-ND 1619.25 — —22 16 — 600 350 — 1,050 130 15 — SD630-70-73-500-ND 1619.25 — —22 16 — 600 350 — 1,050 130 15 — SD630-70-74-500-ND 1619.25 — —22 16 — 600 350 — 1,050 130 15 — SD630-70-75-500-ND 1619.25 — —Red Enhanced Silicon Photodiode16 0.83 x 1.02 — 8.00 350 — 1,100 5.6 190 91 SD041-11-33-211-ND◆ 26.10 22.19 20.5617 0.50‡ — 0.40 350 — 1,100 15 190 67 SD055-23-21-211-ND◆◊ 58.91 51.98 49.3811 1.30 — 2.00 350 — 1,100 28 190 51 SD057-11-21-011-ND◆ 28.30 24.06 22.2911 1.30 — 0.50 350 — 1,100 28 190 51 SD057-14-21-011-ND◆ 28.30 24.06 22.2916 0.58 x 1.19 — 1.00 350 — 1,100 15 190 42 SD066-24-21-011-ND◆§ 35.70 30.35 28.1216 1.09 x 2.67 — 30 350 — 1,100 17.5 190 59 SD076-11-31-211-ND◆ 34.80 29.58 27.4119 1.09 x 2.67 — 0.90 350 — 1,100 50 190 55 SD076-14-21-011-ND◆ 27.70 23.55 21.8217 1.50‡ — 3.50 350 — 1,100 45 190 86 SD085-23-21-021-ND◆◊ 52.08 45.04 42.2316 2.54 — 6.40 350 — 1,100 87 190 90 SD100-11-21-221-ND◆ 36.80 31.28 28.9816 2.54 — 50 350 — 1,100 28 190 90 SD100-11-31-221-ND◆ 36.80 31.28 28.9816 2.54 — 1.60 350 — 1,100 87 190 82 SD100-14-21-021-ND◆ 36.80 31.28 28.9817 2.54 — 10 250 — 1,100 87 — — SD100-41-21-231-ND◆▲ 96.00 85.50 81.0023 2.54 x 2.18 — — 350 — 1,100 — — — SD112-42-11-221-ND◆▲ 67.66 59.70 56.7223 2.54 x 2.18 — — 350 — 1,100 — — — SD112-43-11-221-ND◆▲ 67.66 59.70 56.7216 2.54 x 1.22‡ — 5.00 350 — 1,100 60 190 80 SD113-24-21-021-ND◆§ 32.20 27.37 25.3617 1.07‡ — 2.50 350 — 1,100 35 190 113 SD118-23-21-021-ND◆◊ 49.77 43.04 40.3516 4.57 x 0.51‡ — 3.50 350 — 1,100 45 190 119 SD160-24-21-021-ND◆§ 36.30 30.86 28.5916 3.20 x 4.70 — 20 350 — 1,100 255 190 79 SD172-11-21-221-ND◆ 39.68 34.32 32.1816 3.20 x 4.70 — 147 350 — 1,100 82 190 79 SD172-11-31-221-ND◆ 39.68 34.32 32.1817 4.98‡ — 7.50 350 — 1,100 100 190 82 SD197-23-21-041-ND◆◊ 106.72 95.05 90.0516 5.08 — 26 350 — 1,100 345 190 95 SD200-11-21-241-ND◆ 45.70 39.52 37.0516 5.08 — 200 350 — 1,100 110 190 95 SD200-11-31-241-ND◆ 58.82 51.90 49.3116 5.59 x 7.62 — 425 350 — 1,100 235 190 90 SD290-11-31-241-ND◆ 67.92 59.93 56.9317 9.65‡ — 27 350 — 1,100 375 190 120 SD380-23-21-251-ND◆◊ 169.07 155.08 151.5816 — — 31 350 — 1,100 390 190 — SD385-24-21-041-ND◆§ 52.45 46.28 43.9717 11.30 — 150 250 — 1,100 1,700 — — SD444-41-21-261-ND▲ 364.50 344.25 —‡ Per Element § Bi-cell ◊ Quad ▲ Detector/Amplifier ◆ RoHS Compliant (Continued)®For Digi-Reel ® information, please see page 73.136 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

-- -Photo Detectors (Cont.)®Silicon Detectorsand EmittersFig. 18Fig. 20Fig. 22Fig. 24Fig. 26Fig. 28Curve GraphFig. 25Fig. 27Fig. 29Fig. 30 Fig. 31Fig. 32RESPONSIVITY (A/W)A B C D E F G H J K L MFig. 330.70.60.50.40.30.20.10190 300 400 500 600 700 800 900 1000 1100 1200WAVELENGTH (nm)A(-) Blue Enhanced Silicon DetectorsB( ° ) Daylight Filter Detectors- -- - - - - -- - - - - - -Fig. 19 – Lens WindowFig. 21Fig. 23° ° ° ° ° ° ° °- - - -° °-C( ) CdS Photoconductive Cells(relative responsivity)-D----° ° ° °°°°° ° °Cathode-° ° °- - - -° °° ° °- -Short Cir. Dark Sensitivity Junction Response ViewingActive Area Curr. (Isc) Curr. (Id) Wavelength (nm) Cap. Time Angle Digi-KeyPrice EachFig. (mm) (uA) Typ. (nA) Max. Min. Peak Max. (pF) Typ. (nS) Typ. (2x Theta) Part No.1 25 1002 1.00 — 120 350 — 1,100 1,700 190 120 SD445-11-21-305-ND◆ 71.20 63.65 60.412 1.00 — 30 350 — 1,100 1,700 190 120 SD445-14-21-305-ND◆ 74.66 66.75 63.35Blue Enhanced Silicon Photodiodes — RoHS Compliant24 5.31 x 8.10 500 15 350 — 1,100 120 190 79 PDB-C109-ND 52.08 45.04 42.2325 0.33 x 0.33 1.5 2.00 350 — 1,100 5 190 — PDB-C122-ND 59.14 50.27 46.5816 2.54 — 6.40 350 — 1,100 87 190 82 SD100-12-22-021-ND 27.00 22.95 21.2717 2.54 — 10 250 — 1,100 87 — — SD100-42-22-231-ND▲ 96.00 85.50 81.0023 2.54 x 2.18 — — — — — — — — SD112-45-11-221-ND▲ 74.00 66.16 62.7916 5.59 x 7.62 — 52 350 — 1,100 725 190 90 SD290-12-22-241-ND 66.81 58.95 56.0126 11.28 — 52 350 — 1,100 725 190 95 SD444-12-12-171-ND 203.94 187.07 182.8517 11.30 — 150 250 — 1,100 1,700 — — SD444-42-22-261-ND▲ 364.50 344.25 —UV Enhanced Silicon Photodiodes — RoHS Compliant16 2.54 — 6.50 250 — 1,100 87 190 90 SD100-13-23-222-ND 43.29 37.44 35.1017 2.54 — 10 250 — 1,100 87 — — SD100-43-23-232-ND▲ 96.00 85.50 81.0017 11.30 — 150 250 — 1,100 1,700 — — SD444-43-23-262-ND▲ 364.50 344.25 —Silicon Avalanche Photodiodes Module — RoHS Compliant27 5.00 — — 350 — 1,050 — — — SD197-70-72-661-ND 2358.75 — —27 5.00 — — 350 — 1,050 — — — SD197-70-74-661-ND 2358.75 — —27 10.00 — — 350 — 1,050 — — — SD394-70-72-661-ND 2613.75 2511.25 —27 10.00 — — 350 — 1,050 — — — SD394-70-74-661-ND 2613.75 2511.25 —Plastic Photodiode — RoHS Compliant28 0.61 10 10 700 — 1,100 25 6 48 PDB-C144-ND 3.08 2.48 2.2628 0.43 10 30 400 — 1,100 5 6 48 PDB-C145-ND 3.22 2.59 2.366 2.84 120 30 400 — 1,100 30 50 120 PDB-C157-ND 2.94 2.37 2.1630 2.65 90 30 400 — 1,100 15 20 120 PDB-C160SM-ND 2.95 2.38 2.14‡ Per Element § Bi-cell ◊ Quad ▲ Detector/Amplifier ◆ RoHS CompliantOximeter ComponentsForwardVoltage(V) Typ.ReverseBreakdown(V)661nmPeakWavelength(nm) Typ.◆ RoHS CompliantPhotoconductive CellsSpectral Rise/Fall ForwardBandwidth Time Voltage(nm) Typ. (µS) Typ. (V) Typ.◆ RoHS Compliant ‡ Photocells are light adapted at 100 to 500 Lux.ReverseBreakdown(V)880/905/940nmPeakWavelength(nm) Typ.SpectralBandwidth(nm) Typ.Rise/FallTimeDigi-KeyPrice EachFig.(µS) Typ. Part No. 1 25 100 25032 1.8 5 661 21 0.1/0.04 1.3 5 880 50 0.8/0.8 PDI-E837-ND 50.88 44.00 41.25 38.5031 1.8 5 661 21 0.1/0.04 1.2 5 880 50 0.8/0.8 PDI-E838-ND 50.88 44.00 41.25 38.50High Power Infrared EmittersFig.Forward Voltage(V) Typ.Forward Current(mA) Con.Output Power(mW) Typ.Beam Angle(2x Theta)Peak Wavelength(nm) Typ.Digi-KeyPart No.Price Each1 25 100 25019 1.5 100 9 6 880 PDI-E803-ND 27.65 23.26 21.37 19.4919 1.5 100 20 80 880 PDI-E804-ND◆ 18.04 15.17 13.94 12.7119 1.5 100 10 5 880 PDI-E805-ND 19.58 16.47 15.13 13.803 1.5 100 30 (max.) 35 880 PDI-E808-A-ND 3.01 2.43 2.19 1.943 1.6 100 90 — 880 PDI-E809-ND◆ 3.01 2.43 2.19 1.9419 1.5 180 15 — 880 PDI-E813-ND◆ 55.04 47.60 44.63 41.6519 1.7 100 2.7 — 850 PDI-E825-ND◆ 36.60 31.11 28.83 26.5429 1.2 100 0.7 — 940 PDI-E940SM-ND◆ 3.01 2.43 2.19 1.94Fig.33,CurveLine CDim.Cell Resistance‡Peak Rise/FallD 10 Lux @ 2856K Dark Wavelength Time Digi-KeyPrice Each(mm) Min. (KΩ) Max. (KΩ) Min. (MΩ) SEC (nm) Typ. (ms) Typ. Part No.1 25 100 25011.00 8 16 0.3 10 520 55/25 PDV-P5001-ND 2.64 2.13 1.92 1.7011.00 12 30 0.5 10 520 55/25 PDV-P5002-ND 2.64 2.13 1.92 1.7011.00 12 58 1 10 520 55/25 PDV-P5003-ND 2.64 2.13 1.92 1.707.20 4 20 0.5 10 520 55/20 PDV-P7002-ND◆ 2.79 2.25 2.03 1.805.10 3 11 0.2 10 520 50/20 PDV-P8001-ND 1.95 1.58 1.42 1.265.10 40 120 1 10 520 60/25 PDV-P8005-ND 1.95 1.58 1.42 1.265.10 80 240 5 10 520 60/25 PDV-P8006-ND 1.95 1.58 1.42 1.265.10 4 11 0.15 10 520 55/20 PDV-P8101-ND 1.95 1.58 1.42 1.265.10 9 20 0.3 10 520 60/25 PDV-P8102-ND 1.95 1.58 1.42 1.265.10 16 33 0.5 10 520 60/25 PDV-P8103-ND◆ 2.05 1.65 1.49 1.325.10 27 60 2 10 520 60/25 PDV-P8104-ND◆ 2.05 1.65 1.49 1.325.10 80 240 20 10 520 60/25 PDV-P8107-ND 1.95 1.58 1.42 1.264.20 4 11 0.3 10 520 60/25 PDV-P9001-ND 1.58 1.28 1.15 1.024.20 9 20 0.5 10 520 60/25 PDV-P9002-ND 1.58 1.28 1.15 1.024.20 11 20 0.5 10 520 60/25 PDV-P9002-1-ND 1.58 1.28 1.15 1.024.20 16 33 1 10 520 60/25 PDV-P9003-ND 1.58 1.28 1.15 1.024.20 23 33 1 10 520 60/25 PDV-P9003-1-ND 1.58 1.28 1.15 1.024.20 27 60 2 10 520 60/25 PDV-P9004-ND 1.58 1.28 1.15 1.024.20 50 94 2.5 10 520 60/25 PDV-P9005-ND 1.58 1.28 1.15 1.024.20 48 140 20 10 520 60/25 PDV-P9005-1-ND 1.58 1.28 1.15 1.024.20 80 200 5 10 520 60/25 PDV-P9006-ND 1.58 1.28 1.15 1.024.20 10 100 1 10 520 60/25 PDV-P9007-ND 1.58 1.28 1.15 1.024.20 10 200 20 10 520 60/25 PDV-P9008-ND 1.58 1.28 1.15 1.024.20 20 45 1 10 520 60/25 PDV-P9103-ND 1.58 1.28 1.15 1.024.20 10 50 5 10 520 70/15 PDV-P9200-ND 1.58 1.28 1.15 1.024.20 5 20 20 10 520 70/15 PDV-P9203-ND 1.58 1.28 1.15 1.02N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)137137

Optoelectronics®Fig. 1 Fig. 2Ø 5.7Dimensions in mmNPhotodiodesFwd.Volt.PhotoCur.DarkCur.PeakWavelengthRise/FallTimeViewAngle Digi-KeyBulkPrice Each OsramFig. (V) (µA) (nA) (nm) (ns) (°) Part No.1 10 100 Part No.11.3 80 2 850 20 120 475-1070-ND .87 .70 .64 BPW341.3 50 2 880 20 120 475-1072-ND .85 .69 .62 BPW34FA21.3 50 1 900 5 40 475-1075-ND .85 .69 .62 SFH203FA1.3 135 1 850 5 20 475-1077-ND .83 .67 .61 SFH2131.3 80 2 850 20 120 475-1076-ND 1.06 .85 .77 SFH206K3 1.3 60 2 950 20 120 475-1429-ND .83 .67 .61 SFH 205 F1.3 60 2 900 20 120 475-1430-ND .83 .67 .61 SFH 205 FA1.3 28 .05 860 10 34 475-1078-ND .67 .54 .49 SFH2294 1.3 20 .05 900 10 34 475-1079-ND .67 .54 .49 SFH229FA— 10 .05 820 10 34 475-2863-ND NEW! .62 .50 .46 SFH 2302— 100 0.1 850 5 30 475-1435-ND .69 .56 .51 SFH 2505-Z5 — — 0.1 900 5 30 475-1436-1-ND† .69 .56 .51 SFH 2505 FA-Z— — 0.1 900 5 30 475-1436-2-ND‡ 527.85/1,000 SFH 2505 FA-Z6 — — 0.1 900 5 30 475-1434-ND .70 .57 .52 SFH 2500 FA-Z7 1.3 — 1 900 5 150 475-1428-ND 1.04 .83 .76 SFH 203 PFA1.3 50 2 880 20 120 475-1346-ND .96 .77 .70 BPW 34 FASR-Z8 1.3 80 2 850 20 120 475-2659-1-ND† 1.35 1.13 .91 BPW 34 S-Z1.3 80 2 850 20 120 475-2659-2-ND‡ 1013.02/1,500 BPW 34 S-Z1.3 55 2 850 20 120 475-1345-1-ND† 1.45 1.21 .97 BP 104 S-Z1.3 55 2 850 20 120 475-1345-2-ND‡ 1086.75/1,500 BP 104 S-Z91.2 — 0.1 570 200µs 120 475-2579-1-ND† 1.84 1.54 1.23 SFH 2430-Z1.2 — 0.1 570 200µs 120 475-2579-2-ND‡ 1378.37/1,500 SFH 2430-Z1.3 34 2 880 20 120 475-1344-1-ND† 1.45 1.21 .97 BP 104 FAS-Z1.3 34 2 880 20 120 475-1344-2-ND‡ 1086.75/1,500 BP 104 FAS-Z10 1.3 24 10 900 500 120 475-1349-ND 12.65 10.12 9.18 BPX 4811 1.3 — 2 850 20 110 475-1350-ND 9.89 7.92 7.18 BPX 6112 1.0 — 10 900 500 110 475-1431-ND 12.19 9.76 8.84 SFH 221131.3 34 2 900 20 120 475-1432-ND .71 .57 .52 SFH 225 FA1.3 50 2 900 20 130 475-1433-ND .74 .59 .54 SFH 235 FA24 1.3 10 1 850 5 120 475-2662-1-ND† 1.15 .96 .77 SFH 2400-Z25 1.0 40 5 850 18 120 475-2661-1-ND† 10.30 8.59 6.87 KOM 2125-Z† Cut Tape ‡ Tape and ReelPhototransistorsCollectorEmitterCollectorCurrentDarkCur.PeakWavelengthRise/FallTimeViewAngle Digi-KeyBulkPrice Each OsramFig. (V) Max. (mA) Max. (nA) (nm) (µs) Typ. (°) Part No.1 10 100 Part No.70 50 3 870 11 20 475-1080-ND .34 .28 .25 SFH313FA235 50 1 880 10 50 475-1438-ND .41 .33 .30 SFH 300 FA-3/44 35 15 1 900 7/8 24 475-1440-ND .38 .30 .28 SFH 309 FA-4/56 35 50 3 830 — 26 475-1453-ND .55 .45 .41 SFH 3500-Z50 50 20 880 9/12 80 475-1347-ND 1.61 1.29 1.17 BPX 38-2/350 50 20 880 12/15 30 475-1348-ND 1.61 1.29 1.17 BPX 43-3/41435 100 1 830 7/9 16 475-1351-ND 1.63 1.31 1.19 BPY 62-3/450 50 20 880 15/18 30 475-1074-ND 1.61 1.29 1.17 BPX43-4/515 70 50 3 850 11 80 475-1081-ND .34 .28 .25 SFH31417 30 50 3 850 10 70 475-1419-ND .48 .39 .36 LPT 80A35 15 1 860 6 150 475-1441-ND .41 .34 .31 SFH 309 P1835 15 1 900 6 150 475-1442-ND .41 .34 .31 SFH 309 PFA70 50 5 780 7/8 50 475-1443-ND .38 .30 .28 SFH 310-2/31970 50 5 880 7/8 50 475-1444-ND .38 .30 .28 SFH 310 FA-2/335 15 1 860 — 120 475-2572-1-ND† 1.15 .96 .77 SFH 7225-Z35 15 1 860 — 120 475-2572-2-ND‡ 1150.59/2,000 SFH 7225-Z35 15 1 860 7 120 475-2570-1-ND† 1.28 1.07 .86 SFH 7221-Z2035 15 1 860 7 120 475-2570-2-ND‡ 1275.12/2,000 SFH 7221-Z— — — 565 500 120 475-2571-1-ND† 1.28 1.07 .86 SFH 7222-Z— — — 565 500 120 475-2571-2-ND‡ 1275.12/2,000 SFH 7222-Z21 15 15 2 920 7 120 475-1447-ND .59 .47 .43 SFH 3204-Z22 35 15 1 990 7 50 475-1448-ND .48 .39 .36 SFH 3219-Z23 35 15 1 980 7/8 120 475-1449-ND .43 .35 .32 SFH 325-3/4-Z70 50 3 850 24/34 120 475-1451-1-ND† 1.14 .95 .76 SFH 3400-2/3-Z70 50 3 850 24/34 120 475-1451-2-ND‡ 1138.50/2,000 SFH 3400-2/3-Z245.5 20 3 570 — 120 475-1452-1-ND† 1.31 1.10 .88 SFH 3410-2/3-Z5.5 20 3 570 — 120 475-1452-2-ND‡ 1311.00/2,000 SFH 3410-2/3-Z5.5 20 3 570 — 120 475-1268-1-ND† .97 .81 .65 SFH 3710-3/4-Z265.5 20 3 570 — 120 475-1268-2-ND‡ 1449.00/3,000 SFH 3710-3/4-Z27 35 50 5 870 13/15 40 475-1439-ND .53 .43 .39 SFH 303 FA-3/415 15 2 860 7 160 475-1257-1-ND† NEW! .58 .49 .39 SFH 3010-Z3515 15 2 860 7 160 475-1257-2-ND‡ NEW! 1448.18/5,000 SFH 3010-Z† Cut Tape ‡ Tape and Reel®For Digi-Reel ® information, please see page 73.4.42.03.85Fig. 3 Fig. 4Ø 4.9Fig. 57.7Fig. 75.7Fig. 91.1515Fig. 11Fig. 134.85Ø 5.92.853.92.54spacing2.54spacing4.62.54spacingØ 8.1526.4 6.628.04.27.43.2 13.534.52.54 spacingØ 4.954.65.08spacing6.9Ø 3.8Fig. 66.52.54spacingFig. 14Fig. 15 Fig. 166.5Ø 5.75.62.5428.52.54spacingspacingØ 5.014Fig. 81.15Fig. 10Fig. 12Ø 8.15Fig. 17 4.45 Fig. 18R 0.762.29281.585.7516.26Ø 2.83.65.92.54 spacing2.54spacing6.457.62.54spacing4.6Ø 4.728282.053.2 13.54.44.27.413.5 5.8 Ø 5.42.54 spacingFig. 19 Fig. 203.252.82.54 spacing 4.6Fig. 210.225Fig. 222.23.0Fig. 232.41.1 1.24.01.02.54 spacingFig. 256.456.454.04.411.15 8.353.63.851.60.72.850.82 34.4284.08.67.6Ø 5.04.94.0Ø 3.06.14.33.03.851.65.08spacing3.83.2 2.4 3.53.2Fig. 24Fig. 262.82.60.802.03.51.253.51.94.62.54spacing2.81.85Ø 3.01.91.051.42.03.92.542.12.90.8Ø 2.575(Continued)138 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Infrared EmittersOptoelectronics (Cont.)®Fig. 275.78.6 24.72.54spacingFig. 283.81.9Dimensions in mm2.82.20.7Fig.ForwardVoltage(V)ForwardCurrentMax.(mA)OpticalPowerOutput(mW/sr)◊PeakWavelength(nm)ViewAngle Digi-Key(°) Part No.Cut TapePrice Each Tape and Reel‡ Osram1 10 100 Qty. Pricing Part No.1.5 100 180 typ. 850 6 475-1200-ND§◆ .61 .49 .44 — — SFH45501.5 100 100 typ. 880 16 475-1111-ND§◆ .44 .35 .32 — — SFH4841.5 100 60 typ. 880 40 475-1112-ND§◆ .44 .35 .32 — — SFH4852 1.3 100 63 min. 950 8 475-1461-ND§◆ .43 .35 .32 — — SFH 45111.5 100 80 min. 880 16 475-1468-ND§◆ .55 .45 .41 — — SFH 484-21.5 100 25 min. 880 40 475-1469-ND§◆ .55 .45 .41 — — SFH 485-21.5 100 40 min. 880 22 475-1471-ND§◆ .44 .35 .32 — — SFH 48641.3 100 6.3 min. 950 40 475-1086-ND§◆ .51 .41 .37 — — SFH4091.5 100 40 min. 850 26 475-1460-ND§◆ .61 .49 .44 — — SFH 43505 1.5 100 25 min. 880 30 475-1109-1-ND .60 .50 .40 1,000 300.00 SFH45857 1.5 100 3.15 min. 880 80 475-1470-ND§◆ .55 .45 .41 — — SFH 485 P16 1.2 60 2.5 min. 950 18 475-1087-ND§ .39 .32 .29 — — SFH4110171.5 60 0.4 min. 950 60 475-1364-ND§◆ .46 .37 .34 — — IRL 80A1.5 100 1.0 min. 880 50 475-1365-ND§◆ .58 .46 .42 — — IRL 81A1.5 70 4 min. 940 120 475-2866-1-ND◆ NEW! .77 .64 .52 2,000 383.13/M SFH 4243-Z20 1.5 100 10 min. 850 120 475-1459-1-ND◆ .93 .78 .63 2,000 465.75/M SFH 4250-Z1.5 100 4 min. 880 120 475-2869-1-ND◆ NEW! 1.02 .86 .69 2,000 512.33/M SFH 4283-Z231.5 70 4 min. 940 120 475-2867-1-ND◆ NEW! .77 .64 .52 2,000 383.13/M SFH 4244-Z1.5 100 10 min. 850 120 475-2568-1-ND◆ .93 .78 .63 2,000 465.75/M SFH 4255-Z28 2.4 100 40 min. 850 30 475-1243-1-ND◆ 1.07 .90 .72 2,000 535.62/M SFH4258-Z291.5 200 40 min. 880 12 475-1110-ND§◆ 1.54 1.24 1.12 — — SFH4801.3 300 20 min. 950 12 475-1454-ND§◆ 1.63 1.31 1.19 — — SFH 400301.8 100 200 typ. 940 60 475-1272-1-ND◆ 12.08 10.07 8.05 800 4830.00 SFH 42311.5 1000 320 typ. 850 120 475-2844-1-ND◆ NEW! 12.08 10.07 8.05 800 3814.32 SFH 4232-Z1.6 70 16 min. 940 30 475-2872-1-ND◆ NEW! .86 .72 .58 2,000 430.91/M SFH 4641-Z1.6 70 16 min. 940 30 475-2873-1-ND◆ NEW! .86 .72 .58 2,000 430.91/M SFH 4646-Z311.5 100 40 typ. 850 30 475-1260-1-ND◆ .98 .82 .66 2,000 489.05/M SFH 4655-Z1.5 100 16 min. 850 40 475-2569-1-ND◆ .98 .82 .66 2,000 489.05/M SFH 4650-Z1.6 70 16 min. 850 30 475-2874-1-ND◆ NEW! .86 .72 .58 2,000 430.91/M SFH 4651-Z1.6 70 16 min. 850 30 475-2875-1-ND◆ NEW! .86 .72 .58 2,000 430.91/M SFH 4656-Z3218 1000 630 min. 850 60 475-1270-ND§◆ 68.62 54.90 49.75 — — SFH 473018 1000 800 min. 850 60 475-1271-ND§◆ 68.62 54.90 49.75 — — SFH 4740339.5 1000 630 min. 850 140 475-2845-ND◆ NEW! 56.51 45.21 40.98 — — SFH47509.8 1000 630 min. 940 140 475-2846-ND◆ NEW! 56.51 45.21 40.98 — — SFH475134 1.3 300 20 min. 950 30 475-1455-ND§◆ 1.70 1.37 1.24 — — SFH 40135 1.3 300 4 min. 950 80 475-1397-ND§◆ 1.38 1.11 1.01 — — LD 242-2/3361.3 300 25 min. 950 10 475-1465-ND§◆ 2.80 2.24 2.03 — — SFH 48111.5 200 40 min. 880 10 475-1473-ND§◆ 1.73 1.38 1.26 — — SFH 4881371.3 300 2.5 min. 950 70 475-1466-ND§◆ 2.80 2.24 2.03 — — SFH 48131.5 200 4 min. 880 70 475-1474-ND§◆ 1.73 1.38 1.26 — — SFH 488338 1.5 200 5 min. 880 60 475-1467-ND§◆ 1.73 1.39 1.26 — — SFH 482-2/339 2 50 0.63 min. 660 100 475-1472-ND§◆ 4.58 3.67 3.32 — — SFH 486040 5 1.3 — 940 — 475-1475-ND§◆ .87 .70 .63 — — SFH 5110-3841 5 3 — 940 120 475-1477-1-ND◆ 1.66 1.39 1.11 1,500 1017.76/M SFH 5410-38-Z46 1.5 100 4 min. 850 160 475-2864-1-ND◆ NEW! .93 .78 .63 5,000 465.75/M SFH 4050-Z47 1.6 70 6.3 min. 850 80 475-2865-1-ND◆ NEW! .74 .62 .50 2,000 371.06/M SFH 4058481.5 100 40 min. 940 40 475-2870-ND§◆ NEW! .61 .49 .44 — — SFH 45461.5 100 40 min. 850 40 475-2871-ND§◆ NEW! .61 .49 .44 — — SFH 4556§ Bulk ◊ At I F p ◆ RoHS Compliant ‡ For Tape and Reel part number, change 1-ND to 2-ND.Ambient Light SensorSupplyVoltageCurrentConsumptionSpectralSensitivity Digi-KeyCut TapePrice Each Digi-KeyTape and ReelPricing OsramFig. (V) (µA) (nm) Part No.1 10 100 Part No.2,000 Part No.42 6 420 475 ~ 650 475-1259-1-ND 2.24 1.87 1.50 475-1259-2-ND 1121.25/M SFH 5711-2/3-ZFig. 29Fig. 312.25Ø 4.73.1Fig. 33 NEW!Fig. 352.54 spacingFig. 3719Fig. 392.54spacingFig. 41Fig. 4314.04.313.511.27.0 13.53.853.3Ø 5.4Ø 4.2Ø 4.73.653.451.154.02.54spacingØ 4.61.6Ø 5.35Ø 5.452.54spacing6.22.54spacing5.353.5Fig. 30Fig. 32Fig. 34Ø 5.6Fig. 36Fig. 38Ø 5.45Fig. 40Fig. 44192.54spacing2.54spacingFig. 422.806.21.9Ø2.62.54 spacing5.82.2014.5Ø 4.73.211.2 7.22.06.42.54spacingØ 4.7Ø 5.452.54 spacingØ 4.713.0 5.2523.96.031.05.01.101 65.0Schmitt-Trigger Reflective InterrupterForwardVoltageForwardCurrentSupplyVoltageOutputCurrent Digi-KeyCut TapePrice Each Digi-KeyTape and ReelPricing OsramFig. (V) (mA) Max. (V) (mA) Max. Part No. 1 10 100 Part No.1,000 Part No.43 1.25 50 4-18 16 475-1239-1-ND 1.84 1.54 1.23 475-1239-2-ND 919.08 SFH9240-Z6.03.21.21.93.26.00.42354.04Reflective InterrupterForwardVoltageForwardCurrentRise/FallTimePhotoCurrent Digi-KeyCut TapePrice Each Digi-KeyTape and ReelPricing OsramFig. (V) (mA) Max. Tr/Tf (µs) (Ip) Part No.1 10 100 Part No.1,000 Part No.44 1.25 50 50/50 3.5mA 475-2658-1-ND 1.57 1.31 1.05 475-2658-2-ND 782.64 SFH 9201-3/4-ZProximity SensorFig.45OperatingTemperature(°C)ForwardCurrent(mA) Max.SupplyVoltage(V)Wavelength(nm)Digi-KeyPart No.Cut TapePrice Each1 10 100Digi-KeyPart No.Tape and ReelPricing1,000OsramPart No.-20 ~ 85 60 2.4 ~ 3.6 730 ~ 1080 475-2876-1-ND✔ 2.73 2.28 1.82 475-2876-2-ND✔ 1362.75 SFH 7740-Z-20 ~ 85 60 2.4 ~ 3.6 730 ~ 1080 475-2663-1-ND 2.73 2.28 1.82 475-2663-2-ND 1362.75 SFH 7741-Z-20 ~ 85 65 2.4 ~ 3.6 730 ~ 1080 475-2877-1-ND✔ 2.66 2.22 1.78 475-2877-2-ND✔ 1331.70 SFH 7743-ZFig. 451233.763.754Fig. 47 NEW!1.60.31.13.21.0Fig. 46 NEW!0.80.7Fig. 48 NEW!2.54spacing280.1251.70.657.7 6.654.851.35.5N✔ NEW!®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)139139

Fig. 1 Fig. 2 Fig. 3T-ShapeWide SlotFig. 4L-ShapeFig. 5 Fig. 6 Fig. 7 Fig. 8Close MountAmplified Optical SensorsOmron’s optical sensors are designed to meet the needs of positioning, detection, robotic controls and presencedetection. Amplified sensors are not influenced by internal or external lighting and can be powered by a wide supplyvoltage. Great for plug and play applications such as conveyor sensing and directly interfacing with PLC and Industrialcontrollers.LongDistanceDigi-KeyPrice Each OmronDescriptionPart No.1 25 Part No.Optical Sensor AccessoriesIR Reflector for Fig. 8, 60 x 40mm OR540-ND◆ 19.76 17.79 E39-R13 Pin Connector with 1 Meter Cable for Fig. 15 OR561-ND◆ 9.16 8.25 E22-01Converter from NPN to PNP Output for Amp Sensors OR550-ND◆ 35.80 32.23 EE-2001Converter from NPN to PNP Output for AMP Sensors OR551-ND◆ 35.80 32.23 EE-20024 Pin Connector for Fig. 1-6 OR527-ND◆ 3.66 3.30 EE-10014 Pin Connector with 2 Meter Cable for Fig. 1-6 OR559-ND◆ 17.14 15.43 EE-1006Panel Mount Holder Clip for OR559-ND OR576-ND 5.14 4.63 EE-1006A3 Pin Connector for Fig. 8, 12, 13 and 16 OR537-ND◆ 3.66 3.30 EE-10023 Pin Connector with 2 Meter Cable for Fig. 4, 12 and 13 OR558-ND◆ 6.47 5.83 EE-1003Panel Mount Holder Clip for OR558-ND OR583-ND 1.97 1.78 EE-1003A◆ RoHS CompliantUnamplified Optical SensorsOmron’s unamplified optical sensors are low cost detection sensors for design in processes. Inputs generallyrequire a current limiting resistor and care must be taken with reducing external lighting influences. Outputsswitch at very high speeds and operating lifetimes extend beyond 10,000 operating hours.Fig. 9 Fig. 10 Fig. 11 Fig. 12RightMount ShownFig. 13 Fig. 14 Fig. 15 Fig. 16Transmitter Sensing Distance ReceiverThrough-Beam Slot TypeLight Source/ReceiverSensing DistanceReflective TypeTargetFig. 1Fig. 2Fig. 3Fig. 4 NEW!InductiveTypeLiquidLevelFig. 17 Fig. 18 Fig. 19 Fig. 20Fig. 5Fig. 6 Fig. 7LowProfileDualChannelFig. 8Fig. 9 Fig. 10NSensorSensingDistanceDigi-Key Price Each OmronFig. Type/Features(mm) Config uration Part No. 1 25 Part No.Reflective (General Purpose) 5.0 Dark-On OR507-ND 20.13 18.13 EE-SB5VCReflective (General Purpose) 5.0 Light-On OR867-ND◆ 20.13 18.13 EE-SB5MReflective (General Purpose) 19 Light-On OR519-ND 28.12 25.31 EE-SB5V-EReflective (Side Detecting) 2.0 ~ 5.0 Light-On OR535-ND 54.54 49.09 EE-SPY3111Reflective (Side Detecting) 5.0 Light-On OR536-ND 54.54 49.09 EE-SPY411Reflective (Top Detecting) 2.0 ~ 5.0 Dark-On OR572-ND 54.54 49.09 EE-SPY312Reflective (Top Detecting) 5.0 Light-On OR868-ND◆ 54.54 49.09 EE-SPY402Reflective (Top Detecting) 2.0 ~ 5.0 Light-On OR573-ND 54.54 49.09 EE-SPY412Reflective (Side Detecting) 5.0 Light/Dark-On OR531-ND† 32.62 29.36 EE-SY671Reflective (Top Detecting) 1.0 ~ 5.0 Light/Dark-On OR532-ND† 32.62 29.36 EE-SY6722 Wide Slot (13mm Slot) 13 Light-On OR534-ND 58.29 52.47 EE-SPX403Slot (Dust Proof Slit) 5.0 Light/Dark-On OR528-ND 28.98 26.09 EE-SX6703Slot – NPN 5.0 Light/Dark-On OR611-ND 25.83 23.25 EE-SX670ASlot – PNP 5.0 Light/Dark-On OR870-ND◆ 27.14 24.43 EE-SX670PSlot (L-Shaped) – NPN 5.0 Light-On OR869-ND◆ 28.47 25.63 EE-SX4714Slot (L-Shaped, Dust Proof Slit) 5.0 Light/Dark-On OR529-ND 27.62 24.86 EE-SX671Slot (L-Shaped, Dust Proof Slit) 5.0 Light/Dark-On OR612-ND 27.62 24.86 EE-SX671ASlot (3-Pin Connector) 5.0 Dark-On OR796-ND◆ 4.02 3.62 EE-SX3009-P1Slot (T-Shaped, Dust Proof Slit) 5.0 Light/Dark-On OR530-ND◆ 27.97 25.18 EE-SX6725 Slot (T-Shaped, Dust Proof Slit) 5.0 Light/Dark-On OR613-ND◆ 27.97 25.18 EE-SX672ASlot (T-Shaped) – PNP 5.0 Light/Dark-On OR871-ND◆ 27.97 25.18 EE-SX672P6Slot (Close Mounting) – NPN 5.0 Light/Dark-On OR549-ND 28.98 26.09 EE-SX673Slot (Close Mounting) – NPN 5.0 Light/Dark-On OR614-ND 38.15 34.34 EE-SX673ASlot (Close Mount) – NPN 5.0 Light/Dark-On OR597-ND◆ 29.80 26.83 EE-SX6747 Slot (Close Mount) – NPN 5.0 Light/Dark-On OR872-ND◆ 31.96 28.77 EE-SX674ASlot (Close Mount) – PNP 5.0 Light/Dark-On OR873-ND◆ 31.96 28.77 EE-SX674R8Reflective (Long Distance) 200 Dark-On OR538-ND 73.29 65.96 EE-SPZ301AReflective (Long Distance) 200 Light-On OR539-ND 73.29 65.96 EE-SPZ401A9Slot (Left Mount with 1M Cable) 3.6 Dark-On OR541-ND 83.28 74.96 EE-SPX302-W2ASlot (Right Mount with 1M Cable) 3.6 Dark-On OR542-ND 89.95 80.96 EE-SPX304-W2A10Slot (Top Mount with 1M Cable) 5.0 Dark-On OR543-ND 93.27 83.95 EE-SPX305-W2ASlot (Top Mount with 1M Cable 5.0 Light-On Z2357-ND◆ 60.44 55.97 EE-SPX405-W2A11Slot (Wide Sensing Distance) 300 Dark-On OR546-ND 216.53 194.88 EE-SPW321Slot (Wide Sensing Distance) 300 Light-On OR547-ND 216.53 194.88 EE-SPW42112Fiber (19” Optical Fiber) 30 Dark-On OR552-ND 100.34 90.31 EE-SPZ301W-01Fiber (19” Optical Fiber) 30 Light-On OR553-ND 100.34 90.31 EE-SPZ401W-0113Reflective (11” Optical Fiber) 1.0 ~ 3.0 Dark-On OR554-ND 138.17 124.36 EE-SPZ301Y-01Reflective (11” Optical Fiber) 1.0 ~ 3.0 Light-On OR555-ND 104.94 94.45 EE-SPZ401Y-0114 Inductive (Detects Ferrous Metal) 5.0 N/O Output OR560-ND 60.00 54.00 E2R-A0115Slot (General Purpose) 3.6 Dark-On OR574-ND 56.20 50.58 EE-SPX301Slot (General Purpose) 3.6 Light-On OR575-ND 56.20 50.58 EE-SPX40116 Slotted Liquid Level Detector 6.0 ~ 13 Light/Dark-On OR579-ND 160.31 144.29 EE-SPX61317 Reflective (General Purpose) 1.0 Dark-On OR580-ND◆ 17.04 15.34 EE-SPY415Slot Type with 2M Cable – NPN 5.0 Dark-On OR605-ND◆ 38.41 34.57 EE-SX77018 Slot Type with 2M Cable – PNP 5.0 Dark-On OR874-ND◆ 37.80 34.03 EE-SX770PSlot Type with 2M Cable – NPN 5.0 Light-On OR606-ND 38.95 35.06 EE-SX87019L-Shaped with 2M Cable – NPN 5.0 Dark-On OR607-ND 38.66 34.80 EE-SX771L-Shaped with 2M Cable – NPN 5.0 Light-On OR608-ND 39.30 35.37 EE-SX87120T-Shaped with 2M Cable – NPN 5.0 Dark-On OR609-ND 39.96 35.97 EE-SX772T-Shaped with 2M Cable – NPN 5.0 Light-On OR610-ND 39.96 35.97 EE-SX872◆ RoHS Compliant † Built-in sensitivity adjusterFig. 11 Fig. 12Fig. 13Fig. 14 NEW!SensingSensingDistance TerminalTypicalton/toff Digi-KeyPrice Each OmronFig. Method (mm) Type (µsec.) Part No.1 25 100 Part No.1Reflective 5.0 Solder 30/30 OR500-ND 5.30 4.78 3.82 EE-SB5Reflective 5.0 PC Board 30/30 OR501-ND 5.30 4.78 3.82 EE-SB5-B2Reflective 5.0 Solder 30/30 OR502-ND 5.21 4.69 3.76 EE-SF5Reflective 5.0 PC Board 30/30 OR503-ND 5.21 4.69 3.76 EE-SF5-BSlot 3.6 Solder 4/4 OR504-ND 3.98 3.58 2.87 EE-SG3Slot 3.4 Solder 4/4 OR713-ND 3.64 3.28 2.63 EE-SH3Slot 3.4 PC Board 4/4 OR779-ND 4.22 3.80 3.04 EE-SH3-G3Slot 3.4 Solder 4/4 OR714-ND 4.52 4.07 3.26 EE-SV3Slot 3.4 PC Board 4/4 OR780-ND 3.98 3.58 2.87 EE-SV3-BSlot 3.4 PC Board 4/4 OR715-ND 4.67 4.21 3.37 EE-SX305Slot 3.4 PC Board 3/20 OR782-ND 2.50 2.25 1.80 EE-SX4088Slot 3.6 PC Board 4/4 OR505-ND 3.98 3.58 2.87 EE-SG3-B4Reflective 1.0 SMT 20/20 Z3020CT-ND NEW! 2.06 1.86 1.49 EE-SY199Reflective 1.0 SMT 20/20 Z3020TR-ND NEW! 2061.75/2000 EE-SY199Slot 5.0 PC Board 4/4 OR518-ND 1.85 1.67 1.34 EE-SX10425 Slot 4.6 PC Board 500Hz OR556-ND 2.15 1.94 1.56 EE-SX1061Slot 3.0 PC Board 70/70 OR601-ND 2.15 1.94 1.56 EE-SX298Reflective 5.0 PC Board 50Hz OR525-ND 3.83 3.45 2.76 EE-SY3106 Reflective 5.0 PC Board 50Hz OR526-ND 3.83 3.45 2.76 EE-SY410Reflective 4.4 PC Board 3/20 OR604-ND 4.13 3.72 2.98 EE-SY4137 Slot 3.4 PC Board 4/4 OR523-ND 4.53 4.08 3.27 EE-SX1031Slot 8.0 PC Board 3KHz OR716-ND 2.25 2.03 1.62 EE-SX30708Slot 8.0 PC Board 3KHz OR524-ND 2.14 1.93 1.55 EE-SX4070Slot 8.0 PC Board 3KHz OR571-ND 1.85 1.67 1.34 EE-SX1070Slot 5.0 PC Board 3KHz OR781-ND 2.14 1.93 1.55 EE-SX40819Vertical Slot 3.4 61cm Wires 4/4 OR562-ND 11.31 10.18 8.15 EE-SX1088-W1Horizontal Slot 3.4 61cm Wires 4/4 OR563-ND 17.12 15.41 12.33 EE-SX1096-W1Slot 3.0 PC Board 3/20 OR783-ND 2.14 1.93 1.55 EE-SX498Slot 3.4 PC Board 4/4 Z2991-ND NEW! 3.52 3.18 2.54 EE-SJ3-C10 Slot 3.4 PC Board 4/4 OR569-ND 3.52 3.18 2.54 EE-SJ3-DSlot 2.8 PC Board 4/4 OR598-ND 2.26 2.04 1.63 EE-SX1025Slot 5.2 PC Board 4/4 OR599-ND 2.35 2.12 1.70 EE-SX103511Slot 3.0 PC Board 4/4 OR570-ND 3.22 2.90 2.32 EE-SX1046Slot 2.0 PC Board 3/20 OR600-ND 3.26 2.94 2.35 EE-SX49312Red LED Reflect 4.0 PC Board 30/30 OR581-ND 12.60 11.34 9.08 EE-SY169IR Reflective 4.0 PC Board 30/30 OR582-ND 10.45 9.41 7.53 EE-SY169A13 Actuator Contact PC Board — OR712-ND 2.98 2.69 2.15 EE-SA105Slot 5.0 Snap-In — OR1002-ND NEW! 3.22 2.90 2.32 EE-SX460-P114 Transmissive 15.0 Snap-In — Z3028-ND NEW! 6.38 5.75 4.60 EE-SX461-P11Transmissive 5.0 Snap-In — Z3029-ND NEW! 2.60 2.34 1.87 EE-SX4235A-P2140 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

D6F Gas Flow SensorsThe D6F is a new supersensitive gas flow sensor. It is able to measure both gas velocityand direction at extremely low flow rates, and is ideal for looking at low pressuremedical gases, boiler emissions, and HVAC system airflow. It is suit able for measuringthe amount of oxygen and nitrogen dioxide, consumed from a re spir atory apparatus in surgery. It can also be used formonitoring air circulation in a building and thus improving the performance and efficiency of air conditioning and buildingcomfort systems. The extreme sensitivity is achieved with a tiny heating element, associated with temp er a ture sensors onboth sides. The deviation is temperature measured by the two sensors and used to calculate the gas flow and direction,generating a non-linear analogue output in the range of 1V ~ 5V.Case Suitable Flow Digi-KeyPrice EachOmronMaterial Gas Range Part No.1 25 50 Part No.PPS Air 0~1Liter/minute Z1671-ND 173.36 156.03 138.70 D6F-01A1-110PPS Air 0~2Liter/minute Z1672-ND 173.36 156.03 138.70 D6F-02A1-110Aluminum LNG* 0~5Liter/minute Z1673-ND† 210.17 189.16 168.14 D6F-05N2-000PPS Air 0~3Liter/minute Z2717-ND 272.95 245.66 218.36 D6F-03A3-0000Connector with 2M Cable for D6F Sensors Z2718-ND 10.20 9.19 8.17 D6F-CABLE2* Liquid Natural Gas † D6F-05 is a 1/4” pipe thread version using British Taper (Rc) standard.D6F Air Flow SensorsOmron’s mass flow sensor will detect flows of 1 ~ 10 liters per minute up to a 1 ~ 50 liter per minute version. They use awide supply volt age range of 5 ~ 26.4VDC and will output an analog voltage of 0.5 ~ 5VDC. Perfect for med ical apparatus,fuel cell monitoring and measuring instruments.D6FD6F-WD6F-PShown withPCB TerminalsDigi-KeyPrice Each OmronDescriptionPart No.1 25 50 Part No.Flow Sensor 0 ~ 10 Liters per minute, Straight Connect Z2863-ND 321.98 289.78 257.58 D6F-10A6-000Flow Sensor 0 ~ 20 Liters per minute Z2864-ND 321.98 289.78 257.58 D6F-20A6-000Flow Sensor 0 ~ 50 Liters per minute Z2865-ND 321.98 289.78 257.58 D6F-50A6-000Dustproof Flow Sensor 0~1 Liter, PCB Z2785-ND 63.01 56.71 50.41 D6F-P0010A1Dustproof Flow Sensor 0~1 Liter, Connector Z2786-ND 63.01 56.71 50.41 D6F-P0010A2Flow Sensor 0 ~ 1 Meters per second Z2631-ND 104.94 94.45 83.96 D6F-W01A1Flow Sensor 0 ~ 4 Meters per second Z2632-ND 104.94 94.45 83.96 D6F-W04A1Flow Sensor 0 ~ 3 Meters per second Z2629-ND 40.94 36.85 32.76 D6F-V03A1Cable for Air Flow Sensors Z2209-ND 10.20 9.19 8.17 D6F-CABLE1Cable for Air Flow Sensors (D6F-W) Z2630-ND 5.12 4.61 4.10 D6F-W CABLE27.223.3Connector1. Vcc2. Vout3. GNDD7E Vibration SensorsThese vibration sensors are perfect for quick de tection of movements thatcould cause dam age to equipment or can be used to safely shut down criticaloperations. Sen sors are auto-reset table and require no manual re set ting. D7Evibration sensors are low cost sealed vib ration sensors with various sensitivities.Use these sen sors for industrial equip ment, cranes, forklifts, in dust rial man u facturingand boilers. Use in natural gas meter shut offs, vending machines, conveyorsys tems, earthquake sen sors or any circuits that require safety shutoff during aperiod of vibration or tilting.Specifications: Strength: AC250V 50/60HzDigi-KeyPrice EachOmronDescriptionPart No.1 25 50 Part No.130 ~ 200 gallon Vibration Switch, 0.1A Z2007-ND 12.00 10.80 9.60 D7E-1100 ~ 170 gallon Vibration Switch, 0.1A Z2008-ND 12.00 10.80 9.60 D7E-250 ~ 80° Tilt Switch, 0.1A Z2009-ND 17.51 15.76 14.01 D7E-3D7H EquipmentVibration SensorsThese vibration switches feature a highly durable stainless steel diaphragmthat allows detection of very small move ments. Used to prevent secondarydamage after earth quakes and to replace mercury with a simple mech an i calsystem. Manually resettable, vertically mounted sensor in either an enclosedcase or open sensor.Spec i fi cations: Temperature: -10°C ~ 70°CDigi-KeyPrice EachOmronDescriptionPart No.1 25 50 Part No.Open Cased Vibration Detection Switch - 10A Z2011-ND 90.24 81.22 72.19 D7H-B1D6BN Tilt SensorsOMROND7E-1MADE IN JAPANIdeal for equipment tilt detection. Will give you a sep ar ate output whentilted left or right. Perfect for sig naling a screen to rotate from portrait2.0to landscape view in keeping with product orientation. Can be used in7.0space heaters.Specifications:7.0Char acteristics: Cut TapeDigi-KeyPrice EachOmronDescriptionPart No.1 25 50 Part No.Mini SMD Tilt Sensor - Left/Right Z2676CT-ND 4.51 4.06 3.61 D6BN-IPMini SMD Tilt Sensor - Left/Right Z2676TR-ND‡ 5632.81/2,500 D6BN-IP‡ Tape and ReelInductive Proximity SensorsOmron’s line of inductive sensors are de signed for detecting the presence or absence of ferrous metal close to the sensor and pro vide an outputwhen detected. Because inductive sen sors use electro magnetic fields, they excel over photo type sensors in en vir on ments contain ing water, oil,dust and dirt. Shielded sensors are made with a shielding plate around the ferrite core to focus ferrous metal sen sing at the sensors head. It alsoal lows the sensor to be located or mount ed close to sur rounding metals.Fig. 1 Fig. 2Fig.SensingDistanceMaximum◆ RoHS CompliantDescriptionTerminalTypeOutputTypeDigi-KeyPart No.Price Each1 25 500.8mm 4mm Diameter, Short Barrel DC Proxy, Stainless Steel, Shielded 3-Wire NPN Z1651-ND 97.20 90.00 84.00 E2E-CR8C11mm M5, Short Barrel DC Proxy, Nickel Plated Brass, Shielded 3-Wire NPN Z1652-ND 94.28 87.30 81.48 E2E-X1C11mm 5.4mm Diameter, Short Barrel DC Proxy, Nickel Plated Brass, Shielded 3-Wire NPN Z1653-ND 97.20 90.00 84.00 E2E-C1C11.5mm M8, Short Barrel DC Proxy, Nickel Plated Brass, Shielded 3-Wire NPN Z1062-ND 69.01 63.90 59.64 E2E-X1R5E12mm M8, Short Barrel DC Proxy, Nickel Plated Brass, Shielded 2-Wire NPN Z1064-ND 70.96 65.70 61.32 E2E-X2D1-N2mm M12, Short Barrel DC Proxy, Nickel Plated Brass, Shielded 3-Wire NPN Z1065-ND 69.01 63.90 59.64 E2E-X2E12mm M12, Short Barrel AC Proxy, Nickel Plated Brass, Shielded 2-Wire NPN Z1066-ND 82.62 76.50 71.40 E2E-X2Y1-US3mm M12, Short Barrel DC Proxy, Nickel Plated Brass, Shielded 2-Wire NPN Z1067-ND 71.93 66.60 62.16 E2E-X3D1-N15mm M18, Short Barrel DC Proxy, Nickel Plated Brass, Shielded 3-Wire NPN Z1068-ND 70.96 65.70 61.32 E2E-X5E15mm M18, Short Barrel AC Proxy, Nickel Plated Brass, Shielded 2-Wire NPN Z1069-ND 87.48 81.00 75.60 E2E-X5Y1-US10mm M30, Short Barrel DC Proxy, Nickel Plated Brass, Shielded 3-Wire NPN Z1654-ND 75.82 70.20 65.52 E2E-X10E11.5mm M8, Short Barrel DC Proxy, Plastic Body, Shielded 3-Wire NPN Z1075-ND 106.92 99.00 92.40 E2F-X1R5E11.5mm M8, Short Barrel AC Proxy, Plastic Body, Shielded 2-Wire NPN Z1076-ND 153.58 142.20 132.72 E2F-X1R5Y12mm M12, Short Barrel DC Proxy, Plastic Body, Shielded 3-Wire NPN Z1078-ND 89.42 82.80 77.28 E2F-X2E12mm M12, Short Barrel AC Proxy, Plastic Body, Shielded 2-Wire NPN Z1079-ND 127.98 118.50 110.60 E2F-X2Y15mm M18, Short Barrel DC Proxy, Plastic Body, Shielded 3-Wire NPN Z1080-ND 99.14 91.80 85.68 E2F-X5E15mm M18, Short Barrel AC Proxy, Plastic Body, Shielded 2-Wire NPN Z1081-ND 106.92 99.00 92.40 E2F-X5Y1-US10mm M30, Short Barrel DC Proxy, Plastic Body, Shielded 3-Wire NPN Z1077-ND◆ 116.64 108.00 100.80 E2F-X10E11.5mm Flat Low Profile DC Proxy, Aluminum Body, Unshielded 3-Wire PNP Z1082-ND 59.42 55.02 51.35 TL-W1R5MB11.5mm Flat Low Profile DC Proxy, Aluminum Body, Unshielded 3-Wire NPN Z1083-ND 59.42 55.02 51.35 TL-W1R5MC13mm Flat Low Profile DC Proxy, Plastic Body, Unshielded 3-Wire NPN Z1084-ND 63.04 58.37 54.48 TL-W3MC12 3mm Flat Low Profile DC Proxy, Plastic Body, Unshielded 3-Wire PNP Z1189-ND 63.04 58.37 54.48 TL-W3MB15mm Flat Low Profile DC Proxy, Plastic Body, Unshielded 3-Wire PNP Z1085-ND 53.87 49.89 46.56 TL-W5MB15mm Flat Low Profile DC Proxy, Plastic Body, Unshielded 3-Wire NPN Z1086-ND 53.87 49.89 46.56 TL-W5MC120mm Flat Low Profile DC Proxy, Aluminum Body, Unshielded 3-Wire NPN Z1660-ND 88.31 81.77 76.32 TL-W20ME1Mounting Bracket, Fits M8 Size Sensors Z1656-ND◆ 3.57 3.31 3.09 Y92E-B8Mounting Bracket, Fits M18 Size Sensors Z1658-ND◆ 3.57 3.31 3.09 Y92E-B18OmronPart No.NMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)141141

E SE SOptical SensorsFig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6 Fig. 7Fig. 8Fig. 9 Fig. 10EmitterFig. 11EmitterTabCollectorFig. 12 Fig. 13 Fig. 14 Fig. 15 Fig. 16 Fig. 17 Fig. 18 Fig. 19 Fig. 20Fig. 21Fig. 22 Fig. 23 Fig. 24 Fig. 25Fig. 26 Fig. 27Fig. 28Fig. 29Fig. 30Fig. 31Note: 480-2971-ND hasstraight leadsS+E+NInfrared Light Emitting DiodesStyle/ VCEO ICPeakSensitivity Digi-KeyPrice Each HoneywellFig. Pkg. (V) (mA) Wavelength Part No.1 10 25 Part No.AlGaAs1Side-view 1.7 50 880nm 480-1968-ND◆ 1.91 1.25 1.13 SEP8736-002Side-view 1.7 50 880nm 480-1969-ND◆ 2.17 1.41 1.28 SEP8736-0032T-1 1.7 50 880nm 480-1965-ND◆ 2.17 1.41 1.28 SEP8705-003T-1 1.7 20 880nm 480-2985-ND◆ 2.27 1.48 1.34 SEP8705-0023Side-view 1.7 50 880nm 480-1966-ND◆ 1.96 1.22 1.09 SEP8706-002Side-view 1.7 50 880nm 480-1967-ND◆ 1.77 1.15 1.05 SEP8706-0034Coaxial 1.8 50 880nm 480-1977-ND◆ 7.16 4.91 4.41 SE1470-003LCoaxial 1.8 50 880nm 480-1978-ND◆ 7.33 5.02 4.52 SE1470-004L5 Mini-pill 1.8 75 880nm 480-1980-ND◆ 3.95 2.71 2.44 SE2470-002TO-46 1.9 100 880nm 480-1981-ND◆ 6.05 4.14 3.73 SE3470-0036 TO-46 1.9 100 880nm 480-1983-ND◆ 5.75 3.94 3.55 SE5470-003TO-46 1.9 100 880nm 480-1984-ND 5.86 4.01 3.61 SE5470-004GaAs2 T-1 1.5 50 935nm 480-1961-ND◆ 1.86 1.21 1.10 SEP8505-002Side-view 1.5 50 935nm 480-1962-ND◆ 1.61 1.00 .90 SEP8506-0013 Side-view 1.5 50 935nm 480-1963-ND◆ 1.85 1.15 1.03 SEP8506-002Side-view 1.5 50 935nm 480-1964-ND◆ 1.96 1.22 1.09 SEP8506-0034Coaxial 1.6 50 935nm 480-1976-ND◆ 6.50 4.46 4.01 SE1450-003LCoaxial 1.6 50 935nm 480-2980-ND◆ 6.87 4.71 4.23 SE1450-004L5 Mini-pill 1.6 75 935nm 480-1979-ND◆ 3.64 2.50 2.25 SE2460-003TO-46 1.7 100 935nm 480-1982-ND 5.13 3.51 3.16 SE5455-003TO-46 1.7 100 935nm 480-2981-ND◆ 5.59 3.83 3.44 SE3455-0036 TO-46 1.7 100 935nm 480-2982-ND◆ 5.59 3.83 3.44 SE5450-013TO-46 1.7 100 935nm 480-2983-ND◆ 5.59 3.83 3.44 SE5455-002TO-46 1.7 100 935nm 480-2984-ND◆ 5.49 3.76 3.39 SE5455-004◆ RoHS CompliantNPN Silicon PhototransistorsFig.OutputTypeVcc(V)Max. OutputCurrent(mA)Rise/Fall(µs)Digi-KeyPart No.SiliconPrice Each1 10 25HoneywellPart No.1Transistor 30 10.0 15 480-1957-ND 1.77 1.15 1.05 SDP8436-002Transistor 30 17.5 15 480-1958-ND 1.77 1.15 1.05 SDP8436-003Transistor 30 14 15 480-1951-ND 2.01 1.31 1.19 SDP8405-0022Transistor 30 24 15 480-1952-ND 1.96 1.28 1.16 SDP8405-003Transistor 30 0.92 15 480-1953-ND 2.06 1.34 1.22 SDP8405-013Transistor 30 1.85 15 480-1954-ND 1.83 1.19 1.09 SDP8405-0143Transistor 30 3.60 15 480-1955-ND 1.61 1.00 .90 SDP8406-002Transistor 30 6.50 15 480-1956-ND 1.61 1.00 .90 SDP8406-0034 Transistor 30 3.0 15 480-1970-ND 5.86 4.01 3.61 SD1440-003L5Transistor 30 4.0 15 480-1971-ND 3.31 2.27 2.04 SD2440-003Transistor 30 7.0 15 480-1972-ND 3.40 2.33 2.10 SD2440-004Transistor 15 8.0 min. 75 480-2976-ND 5.94 4.07 3.66 SD5410-003Transistor 30 4.0 min. 15 480-2977-ND 5.16 3.53 3.18 SD5443-0027 Transistor 30 8.0 min. 15 480-2978-ND 5.16 3.53 3.18 SD5443-003Transistor 30 16.0 min. 15 480-2979-ND 5.23 3.58 3.23 SD5443-004Transistor 30 8.0 2 480-1973-ND 6.70 4.59 4.13 SD5491-0048 Transistor 30 2.0 min. 15 480-2975-ND 5.23 3.58 3.23 SD3443-003Low Light Rejection3 Transistor 30 6.0 15 480-1959-ND 1.89 1.23 1.12 SDP8476-201Optoschmitt DetectorsFig.OutputTypeVcc(V)Max. OutputCurrent(mA)Rise/Fall(ns)Digi-KeyPart No.Price Each1 10 25HoneywellPart No.TTL 16 18 60/15 480-1974-ND 6.46 4.42 3.98 SD5600-0017TTL 16 18 60/15 480-1975-ND 6.38 4.37 3.93 SD5620-0019 TTL 12 18 60/15 480-1960-ND 3.58 2.46 2.21 SDP8600-001Open-Collector Output10 TTL 12 15 7 480-1950-ND 4.15 2.84 2.56 SDP8314-301Slotted Optoschmitt SensorsMax. OutputCurrent(mA)Rise/Fall(ns)Fig.OutputTypeVcc(V)Digi-KeyPart No.1Price Each10 25HoneywellPart No.Transmissive11 Diode 7 15 70 480-1945-ND 8.86 6.49 6.07 HOA6990-T51Transistor 10 10 60/15 480-1933-ND 6.50 4.45 4.00 HOA0961-N5112 Transistor 10 10 60/15 480-1934-ND 6.30 4.31 3.88 HOA0971-N51Open-Collector 12 15 70 480-1943-ND 6.65 4.87 4.56 HOA6961-T5113 Open-Collector 4.5~12 50 70 480-2974-ND 10.52 7.70 7.21 HOA6991-T5114 Schmitt Trigger 12 12 60/15 480-1941-ND 6.44 4.71 4.41 HOA2004-00115 Transistor 12 12 60/6 480-1942-ND 11.05 8.09 7.57 HOA2005-00116Totem Pole 7 15 70 480-1944-ND 6.57 4.50 4.05 HOA6972-N55Totem Pole 12 15 70 480-1946-ND 11.77 9.02 8.52 HOA6991-T55Connectorized Transmissive16 Totem Pole 5.5 40 70 480-1947-ND 11.43 8.36 7.83 HOA7720-M22Encoder Detector17 Inverting Logic 5.5 7 100 480-1949-ND 4.16 2.85 2.56 HLC2701-001Reflective Object SensorsOutput VccMax. OutputCurrentRise/Fall Digi-KeyPrice Each HoneywellFig. Type (V) (mA) (µs) Part No.1 10 25 Part No.18 Transistor 30 30 15 480-1928-ND 4.79 3.28 2.95 HOA0149-00119Transistor 30 30 15 480-1935-ND 5.66 3.88 3.49 HOA1397-002Darlington 15 30 75 480-1936-ND 5.75 3.94 3.54 HOA1397-03220 Transistor 30 30 15 480-1948-ND 3.22 2.21 1.99 HLC1395-001Transistor 30 30 15 480-1985-ND 14.86 11.38 10.75 HOA1180-00221 Transistor 30 50 15 480-2971-ND 11.35 8.31 7.78 HOA2498-002Darlington 15 50 75 480-2960-ND 17.33 13.27 12.53 HOA1180-00322Transistor 30 30 15 480-1986-ND 13.07 10.01 9.45 HOA1404-002Darlington 15 50 75 480-2961-ND 13.14 10.06 9.50 HOA1404-003Transistor 30 0.2 15 480-1987-ND 6.38 4.37 3.94 HOA1405-00123Transistor 30 50 15 480-2962-ND 24.85 19.77 18.53 HOA1406-001Transistor 30 0.8 15 480-1988-ND 6.47 4.43 3.99 HOA1405-002Transistor 30 50 15 480-2957-ND 3.39 2.32 2.09 HLC1395-00224 Photodarlington 15 50 75 480-2963-ND 9.31 6.81 6.38 HOA1870-033Transmissive11 Transistor 30 50 15 480-2958-ND 8.09 5.92 5.55 HOA0881-T5515 Transistor 30 50 15 480-2969-ND 9.46 6.93 6.49 HOA1887-01225 TTL 4.5~5 50 100ns 480-2959-ND 9.15 6.70 6.27 HOA0901-012Transistor 30 30 15 480-1989-ND 10.74 7.86 7.36 HOA1877-00126 Transistor 30 50 15 480-2966-ND 11.03 8.07 7.56 HOA1877-002Darlington 15 50 75 480-2967-ND 12.18 8.92 8.35 HOA1877-00327 Transistor 30 50 15 480-2965-ND 11.03 8.07 7.56 HOA1875-00228 10kΩ Pull-Up 12 50 60/15ns 480-2970-ND 6.38 4.37 3.94 HOA2001-00129 Transistor 30 50 15 480-2968-ND 7.46 5.11 4.60 HOA1884-012Emitter Detector Pair31— 2~7 10 — 480-2972-ND† 16.12 12.34 11.66 HOA6299-0022.4kΩ Pull-Up 4.5~12 10 5 480-2973-ND‡ 18.70 14.32 13.52 HOA6299-003† Emitter ‡ DetectorSlotted Optical SensorsFig.1112Max. OutputCurrent(mA)Rise/Fall(µs)OutputTypeVcc(V)Digi-KeyPart No.1Price Each10 25HoneywellPart No.Transistor 30 15 15 480-1939-ND◆ 7.49 5.48 5.13 HOA1881-012Transistor 30 30 15 480-1931-ND◆ 6.74 4.93 4.62 HOA0890-L51Transistor 30 30 15 480-1938-ND 7.10 4.86 4.38 HOA1879-015Transistor 30 30 15 480-1929-ND◆ 4.76 3.26 2.93 HOA0866-T55Transistor 30 30 15 480-1930-ND◆ 5.58 3.82 3.44 HOA0875-N5124 Transistor 30 30 15 480-1937-ND◆ 9.23 6.76 6.33 HOA1870-03127 Transistor 30 82 15 480-1940-ND◆ 4.23 2.90 2.61 HOA1882-01228 Darlington 15 50 75 480-2964-ND◆ 5.84 4.00 3.60 HOA1873-013Transmissive Encoder — RoHS Compliant30 TTL 5.5 12 20 480-1932-ND 10.24 7.49 7.02 HOA0902-011◆ RoHS Compliant142 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

SwitchesFig. 1 Fig. 2Fig. 3 Fig. 4Fig. 7E SFig. 8Fig. 9 Fig. 10 Fig. 11E SFig. 13 Fig. 14 Fig. 15E SE SFig. 16E SFig. 5 Fig. 6Fig. 17Fig. 19 Fig. 20Fig. 21SensorsE SSSEFig. 12EFig. 18Fig.OutputTypeSlotWidthInch (mm)LeadSpacingInch (mm)Digi-KeyPart No.Price Each1 100 250TTE/OPTEKTechnologyPart No.Slotted Optical1 Rbe Phototransistor .190 (4.83) .320 (8.13) 365-1008-ND 2.15 1.25 1.20 OPB6202 Phototransistor .155 (3.94) .300 (7.62) 365-1017-ND 2.17 1.27 1.22 OPB8043Phototransistor .20 (5.08) — 365-1260-ND 5.56 3.24 3.11 OPB817ZPhototransistor .20 (5.08) — 365-1264-ND 7.59 4.42 4.25 OPB917BZ4 Phototransistor .210 (5.33) .400 (10.16) 365-1019-ND 3.00 1.75 1.68 OPB8185 Phototransistor .100 (2.54) .300 (7.62) 365-1021-ND 2.78 1.62 1.56 OPB8486Photologic .125 (3.18) — 365-1234-ND 7.10 4.13 3.97 OPB941W51ZPhotologic .125 (3.18) — 365-1265-ND 7.07 4.12 3.96 OPB930W55ZPhotologic .190 (4.83) .320 (8.13) 365-1090-ND 2.78 1.62 1.56 OPB6257 Photologic .125 (3.18) .320 (8.13) 365-1111-ND 4.81 2.80 2.70 OPB970N11Photologic .125 (3.18) .320 (8.13) 365-1113-ND 4.24 2.47 2.37 OPB973N518 Photologic .125 (3.18) .320 (8.13) 365-1087-ND 3.91 2.28 2.19 OPB460L119 Phototransistor .125 (3.18) — 365-1341-ND 5.34 3.11 2.99 OPB880P51ZPhotologic .125 (3.18) — 365-1246-ND 6.22 3.62 3.48 OPB990T55Z10 Phototransistor .125 (3.18) — 365-1235-ND 5.31 3.09 2.97 OPB891T51ZPhototransistor .125 (3.18) — 365-1401-ND 5.17 3.01 2.90 OPB829CZ11 Phototransistor .205 (5.21) .380 (9.65) 365-1105-ND 2.67 1.56 1.50 OPB855Phototransistor .125 (3.18) — 365-1335-ND 5.75 3.35 3.22 OPB830W55Z12Phototransistor .125 (3.18) — 365-1337-ND 7.34 4.28 4.11 OPB840W11ZPhototransistor .125 (3.18) .320 (8.13) 365-1101-ND 4.02 2.34 2.25 OPB840L11Phototransistor .125 (3.18) — 365-1338-ND 5.78 3.36 3.24 OPB841W55Z13 Phototransistor .125 (3.18) .220 (5.59) 365-1106-ND 4.26 2.48 2.39 OPB865N1114 Phototransistor .160 (4.06) .300 (7.62) 365-1099-ND 2.31 1.35 1.30 OPB82515 Phototransistor .150 (3.81) .275 (6.99) 365-1089-ND 2.15 1.25 1.20 OPB61016Photologic .125 (3.18) .320 (8.13) 365-1110-ND 4.92 2.87 2.76 OPB960T11Photologic .125 (3.18) .320 (8.13) 365-1112-ND 4.04 2.36 2.27 OPB970T5517Photologic .125 (3.18) — 365-1402-ND 6.41 3.73 3.59 OPB981T51ZPhotologic .125 (3.18) — 365-1403-ND 6.30 3.67 3.53 OPB990T51ZSlotted Optical Flag18 Transistor .080 (2.03) .275 (6.99) 365-1009-ND 5.34 3.11 2.99 OPB680Wide Gap Slotted OpticalPhototransistor .375 (9.53) .570 (14.48) 365-1094-ND 3.25 1.89 1.82 OPB800L5516 Phototransistor .375 (9.53) .570 (14.48) 365-1095-ND 3.33 1.94 1.87 OPB810L51Phototransistor .375 (9.53) .570 (14.48) 365-1097-ND 3.19 1.86 1.79 OPB811L5519Phototransistor .375 (9.53) — 365-1331-ND 5.64 3.28 3.16 OPB810W51ZPhototransistor .375 (9.53) — 365-1333-ND 5.39 3.14 3.02 OPB811W55Z20 Phototransistor .375 (9.53) — 365-1400-ND 5.78 3.36 3.24 OPB815WZ21 Phototransistor 1.26 (32) — 365-1262-ND 7.78 4.53 4.36 OPB819Z®Fig. 1 Fig. 2Fig. 3 Fig. 4 Fig. 5Fig. 6Fig. 7 Fig. 8Fig. 9Fig. 10 — N PackageFig. 11 — T PackageReflective Object SensorsContinuousForwardFig. Current (mA)ReverseDCVoltageV(BR)CEOVoltage(Min.)Min. LeadWire LengthInch (mm)Digi-KeyPart No.1Price Each100 250TTE/OPTEKTechnologyPart No.100 2.0 25 18.0 (457.2) 365-1399-ND 12.35 7.19 6.91 OPB700ALZ1 100 2.0 25 4.0 (101.6) 365-1364-ND 10.92 6.36 6.11 OPB700Z50 2.0 25 18.0 (457.2) 365-1253-ND 14.27 8.31 7.99 OPB701ALZ2 50 3.0 30 .50 (12.7) 365-1012-ND 8.36 4.87 4.68 OPB710350 2.0 15 .45 (11.43) 365-1093-ND 3.69 2.15 2.07 OPB707A50 2.0 30 .45 (11.43) 365-1092-ND 2.86 1.67 1.60 OPB706A4 50 2.0 30 .180 (4.57) 365-1088-ND 1.73 1.01 .97 OPB606A540 2.0 30 .15 (3.81) 365-1014-ND 3.16 1.84 1.77 OPB74240 2.0 15 .15 (3.81) 365-1015-ND 3.93 2.29 2.20 OPB7456 40 2.0 30 .165 (4.19) 365-1091-ND 3.63 2.12 2.04 OPB704750 5.0 30 — 365-1510-1-ND◊ 2.99 1.94 1.66 OPB733TR50 5.0 30 — 365-1510-2-ND† 685.00/500 OPB733TR◊ Cut Tape † Tape and ReelReflective Color SensorFig.ContinuousForward Current(mA)SupplyVoltageVDDDigi-KeyPart No.1Price Each100 250TTE/OPTEKTechnologyPart No.8 30 5 365-1378-ND 24.92 14.50 13.94 OPB780ZPhotologic ® Reflective Object SensorsFig.OperatingDC SupplyVoltageMinimum LeadWire LengthInch (mm)Digi-KeyPart No.1Price Each100 250TTE/OPTEKTechnologyPart No.9 4.75 ~ 5.25 18.0 (457.2) 365-1255-ND 9.35 5.44 5.24 OPB716ZLiquid Tube SensorsFig.1011ContinuousForwardReverseDCV(BR)CEOVoltageMin. LeadWire Length Digi-KeyPrice EachTTE/OPTEKTechnologyCurrent (mA) Voltage (Min.) Inch (mm) Part No. 1 100 250 Part No.50 2.0 30 .33 (8.38) 365-1236-ND 6.93 4.04 3.88 OPB35050 2.0 25 .33 (8.38) 365-1237-ND 7.40 4.31 4.14 OPB350L18750 2.0 24 .33 (8.38) 365-1405-ND 7.40 4.31 4.14 OPB350L06250 2.0 25 24 (610) 365-1239-ND 9.65 5.62 5.40 OPB350W187Z50 2.0 25 24 (610) 365-1240-ND 9.65 5.62 5.40 OPB350W250Z50 2.0 24 24 (610) 365-1406-ND 9.65 5.62 5.40 OPB350W062ZCalibration Circuit BoardsTTE/OPTEKDescriptionDigi-KeyPart No.Price EachTechnologyPart No.Circuit Board for OPB350L125 365-1530-ND NEW! 11.96 OCB350L125ZCircuit Board for OPB350L187 365-1531-ND NEW! 11.96 OCB350L187ZCircuit Board for OPB350L250 365-1532-ND NEW! 11.96 OCB350L250ZCircuit Board PCB Mount 365-1533-ND NEW! 9.48 OCB100AZCircuit Board Wired Optoelectronic Assembly 365-1534-ND NEW! 10.56 OCB100CZCircuit Board and Optoelectronic Devices Kit 365-1507-ND 33.22 OCB100-KITColor Sensor Evaluation KitTTE/OPTEKDescriptionDigi-KeyPart No.Price EachTechnologyPart No.Full Color Sensor 365-1509-ND 97.50 OPB780KITN®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)143143

Infrared Emitters and ReceiversFig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6PIN Silicon PhotodiodesPrice Each TTE/OPTEKFig.Style/Package VRPeak SensitivityWavelength tr/tfDigi-KeyPart No.1 100 250TechnologyPart No.6 Side-View 60V 935nm 5ns 365-1085-ND .94 .55 .53 OP950T-1 60V 935nm 5ns 365-1084-ND .91 .53 .51 OP90616T-1 3/4 60V 890nm 5ns 365-1086-ND 1.13 .66 .64 OP999Infrared NPN Phototransistors®NFig. 7 Fig. 8Infrared Light Emitting DiodesFig.Style/PackagePulseForwardCurrentFig. 9Fig. 14 Fig. 15 Fig. 16OpticalPowerOutputFig. 10 Fig. 11 Fig. 12 Fig. 13Fig. 17PeakEmission Beam Digi-KeyWavelength Angle Part No.PlasticFig. 18 Fig. 19 Fig. 20Fig. 21 Fig. 22 Fig. 23 Fig. 24 Fig. 25 NEW!Price Each1 100 250TTE/OPTEKTechnologyPart No.T-1 3/4 750mA .50mW/cm2 890nm 50° 365-1060-ND .99 .58 .56 OP294T-1 3/4 5.0A 44mW/cm2 890nm 20° 365-1061-ND 1.07 .63 .60 OP295AT-1 3/4 5.0A 77mW/cm2 890nm 20° 365-1062-ND 1.07 .63 .60 OP295BT-1 3/4 5.0A 210mW/cm2 890nm 50° 365-1056-ND 1.07 .63 .60 OP290AT-1 3/4 5.0A 16mW/cm2 890nm 50° 365-1057-ND 1.07 .63 .60 OP291ATO-46 2.0A 16mW/cm2 890nm 60° 365-1058-ND .99 .58 .56 OP293A1 TO-46 2.0A 13mW/cm2 890nm 60° 365-1059-ND .99 .58 .56 OP293BTO-46 2.0A 3.0mW/cm2 890nm 25° 365-1064-ND .99 .58 .56 OP298ATO-46 2.0A 2.4mW/cm2 890nm 25° 365-1065-ND .99 .58 .56 OP298BT-1 3.0A 2.70mW/cm2 890nm 18° 365-1054-ND 1.27 .74 .71 OP265AT-1 3.0A 1.95mW/cm2 935nm 18° 365-1046-ND 1.13 .66 .64 OP165AT-1 3.0A 0.85mW/cm2 935nm 18° 365-1047-ND 1.13 .61 .53 OP165CT-1 3.0A 1.95mW/cm2 935nm 18° 365-1049-ND 1.27 .74 .71 OP166ASide-View 3.0A 0.60mW/cm2 890nm 40° 365-1052-ND .99 .58 .56 OP240A2Side-View 3.0A 0.60mW/cm2 890nm 40° 365-1053-ND 1.07 .63 .60 OP245ASide-View 3.0A 0.40mW/cm2 935nm 40° 365-1043-ND .99 .58 .56 OP140ASide-View 3.0A 0.30mW/cm2 935nm 40° 365-1044-ND .99 .58 .56 OP140B3 Side-View 3.0A 0.40mW/cm2 935nm 40° 365-1045-ND 1.05 .61 .59 OP145A4 T-1 3.0A 0.50mW/cm2 935nm 90° 365-1048-ND 1.24 .72 .70 OP165W5 T-1 3.0A 1.00mW/cm2 890nm 90° 365-1055-ND 1.27 .74 .71 OP266W6 Side View 1.0A — 850nm 36° 365-1005-ND 2.59 1.51 1.45 OP245PSSMT Plastic70805 50mA 0.2mW/cm2 880nm 150° 365-1147-1-ND◊ .42 .28 .24 OP2000805 50mA 0.2mW/cm2 880nm 150° 365-1147-2-ND† 540.00/3,000 OP20081206 50mA 0.2mW/cm2 880nm 150° 365-1148-1-ND◊ .42 .28 .24 OP2501206 50mA 0.2mW/cm2 880nm 150° 365-1148-2-ND† 380.00/2,000 OP2509 Axial 50mA 1.5mW/cm2 880nm 25° 365-1150-ND .47 .28 .27 OP27010Gull Wing 50mA 1.5mW/cm2 880nm 25° 365-1151-1-ND◊ .55 .36 .31 OP271Gull Wing 50mA 1.5mW/cm2 880nm 25° 365-1151-2-ND† 250.00/1,000 OP27111Rev. GullWing50mA 1.5mW/cm2 880nm 25° 365-1153-1-ND◊ .59 .38 .33 OP273PLCC 50mA 0.5mW/cm2 880nm 100° 365-1154-1-ND◊ .52 .34 .29 OP280PLCC 50mA 0.5mW/cm2 880nm 100° 365-1154-2-ND† 480.00/2,000 OP280PLCC-2 1.0A 0.50mW/cm2 940nm 100° 365-1468-1-ND◊ .49 .32 .27 OP180PLCC-2 1.0A 0.50mW/cm2 940nm 100° 365-1468-2-ND† 440.00/2,000 OP18012 PLCC-2 1.0A 0.85mW/cm2 875nm 90° 365-1469-1-ND◊ 1.76 1.14 .98 OP280KPLCC-2 1.0A 0.85mW/cm2 850nm 90° 365-1470-1-ND◊ 1.04 .68 .58 OP280KTPLCC-2 1.0A 0.85mW/cm2 850nm 90° 365-1470-2-ND† 920.00/2,000 OP280KTPLCC-2 1.0A 0.15mW/cm2 850nm 50° 365-1471-1-ND◊ 3.22 2.08 1.79 OP280PSPLCC-2 1.0A 2.50mW/cm2 850nm 18° 365-1472-1-ND◊ 11.12 7.19 6.16 OP280VHermetically Sealed13PC Mount 1.0A 1.00mW/cm2 935nm 24° 365-1040-ND 3.52 2.05 1.97 OP124PC Mount 1.0A 3.50mW/cm2 890nm 24° 365-1050-ND 3.41 1.99 1.91 OP22414TO-46 10.0A 4.0mW/cm2 935nm 18° 365-1041-ND 3.11 1.81 1.74 OP132TO-46 10.0A 5.0mW/cm2 935nm 18° 365-1042-ND 3.11 1.81 1.74 OP13315 TO-46 10.0A 5.0mW/cm2 890nm 50° 365-1051-ND 3.30 1.92 1.85 OP233W◊ Cut Tape † Tape and Reel®For Digi-Reel ® information, please see page 73.IDODTTE/OPTEKStyle/Peak Sensitivity Digi-KeyPrice Each TechnologyFig. Package VCEO IC Wavelength Part No.1 100 250 Part No.SMT Phototransistors70805 30V 0.1mA 935nm 365-1478-1-ND◊ .39 .26 .22 OP5010805 30V 0.1mA 935nm 365-1478-2-ND† 510.00/3,000 OP5011206 30V 0.5mA 935nm 365-1155-1-ND◊ .39 .26 .22 OP52081206 30V 0.5mA 935nm 365-1155-2-ND† 360.00/2,000 OP5201206 30V 0.5mA 935nm 365-1156-1-ND◊ .36 .24 .20 OP5211206 30V 0.5mA 935nm 365-1156-2-ND† 320.00/2,000 OP5219 Axial 30V 2.5mA 935nm 365-1158-ND .36 .21 .20 OP57010 Gull Wing 30V 2.5mA 935nm 365-1159-1-ND◊ .39 .26 .22 OP57112PLCC 30V 2.5mA 935nm 365-1162-1-ND◊ .52 .34 .29 OP580PLCC 30V 2.5mA 935nm 365-1162-2-ND† 460.00/2,000 OP580171206 30V 1.0mA 935nm 365-1157-1-ND◊ .36 .24 .20 OP5221206 30V 1.0mA 935nm 365-1157-2-ND† 320.00/2,000 OP52218 Yoke 30V 5.0mA 935nm 365-1160-1-ND◊ .33 .21 .18 OP57219 1210 30V 1.0mA 935nm 365-1475-1-ND◊ .49 .32 .27 OP525PhototransistorsT-1 3/4 30V 2.35mA 890nm 365-1077-ND .91 .53 .51 OP599AT-1 30V 4.30mA 935nm 365-1066-ND .83 .48 .47 OP505A1 T-1 30V 2.15mA 935nm 365-1067-ND .83 .48 .47 OP505BT-1 30V 4.30mA 935nm 365-1068-ND 1.05 .61 .59 OP506AT-1 30V 2.15mA 935nm 365-1069-ND 1.05 .61 .59 OP506BSide-View 30V 2.55mA 935nm 365-1070-ND .94 .55 .53 OP550A6 Side-View 30V 1.30mA 935nm 365-1071-ND .94 .55 .53 OP550BSide-View 30V 0.25mA 935nm 365-1072-ND .94 .55 .53 OP550C13 PC Mount 25V 7.0mA 890nm 365-1078-ND 3.19 1.86 1.79 OP644SLTO-18 30V 3.0mA 890nm 365-1074-ND .94 .55 .53 OP593A20 TO-18 30V 7.5mA 890nm 365-1075-ND .94 .55 .53 OP598ATO-18 30V 5.0mA 890nm 365-1076-ND .94 .55 .53 OP598B21TO-18 30V 0.5mA 890nm 365-1079-ND 3.82 2.23 2.14 OP801WSLTO-18 30V 2.5mA 890nm 365-1080-ND 3.82 2.23 2.14 OP802WSL22TO-18 30V 7.0mA 890nm 365-1081-ND 2.94 1.72 1.65 OP804SLTO-18 30V 15.0mA 890nm 365-1082-ND 2.94 1.72 1.65 OP805SLPhotodarlington6 Side-View 15V 1.1mA 935nm 365-1073-ND 1.68 .98 .94 OP560C70805 35V 10.0mA 935nm 365-1480-1-ND◊ .49 .32 .27 OP501DA0805 35V 10.0mA 935nm 365-1479-1-ND◊ .49 .32 .27 OP500DA81206 35V 10mA 935nm 365-1473-1-ND◊ .52 .34 .29 OP521DA1206 35V 10mA 935nm 365-1474-1-ND◊ .52 .34 .29 OP520DA12 PLCC 35V 10.0mA 935nm 365-1481-1-ND◊ .49 .32 .27 OP580DA19 1210 35V 10.0mA 935nm 365-1476-1-ND◊ .59 .38 .33 OP525DA21 TO-18 15V 4mA 890nm 365-1083-ND 3.82 2.23 2.14 OP830WSL◊ Cut Tape † Tape and ReelFig.23VCSEL Infrared Emitting Laser DiodesFig.Style/PackagePeakCurrentForwardOpticalPowerOutputPeakEmissionWavelengthBeamDivergenceDigi-KeyPart No. 1Price Each100 250TTE/OPTEKTechnologyPart No.6 Lateral Convex 20mA 1.5mW 850nm 6° 365-1146-ND 8.72 5.08 4.88 OPV38224 Lateral Flat 20mA 1.5mW 850nm 20° 365-1145-ND 8.47 4.93 4.74 OPV380NEW! Infrared Light Ring SeriesFig.25Style/Package OutputSensitivityWavelengthDigi-KeyPart No.1Price Each100 250TTE/OPTEKTechnologyPart No.PhotologicSide-View TTL/LSTTL 935nm 365-1115-ND 2.12 1.24 1.19 OPL550Side-View TTL/LSTTL 935nm 365-1116-ND 2.23 1.30 1.25 OPL550-OCAStyle/PackageSurfaceMountThroughHoleRing Size (Inch) Qty. of Digi-KeyPrice EachTTE/OPTEKTechnologyID OD VCC LEDs Part No.1 100 250 Part No..625 1.25 12 12 365-1519-ND 14.97 14.37 13.82 OPA80SM5AZ1.25 2.0 12 18 365-1520-ND 21.95 21.08 20.27 OPA80SM5CZ.625 1.25 5 10 365-1521-ND 13.22 12.69 12.20 OPA82SM5AZ1.25 2.0 5 16 365-1522-ND 20.35 19.54 18.79 OPA82SM5CZ.625 1.25 12 12 365-1523-ND 19.70 18.92 18.19 OPA80T35AZ1.25 2.0 12 18 365-1524-ND 28.77 27.62 26.56 OPA80T35CZ.625 1.25 5 10 365-1525-ND 17.82 17.11 16.45 OPA82T35AZ1.25 2.0 5 16 365-1526-ND 27.30 26.21 25.20 OPA82T35CZ144 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Infrared LEDs®Dimensions in mmFig. 1PolarityMark1 2Fig. 2 NEW!3.01 2A1.0 1 2Fig. 3Ø3.2Fig. 4 NEW!1 210.33.00.32.0 212.02.0B1 24.627CathodeØ2.9 2.542.8 1 2 3.51.9Fig. 5 NEW! Fig. 6 NEW! Fig. 7 NEW! Fig. 8 NEW!Ø4.01.62.00.750.755.0 27.01.8Ø3.02.541 20.8 1 21 21.25 1 21 21.6 1 23.2Infrared EmittersLED DiameterPeakWavelengthOperatingLensTypicalCurrent Forward Digi-KeyCut TapePricingKingbrightFig.(mm)(nm) Color (mA) Voltage Part No.1 10 25 Part No.1 3.0 x 1.0 880 Clear 20 1.3 754-1070-1-ND .59 4.39 8.78 APA3010SF4C1 3.0 x 1.0 880 Clear 20 1.3 754-1070-2-ND‡ 352.00/2,000 APA3010SF4C2A 3.0 x 1.0 940 Clear 20 1.2 754-1363-1-ND NEW! .36 2.70 5.40 APECVA3010F3C2A 3.0 x 1.0 940 Clear 20 1.2 754-1363-2-ND‡ NEW! 216.00/2,000 APECVA3010F3C3 3.0 940 Clear 20 1.2 754-1241-ND§ .20 — 3.77 WP7104F3C4 3.5 x 2.8 940 Clear 20 1.2 754-1395-1-ND NEW! .39 2.93 5.85 AA3528AF3C4 3.5 x 2.8 940 Clear 20 1.2 754-1395-2-ND‡ NEW! 175.50/1,500 AA3528AF3C6 1.6 x 0.8 940 Clear 20 1.2 754-1433-1-ND NEW! .26 1.95 3.90 APT1608F3C6 1.6 x 0.8 940 Clear 20 1.2 754-1433-2-ND‡ NEW! 156.00/2,000 APT1608F3C7 2.0 x 1.25 940 Clear 20 1.2 754-1435-1-ND NEW! .26 1.95 3.90 APT2012F3C7 2.0 x 1.25 940 Clear 20 1.2 754-1435-2-ND‡ NEW! 156.00/2,000 APT2012F3C8 3.2 x 1.6 880 Clear 20 1.3 754-1443-1-ND NEW! .65 4.88 9.75 APTD3216SF4C8 3.2 x 1.6 880 Clear 20 1.3 754-1443-2-ND‡ NEW! 390.00/2,000 APTD3216SF4C‡ Tape and Reel § BulkNEW! PhototransistorsDark CurrentPeak SensitivityWavelength Digi-KeyCut Tape PricingKingbrightFig. Output Type Style/Package I(CEO) (nA)(nm)Part No.1 10 25 Part No.2B NPN SMT 100 940 754-1365-1-ND .36 2.70 5.40 APECVA3010P3BT2B NPN SMT 100 940 754-1365-2-ND‡ 216.00/2,000 APECVA3010P3BT4 NPN SMT 100 940 754-1396-1-ND .39 2.93 5.85 AA3528AP3C4 NPN SMT 100 940 754-1396-2-ND‡ 175.50/1,500 AA3528AP3C5 NPN Thru-Hole 100 940 754-1468-ND§ .20 — 3.77 WP3DP3BT6 NPN SMT 100 940 754-1436-1-ND .26 1.95 3.90 APT2012P3BT6 NPN SMT 100 940 754-1436-2-ND‡ 156.00/2,000 APT2012P3BT‡ Tape and Reel § BulkInfrared LEDsFig. 1 Fig. 2Dimensions in mmLEDDiameterPeakWave-OperatingLensTypicalCurrent Forward Digi-KeyPrice EachLumexFig. (mm) Length (nm) Color (mA) Voltage Part No.1 10 100 Part No.1 3.0 940 Clear 60 1.2 67-1000-ND .61 .45 .29 OED-EL-8L3.005.20 27.70 2.002.54Anode5.008.6027.6026.602.54Anode2 5.0 940 Clear 100 1.2 67-1001-ND .67 .49 .32 OED-EL-1L2Photo Interrupters are a transmissive photo sensor series in which a high efficiency GaAs infrared light emitting diode is usedas the light emitting element, and a high sensitivity photo transistor is used as the light detecting element. The two elementsface each other, so an object passing between them is detected.Sensing Sensing Terminal Typ. ton/toff Digi-KeyPrice Each PanasonicFig. Method Distance Type (µsec.) Part No.1 10 100 Part No.1 Slot 3.0mm PC Board 5/5 CNZ1021-ND◆ 1.39 1.16 .93 CNZ10212 Slot 3.0mm PC Board 5/5 CNZ1023-ND◆ 1.33 1.07 .80 CNZ10233Slot 0.9mm PC Board 35/35 CNZ1002-ND .87 .73 .59 CNZ1002Slot 1.2mm PC Board 35/35 CNA1303K-ND◆ .87 .73 .59 CNA1303KSlot 2.0mm PC Board 35/35 CNA1302K-ND◆ .87 .73 .59 CNA1302K4 Slot 5.0mm PC Board 6/6 CNZ1111-ND◆ 2.65 2.12 1.65 CNZ11115 Slot 5.0mm PC Board 6/6 CNZ1112-ND◆ 2.02 1.62 1.22 CNZ11126 Slot 10.0mm PC Board 6/6 CNZ1120-ND◆ 1.86 1.49 1.12 CNZ11207Photo InterrupterSlot 1.0mm PC Board 50/50 CNA1311K-ND◆ .87 .66 .50 CNA1311KSlot 1.0mm PC Board 50/50 CNA1311K0TLC-ND◆ 1.04 .87 .70 CNA1311K0TLCSlot 2.0mm PC Board 50/50 CNA1312K0TLC-ND◆ .98 .82 .66 CNA1312K0TLC8 Slot 3.0mm PC Board 5/5 CNA1006N-ND◆ .77 .58 .44 CNA1006N◆ RoHS Compliant®For Digi-Reel ® information, please see page 73.Fig. 1 Fig. 2 Fig. 3 Fig. 4Fig. 5 Fig. 6 Fig. 7 Fig. 8NMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)145145

NPhotoreflectorsInfrared EmittersOptical SensorsOptical InterruptersStyle/Max. OutputCurrent VfEmittingWavelength Digi-KeyPricingRohmFig. Package (mA) (V) (nm) Part No.1 10 100 Part No.18 Top 30 1.34 800 511-1366-ND 2.45 15.90 121.69 RPR-22019Case 30 2.6 950 846-1013-ND NEW! 3.06 19.90 152.31 RPR-220UC30NCase 30 3.8 470 846-1014-ND NEW! 6.38 43.68 347.42 RPR-220PC30NPhototransistorsResponseTime(tr/tf)(µs)Max.OutputCurrent(mA)Fig.OutputTypeSlot Width(mm)Digi-KeyPart No.1Pricing10 100RohmPart No.NPN 1.2 10/10 30 511-1629-1-ND† 1.09 9.11 72.91 RPI-01251NPN 1.2 10/10 30 511-1629-2-ND‡ 382.50/750 RPI-0125NPN 1.2 10/10 30 511-1630-1-ND† 1.08 8.07 60.55 RPI-0126NPN 1.2 10/10 30 511-1630-2-ND‡ 716.00/2,000 RPI-0126NPN 1.0 10/10 30 511-1336-ND 1.50 9.29 67.97 RPI-121NPN 1.0 10/10 30 511-1338-ND 1.24 7.25 49.58 RPI-124F2 NPN 2.3 10/10 30 511-1347-ND 1.18 6.90 47.22 RPI-221NPN 2.0 10/10 30 511-1348-ND 1.54 9.00 61.62 RPI-222NPN 4.0 10/10 30 511-1341-ND 1.32 7.69 52.65 RPI-411C13 NPN 0.8 10/10 30 511-1337-ND 1.41 8.71 63.72 RPI-122F4NPN 1.2 10/10 30 511-1339-ND 1.41 8.71 63.72 RPI-131NPN 2.0 10/10 30 511-1349-ND 1.78 11.01 80.50 RPI-2435 NPN 2.0 10/10 30 511-1350-ND 1.46 8.52 58.32 RPI-2466 NPN 3.0 10/10 30 511-1340-ND .97 5.69 38.96 RPI-3037 NPN 3.0 10/10 30 511-1351-ND 1.44 8.38 57.37 RPI-3528 NPN 5.0 10/10 30 511-1475-ND 1.20 7.59 56.93 RPI-579N19 Photo IC 1.1 5/.05 10 511-1342-ND 2.12 13.77 105.38 RPI-113310SMD 1.2 10/10 30 846-1005-1-ND† NEW! 1.15 6.73 46.04 RPI-0128T81SMD 1.2 10/10 30 846-1005-2-ND‡ NEW! 686.00/2,000 RPI-0128T8111SMD 1.2 10/10 30 846-1006-1-ND† NEW! 1.22 7.55 55.23 RPI-0129SMD 1.2 10/10 30 846-1006-2-ND‡ NEW! 366.00/750 RPI-012912SMD 2.0 30/30 30 846-1007-1-ND† NEW! 1.18 7.26 53.10 RPI-0226SMD 2.0 30/30 30 846-1007-2-ND‡ NEW! 842.00/2,000 RPI-022613 DIP 1.2 10/10 30 846-1008-ND NEW! 1.15 6.73 46.04 RPI-12814 DIP 1.2 10/10 30 846-1009-ND NEW! 1.15 6.73 46.04 RPI-13015 DIP 4.0 10/10 30 846-1010-ND NEW! 1.44 8.89 65.00 RPI-39216 DIP 2.0 10/10 30 846-1011-ND NEW! 2.16 14.00 107.17 RPI-510017 DIP 1.5 10/10 30 846-1012-ND NEW! 2.34 15.22 116.52 RPI-151† Cut Tape ‡ Tape and ReelMax. PeakOutput SensitivityOutput Style/ Current Wavelength Digi-KeyPricingRohmFig. Type Package (mA) (nm) Part No.1 10 100 Part No.20NPN SMT 20 800 511-1355-1-ND† 1.06 6.21 42.50 RPM-012PBT87FNPN SMT 20 800 511-1355-2-ND‡ 317.00/1,000 RPM-012PBT87F21NPN SMT 10 600 511-1356-1-ND† 1.32 7.69 52.65 RPM-075PTT86NPN SMT 10 600 511-1356-2-ND‡ 1125.00/3,000 RPM-075PTT8622NPN SMT 30 950 511-1631-1-ND† 2.56 21.33 170.66 RPI-1031NPN SMT 30 950 511-1631-2-ND‡ 896.25/750 RPI-103123 NPN Side View 30 800 511-1353-ND .65 3.80 25.97 RPM-20PBF24 NPN Side View 30 800 511-1354-ND .75 4.38 29.98 RPM-22PBNPN Top 30 800 511-1357-ND .77 4.49 30.69 RPT-34PB3F25 NPN T1 30 800 511-1358-ND .87 5.11 34.94 RPT-37PB3FNPN T1 30 800 511-1359-ND .91 5.31 36.36 RPT-38PB3F† Cut Tape ‡ Tape and ReelEmittingIfMax. VfWavelengthDigi-KeyPricingRohmFig. Style/ Package (mA) (V) (nm) Part No.1 10 100 Part No.23 Side View 50 1.3 950 511-1361-ND 1.07 6.24 42.73 SIM-20ST24 Side View 50 1.3 950 511-1362-ND .89 5.18 35.41 SIM-22STFT1 100 1.3 950 511-1363-ND .57 3.20 20.78 SIR-34ST3FFT1¾ 100 1.3 950 511-1364-ND .57 3.20 20.78 SIR-56ST3FFT1 75 1.2 940 511-1343-ND 1.06 6.21 42.50 SIR-320ST3FF25 T1 75 1.3 940 511-1344-ND .89 5.18 35.41 SIR-341ST3FFT1¾ 100 1.38 950 511-1345-ND .77 4.49 30.69 SIR-505STA47FT1¾ 100 1.34 940 511-1365-ND .57 3.20 20.78 SIR-563ST3FMT1¾ 100 1.6 850 511-1346-ND 1.96 12.73 97.43 SIR-568ST3FSMD - Top View 100 2.5 870 846-1015-1-ND† NEW! 2.35 15.25 116.72 SIM-030ST26SMD - Top View 100 2.5 870 846-1015-2-ND‡ NEW! 2850.00/3,000 SIM-030STSMD - Top View 100 1.7 870 846-1016-1-ND† NEW! 1.44 9.38 71.78 SIM-040ST27SMD - Top View 100 1.7 870 846-1016-2-ND‡ NEW! 1734.00/3,000 SIM-040ST† Cut Tape ‡ Tape and Reel®Fig. 1Fig. 2 Fig. 3Fig. 4Fig. 5Fig. 6Fig. 7 Fig. 8Fig. 9Fig. 10 NEW! Fig. 11 NEW! Fig. 12 NEW!Fig. 13 NEW! Fig. 14 NEW! Fig. 15 NEW!Fig. 16 NEW!Fig. 17 NEW!Fig. 18Fig. 19 NEW!Fig. 20Fig. 21Fig. 22Fig. 23Fig. 24Fig. 25Fig. 26 NEW!Fig. 27 NEW!®For Digi-Reel ® information, please see page 73.146 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Ambient Light SensorsFig.12SemiconductorPeakWavelengthBandwidthPhoto CurrentStandardViewAngle Digi-KeyPrice EachVishayPackage(nm) (nm) Typ. (µA) (°) Part No.1 10 100 Part No.0805 SMD 550 450 ~ 610 12 120 751-1056-1-ND† 1.12 1.01 .80 TEMT6200FX010805 SMD 550 450 ~ 610 12 120 751-1056-2-ND‡ 1239.00/3,000 TEMT6200FX011206 SMD 540 430 ~ 610 0.04 120 751-1051-1-ND† 2.05 1.76 1.44 TEMD6010FX011206 SMD 540 430 ~ 610 0.04 120 751-1051-2-ND‡ 2373.00/3,000 TEMD6010FX011206 SMD 570 360 ~ 970 50 120 751-1055-1-ND† 1.27 1.14 .91 TEMT6000X011206 SMD 570 360 ~ 970 50 120 751-1055-2-ND‡ 1407.00/3,000 TEMT6000X013 3mm 570 360 ~ 970 200 60 751-1057-ND .62 .55 .42 TEPT44004 5mm 570 360 ~ 970 350 40 751-1058-ND .66 .58 .45 TEPT56005 5mm 570 360 ~ 970 75 100 751-1059-ND .66 .58 .45 TEPT5700† Cut Tape ‡ Tape and ReelReflective SensorsOperating Peak OperatingDigi-KeyPrice EachVishayFig. Range (mm) Distance (mm) Output Package Part No.1 10 100 Part No.6 0 ~ 4.5 ≤0.5 Transistor Straight Leads 751-1025-ND 1.18 1.05 .83 CNY7070.2 ~ 4.0 1 Transistor Straight Leads 751-1031-ND 1.06 .94 .75 TCRT10000.2 ~ 4.0 1 Transistor Bent Leads 751-1032-ND 1.10 .97 .77 TCRT101080.2 ~ 15 2.5 Transistor Short Leads 751-1033-5-ND 1.06 .94 .75 TCRT50000.2 ~ 15 2.5 Transistor Straight Leads 751-1034-5-ND 1.06 .94 .75 TCRT5000L92 ~ 25 6 PIN Photodiode 4-SMD 751-1029-1-ND† 2.61 2.25 1.84 TCND50002 ~ 25 6 PIN Photodiode 4-SMD 751-1029-2-ND‡ 2016.00/2,000 TCND5000† Cut Tape ‡ Tape and ReelTransmissive or Interrupter SensorsCut TapeTape and Reel§GapAperture Rise/Fall Digi-KeyPrice EachPricing VishayFig. (mm) Package (mm) Time (µs) Part No.1 10 100 2,000 Part No.103.0 6-SMD 0.3 20 / 30 751-1030-1-ND 1.89 1.69 1.35 696.00/M TCPT1300X013.0 — 0.3 20 / 30 751-1040-1-ND 2.02 1.74 1.42 780.00/M TCUT1300X0111 2.8 — 0.5 15 / 10 751-1036-5-ND† 1.03 .92 .73 — TCST123012 2.7 — 0.5 15 / 10 751-1039-5-ND† 1.53 1.36 1.07 — TCST5250133.1 w/o flange 0.5 10 / 8 751-1035-5-ND† 1.35 1.20 .95 — TCST12023.1 with flange 0.5 10 / 8 751-1037-5-ND† 1.56 1.41 1.14 — TCST2202† Tube § For Tape & Reel part number, change 1-ND to 2-ND.®®®Dimensions in mmFig. 1 Fig. 2 2.02.01.251.05.854.0Fig. 3 Ø 3.0 Fig. 4 Ø 5.0 Fig. 5 Ø 5.14.58.65.0Fig. 67.0 7.0Fig. 7 2.57.06.04.0Fig. 8 Fig. 97.03.95.810.23.7 6.0Fig. 10 4.0 5.5 Fig. 11 4.8 9.24.05.42.8Fig. 12 6.0 Fig. 1314.33.1 10.89.52.724.56.3Features:OQ) Adjust able temp erature com pensationof sensitivityProgrammable Linear Hall Effect ICs5.335.4312 343.793.631.0MAX.0.450.351.221.32 3.763.86Dimensions in mm1: VDD2: Test/Readback3: GND4: OutputDescription◆ RoHS CompliantTemperatureRange (°C)PackageDigi-KeyPart No.Price Each1 10 25 50Precision Programmable Linear Hall IC -40 ~ 85 4-SIP(VA) MLX90215EVA-ND◆ 9.13 6.86 5.67 4.72Precision Programmable Linear Hall IC -40 ~ 150 4-SIP(VA) MLX90215LVA-ND◆ 9.54 7.17 5.92 4.94Daughter Board for PTC Devices PTC-04-DB-90316-ND 145.00 — — —Programmer for PTC Devices PTC-04-ND 1450.00 — — —Hall Effect Sensor ICs — US SeriesOutput Type: Open DrainSupplyOperating Point(mT)Release Point(mT) Operating Temperature Digi-KeyCut TapePrice EachDigi-KeyTape & ReelPricingPackage Voltage Min. Typ. Max. Min. Typ. Max. Type† Range Part No.1 10 25 100 Part No.3,000TSOT-3L 3.5 ~ 24 1.0 5.0 9.0 -9.0 -5.0 -1.0 Bipolar -40°C ~ 85°C US1881ESECT-ND◆ 1.64 1.24 .95 .57 US1881ESETR-ND◆ 367.00/MUA-92 3.5 ~ 24 1.0 5.0 9.0 -9.0 -5.0 -1.0 Bipolar -40°C ~ 85°C US1881EUA-ND§ 1.55 1.17 .90 .53 — —TSOT-3L 3.5 ~ 24 0.5 — 9.5 -9.5 — -0.5 Bipolar -40°C ~ 150°C US1881LSECT-ND◆ 1.82 1.38 1.06 .63 US1881LSETR-ND◆ 408.00/MUA-92 3.5 ~ 24 1.0 5.0 9.0 -9.0 -5.0 -1.0 Bipolar -40°C ~ 150°C US1881LUA-ND◆§ 1.92 1.45 1.11 .66 — —TSOT-3L 3.5 ~ 24 0.5 — 4.5 -4.5 — -0.5 Bipolar -40°C ~ 85°C US2881ESECT-ND◆ 1.82 1.38 1.06 .63 US2881ESETR-ND◆ 408.00/MUA-92 3.5 ~ 24 0.5 — 4.5 -4.5 — -0.5 Bipolar -40°C ~ 85°C US2881EUA-ND◆§ 1.92 1.45 1.11 .66 — —TSOT-3L 3.5 ~ 24 0.5 — 4.5 -4.5 — -0.5 Bipolar -40°C ~ 150°C US2881LSECT-ND◆ 2.03 1.53 1.18 .70 US2881LSETR-ND◆ 453.00/MUA-92 3.5 ~ 24 0.5 — 4.5 -4.5 — -0.5 Bipolar -40°C ~ 150°C US2881LUA-ND◆§ 2.13 1.61 1.24 .73 — —TSOT-3L 3.5 ~ 24 -3.0 — 6.0 -6.0 — 3.0 Bipolar -40°C ~ 85°C US2882ESECT-ND◆ 1.73 1.31 1.01 .60 US2882ESETR-ND◆ 387.00/MUA-92 3.5 ~ 24 -3.0 — 6.0 -6.0 — 3.0 Bipolar -40°C ~ 85°C US2882EUA-ND§ 1.82 1.38 1.06 .63 — —TSOT-3L 3.5 ~ 24 -3.5 — 6.0 -6.0 — 3.5 Bipolar -40°C ~ 150°C US2882LSECT-ND◆ 1.93 1.45 1.12 .66 US2882LSETR-ND◆ 430.00/MUA-92 3.5 ~ 24 -2.0 2.0 6.0 -6.0 -2.0 2.0 Bipolar -40°C ~ 150°C US2882LUA-ND§◆ 1.82 1.37 1.05 .63 — —UA-92 2.2 ~ 18 0.5 2.0 4.5 -4.5 -2.0 -0.5 Bipolar -40°C ~ 85°C US4881EUA-ND◆§ 1.73 1.30 1.00 .60 — —UA-92 2.2 ~ 18 0.5 2.0 4.5 -4.5 -2.0 -0.5 Bipolar -40°C ~ 150°C US4881LUA-ND◆§ 1.92 1.45 1.11 .66 — —UA-92 3.5 ~ 24 15 25 30 9.5 20 28 Unipolar -40°C ~ 85°C US5881EUA-ND◆§ 2.00 1.51 1.16 .69 — —UA-92 3.5 ~ 24 15 25 30 9.5 20 28 Unipolar -40°C ~ 150°C US5881LUA-ND§ 2.22 1.67 1.29 .76 — —TSOT-3L 3.5 ~ 24 7 12 15 3.5 7.5 10 Unipolar -40°C ~ 85°C US5781ESECT-ND◆ 2.11 1.59 1.22 .73 US5781ESETR-ND◆ 471.00/MUA-92 3.5 ~ 24 7 12 15 3.5 7.5 10 Unipolar -40°C ~ 85°C US5781EUA-ND◆§ 2.22 1.67 1.29 .76 — —TSOT-3L 3.5 ~ 24 7 12 15 3.5 7.5 10 Unipolar -40°C ~ 150°C US5781LSECT-ND◆ 2.10 1.58 1.22 .72 US5781LSETR-ND◆ 470.00/MUA-92 3.5 ~ 24 7 12 15 3.5 7.5 10 Unipolar -40°C ~ 150°C US5781LUA-ND◆§ 2.47 1.86 1.43 .85 — —TSOT-3L 3.5 ~ 24 7 12 15 3.5 7 10 Unipolar -40°C ~ 85°C US5782ESECT-ND◆ 2.18 1.64 1.26 .75 US5782ESETR-ND◆ 486.00/MTSOT-3L 3.5 ~ 24 7 12 15 3.5 7 10 Unipolar -40°C ~ 150°C US5782LSECT-ND◆ 2.42 1.82 1.40 .83 US5782LSETR-ND◆ 540.00/M◆ RoHS Compliant † Unipolar is only sensitive to either a north or south pole of a magnet. Bipolar is sensitive to alternating magnetic fields of both north and south poles. § Bulk®TSOT-3LUA-922.75BSC1: VDD2: Output3: GNDDimensions in mmTop View0.402.90BSCFront View2.722.510.410.351 2 31.60BSC4.303.903.202.801.751.551.301.24 2.572.511: VDD2: GND3: Output1.90 BSCThickness:0.90 - 0.85NEW! Automotive Camera ModuleFeatures: ° Autobrite® Manual settings possible via I2C Qualified Automotive Design Low power (960mW @ 4.4V and 30fps)Applications: Night Vision Vision for Autonomous Vehicles Vision for Commercial VehiclesSecurity VisionDigi-KeyPrice MelexisDescription Resolution Speed Part No.Each Part No.Automotive Camera Module 640 x 480 30fps MLX75403ACM-ND 361.00 MLX75403 “ACM”N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)147147

Fig. 1 Fig. 2Fig.OutputCurrent(mA)OutputDCVoltageOutputRiseTyp./ Max.OutputFall TimeTyp./ Max.SupplyCurrentTyp./ Max. Digi-Key(mA) Part No.Price Each1 100 250TTE/OPTEKTechnologyPart No.Hallogic ®Hall Effect SensorsFig.1Operate Point*Min. / Typ. /Max.(Gauss - B)Release PointMin. / Typ. /Max.(Gauss - B)Hysteresis Supply Cur.TTE/OPTEKTyp. / Max. Typ. / Max. Digi-KeyPrice Each Technology(Gauss - B) (mA) Part No. 1 100 250 Part No.0/90/180 -100/65/100 25/100 6/9 365-1001-ND 2.67 1.56 1.50 OH090U70/—/200 50/—/180 —/— 4/7 365-1003-ND 3.11 1.81 1.74 OHS3140U235/300/465 120/235/325 65/200 6/9 365-1036-ND 2.67 1.56 1.50 OH360U70/ —/350 50/—/330 —/— 4/7 365-1037-ND 3.11 1.81 1.74 OHN3120U2 25 25 0.21/1.00 µs 0.25/1.00 µs 4/7 365-1002-ND 6.74 3.92 3.77 OHB900LatchingFig.Operate Point*Min./ Max.(Gauss - B)Release PointMin. / Max.(Gauss - B)* South pole facing symbolized surface.HysteresisMin.(Gauss - B)Supply Cur.Typ./ Max.(mA)Digi-KeyPart No.Price Each1 100 250TTE/OPTEKTechnologyPart No.1 25/170 -170/-25 100 4/7 365-1039-ND 2.34 1.36 1.31 OHS3175UHall Effect SensorsHamlin’s Hall Effect Sensor technology offers unique design bene fits. In applications where highspeed switching is re quired, speeds of up to 10KHz can be reached. The com ponent package issmall compared with other sensing tech no logies and the sensors can be specified with either adigital or ana logue output.Dimensions in Inches (mm)Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5Fig. 6 NEW!1.417(36.0)11.81(300.0) 55075 Has a robust stain lesssteel barrel and comes withtwo retaining nuts..866(22.0)1.102(28.0).531(13.50).354(9.0)1.004(25.5) .654(16.60).118(3.00)11.81(300).433(11.0)1.338(34.0) .866(22.0).394(10.0)11.81(300).551(14.0).551(14.0).551(14.0).906(23.0)11.81(300).236(6.00)1.25(31.75)1.63(41.4)11.81(300)Fig.SupplyVoltage (VDC)Output Current(mA)TerminalTypeFeaturesDigi-KeyPart No.Price Each1 10 50HamlinPart No.1 4.75 ~ 25.2 20 Geartooth 55075-00-02-A-ND 28.00 23.42 19.09 55075-00-02-A2 3.8 ~ 24 20 PC Mount Ferrous Vane 55085-3M-00-0-ND 8.87 7.51 6.28 55085-3M-00-03 3.8 ~ 24 10 Mini PNL MNT 55100-3H-02-A-ND 7.22 6.11 5.11 55100-3H-02-A4 3.8 ~ 24 10 LED PNL MNT 55110-3H-02-A-ND 9.52 8.06 6.74 55110-3H-02-A5 3.8 ~ 24 20 Flange MNT 55140-3H-02-A-ND 7.02 5.94 4.97 55140-3H-02-A6 4.75 ~ 24 20 Flange MNT 55505-00-02-A-ND NEW! 21.87 18.51 15.48 55505-00-02-AHall Effect SensorsLower power consumption and higher sensitivity over previous versions.Fig. 1 Fig. 21.4530.801 2 31.502.80 1.10®Dimensions in Inches5 42.101.6511.902.902541 2 31.302.00SupplyVoltageOutputCurrent OutputDigi-KeyCut TapePrice EachDigi-KeyTape and ReelPricing PanasonicFig. (VDC) (mA) Type Polarity Package Part No.1 10 100 Part No.3,000 Part No.12.5 ~ 3.5 30 Open Drain Unipolar Mini-3 AN48800A-NLCT-ND 1.14 .96 .77 — — AN48800A-NL2.5 ~ 3.5 15 Open Drain Unipolar† Mini-3 AN48820A-NLCT-ND 1.14 .96 .77 — — AN48820A-NL2.5 ~ 3.5 15 CMOS Unipolar S-Mini-5 AN48810B-NLCT-ND 1.14 .96 .77 AN48810B-NLTR-ND 495.00/M AN48810B-NL2 2.5 ~ 3.5 15 CMOS Bipolar S-Mini-5 AN48840B-NLCT-ND 1.41 1.18 .94 AN48840B-NLTR-ND 610.00/M AN48840B-NL2.5 ~ 5.25 — CMOS Bipolar S-Mini-5 AN48841B-NLCT-ND 1.33 1.11 .89 AN48841B-NLTR-ND 577.00/M AN48841B-NL† Polarity IndependentMagnetic SwitchesFig. 1 Fig. 2Dimensions in InchesNThe patented, award-winning MAGNASPHERE switch represents thefirst break-through in two-wire magnetic switch technology since theintroduction of the reed switch. Originally designed as a replacement forthe reed switch used in security systems, the MAGNASPHERE switchexhibits a wide range of characteristics that make it an ideal solution formany industrial and commercial OEM applications.Features: (normally open) and form B (normally closed)Air Gap Distance (Inches)NEO 35 Magnet (Typ.) Ferrous Metal (Typ.) Digi-KeyPrice EachMagnasphereFig. Open Closed Open Closed Part No.1 10 25 100 Part No.Normally Open1.313 .818 .089 .053 735-1000-ND 6.90 5.31 5.15 4.75 MG-A2-1.5-N1 .897 .652 .061 .034 735-1001-ND 7.18 5.53 5.37 4.88 MG-A2-3.0-N.643 .569 .048 .030 735-1002-ND 7.18 5.53 5.37 4.88 MG-A2-5.0-N2 .713 .577 — — 735-1003-ND 7.36 5.78 5.61 4.86 Normally Closed3 .626 .916 — — 735-1004-ND 6.97 5.79 5.63 4.88 MG-B2-20-S.904 .991 .128 .152 735-1005-ND 6.75 5.87 5.71 4.84 MG-B2-6.5-L4 .943 1.015 .116 .138 735-1006-ND 6.50 5.65 5.50 4.84 MG-B2-8.0-L.843 .902 .111 .131 735-1007-ND 6.50 5.65 5.50 4.84 MG-B2-10-L.440.320.175Fig. 3 Fig. 4.453.320.205.430.183.479.244.320.320®For Digi-Reel ® information, please see page 73.148 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

SensorsHall Effect Sensors®Fig. 1Fig. 2Supply Output Output TerminalDigi-KeyPrice Each Tape & Reel‡ HoneywellFig. Voltage (VDC) Current Type Type Polarity Part No.1 10 25 Qty. Pricing Part No.1 3.8 ~ 30 10mA Sink Lead Wires — 480-1992-ND 7.57 5.54 5.19 — — SR16C-J62 4.5 ~ 24 40mA Sink Lead Wires — 480-1990-ND 28.45 22.64 21.21 — — 4AV16F3 3.8 ~ 30 20mA Sink Lead Wires Unipolar 480-1991-ND 6.41 4.69 4.39 — — SR13C-A14 3.8 ~ 30 40mA Sink Lead Wires — 480-1993-ND 8.36 6.12 5.73 — — SR17C-J63.8 ~ 30 20mA Sink SOT89 Bipolar 480-2011-1-ND 2.34 1.52 1.38 1,000 895.00 SS511AT5 3.8 ~ 30 20mA Sink SOT89 Unipolar 480-2012-1-ND 2.04 1.33 1.21 1,000 782.00 SS541AT3.8 ~ 30 20mA Sink SOT89 Bipolar Latch 480-2013-1-ND 2.75 1.70 1.52 1,000 895.00 SS561AT6 4.5 ~ 24 40mA Sink Lead Wires — 480-2021-ND 23.69 18.85 17.66 — — 1GT101DC8.0 ~ 16 10mA Source PC Board Ratiometric Linear 480-2007-ND 14.08 10.78 10.19 — — 91SS12-27 6.6 ~ 12.6 1mA Sink/Source PC Board Ratiometric 480-2008-ND 18.67 14.29 13.50 — — SS94A16.6 ~ 12.6 1mA Sink/Source PC Board Ratiometric 480-2009-ND 20.56 15.74 14.87 — — SS94A1F4.5 ~ 24 20mA Sink PC Board Bipolar 480-1999-ND 1.82 1.19 1.08 — — SS413.8 ~ 30 20mA Sink PC Board Bipolar 480-2000-ND 3.10 2.02 1.83 — — SS411A3.8 ~ 30 20mA Sink PC Board Unipolar 480-2001-ND 2.02 1.31 1.20 — — SS441A3.8 ~ 30 20mA Sink PC Board Unipolar 480-2002-ND 1.97 1.28 1.17 — — SS443A8 3.8 ~ 30 20mA Sink PC Board Bipolar Latch 480-2003-ND 2.02 1.31 1.20 — — SS461A4.0 ~ 24 10µA Digital Open PC Board Bipolar Latch 480-3310-ND NEW! 1.75 1.09 .97 — — SS461C3.8 ~ 30 20mA Sink PC Board Bipolar Latch 480-2004-ND 1.86 1.22 1.11 — — SS466A4.5 ~ 10.5 1.5mA Sink/Source PC Board Ratiometric 480-2005-ND 2.84 1.85 1.68 — — SS495A3.0 ~ 6.5 1.5mA Source PC Board Analog 480-2006-ND 2.17 1.41 1.29 — — SS49E9 4.5 ~ 24 20mA Sink Lead Wires Unipolar 480-2014-ND 24.61 19.58 18.34 — — 103SR13A-1104.5 ~ 24 20mA Analog Voltage — Bipolar 480-3295-1-ND NEW! 1.69 1.05 .94 — — SS30AT4.0 ~ 24 10µA Digital Open — Bipolar Latch 480-3309-1-ND NEW! 2.00 1.24 1.11 3,000 650.00/M SS361CT‡ For Tape and Reel part number, change 1-ND to 2-ND.Temperature SensorsSupply Supply Temperature LengthPackaging Digi-KeyPrice EachHoneywellFig. Voltage (VDC) Current Sensing Range (Inch) Termination Type Part No.1 10 25 Part No.8 10.0 1mA -40°C ~ 150°C — SIP Plastic Case 480-2017-ND 2.97 1.93 1.76 TD5A9 10.0 1mA — 1.5 Lead Wires 3/8-24 UNF-2A 480-2016-ND 27.54 21.91 20.53 TD4AMagnet SensorsOutside Diameter Thread DimensionLengthDigi-KeyPrice EachHoneywellFig. mm (Inch)(Inch)mm (Inch) Part No.1 10 25 Part No.11 7.9 (0.31) 8-32 17.0 (0.67) 480-2015-ND 10.97 8.03 7.52 102MG11Current SensorsSupply Output Output TerminalSensor Current Response Digi-KeyPrice Each HoneywellFig. Voltage (VDC) Current Type Type Polarity Type Type Time Part No. 1 10 25 Part No.12 5.4 ~ 13.2 — Voltage PCB — Open Loop Linear AC or DC 3µs 480-1994-ND 19.73 15.11 14.27 CSLA2CD13 4.5 ~ 10.5 1.5mA Voltage PCB Positive Open Loop DC 50µs 480-1995-ND 10.40 7.61 7.12 CSLH3A4514 4.75 ~ 5.25 12.5mA Current PCB — Closed Loop Linear AC or DC ≤0.2µs 480-1996-ND 24.66 19.62 18.39 CSNX25Switch SensorSupplyOutputOutputTransistor Digi-KeyPrice EachHoneywellFig. Voltage (VDC) CurrentTypeState Part No.1 10 25 Part No.15 4.5 ~ 24.0 10mA Sink Normally Off 480-2018-ND 9.26 6.78 6.34 VX10MR SensorSupply Output OutputOperate Release Digi-KeyPrice EachHoneywellFig. Voltage (VDC) Current Type Polarity Point Point @25°C Part No.1 10 25 Part No.16 3.8 ~ 30.0 20mA Sink Omnipolar 1.5mT 1.1mT 480-1997-ND 3.52 2.41 2.17 2SS52MOxygen Sensors and Oxygen Sensor Interface BoardsSupply Oxygen Sensors Oxygen Gas Flow Output Digi-KeyPrice EachHoneywellFig. Voltage (VDC) Supply Current Range Rate Signal Part No.1 10 Part No.Oxygen Sensors17 — — 2 ~ 3,000 mbar 0 ~ 20 m/sec. — 480-2089-ND 330.14 284.45 KGZ-10SP18 — — 2 ~ 3,000 mbar 0 ~ 10 m/sec. — 480-2088-ND 215.17 185.40 GMS10RVS19 — — 2 ~ 3,000 mbar 0 ~ 20 m/sec. — 480-2090-ND 259.51 223.60 KGZ-102024.0 ±5% 500mA 0 ~ 100% 0 ~ 10 m/sec. 1 ~ 10 Volt 480-2092-ND 1572.68 1397.19 MF010-0-LC224.0 ±5% 500mA 0 ~ 25% 0 ~ 10 m/sec. 4 ~ 20mA 480-2093-ND 1572.68 1397.19 MF010-0-LC324.0 ±5% 500mA 0 ~ 100% 0 ~ 10 m/sec. 4 ~ 20mA 480-2094-ND 1572.68 1397.19 MF010-0-LC4Oxygen Sensor Interface Boards— 24.0 ±20% — 0 ~ 25% — 0 ~ 10 Volt 480-2095-ND 641.00 561.40 DE800.V.1— 24.0 ±20% — 0 ~ 100% — 0 ~ 10 Volt 480-2096-ND 1022.24 902.84 DE800.V.2— 24.0 ±20% — 0 ~ 25% — 4 ~ 20mA 480-2097-ND 641.00 561.40 DE800.A.1— 24.0 ±20% — 0 ~ 100% — 4 ~ 20mA 480-2098-ND 641.00 561.40 DE800.A.2— ±15.0/±10% — 0 ~ 25% — 0 ~ 10 Volt 480-2099-ND 379.60 327.07 ELECDIT.V.1— ±15.0/±10% — 0 ~ 100% — 0 ~ 10 Volt 480-2100-ND 379.60 327.07 ELECDIT.V.2— 24.0 ±20% — 0 ~ 25% — 0 ~ 10 Volt 480-2103-ND 387.19 333.61 OXYMAC50.V.1— 24.0 ±20% — 0 ~ 100% — 0 ~ 10 Volt 480-2104-ND 387.19 333.61 OXYMAC50.V.2— 24.0 ±20% — 0 ~ 25% — 4 ~ 20mA 480-2105-ND 387.19 333.61 OXYMAC50.A.1— 24.0 ±20% — 0 ~ 100% — 4 ~ 20mA 480-2106-ND 387.19 333.61 OXYMAC50.A.2NEW! SMART Position SensorSupplySupplyOutputTermination Digi-KeyPrice Each HoneywellFig. Voltage (VDC) CurrentTypeStyle Part No.1 10 25 Part No.21 6 ~ 24 32mA Analog Wire Leads 480-3311-ND 196.57 169.37 161.30 SPS-L075-HALSFig. 3Fig. 4Fig. 5Fig. 6Fig. 7Fig. 8Fig. 9Fig.10 NEW!Fig. 11Fig. 12Fig. 13Fig. 14Fig. 15Fig. 16Fig. 17Fig. 18Fig. 19 Fig. 20Fig. 21 NEW!Liquid Level SensorsFig. 1Fig. 2Fig. 3Fig. 4Fig. 5OperatingLevel Digi-KeyPrice Each HoneywellFig. Temperature DescriptionType Part No.1 10 25 Part No.1-25°C ~ 80°C Screw In, M12 Thread, Plastic 1 480-2022-ND◆ 40.31 32.07 30.05 LLE101000-40°C ~ 125°C Screw In, M12 Thread, Plastic 1 480-2026-ND 55.44 45.93 43.95 LLE1011012-25°C ~ 80°C Screw In, M12 Thread, Plastic 2 480-2023-ND 42.33 33.67 31.55 LLE102000-40°C ~ 125°C Screw In, M12 Thread, Plastic 2 480-2027-ND 53.62 44.42 42.51 LLE1021013-25°C ~ 80°C Screw In, M12 Thread, Plastic 3 480-2024-ND◆ 43.19 34.36 32.19 LLE103000-40°C ~ 125°C Screw In, M12 Thread, Plastic 3 480-2028-ND 57.25 47.43 45.38 LLE1031014-25°C ~ 80 °C Push In, Plastic 5 480-2025-ND 42.04 33.44 31.33 LLE105000-40°C ~ 125°C Push In, Plastic 5 480-2029-ND 51.29 42.49 40.66 LLE1051015-40°C ~ 125°C Industrial High Air, Stainless 5 480-2030-ND 206.58 178.00 169.52 LLN8651721-40°C ~ 125°C Industrial Low Air, Stainless 5 480-2031-ND 206.58 178.00 169.52 LLN865172-2◆ RoHS CompliantN®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)149149

VRS and Hall Effect Speed SensorsVRS Sensors are for high speed sensing applications where higher output voltages areneeded. Hall Effect Speed Sensors are designed for use with a ferromagnetic gear orpole wheel to generate impulse frequencies proportional to the speed of the target.Fig. 114.273/8-24UNF-2A THDABHEXNUTØ 11.1Fig. 2 Fig. 3 AFig. 4BA609.619.05BANEG. (-)9.65SHELLPOS. (+)Ø 19.05.255/8-18 HEX NUTSUNF-2A THDB7.925/8-18UNF-2A THDAHEX NUTS19.051.14Ø 19.05B APOS. (+) NEG. (-)Fig. 59.531/4-40UNS-2A THDABLOCKNUTØ 7.49Fig. 6 A 609.6 Fig. 7 LOCKNUTFig. 83015S13,THD31.753/8-24 UNF 2ATHD LOCK3050S10 THDNUT3010S20, 3030S20, 3030S30, 3040S20 5/8-18 UNF-2AB1/2-14NPTAB5/8-18UNF-2A THDAHEXNUT19.05B19.05ACFig. 9.250-40 UNS-2A THD25.4Fig. 1019.05BA(B+28.11)19.05Fig. 11THD404958.7Fig. 12THD501000Fig. 13 Fig. 14 Fig. 15 Fig. 1674.5M12 X 1605010 14 14 35.522M12X 16GM12 X 1 SW17O-ringHex Nut25.71450.7Orientation:ring and flatAHEX NUT THDFig. 17 Fig. 18 Fig. 19 Fig. 20 Fig. 211919Ø 14.910.6425.4 914.4235.082.97(2X)1025.9Ø 14 1.02.8 (3X)25.41.515/32-32UNS-2A THDDirectionA27.4of rotation35.1M14x1Ø12.4NVRS SensorsFig.12345678910Dim. (mm) OutputCoilResistanceInductanceDigi-KeyPrice EachA B Voltage (Ω) (mH) Part No.1 10 25HoneywellSensingPart No.31.75 20.62 55 330 75 480-2782-ND 82.00 67.93 65.00 .3025100 88.9 55 330 75 480-2783-ND 118.29 100.16 96.26 .3025A3599.1 88 20 45 ~ 65 15 480-3259-ND 107.05 90.64 87.11 3015A3555.1 44 55 275 ~ 330 75 480-3262-ND 100.21 84.86 81.55 3025A1763 — 20 45 ~ 65 15 480-3261-ND 133.82 113.32 108.91 3015SS2534.93 — 55 390 75 480-2784-ND 88.72 73.50 70.33 .3025SS1357.99 29.87 40 200 85 480-2787-ND 91.41 75.72 72.46 .3039AN57.99 29.87 34 85 25 480-2785-ND 91.41 75.73 72.46 .3009AN57.99 29.87 170 1200 450 480-2786-ND 86.83 73.52 70.66 .3029AN57.99 29.87 190 1200 450 480-2776-ND 77.97 64.59 61.80 3030AN91.62 63.5 190 1200 450 480-2777-ND 96.89 82.05 78.85 .3030AN25104.32 76.20 190 1200 450 480-2778-ND 111.99 94.83 91.14 .3030AN30129.72 101.6 190 1200 450 480-2779-ND 149.74 126.80 121.86 .3030AN40155.12 127 190 1200 450 480-2780-ND 167.58 144.39 137.51 .3030AN5064.29 36.5 190 1200 450 480-2775-ND 86.83 73.52 70.66 .3030A64.29 36.5 80 85 25 480-2788-ND 101.93 86.31 82.95 .3044A64.29 36.5 300 1200 450 480-2789-ND 101.93 86.31 82.95 .3045A64.29 36.5 65 200 85 480-2790-ND 101.93 86.31 82.95 .3046A25.4 17.45 12 190 16 480-2791-ND 136.99 116.00 111.48 .305039.67 31.75 12 190 16 480-2792-ND 155.90 132.01 126.87 .3050A1358.72 50.8 12 190 16 480-2793-ND 203.23 175.11 166.77 .3050A2025.4 — 12 190 16 480-2794-ND 127.24 107.74 103.55 .3050S1012.7 — 8 155 14 480-2795-ND 200.86 173.07 164.82 .308050.8 — 190 1200 450 480-2781-ND 86.03 71.27 68.19 .3030S2030 — 20 45 ~ 65 15 480-3260-ND 74.21 61.48 58.82 3015S1330 — 55 275 ~ 330 75 480-3263-ND 74.21 61.48 58.82 3025S1350 — 40 45 ~ 85 25 480-3258-ND 87.37 72.38 69.26 3010S2050 — 70 120 ~ 162 85 480-3268-ND 87.37 72.38 69.26 3040S2076 — 190 910 ~ 1200 450 480-3264-ND 94.52 80.04 76.92 3030S3079.38 47.63 60 280 115 480-2796-ND 255.52 220.16 209.68 .3070A120.65 88.9 60 280 115 480-2797-ND 307.82 265.22 252.59 .3070A3579.38 47.63 60 280 115 480-2798-ND 216.30 186.37 177.50 .3090A120.65 88.9 60 280 115 480-2799-ND 248.39 214.02 203.83 .3090A3557.73 29.97 175 1200 450 480-2800-ND 122.06 103.36 99.33 .MA230SAN103.96 76.2 175 1200 450 480-2801-ND 169.95 146.43 139.46 .MA233SAN57.73 29.97 60 200 85 480-2802-ND 122.06 103.36 99.33 .MA240SAN103.96 76.2 60 200 85 480-2803-ND 169.95 146.43 139.46 .MA243SAN103.96 76.2 60 200 85 480-2804-ND 222.24 191.49 182.37 .MA243HT— — 5.2 20 ~ 45 1.5 ~ 4.5 480-3271-ND 187.78 161.80 154.09 MA3055— — 5.2 20 ~ 45 1.5 ~ 4.5 480-3272-ND 217.94 187.78 178.84 MA3055S1091.1 63 40 45 ~ 85 25 480-3257-ND 87.69 74.25 71.36 3010AN2591.1 63 70 120 ~ 162 85 480-3265-ND 92.24 78.11 75.07 3040A2591.1 63 70 120 ~ 162 85 480-3266-ND 87.69 74.25 71.36 3040AN25104.1 76 70 120 ~ 162 85 480-3267-ND 101.35 85.82 82.48 3040AN30Hall Effect Speed SensorsSupplyFrequency Digi-KeyPrice Each Honeywell SensingFig. Current (mA) Output (kHz) Part No.1 10 25 Part No.1125 Square Wave 15 480-2810-ND◆ 73.82 61.15 58.51 SNDJ-H3C-G0125 Square Wave 15 480-2812-ND◆ 83.39 69.08 66.10 SNDJ-H3C-G021225 Square Wave 15 480-2811-ND◆ 81.13 67.21 64.31 SNDJ-H3L-G0125 Square Wave 15 480-2813-ND◆ 88.22 73.08 69.93 SNDJ-H3L-G0213 32 Square Wave 25 480-2821-ND◆ 91.90 77.82 74.79 SNDJ-D3C-G0114 32 Square Wave 25 480-2822-ND◆ 91.90 77.82 74.79 SNDJ-D3P-G0115 32 Square Wave 15 480-2823-ND◆ 160.03 135.51 130.23 SNDJ-T4C-G01Supply Output Dimensions Rise/FallCurrent Sinking (mm) Time Digi-KeyPrice Each Honeywell SensingFig. (mA) (mA) A B (µs) Part No. 1 10 25 Part No.824 80 76.2 47.63 1 / 1 480-2805-ND 205.97 177.47 169.02 .58426HV24 80 76.2 47.63 1 / 1 480-2806-ND 205.97 177.47 169.02 .58426LV1620 20 20 — 4 / 4 480-2807-ND 97.07 82.20 79.00 .LCZ26020 20 20 — 4 / 4 480-2808-ND 97.07 82.20 79.00 .LCZ46017 6 30 — — .07 / .07 480-2809-ND 61.45 50.91 48.71 .ZH1040 15 40 — 30 / 5 480-2814-ND◆ 50.77 40.39 37.84 GTN1A11140 15 53 — 30 / 5 480-2815-ND◆ 46.33 38.39 36.73 GTN1A11240 15 77.5 — 30 / 5 480-2816-ND◆ 47.64 39.47 37.77 GTN1A11318 40 15 83.5 — 30 / 5 480-2817-ND◆ 48.28 40.00 38.28 GTN1A11440 15 95 — 30 / 5 480-2818-ND◆ 48.94 40.55 38.80 GTN1A11540 15 100 — 30 / 5 480-2819-ND◆ 48.94 40.55 38.80 GTN1A11640 15 140 — 30 / 5 480-2820-ND◆ 48.35 38.47 36.04 GTN1A21120 40 — — 15 / 1 480-2824-5-ND 20.72 16.49 15.45 1GP400120 40 — — 2 / 1 480-2825-5-ND 20.72 16.49 15.45 1GP400419 20 40 — — 15 / 1 480-2826-5-ND 18.24 13.97 13.19 1GP700120 40 — — 15 / 1 480-2827-5-ND 20.72 16.49 15.45 1GP500521 — — — 27 / 1 480-2829-5-ND 20.72 16.49 15.45 1GQ800120 20 10 — — 18 / 1 480-2828-5-ND 23.91 19.02 17.82 3GC40121 18 10 — — 0.2 /0.1 480-3256-ND◆ 20.21 15.47 14.61 SR3FA1◆ RoHS CompliantTachometers and ConverterDigi-KeyPrice Each Honeywell SensingDescriptionPart No.1 10 25 Part No.Din-Rail Mount Tachometer with Relay,RS-232 0/4 ~ 20mA Output480-2831-ND◆ 289.35 249.31 237.44 SNDJ-CNT-G01Din-Rail Mount Tachometer with Relay,RS-232 0/2 ~ 10V Output480-2832-ND◆ 289.35 249.31 237.44 SNDJ-CNT-G02Din-Rail Mount Tachometer with Relay,RS-232 0/4 ~ 20mA Output, with Display480-2833-ND◆ 425.03 372.25 359.20 SNDJ-CNT-G03Din-Rail Mount Tachometer with Relay,RS-232 0/2 ~ 10V Output, with Display480-2834-ND◆ 425.03 372.25 359.20 SNDJ-CNT-G04Frequency to DC Converter 480-2830-ND 313.76 270.34 257.47 .FDCUSB Programming Cable 480-2835-ND◆ 67.84 56.20 53.78 SNDJ-CBL-G01Accessories8/32 Threaded Actuator Magnet 480-3247-ND◆ 6.65 4.87 4.56 102MG11BP1/4-20 Thread Rare Earth Magnet 480-3248-ND◆ 9.74 7.13 6.67 106MG10BP◆ RoHS Compliant150 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Hall Effect Sensor ICsPanasonic’s Hall IC is a combination of a Hall element, amplifier, Schmidt circuit, and stabilized powersupply/temperature compensator integrated on an identical chip by using the IC technology. It amplifies Hall elementoutput at the amplifier, converts into a digital signal through the Schmidt circuit, and drives the TTL or MOS IC directly.Features: Applications: Fig. 11: Vcc2: Gnd3: Output1.01.04.524.52123 12.5.41.27.41.54.72Fig. 21: Vcc2: Gnd3: Output4: Gnd3.01.621.5.3 35.443 1.61.51.5.95 0.4.15 0.1SupplyVoltageRangeOperating**Flux Density(Gauss) Output* Operating†Digi-KeyPrice EachFig. (V) (L-H) (H-L) Type Type Pkg. Part No.1 10 1001 4.5 ~ 16 -175 175 0C Bidirectional 3-Sip DN6849SE-ND◆ 1.51 1.22 .912 4.5 ~ 16 -175 175 0C Bidirectional SOH-4D DN6849S-ND 1.69 1.36 1.02* Output Type: 0C = Open Collector. ** To convert Gauss to millitesla, divide by 10† Unidirectional is only sensitive to either north or southside of magnetic; Bidirectional is sensitive to an alternatingmagnetic fields of both north and south sides. ◆ RoHS CompliantInfrared PhotosensorsFig. 1 Fig. 2 Fig. 3Fig. 4 Fig. 5 Fig. 6 Fig. 7 Fig. 8Fig. 9Fig. 10 Fig. 11Fig. 12Fig. 13 Fig. 14 Fig. 15 Fig. 16 Fig. 17Fig. 18Fig. 19Fig. 20 Fig. 21 Fig. 22 Fig. 23 Fig. 24Infrared Light Emitting DiodeFig.Style/PackagePulseForwardCurrent(A)OpticalPowerOutputPeakEmissionWavelengthAngle PartBeam Digi-KeyNo.Pricing1 10 100PanasonicPart No.1 Side View 1 4.6mW 950nm 17° LN54PA-ND◆ 1.00 8.37 66.96 LN542 Top View 0.2 2.5mW 680nm 30° LNA4501FV-ND◆ 1.28 10.26 76.92 LNA4501FV2 Top View 1.5 7mW 950nm 45° LN64PA-ND◆ .91 7.56 60.48 LN643 Side View 2 12mW 900nm 115° LN175PA-ND◆ 1.81 14.47 108.54 LN1753 Side View 1.5 3-6mW 940nm 80° LNA2603F-ND◆ 1.27 10.12 75.90 LNA2603F4 T-1 1 3.5mW/sr 940nm 15° LN69-ND◆ .46 3.46 25.96 LN694 T-1 1 6mW/sr 940nm 15° LNA2801L-ND◆ .67 5.03 37.73 LNA2801L4 T-1 1 2.5-5mW 950nm 20° LNA2802L-ND◆ .45 3.61 27.08 LNA2802L4 T-1 3/4 1 10mW 860nm 20° LN77L-ND◆ 1.15 8.65 53.85 LN77L4 T-1 3/4 1 12mW/sr 860nm 22° LNA4801L-ND◆ 1.28 10.26 76.92 LNA4801L4 T-1 3/4 1.5 9mW/sr 950nm 20° LNA2902L-ND◆ .46 3.46 25.96 LNA2902L4 T-1 3/4 1.5 9mW/sr 950nm 25° LNA2903L-ND◆ .45 3.61 27.08 LNA2903L4 T-1 3/4 1.5 13.0mW/sr 950nm 15° P14233-ND◆ .51 3.85 28.85 LN66F4 T-1 3/4 1 15mW 880nm 15° P14231-ND◆ 1.27 10.58 84.62 LNA4905L5 TO-18 2 3-6mW 950nm 8° LN51L-ND◆ 3.63 29.02 225.70 LN51L5 TO-18 1 10mW 860nm 6° P14230-ND◆ 2.60 20.77 161.54 LNA4401L6 TO-18 Small 0.2 1.5mW 680nm 80° LNA4402L-ND◆ 1.60 12.82 96.15 LNA4402L6 TO-18 Small 1.5 5-10mW 950nm 90° LN152-ND◆ 2.13 17.74 141.91 LN1526 TO-18 Small 2 3.5-6mW 950nm 100° LN52-ND◆ 3.05 24.38 189.59 LN527 Side View 1 1.8-3.5mW 950nm 35° LN55-ND◆ .78 6.53 52.26 LN557 Side View 1.5 4.3-5.5mW 950nm 35° LN65-ND◆ 1.29 10.34 77.52 LN658 Axial 1 3-4.5mW 950nm 18° LNA2W01L-ND◆ 1.35 11.29 90.28 LNA2W01L9 Side View 1 6mW 880nm 25° LN75X-ND◆ 1.28 10.26 76.92 LN75X9 Side View 1 6-10mW 880nm 40° LN78-ND◆ 4.97 39.77 309.30 LN789 Side View 1 1.8-3.5mW 950nm 35° LN58-ND◆ .97 8.06 64.49 LN5810 Side View x2 1 1.2mW/sr 940nm 23° LNA2701L-ND 1.32 10.96 87.70 LNA2701L10 Side View x2 1 1.8mW 950nm 23° LN59-ND 1.10 9.13 73.01 LN5924 Ceramic Base 1 3.5mW 950nm 80° P14232-ND◆ 1.73 13.85 103.85 LN162S◆ RoHS CompliantNPN Photo TransistorStyle/ VCEO IcPeakSensitivityWavelengthtr/tf Digi-KeyPricingPanasonicFig. Package (V) (mA)(µs) Part No.1 10 100 Part No.1 Side View 20 20 800nm 4 PNZ154-ND◆ 1.39 11.61 92.88 PNZ1544 T-1 30 20 800nm 4 PNA1801LS-ND◆ .56 4.23 31.73 PNA1801LS4 T-1 30 20 850nm 4 PNA1801L00NC-ND◆ .56 4.23 31.73 PNA1801L00NCStyle/ VCEO IcPeakSensitivityWavelengthtr/tf Digi-KeyPricingPanasonicFig. Package (V) (mA)(µs) Part No.1 10 100 Part No.4 T-1 30 20 850nm 4 PNA1801LS0NC-ND◆ .56 4.23 31.73 PNA1801LS0NC5 TO-18 30 50 800nm 3 PNA1401L-ND◆ 3.56 28.46 221.32 PNA1401L5 TO-18 20 30 900nm 5/6 PNZ107-ND◆ 2.24 17.95 134.62 PNZ1077 Side View 20 30 850nm 100 PNA2602M-ND◆‡ 1.14 9.49 75.88 PNA2602M7 Side View 20 20 800nm 4-10 PNZ150-ND 1.06 8.85 70.82 PNZ1508 Axial 20 30 800nm 200 PNA2W01M-ND‡◆ 1.76 14.64 117.10 PNA2W01M8 Axial 20 20 800nm 2.5/3.5 PNZ12700S-ND◆ 1.20 9.99 79.92 PNZ12700S8 Axial 20 20 800nm 3-10 PNZ14700R-ND◆ .96 8.01 64.10 PNZ14700R8 Axial 20 20 800nm 3-10 PNZ14700S-ND◆ .96 8.01 64.10 PNZ14700S8 Axial 20 20 800nm 3-10 PNZ147-ND◆ 1.58 12.65 94.85 PNZ1479 Side View 20 3 800nm 100 PNA2603L-ND‡ 1.14 9.49 75.88 PNA2603L17 Side View 20 10 900nm 8 PNA1605F-ND◆ 1.51 12.10 90.72 PNA1605F18 TO-18 Flat 30 50 800nm 3 PNA1401LF-ND◆ 3.56 28.46 221.32 PNA1401LF19 TO-18 40† 50 800nm 3 PNZ102-ND◆ 3.56 28.46 221.32 PNZ10219 TO-18 30† 30 900nm 5/6 PNZ108-ND◆ 3.56 28.46 221.32 PNZ10819 TO-18 30† 30 900nm 5/6 PNZ109L-ND 3.56 28.46 221.32 PNZ109L20 TO-18 Flat 30† 30 900nm 8/9 PNZ109F-ND◆ 3.56 28.46 221.32 PNZ109F21 TO-18 Small 30† 20 900nm 5/6 PNZ108CL-ND◆ 2.99 23.90 185.91 PNZ108CL21 TO-18 Small 20 20 900nm 5/6 PNZ108CLR-ND◆ 1.60 12.82 96.15 PNZ108CLR21 TO-18 Small 20 20 900nm 5/6 PNZ108CLS-ND◆ 1.60 12.82 96.15 PNZ108CLS21 TO-18 Small 30† 20 900nm 5/6 PNZ109CL-ND◆ 2.99 23.90 185.91 PNZ109CL22 Side View 20 20 800nm 4 PNA1608L-ND 1.06 8.85 70.82 PNA1608L23 Side View 20 20 850nm 4 PNA1601M-ND .81 6.76 54.05 PNA1601M24 T-1 20 10 800nm 1/1.3 PNZ121S0R-ND◆ 1.20 10.03 80.27 PNZ121S0R◆ RoHS Compliant † VCBO (This device has signal mixing capability using the base pin.) ‡ DarlingtonPin Photo DiodeStyle/ VRPeakSensitivity tr/tf Beam Digi-KeyPricingPanasonicFig. Package (V) Wavelength (ns) Angle Part No.1 10 100 Part No.3 Side View 30 850nm 2 70° PNZ335-ND◆ 1.26 10.12 75.88 PNZ3356 TO-18 Small 30 850nm 2 70° PNZ330CL-ND◆ 2.99 23.90 185.91 PNZ330CL11 Side View 30 900nm 50 70° PNZ323-ND◆ 1.38 11.54 92.31 PNZ32311 Side View 30 960nm 50 70° PNZ323B-ND◆ .91 7.56 60.48 PNZ323B12 Top View 50 850nm 2 70° PNZ334-ND◆ 1.46 12.15 97.20 PNZ33413 TO-18 50 800nm 1 10° PNZ300-ND 6.14 49.10 414.27 PNZ30014 TO-18 50 800nm 1 40° PNZ300F-ND◆ 6.14 49.10 414.27 PNZ300F15 TO-18 30 900nm 2 70° PNZ331CL-ND 3.66 29.31 227.95 PNZ331CL16 TO-18 30 900nm — 40° PNZ331F-ND 7.11 56.85 479.68 PNZ331F◆ RoHS CompliantIrDA Transceiver ModulesVCCMaximumIrDAMaximum Pin Digi-KeyCut TapePrice EachDigi-KeyTape and Reel Panasonic(V) (kbps) Count Part No.1 25 100 Part No.Qty. Pricing Part No.3.3 115.2 7-Pin + 1 Shield CND0204ACT-ND 1.60 1.29 .97 CND0204ATR-ND 2,500 820.00/M CND0204A4.5 115.2 7-Pin + 1 Shield CND0215ACT-ND 1.60 1.29 .97 CND0215ATR-ND 2,500 820.00/M CND0215A3.3 115.2 7-Pin + 2 Shield CND0214ACT-ND 1.60 1.29 .97 CND0214ATR-ND 2,000 833.00/M CND0214A4.5 115.2 7-Pin + 2 Shield CND0216ACT-ND 1.60 1.29 .97 CND0216ATR-ND 2,000 833.00/M CND0216A®N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)151151

Reflective Photosensors®Reflective Photosensors consist of a high efficiency GaAs infrared light emitting diode which is integrated with a high sensitivity phototransistor in a single resin package.Typ. Input OutputCut TapeIC ton/toff VR IF IC VCEO Digi-KeyPrice EachDigi-KeyTape and Reel PanasonicFig. Rank (µA) (µsec.) (V) (mA) (mA) (V) Part No.1 10 100 500 Part No.Qty. Pricing Part No.L 23 ~ 90 30/40 6 50 20 35 CNB10010LLCT-ND .97 .74 .55 .35 CNB10010LLTR-ND 1,000 324.00 CNB10010LLR 41 ~ 90 30/40 6 50 20 35 CNB10010RLCT-ND .99 .83 .66 .46 CNB10010RLTR-ND 1,000 437.00 CNB10010RL1W 23 ~ 160 30/40 6 50 20 35 CNB10010WLCT-ND .92 .70 .52 .33 CNB10010WLTR-ND 1,000 307.00 CNB10010WLH 41 ~ 160 30/40 6 50 20 35 CNB10010HLCT-ND .97 .74 .55 .35 CNB10010HLTR-ND 1,000 324.00 CNB10010HLR 41 ~ 90 30/40 6 50 20 35 CNB10020RLCT-ND .77 .65 .52 .36 CNB10020RLTR-ND 1,000 341.00 CNB10020RL— 50 ~ 243 40/50 6 30 20 35 CNB10112CT-ND .77 .65 .52 .36 CNB10112TR-ND 3,000 333.00/M CNB101122 R 180 ~ 440 20/20 3 50 20 30 CNB13020R-ND .95 .72 .54 .34 — — — CNB13020R— 460 ~ 12,000 150/150 3 50 30 20 CNB2301-ND .77 .65 .52 .36 — — — CNB23013 R 1,300 ~ 4,950 150/150 3 50 30 20 CNB23010R-ND .81 .68 .54 .38 — — — CNB23010RS 360 ~ 880 20/20 3 50 20 30 CNB13020S-ND .77 .58 .44 .27 — — — CNB13020SR 1,300 ~ 4,950 150/150 3 50 30 20 CNB23010R0LF-ND .85 .71 .57 .40 — — — CNB23010R0LF4 R 180 ~ 440 20/20 3 50 20 30 CNB13020R0LF-ND .82 .62 .47 .29 — — — CNB13020R0LFS 360 ~ 880 20/20 3 50 20 30 CNB13020S0LF-ND .82 .62 .47 .29 — — — CNB13020S0LF5 — 800 ~ 5,200 20/20 3 50 20 30 CNB1301-ND 1.28 1.03 .77 .70 — — — CNB13016 — 100 ~ 1,500 6/6 3 50 20 30 CNB1304H-ND 2.28 1.83 1.37 1.23 — — — CNB1304H7 — 100 ~ 1,200 6/6 3 50 20 30 CNZ2153-ND 2.88 2.31 1.80 1.67 — — — CNZ2153Fig. 1 Fig. 2Fig. 3Fig. 4Fig. 5 Fig. 6 Fig. 7Bipolar Integrated Circuit with Photodetection FunctionPNA46xxM Series: PNA47xxM Series: Fig. 1 Fig. 215.7 Fig. 311.4Fig. 4 Fig. 5 Fig. 62.25 5.25 7.62.255.52.25775.258.57.67.0 R2.2520821.42988.09.79.78.88.53.11.25.23-0.57.610.8 x 2.2 4.8521.82.32-2.5412331 25.551.451232-2.54 22.05.92-2.5433-ø0.910.081: VOUT 1: VOUT 5.5 3-ø0.82-2.540.45 2-2.2x 1.21: VOUT1: VOUT1: VOUT3-ø0.91 22.432: GND 2: GND2: GND1.42-2.542: GND2: GND2.54 2.543: VCC 3: VCC3: VCC7.83: VCC3: VCC3.156.912 37.711.98.71: VOUT2: GND3: VCCFig. 712.72.54 2.543-ø0.947.6 2-1.4x 2.47.61 2 310.059.61: VOUT2: GND3: VCCFig. 81: VOUT2: GND3: VCC7.52.548.82-2.2x 1.23-ø0.92.543.151 237.78.711.92Fig. 9Fig. 10Fig. 111: VOUT7.6 8.1 10.352: GND3: VCC 8.53.17.612.71: VOUT9.62: VCC13.753.75 3.752.54 2.543: GND1.7163-ø0.91.7 41 231.21.21 9.78.7510.452 2-1.42.5437.63-ø0.9x 2.41: VOUT2.542: GND2.54 2.543: VCC3-ø0.82.92.95.05 2-2.1x 1.415.457.6 8.522.1312OperatingSupply VoltageCurrentConsumptionMaximum Recep.Distance (m)CarrierFrequency Digi-KeyPrice EachPanasonicFig. Typical (V) Typical (mA) Minimum Typical Typical (kHz) Part No.1 10 100 Part No.5.0 2.4 8.0 10.0 36.7 PNA4601M-ND◆ 1.27 1.06 .85 PNA4601M15.0 2.4 8.0 10.0 38.0 PNA4602M-ND◆ 1.28 1.03 .77 PNA4602M5.0 2.4 8.0 10.0 38.0 PNA4612M-ND◆ 1.27 1.06 .85 PNA4612M3.3 0.8 7.0 — 36.7 PNA4701M-ND◆ 1.47 1.18 .89 PNA4701M5.0 2.4 11.0 18.0 36.7 PNA4611M00YB-ND 1.43 1.15 .86 PNA4611M00YB25.0 2.4 11.0 18.0 38.0 PNA4612M00YB-ND◆ 1.43 1.15 .86 PNA4612M00YB5.0 2.4 11.0 18.0 56.9 PNA4614M00YB-ND◆ 1.43 1.15 .86 PNA4614M00YB35.0 2.4 11.0 18.0 36.7 PNA4611M00XD-ND◆ 1.43 1.15 .86 PNA4611M00XD5.0 2.4 11.0 18.0 38.0 PNA4612M00XD-ND◆ 1.43 1.15 .86 PNA4612M00XD45.0 2.4 8.0 10.0 36.7 PNA4601M00LB-ND◆ 1.46 1.22 .98 PNA4601M00LB3.3 0.8 7.0 — 36.7 PNA4701M00LB-ND◆ 1.46 1.22 .98 PNA4701M00LB5 5.0 2.4 8.0 10.0 36.7 PNA4601M00LC-ND◆ 1.46 1.22 .98 PNA4601M00LC65.0 2.4 11.0 18.0 38.0 PNA4612M00HB-ND◆ 1.46 1.22 .98 PNA4612M00HB3.3 0.8 9.0 — 36.7 PNA4701M00HB-ND◆ 1.46 1.22 .98 PNA4701M00HB7 5.0 2.4 11.0 18.0 36.7 PNA4611M00HC-ND◆ 1.46 1.22 .98 PNA4611M00HC8 5.0 2.4 11.0 18.0 36.7 PNA4611M00HD-ND◆ 1.46 1.22 .98 PNA4611M00HD95.0 2.4 11.0 18.0 36.7 PNA4611M00XB-ND◆ 1.46 1.22 .98 PNA4611M00XB5.0 2.4 11.0 18.0 38.0 PNA4612M00XB-ND◆ 1.46 1.22 .98 PNA4612M00XB105.0 2.4 11.0 18.0 36.7 PNA4611M00YA-ND◆ 1.46 1.22 .98 PNA4611M00YA5.0 2.4 11.0 18.0 38.0 PNA4612M00YA-ND◆ 1.46 1.22 .98 PNA4612M00YA11 5.0 1.9 11.0 25.0 56.9 PNA4658M00YE-ND◆ 1.38 1.11 .83 PNA4658M00YE◆ RoHS CompliantAmbient Light Sensor Bipolar Integrated Circuit with Photo DiodePNA4603H Series:NFig. 11: VOUT2: GND3: VCCØ3.47.0 Fig. 28.04.31 2 32-2.541: VOUT2: GND3: VCC4.3783.59.71 232-2.54Digi-KeyPrice EachFig. DescriptionPart No.1 10 1001 See PNA4603H Main Characteristics Chart PNA4603H-ND 3.16 2.54 1.972 See PNA4603H Main Characteristics Chart; Right Angle PNA4603H00LB-ND 2.24 1.80 1.35®For Digi-Reel ® information, please see page 73.PNA4603H Series Main CharacteristicsParameter Symbol Conditions Min. Typ. Max. UnitOperating Supply Voltage VCC — 4.5 5.0 5.5 VCurrent Consumption ICC 0.5 1.0 1.5 mAOutput VoltageVOFF 0.1 0.5 0.8 VV01 § 2.0 2.7 3.4 VV02 § 3.9 4.1 4.9 Vη 1.65 1.9 3.3 VOutput Impedance Z — 5.0 10 15.0 kΩPeak Sensitivity Wavelength λρ — 400 600 700 nm§ Halogen lamp light source152 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Panasonic Electric WorksMP motion sensors are passive infrared sensors which detect changes in infrared rays when there is movement from aperson or object. Intended as human body and animal detection with the world’s smallest built-in amplifier design andsmall size. Perfect for connecting directly into a microprocessor.Sensor Types: long distance, wide area movement detection Output Types: for automated On-Off controls, energy saving for for fine motion detection, slight movements and smalldetection Fig.1Fig. 1 14.5SensorTypeStandardDetectionDetectionDistance(Max.)PIR Motion Sensors9.5Fig. 2Output Lens Digi-KeyPrice Each PanasonicType Color Part No.1 25 Part No.16.4 ft. Digital - 5V Black 255-1849-ND 34.69 31.86 AMN1111116.4 ft. Digital - 5V White 255-1812-ND 34.69 31.86 AMN1111216.4 ft. Analog Black 255-1815-ND 34.69 31.86 AMN2111116.4 ft. Analog White 255-1805-ND 34.69 31.86 AMN2111215.212.7Fig. 39.415.1Fig. 417.464 Zones 104 Zones 24 Zones 80 Zones18.53Fig.1234SensorTypeStandardDetectionSlightDetectionSpotDetection10 meterDetectionDetectionDistance(Max.)Output Lens Digi-KeyPrice Each PanasonicType Color Part No.1 25 Part No.16.4 ft. Digital - ST Type Black 255-2643-ND NEW! 22.79 20.93 AMN3111116.4 ft. Digital - ST Type White 255-2644-ND NEW! 22.79 20.93 AMN3111216.4 ft. Digital - 3V Low Power Black 255-1808-ND 35.38 32.49 AMN4112116.4 ft. Digital - 3V Low Power White 255-2651-ND NEW! 35.38 32.49 AMN411226.56 ft. Digital - 5V Black 255-2900-ND NEW! 34.69 31.86 AMN121116.56 ft. Digital - 5V White 255-1813-ND 34.69 31.86 AMN121126.56 ft. Digital - 3V Low Power Black 255-1809-ND 35.38 32.49 AMN421216.56 ft. Analog Black 255-1816-ND 34.69 31.86 AMN221116.56 ft. Analog White 255-1806-ND 34.69 31.86 AMN221126.56 ft. Digital - ST Type Black 255-2645-ND NEW! 22.79 20.93 AMN321116.56 ft. Digital - ST Type White 255-2646-ND NEW! 22.79 20.93 AMN321126.56 ft. Digital - 3V Low Power White 255-2652-ND NEW! 35.38 32.49 AMN4212216.4 ft. Digital - 5V Black 255-1850-ND 34.69 31.86 AMN1311116.4 ft. Digital - 5V White 255-1814-ND 34.69 31.86 AMN1311216.4 ft. Digital - 3V Low Power Black 255-1810-ND 35.38 32.49 AMN4312116.4 ft. Analog Black 255-1804-ND 35.38 32.49 AMN2311116.4 ft. Analog White 255-1807-ND 34.69 31.86 AMN2311216.4 ft. Digital - ST Type Black 255-2647-ND NEW! 22.79 20.93 AMN3311116.4 ft. Digital - ST Type White 255-2648-ND NEW! 22.79 20.93 AMN3311216.4 ft. Digital - 3V Low Power White 255-2653-ND NEW! 35.38 32.49 AMN4312232.8 ft. Digital - 5V Black 255-2901-ND NEW! 36.63 33.64 AMN1411132.8 ft. Digital - 5V White 255-1803-ND 36.63 33.64 AMN1411232.8 ft. Digital - 3V Low Power Black 255-1811-ND 38.64 35.49 AMN4412132.8 ft. Digital - 3V Low Power White 255-2899-ND NEW! 38.64 35.49 AMN4412232.8 ft. Analog Black 255-1817-ND 36.63 33.64 AMN2411132.8 ft. Analog White 255-1818-ND 36.63 33.64 AMN2411232.8 ft. Digital - ST Type Black 255-2649-ND NEW! 24.30 22.32 AMN3411132.8 ft. Digital - ST Type White 255-2650-ND NEW! 24.30 22.32 AMN34112Fig. 1 — Sensor AMP27.942.03 HolePressure Ports21.5920.32Fig. 3 — SDX/SX A2/G2/D25.33 (D2)6.48 (A2,G2)3.230.512.54Fig. 4 — Pigtail10.548.949.1426.1613.9712.19Fig. 2 — SDX/SX A4/D4/IND413.9727.4311.817.62Ø2.293.3017.7821.0810.670.512.54Note:4-Conductor Cable.24 AWG conductors shielded withdrain wire 24” (61cm) long.0.2515.248.38 11.173.050.2515.241.2767.82 (mV)93.22 (mA, V2)6.3511.814.83Ø2.2922.2313.16Ø4.37Fig. 5 — Button SensorØ1.025.086.35Ø1.020.51 Gauge Port6.357.8710.6722.350.512.541.020.51Fig. 6 — HSC NEW!2.93Port 19.919.4012.450.38Solid State Pressure SensorsMore Product Available Online: www.digikey.comwww.digikey.com/sensorsFor use in medical equipment, pneumatic controls, computer peri pherals and pressure instrumentation,process and flow control.PressureSupply Response Operating Digi-KeyPrice EachHoneywellFig. Pressure Type Output Package (VDC) Time† Temperature Part No.1 10 25 50 Part No.0-1 PSID Differential/Gage 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1002-ND◆ 81.12 67.20 64.30 61.80 ASCX01DN0-5 PSID Differential/Gage 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1003-ND◆ 81.12 67.20 64.30 61.80 ASCX05DN0-15 PSIA Absolute 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1008-ND◆ 81.12 67.20 64.30 61.80 ASCX15AN0-15 PSID Differential/Gage 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1009-ND◆ 81.12 67.20 64.30 61.80 ASCX15DN0-30 PSIA Absolute 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1010-ND◆ 81.12 67.20 64.30 61.80 ASCX30AN0-30 PSID Differential/Gage 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1011-ND◆ 81.12 67.20 64.30 61.80 ASCX30DN0-100 PSIA Absolute 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1004-ND◆ 81.12 67.20 64.30 61.80 ASCX100AN0-100 PSID Differential/Gage 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1005-ND◆ 81.12 67.20 64.30 61.80 ASCX100DN0-150 PSIA Absolute 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1006-ND◆ 81.12 67.20 64.30 61.80 ASCX150AN10-150 PSID Differential/Gage 0.25 ~ 4.5V SIP 4.5 ~ 16 100µSec -25°C ~ 105°C 287-1007-ND◆ 81.12 67.20 64.30 61.80 ASCX150DN0-1 PSID Differential/Gage 0 ~ 18mV SIP 20 100µSec -40°C ~ 85°C 287-1017-ND◆ 79.80 66.11 63.26 60.79 SCX01DN0-5 PSID Differential/Gage 0 ~ 60mV SIP 20 100µSec -40°C ~ 85°C 287-1018-ND◆ 79.80 66.11 63.26 60.79 SCX05DN0-15 PSIA Absolute 0 ~ 90mV SIP 20 100µSec -40°C ~ 85°C 287-1023-ND◆ 79.80 66.11 63.26 60.79 SCX15AN0-15 PSID Differential/Gage 0 ~ 90mV SIP 20 100µSec -40°C ~ 85°C 287-1024-ND◆ 79.80 66.11 63.26 60.79 SCX15DN0-30 PSIA Absolute 0 ~ 90mV SIP 20 100µSec -40°C ~ 85°C 287-1025-ND◆ 79.80 66.11 63.26 60.79 SCX30AN0-30 PSID Differential/Gage 0 ~ 90mV SIP 20 100µSec -40°C ~ 85°C 287-1026-ND◆ 79.80 66.11 63.26 60.79 SCX30DN0-100 PSIA Absolute 0 ~ 100mV SIP 20 100µSec -40°C ~ 85°C 287-1019-ND◆ 79.81 66.11 63.26 60.80 SCX100AN0-100 PSID Differential/Gage 0 ~ 100mV SIP 20 100µSec -40°C ~ 85°C 287-1020-ND◆ 79.80 66.11 63.26 60.79 SCX100DN0-150 PSIA Absolute 0 ~ 90mV SIP 20 100µSec -40°C ~ 85°C 287-1021-ND 79.81 66.11 63.26 60.80 SCX150AN0-4” H2O WC Ratio SIP 18 500µSec 0°C ~ 70°C 287-1027-ND◆ 101.09 85.60 82.27 78.35 SCXL004DN0-1 PSID Differential/Gage 0 ~ 18mV DIP 20 100µSec -40°C ~ 85°C 287-1028-ND◆ 39.77 31.64 29.64 28.36 SDX01D40-5 PSID Differential/Gage 0 ~ 60mV DIP 20 100µSec -40°C ~ 85°C 287-1030-ND◆ 39.77 31.64 29.64 28.36 SDX05D40-15 PSIA Absolute 0 ~ 90mV DIP 20 100µSec -40°C ~ 85°C 287-1037-ND◆ 39.77 31.64 29.64 28.36 SDX15A40-15 PSID Differential/Gage 0 ~ 90mV DIP 20 100µSec -40°C ~ 85°C 287-1038-ND◆ 39.77 31.64 29.64 28.36 SDX15D40-30 PSIA Absolute 0 ~ 90mV DIP 20 100µSec -40°C ~ 85°C 287-1041-ND◆ 49.38 39.28 36.80 35.22 SDX30A40-30 PSID Differential/Gage 0 ~ 90mV DIP 20 100µSec -40°C ~ 85°C 287-1042-ND◆ 39.77 31.64 29.64 28.36 SDX30D40-100 PSIA Absolute 0 ~ 100mV DIP 20 100µSec -40°C ~ 85°C 287-1033-ND◆ 39.77 31.64 29.64 28.36 SDX100A40-100 PSID Differential/Gage 0 ~ 100mV DIP 20 100µSec -40°C ~ 85°C 287-1034-ND◆ 39.77 31.64 29.64 28.36 SDX100D420-5” H2O WC 0 ~ 20mV DIP 20 100µSec -20°C ~ 85°C 287-1125-ND◆ 76.09 63.03 60.31 57.97 SDX005IND40-10” H2O WC 0 ~ 20mV DIP 20 100µSec -20°C ~ 85°C 287-1126-ND◆ 76.09 63.03 60.31 57.97 SDX010IND40-1 PSID Differential 0 ~ 20mV DIP 12 100µSec -40°C ~ 85°C 287-1065-ND◆ 31.62 25.15 23.57 22.55 SX01DD40-5 PSID Differential 0 ~ 75mV DIP 12 100µSec -40°C ~ 85°C 287-1068-ND◆ 31.62 25.15 23.57 22.55 SX05DD40-15 PSIA Absolute 0 ~ 110mV DIP 12 100µSec -40°C ~ 85°C 287-1080-ND◆ 31.62 25.15 23.57 22.55 SX15AD40-15 PSID Differential 0 ~ 110mV DIP 12 100µSec -40°C ~ 85°C 287-1082-ND 31.62 25.15 23.57 22.55 SX15DD40-30 PSIA Absolute 0 ~ 110mV DIP 12 100µSec -40°C ~ 85°C 287-1086-ND 31.62 25.15 23.57 22.55 SX30AD40-30 PSID Differential 0 ~ 110mV DIP 12 100µSec -40°C ~ 85°C 287-1088-ND 31.62 25.15 23.57 22.55 SX30DD40-100 PSIA Absolute 0 ~ 150mV DIP 12 100µSec -40°C ~ 85°C 287-1072-ND◆ 31.62 25.15 23.57 22.55 SX100AD40-100 PSID Differential 0 ~ 150mV DIP 12 100µSec -40°C ~ 85°C 287-1074-ND◆ 31.62 25.15 23.57 22.55 SX100DD40-1 PSIG Gage 0 ~ 18mV DIP 20 100µSec -40°C ~ 85°C 287-1029-ND◆ 39.77 31.64 29.64 28.36 SDX01G20-5 PSIG Gage 0 ~ 60mV DIP 20 100µSec -40°C ~ 85°C 287-1031-ND◆ 39.77 31.64 29.64 28.36 SDX05G20-15 PSIA Absolute 0 ~ 90mV DIP 20 100µSec -40°C ~ 85°C 287-1036-ND◆ 39.77 31.64 29.64 28.36 SDX15A20-15 PSIG Gage 0 ~ 90mV DIP 20 100µSec -40°C ~ 85°C 287-1039-ND◆ 39.77 31.64 29.64 28.36 SDX15G20-30 PSIA Absolute 0 ~ 90mV DIP 20 100µSec -40°C ~ 85°C 287-1040-ND◆ 39.77 31.64 29.64 28.36 SDX30A20-30 PSIG Gage 0 ~ 90mV DIP 20 100µSec -40°C ~ 85°C 287-1043-ND◆ 39.77 31.64 29.64 28.36 SDX30G20-100 PSIA Absolute 0 ~ 100mV DIP 20 100µSec -40°C ~ 85°C 287-1032-ND◆ 39.77 31.64 29.64 28.36 SDX100A230-100 PSIG Gage 0 ~ 100mV DIP 20 100µSec -40°C ~ 85°C 287-1035-ND◆ 39.77 31.64 29.64 28.36 SDX100G20-1 PSIG Gage 0 ~ 20mV DIP 12 100µSec -40°C ~ 85°C 287-1066-ND◆ 31.62 25.15 23.57 22.55 SX01GD20-5 PSIG Gage 0 ~ 75mV DIP 12 100µSec -40°C ~ 85°C 287-1069-ND◆ 31.62 25.15 23.57 22.55 SX05GD20-15 PSIA Absolute 0 ~ 110mV DIP 12 100µSec -40°C ~ 85°C 287-1079-ND◆ 31.62 25.15 23.57 22.55 SX15AD20-15 PSIG Gage 0 ~ 110mV DIP 12 100µSec -40°C ~ 85°C 287-1083-ND◆ 31.62 25.15 23.57 22.55 SX15GD20-30 PSIA Absolute 0 ~ 110mV DIP 12 100µSec -40°C ~ 85°C 287-1085-ND◆ 31.62 25.15 23.57 22.55 SX30AD20-30 PSIG Gage 0 ~ 110mV DIP 12 100µSec -40°C ~ 85°C 287-1089-ND 31.62 25.15 23.57 22.55 SX30GD20-100 PSIA Absolute 0 ~ 150mV DIP 12 100µSec -40°C ~ 85°C 287-1071-ND 31.62 25.15 23.57 22.55 SX100AD20-100 PSIG Gage 0 ~ 150mV DIP 12 100µSec -40°C ~ 85°C 287-1075-ND 31.62 25.15 23.57 22.55 SX100GD20-5 PSIG Gage 1 ~ 5VDC12 ~ 30 5ms -40°C ~ 125°C 287-1090-ND 260.28 224.26 213.58 206.09 SPT4V0005PG5W020-15 PSIG Gage 1 ~ 5VDC 12 ~ 30 5ms -40°C ~ 125°C 287-1091-ND 260.28 224.26 213.58 206.09 SPT4V0015PG5W020-30 PSIG Gage 1 ~ 5VDC 12 ~ 30 5ms -40°C ~ 125°C 287-1092-ND 260.28 224.26 213.58 206.09 SPT4V0030PG5W02Steel 1/4”0-100 PSIG Gage 1 ~ 5VDC 12 ~ 30 5ms -40°C ~ 125°C 287-1093-ND 260.28 224.26 213.58 206.09 SPT4V0100PG5W02(6.35mm)0-500 PSIG Gage 1 ~ 5VDC 12 ~ 30 5ms -40°C ~ 125°C 287-1095-ND 260.28 224.26 213.58 206.09 SPT4V0500PG5W0218NPT0-5 PSIG Gage 4 ~ 20mA 12.5 ~ 30 5ms -40°C ~ 125°C 287-1096-ND◆ 205.71 177.24 168.80 162.88 SPTMA0005PG5W024(Male)0-15 PSIG Gage 4 ~ 20mA 12.5 ~ 30 5ms -40°C ~ 125°C 287-1097-ND 205.71 177.24 168.80 162.88 SPTMA0015PG5W020-30 PSIG Gage 4 ~ 20mA 12.5 ~ 30 5ms -40°C ~ 125°C 287-1098-ND 205.71 177.24 168.80 162.88 SPTMA0030PG5W020-100 PSIG Gage 4 ~ 20mA 12.5 ~ 30 5ms -40°C ~ 125°C 287-1099-ND 205.71 177.24 168.80 162.88 SPTMA0100PG5W020-30 PSIG Gage 0 ~ 100mV Pigtail 15 100µSec -40°C ~ 125°C 287-1104-ND 173.23 149.26 142.15 137.17 SPTMV0030PG5W020-100 PSIG Gage 0 ~ 100mVElectricalConnection15 100µSec -40°C ~ 125°C 287-1105-ND◆ 173.23 149.26 142.15 137.17 SPTMV0100PG5W020-1 PSID Differential 0 ~ 20mV Button 12 100µSec -40°C ~ 85°C 287-1064-ND◆ 38.92 30.96 29.01 27.76 SX01D0-5 PSID Differential 0 ~ 75mV Button 12 100µSec -40°C ~ 85°C 287-1067-ND 38.92 30.96 29.01 27.76 SX05D50-15 PSID Differential 0 ~ 110mV Button 12 100µSec -40°C ~ 85°C 287-1081-ND◆ 38.92 30.96 29.01 27.76 SX15D0-15 PSIA Absolute 0 ~ 110mV Button 12 100µSec -40°C ~ 85°C 287-1078-ND◆ 38.92 30.96 29.01 27.76 SX15A0-30 PSID Differential 0 ~ 110mV Button 12 100µSec -40°C ~ 85°C 287-1087-ND 38.92 30.96 29.01 27.76 SX30D0-30 PSIA Absolute 0 ~ 110mV Button 12 100µSec -40°C ~ 85°C 287-1084-ND◆ 38.92 30.96 29.01 27.76 SX30A† Response time for a 0 psi to full scale span pressure step change, 10% to 90% rise time. ◆ RoHS Compliant(Continued)Toll-Free: 1-800-344-45 (US2011)(TZS111.US)153153N

Solid State Pressure Sensors (Cont.)Fig. 7 — SSC NEW!13.854.939.919.9126.93PressureSupply Response Operating Digi-KeyPrice EachHoneywellFig. Pressure Type Output Package (VDC) Time† Temperature Part No.1 10 25 50 Part No.50-100 PSIA Absolute 0 ~ 150mV Button 12 100µSec -40°C ~ 85°C 287-1070-ND◆ 38.92 30.96 29.01 27.76 SX100A0-100 PSID Differential 0 ~ 150mV Button 12 100µSec -40°C ~ 85°C 287-1073-ND◆ 38.92 30.96 29.01 27.76 SX100D60-1 Bar GageSMT 5 1ms -20°C ~ 85°C 480-3296-ND◆ NEW! 38.74 30.82 28.88 27.63 HSCMRNN001BGAA50.5 ~ 4.5V/0-1 Bar Gage SMT 5 0.46ms -20°C ~ 85°C 480-3297-ND◆ NEW! 38.74 30.82 28.88 27.63 HSCMRNN001BG2A50.33 ~ 2.97V0-1 PSI Gage SMT 3.3 0.46ms -20°C ~ 85°C 480-3298-ND◆ NEW! 38.74 30.82 28.88 27.63 HSCMRNN001PG2A370-1 Bar Gage 0.5 ~ 4.5V SIP 5 1ms -40°C ~ 85°C 480-3299-ND◆ NEW! 31.00 24.66 23.10 22.11 SSCSANN001BGAA50-1 PSI Gage 0.5 ~ 4.5V SIP 5 1ms -40°C ~ 85°C 480-3300-ND◆ NEW! 31.00 24.66 23.10 22.11 SSCSANN001PGAA5Solid State Pressure SensorsDim. in mmFig. 1Dimensions (mm)Series A BASDX 16.89 13.97ASDXAC/AV 16.81 14.02Fig. 2Dimensions (mm)Series A BASDX 16.89 13.97ASDXRRX 16.81 14.02BBAAFig. 31.27Fig. 46.8813.9713.978.4616.8911.94Fig. 58.6427.18Ø3.18(x2)22.86Fig. 6 Ø10.676.3522.35Fig. 713.9711.94Fig. 8Ø4.8327.4313.9712.9521.5927.94Fig. 913.9711.94Pressure Pressure Digi-KeyPrice EachHoneywellFig. Range (PSI) Type Supply Part No.1 10 25 Part No.0 ~ 1 Gage 5.25V 480-1923-ND 49.07 40.66 38.90 ASDX001G24R0 ~ 1 Gage 5.0V 480-3289-ND 31.61 25.15 23.57 ASDXAVX001PGAA50 ~ 5 Gage 5.25V 480-1924-ND 49.07 40.66 38.90 ASDX005G24R0 ~ 5 Gage 5.0V 480-3292-ND 31.61 25.15 23.57 ASDXAVX005PGAA51 0 ~ 5 Gage 5.0V 480-3286-ND 31.61 25.15 23.57 ASDXAVX005PG2A50 ~ 15 Gage 5.25V 480-1925-ND 49.07 40.66 38.90 ASDX015G24R0 ~ 15 Absolute 5.0V 480-3301-ND NEW! 31.61 25.15 23.57 ASDXACX015PAAA50 ~ 30 Gage 5.25V 480-1926-ND 49.07 40.66 38.90 ASDX030G24R0 ~ 100 Gage 5.25V 480-1927-ND 49.07 40.66 38.90 ASDX100G24R0 ~ 1 Differential 5.25V 480-1918-ND 49.07 40.66 38.90 ASDX001D44R0 ~ 1 Gage 5.0V 480-3288-ND 31.61 25.15 23.57 ASDXRRX001PGAA50 ~ 5 Differential 5.25V 480-1919-ND 49.07 40.66 38.90 ASDX005D44R0 ~ 5 Gage 5.0V 480-3291-ND 31.61 25.15 23.57 ASDXRRX005PGAA50 ~ 5 Gage 5.0V 480-3285-ND 31.61 25.15 23.57 ASDXRRX005PG2A52 0 ~ 15 Differential 5.25V 480-1920-ND 49.07 40.66 38.90 ASDX015D44R0 ~ 30 Differential 5.0V 480-3304-ND NEW! 31.61 25.15 23.57 ASDXRRX030PDAA50 ~ 100 Differential 5.25V 480-1922-ND 49.07 40.66 38.90 ASDX100D44R-1 ~ 1 Differential 5.0V 480-3290-ND 31.61 25.15 23.57 ASDXRRX001PDAA5-5 ~ 5 Differential 5.0V 480-3293-ND 31.61 25.15 23.57 ASDXRRX005PDAA5-5 ~ 5 Differential 5.0V 480-3287-ND 31.61 25.15 23.57 ASDXRRX005PD2A5Pressure Pressure Digi-KeyPrice EachHoneywellFig. Range (PSI) Type Supply Part No.1 10 25 Part No.0 ~ 15 Absolute 5.25V 480-1915-ND 49.07 40.66 38.90 ASDX015A24R3 0 ~ 30 Absolute 5.25V 480-1916-ND 49.07 40.66 38.90 ASDX030A24R0 ~ 100 Absolute 5.25V 480-1917-ND 49.07 40.66 38.90 ASDX100A24R0 ~ 5 Differential 1.5mA 480-2857-ND 31.62 25.15 23.57 SCC05DD44 0 ~ 15 Differential 1.5mA 480-2860-ND 31.62 25.15 23.57 SCC15DD40 ~ 15 Differential 20VDC 480-2868-ND 49.38 39.28 36.80 SDX15D4-A50 ~ 5 Differential 1.5mA 480-2858-ND 31.62 25.15 23.57 SCC05DN0 ~ 100 Differential 12VDC 480-2870-ND 38.92 30.96 29.01 SX100DN0 ~ 15 Differential 1.5mA 480-2859-ND 31.62 25.15 23.57 SCC15D60 ~ 30 Differential 1.5mA 480-2862-ND 31.62 25.15 23.57 SCC30D0 ~ 30 Differential 12VDC 480-2871-ND 38.92 30.96 29.01 SX7030D0 ~ 100 Differential 12VDC 480-2872-ND 38.92 30.96 29.01 SX7100D0 ~ 1 Gage 20VDC 480-2864-ND 52.90 43.83 41.94 SDX01G2-A0 ~ 15 Gage 1.5mA 480-2861-ND 31.62 25.15 23.57 SCC15GD27 0 ~ 15 Gage 20VDC 480-2869-ND 49.38 39.28 36.80 SDX15G2-A0 ~ 15 Absolute 20VDC 480-2866-ND 49.38 39.28 36.80 SDX15A2-A0 ~ 100 Gage 20VDC 480-2865-ND 49.38 39.28 36.80 SDX100G2-A8 0 ~ 15 Absolute 20VDC 480-2863-ND 46.27 38.33 36.68 SCX15ANC9 0 ~ 15 Absolute 20VDC 480-2867-ND 49.38 39.28 36.80 SDX15A4-ANote: For more specifications, please see Digi-Key website.NPCB Mount Pressure SensorsDim. in mmThe 24PC Series miniature pressure sensors provide reliable gage and absolute pressure sensing per form ance in acompact package. The low power, non-amplified, non-compensated Wheatstone bridge circuit design provides inherentlystable mV outputs over 0.5 ~ 250 psi sensing ranges. Features: 1ms Response time Supply Voltage: 10.0 ~ 12.0 VDC Operating Temperature: -40°C ~ 85°CThe 26PC Series miniature pressure sensors provide reliable gage and differential pressure sensing performance in acompact package. The low power, non-amplified, non-compensated Wheatstone bridge circuit design provides inherentlystable mV outputs over 1.0 ~ 250 psi sensing ranges. Features: 1ms Response time Supply Voltage: 10.0 ~ 16.0 VDC Operating Temperature: -40°C ~ 85°CFig.PressureTypePressureRange(PSI)Linearity Digi-Key(% Span) Part No.Price Each1 10 25HoneywellPart No.24PC Series1 Differential 0 ~ 1 ±0.15 480-2837-ND 16.79 12.86 12.14 24PC01SMT2 Gage 0 ~ 0.5 ±0.2 480-2842-ND 22.07 16.90 15.96 24PCEFB2G3 Gage 0 ~ 15 ±0.2 480-2839-ND 22.07 16.90 15.96 24PCCFA2G4 Gage 0 ~ 15 ±0.2 480-2840-ND 22.07 16.90 15.96 24PCCFB6G5 Absolute 0 ~ 15 ±0.1 480-2841-ND 22.65 18.02 16.88 24PCCFD6A5 Gage 0 ~ 0.5 ±0.2 480-2843-ND 22.07 16.90 15.96 24PCEFD6G6 Gage 0 ~ 0.5 ±0.2 480-2844-ND 22.07 16.90 15.96 24PCEFJ6G26PC Series2 Gage 0 ~ 5 ±0.4 480-2848-ND 29.76 23.68 22.19 26PCBFB2G6 Gage 0 ~ 15 ±0.25 480-2846-ND 29.76 23.68 22.19 26PCAFJ3G6 Gage 0 ~ 15 ±0.25 480-2852-ND 32.74 26.04 24.40 26PCCFJ6G7 Gage 0 ~ 1 ±0.25 480-2845-ND 29.76 23.68 22.19 26PCAFD2G8 Gage 0 ~ 1 ±0.25 480-2847-ND 29.76 23.68 22.19 26PCAFK2G9 Gage 0 ~ 15 ±0.25 480-2849-ND 29.76 23.68 22.19 26PCCFA3G10 Gage 0 ~ 15 ±0.25 480-2850-ND 29.76 23.68 22.19 26PCCFH6G11 Differential 0 ~ 15 ±0.25 480-2851-ND 33.82 26.91 25.21 26PCCFJ6D12 Gage 0 ~ 100 ±0.4 480-2853-ND 29.76 23.68 22.19 26PCFFS2G13 Gage 0 ~ 250 ±0.5 480-2854-ND 30.66 24.39 22.85 26PCGNM6GAWM Airflow SensorsThe AWM1000 Series mass flow sensor provides all of the outstanding performance benefits ofthe standard AWM2000 series in a more cost-effective sensor platform Features: Cost-effectivemicro-bridge technology Accurate, repeatable airflow sensing Bidirectional sensing capabilityFig. 16.107.115.08Fig. 5 Fig. 6Fig. 9Ø5.08Ø1.0212.708.8921.84Fig. 10Fig. 2Ø2.03Ø1.93Ø1.2721.5920.3226.6722.10Fig. 11Fig. 3Fig. 7Ø.05The AWM2000 Series micro-bridge mass airflow sensor is a passive device comprised of twoWheatstone bridges Features: .871.4112.7021.84Ø.0427.94.35Fig. 12.6012.7013.72Fig. 4Fig. 8Ø2.039.6520.07Fig. 13Ø.08.80Ø1.2723.88RecommendedResponseOperating Digi-KeyPrice EachHoneywellExcitation (VDC)Time (msec) Temperature Range Part No.1 10 25 Part No.10.000 ±0.010 3.0 -25°C ~ 85°C 480-2855-ND 92.24 78.11 75.07 AWM1200V10.000 ±0.010 3.0 -25°C ~ 85°C 480-2856-ND 101.47 85.92 82.58 AWM2300V154 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

NEW! Zephyr Digital Airflow SensorsFeatures: 2 C digital output compatibility eases integration to microprocessors ormicrocontrollers, reducing PCB complexity and component countFig. 1 Fig. 2SupplyDigi-KeyPrice EachHoneywellFig. Voltage DescriptionPart No.1 10 25 Part No.1 3.3V Short Port Snap Mount 480-3313-ND 96.08 81.36 78.19 HAFBSS0200C2AX32 5.0V Long Port Fastener Mount 480-3312-ND 96.08 81.36 78.19 HAFBLF0200C2AX5Digital Pressure Gauges — SDPGB SeriesFeatures: most liquids and gasesSpanZero73.15Dim. in mmPressure Resolution OperatingPressure Digi-KeyPrice HoneywellRangePSIGTemperaturePortPart No.Each Part No.0 ~ 1,000 PSIG 1.0 -20°C ~ 85°C 316 Stainless Steel 287-1935-ND 343.03 SDPGB1000PG51/4"NPT19.0585.85 41.91Isolated Pressure Sensors and Comp ensated SensorsFeatures: Temperature: -40°C ~ 125°C13mm Male Port14.27Ø12.727.18Dim. in mmPressure Pressure Output PortMax. Digi-KeyPrice EachHoneywellRange (PSI) Type (mV) Description Supply Part No.1 10 25 50 Part No.13mm — RoHS Compliant0 ~ 1,000 Absolute 0-200 1/8” 27 NPT-SS 12VDC 287-1123-ND 134.61 113.98 109.55 104.33 13C1000PA4K0 ~ 5,000 Absolute 0-200 1/8” 27 NPT-SS 12VDC 287-1124-ND 134.61 113.98 109.55 104.33 13C5000PA4K19mm — Calibrated and Compensated0 ~ 15 Absolute 0-100 1/8” 27 NPT-SS 15VDC 287-1108-ND◆ 138.88 117.60 113.02 107.64 19C015PA4K0 ~ 15 Gage 0-100 1/8” 27 NPT-SS 15VDC 287-1109-ND◆ 138.88 117.60 113.02 107.64 19C015PG4K0 ~ 15 Vacuum 0-100 1/8” 27 NPT-SS 15VDC 287-1938-ND◆ 138.88 117.60 113.02 107.64 19C015PV4K0 ~ 15 Vacuum 0-100 1/4” 18 NPT-SS 15VDC 287-1940-ND◆ 138.88 117.60 113.02 107.64 19C015PV5K0 ~ 15 Vacuum 0-100 1/4” 18 NPT-SS 2.0mA 287-1941-ND 138.88 117.60 113.02 107.64 19C015PV5L0 ~ 30 Absolute 0-100 1/8” 27 NPT-SS 15VDC 287-1110-ND◆ 134.61 113.98 109.55 104.33 19C030PA4K0 ~ 30 Gage 0-100 1/8” 27 NPT-SS 15VDC 287-1111-ND◆ 134.61 113.98 109.55 104.33 19C030PG4K0 ~ 30 Vacuum 0-100 1/8” 27 NPT-SS 15VDC 287-1944-ND 134.61 113.98 109.55 104.33 19C030PV4K0 ~ 50 Absolute 0-100 1/8” 27 NPT-SS 15VDC 287-1112-ND◆ 134.61 113.98 109.55 104.33 19C050PA4K0 ~ 50 Gage 0-100 1/8” 27 NPT-SS 15VDC 287-1113-ND◆ 134.61 113.98 109.55 104.33 19C050PG4K0 ~ 100 Absolute 0-100 1/8” 27 NPT-SS 15VDC 287-1114-ND◆ 134.61 113.98 109.55 104.33 19C100PA4K0 ~ 100 Gage 0-100 1/8” 27 NPT-SS 15VDC 287-1115-ND◆ 134.61 113.98 109.55 104.33 19C100PG4K0 ~ 100 Vacuum 0-100 1/4” 18 NPT-SS 15VDC 287-1952-ND 134.61 113.98 109.55 104.33 19C100PV5K0 ~ 200 Absolute 0-100 1/8” 27 NPT-SS 15VDC 287-1116-ND◆ 134.61 113.98 109.55 104.33 19C200PA4K0 ~ 200 Gage 0-100 1/8” 27 NPT-SS 15VDC 287-1117-ND◆ 134.61 113.98 109.55 104.33 19C200PG4K0 ~ 300 Absolute 0-100 1/8” 27 NPT-SS 15VDC 287-1118-ND◆ 134.61 113.98 109.55 104.33 19C300PA4K0 ~ 300 Gage 0-100 1/8” 27 NPT-SS 15VDC 287-1119-ND◆ 134.61 113.98 109.55 104.33 19C300PG4K0 ~ 500 Absolute 0-100 1/8” 27 NPT-SS 15VDC 287-1120-ND◆ 134.61 113.98 109.55 104.33 19C500PA4K0 ~ 500 Gage 0-100 1/8” 27 NPT-SS 15VDC 287-1121-ND◆ 134.61 113.98 109.55 104.33 19C500PG4KFlush Mount0 ~ 15 Vacuum 0-100 N/A 15VDC 287-1936-ND 138.88 117.60 113.02 107.64 19C015PV2K0 ~ 30 Vacuum 0-100 N/A 15VDC 287-1942-ND◆ 129.42 107.21 102.59 98.59 19C030PV2K0 ~ 100 Vacuum 0-100 N/A 15VDC 287-1948-ND 134.61 113.98 109.55 104.33 19C100PV2KBonded Element0 ~ 5,000 Gage 0.5-4.5 7/16”-20 UNF-SS 5.25VDC 287-1130-ND† 73.14 60.59 57.98 55.72 BE-4R5000PG6DS0 ~ 5,000 Gage 0.5-4.5 7/16”-20 UNF-CRS 5.25VDC 287-1131-ND† 69.82 57.84 55.34 53.19 BE-4R5000PG6DC† Gland per MS33656 (3-904 O-Ring seal not provided) ◆ RoHS CompliantPressure TransducerThe MEDIAMATE® pressure transducer provides the corrosion resistance of stainless steel at low OEM pricing. It is fully compensated andcompletely interchangeable without further calibration. It is being used with a wide variety of corrosive media such as Freon, ammonia, water, andhydraulic fluids.PressureRange (PSI)MeasurementTypeOperatingTemperaturePortStyleDigi-KeyPart No.Price Each1 10 25HoneywellPart No.Note: Ø 0.22” ±0.001” (0.56mm ±0.03mm) Pinson Ø 0.230” (5.84mm) pin circle.19mm Male PortØ19Note: 2” (50.8mm) NOMEX ribbon cable with 0.100”(2.54mm) pin spacing (24 AWG wire size).Flush Mount50.8 Nomex Insulatedstrip cable with2.54 pin spacing(24 AWG equiv.)9.53Ø 18.95Bonded ElementGT 150series3 pinØ4.3634.9348.4Ø25.40 46.4813.97 7/16-20 UNF- OUT+ OUT- IN+ INVent holeGageunits only- Out+ Out- In+ In19.05V outCommon +V1/8-27 NPTØ4.3724.13Dim. in mm0 ~ 1,000 Gage -40°C ~ 100°C 1/8 - 27 NPT 480-2836-ND 291.02 250.75 238.81 9302907Pressure and Vacuum Switches — 5000 SeriesThe 5000 Series switches are specifically designed to stand upto extended duty applications. It features a Kapton diaphragm forcompatibility with a wide variety of fluids. These switches are factoryset. The pressure switches are field adjustable.Specifications: Pressure Switch Proof Pressure: 500 PSI PressureSwitch Burst Pressure: 750 PSI for 0.5 ~ 24 PSI; 1, 250 PSI for 25 ~150 PSI set point range Vacuum Switch Proof Pressure: -30” Hg Temperature Range: -40°C ~ 121°C (-40°F ~ 250°F) Connector:1/8”LoadResistive:Inductive:Vacuum SwitchesRatings15 Amp 6VDC8 Amp 12VDC4 Amp 24VDC1 Amp 120VAC0.5 Amp 240VAC37.34Dim. in mm58.42Contact Setting Digi-KeyPrice Each HoneywellCircuitry PSIV (Hg) Part No.1 10 25 Part No.N.O. 2" 480-2057-ND 25.47 20.26 18.98 077342 02.0HG 01N.C. 2" 480-2060-ND 25.47 20.26 18.98 077343 02.0HG 01N.O. 4" 480-2058-ND 25.47 20.26 18.98 077342 04.0HG 01N.C. 4" 480-2061-ND 25.47 20.26 18.98 077343 04.0HG 01N.O. 9" 480-2059-ND 25.47 20.26 18.98 077342 09.0HG 01N.C. 9" 480-2062-ND 25.47 20.26 18.98 077343 09.0HG 01Pressure SwitchesContact Factory Digi-KeyPrice EachHoneywellCircuitry Setting (PSI) Setting (PSI) Part No.1 10 25 Part No.N.O. 1.1 ~ 3±0.5 2 480-2039-ND 30.19 24.02 22.50 076051 00000020 01N.C. 1.1 ~ 3±0.5 2 480-2043-ND 32.83 26.11 24.47 076061 00000020 01N.O./N.C. 1.1 ~ 3±0.5 2 480-2047-ND 37.96 30.20 28.30 076071 00000020 01N.O. 3.1 ~ 7±1 4 480-2051-ND 30.19 24.02 22.50 076575 00000040 01N.C. 3.1 ~ 7±1 4 480-2053-ND 33.39 26.57 24.89 076577 00000040 01N.O./N.C. 3.1 ~ 7±1 4 480-2055-ND 34.14 27.16 25.45 076579 00000040 01N.O. 8 ~ 13±2 10 480-2052-ND 28.51 22.69 21.25 076576 00000100 01N.C. 8 ~ 13±2 10 480-2054-ND 35.96 28.61 26.81 076578 00000100 01N.O./N.C. 8 ~ 13±2 10 480-2056-ND 34.48 27.43 25.70 076580 00000100 01N.O. 14 ~ 24±3 15 480-2040-ND 29.90 23.78 22.28 076052 00000150 01N.C. 14 ~ 24±3 15 480-2044-ND 35.55 28.28 26.50 076062 00000150 01N.O./N.C. 14 ~ 24±3 15 480-2048-ND 39.62 31.52 29.53 076072 00000150 01N.O. 25 ~ 50±5 35 480-2041-ND 30.45 24.22 22.70 076053 00000350 01N.C. 25 ~ 50±5 35 480-2045-ND 37.98 30.22 28.31 076063 00000350 01N.O./N.C. 25 ~ 50±5 35 480-2049-ND 42.20 33.57 31.46 076073 00000350 01N.O. 51 ~ 90±7 60 480-2042-ND 30.96 24.63 23.08 076054 00000600 01N.C. 51 ~ 90±7 60 480-2046-ND 37.98 30.22 28.31 076064 00000600 01N.O./N.C. 51 ~ 90±7 60 480-2050-ND 37.98 30.22 28.31 076074 00000600 01Switch BootSwitch Boot for Vacuumand Pressure Switches480-2063-ND 8.48 6.21 5.81 079380 00NMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)155155

Pressure SensorsPressure sensors, force sensors and airflow sensors are all developed around semiconductor technology.Each pressure sensor contains a silicon chip with an integral sensing diaphragm and four piezoresistors.Pressure applied on the diaphragm causes it to flex, changing the resistance. This causes a low level outputvoltage proportional to pressure. Airflow sensors contain a thin-film, thermally isolated bridge structurecontaining heater and temperature sensing elements. The bridge structure provides a sensitive and fastresponse to the flow of air or other gas over the chip.Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6Dimensions in InchesØ .251.35.86 .07.36.64 .46.50.86.36.64.07.50.2400.41.31.1081.1.86.36.64.50.050.199.655.310.143.32.07.61.133.325.655.901.58.731-1/16 HEX.601.061/8-27 NPTFig. 7 Fig. 8 Fig. 9Cable: L = 1 MeterM = 3 Meters.154 X.030 4 X.100.24.36.22.31.50Ø .24 X .114 X .024 X .04Fig. 10.120.250.675.575.100.180.300Fig. 113 X .010.988.51.34.68Ø .481Fig. 12Fig. 13Fig. 14 Fig. 15A..18 Ø.24.22 .35 .38.44.771.22Ø.180.60B. C. A.0.6015°Max.0.120.6015°Max.Ø.15.41.01.11.03.24Ø.16B..79.01.11.03.24.39.16.39 .23 .29Ø0.03.61.10 .02.014 X .020.25 Ø 0.13.191.08.52 .55#1.10.80.40.43.851.10.21 .42.42.45Fig. 16.21.02 .101 6Ø .08.85Ø .14Fig. 17.50Ø .08.56.75.45.02.10Fig. 18Ø .03(bothsides)Interfacebetweenpins 1and 2Ø .60PIN 1 234.10P1Ø .44.8.02.21.01P1 P2Ø .52.01Fig. 19.100.331.24 .93.20 .16.291.20 .61NDigi-KeyPrice EachHoneywellFig. Pressure Output Part No.1 10 25 Part No.1PSID 45mVDC 480-2496-ND 22.07 16.90 15.96 24PCAFA6D5PSID 115mVDC 480-2498-ND 22.07 16.90 15.96 24PCBFA6D15PSID 225mV 480-2500-ND 22.07 16.90 15.96 24PCCFA6D30PSID 330mV 480-2502-ND 22.50 17.23 16.27 24PCDFA6D1 0.5PSID 35mVDC 480-2504-ND 22.52 17.24 16.28 24PCEFA6D1PSID 16.7mV 480-2509-ND 29.76 23.68 22.19 26PCAFA6D5PSID 50mVDC 480-2512-ND 29.76 23.68 22.19 26PCBFA6D15PSID 100mV 480-2516-ND 29.76 23.68 22.19 26PCCFA6D30PSID 100mV 480-2519-ND 30.44 24.22 22.69 26PCDFA6D1PSIG 45mVDC 480-2497-ND 22.07 16.90 15.96 24PCAFA6G5PSIG 115mVDC 480-2499-ND 22.07 16.90 15.96 24PCBFA6G15PSIG 225mV 480-2501-ND 22.07 16.90 15.96 24PCCFA6G30PSIG 330mV 480-2503-ND 22.07 16.90 15.96 24PCDFA6G0.5PSIG 35mVDC 480-2505-ND 22.07 16.90 15.96 24PCEFA6G21PSIG 16.7mV 480-2510-ND 29.76 23.68 22.19 26PCAFA6G5PSIG 50mVDC 480-2513-ND 29.76 23.68 22.19 26PCBFA6G5PSIG 50mVDC 480-2514-ND 29.76 23.68 22.19 26PCBFB6G15PSIG 100mV 480-2517-ND 29.76 23.68 22.19 26PCCFA6G15PSIG 100mV 480-2518-ND 29.76 23.68 22.19 26PCCFB6G30PSIG 100mV 480-2520-ND 29.76 23.68 22.19 26PCDFA6G100PSIG 100mV 480-2521-ND 29.76 23.68 22.19 26PCFFA6G5PSIG 80 ~ 150mV 480-3088-5-ND 16.79 12.86 12.14 24PC05SMT15PSIG 160 ~ 290mV 480-3089-5-ND 18.47 14.14 13.36 24PC15SMT3 1PSID 14.7 ~ 18.7mV 480-2506-5-ND 28.44 22.62 21.20 26PC01SMT5PSID 47 ~ 53mV 480-2507-5-ND 28.44 22.62 21.20 26PC05SMT15PSID 96 ~ 104mV 480-2508-5-ND 28.44 22.62 21.20 26PC15SMT45PSIG 50mVDC 480-2511-ND 29.76 23.68 22.19 26PCBFA2G15PSIG 100mV 480-2515-ND 29.76 23.68 22.19 26PCCFA2G5PSID 0.5 ~ 4.5VDC 480-2522-5-ND 56.45 46.76 44.75 ASDXL05D44D5PSID Digital (Hex) 480-2523-5-ND 56.45 46.76 44.75 ASDXL05D44D-DO10 in H2OG 0.5 ~ 4.5VDC 480-2524-5-ND 56.45 46.76 44.75 ASDXL10G24R510 in H2OG Digital (Hex) 480-2525-5-ND 56.45 46.76 44.75 ASDXL10G24R-DO3PSID 0.5 ~ 4.5VDC 480-2526-5-ND 56.45 46.76 44.75 ASDXL10D44R3PSID Digital (Hex) 480-2527-5-ND 56.45 46.76 44.75 ASDXL10D44R-DO10PSI Digital (Hex) 480-2529-5-ND 56.45 46.76 44.75 ASDXL10D44D-DO10 in H2OD 2.5±2VDC 480-2528-5-ND 56.45 46.76 44.75 ASDXL10D44D50PSIG 4 ~ 20mA 480-2543-ND 106.24 89.96 86.46 MLH050PGB01B50PSIG 0.5 ~ 4.5VDC 480-2544-ND 106.24 89.96 86.46 MLH050PGB01E50PSIG 0.5 ~ 4.5VDC 480-2545-ND 106.24 89.96 86.46 MLH050PGB06A50PSIG 0.5 ~ 4.5VDC 480-2546-ND 106.24 89.96 86.46 MLH050PGP06A6 50PSIG 1 ~ 6VDC 480-2547-ND 106.24 89.96 86.46 MLH050PGP06C100PSI 1 ~ 5VDC 480-2556-ND 87.82 76.49 75.29 MLH100PAB06G100PSI 4 ~ 20mA 480-2558-ND 87.82 76.49 75.29 MLH100PAG01B100PSI 0.5 ~ 4.5VDC 480-2560-ND 106.24 89.96 86.46 MLH100PGB01A100PSI 4 ~ 20mA 480-2561-ND 106.24 89.96 86.46 MLH100PGB01BDigi-KeyPrice EachHoneywellFig. Pressure Output Part No.1 10 25 Part No.100PSI 0.5 ~ 4.5VDC 480-2562-ND 106.24 89.96 86.46 MLH100PGB06A100PSI 4 ~ 20mA 480-2563-ND 106.24 89.96 86.46 MLH100PGB06B100PSI 0.5 ~ 4.5VDC 480-2564-ND 106.24 89.96 86.46 MLH100PGB10A100PSI 4 ~ 20mA 480-2574-ND 106.24 89.96 86.46 MLH100PGP06B100PSI 1 ~ 6VDC 480-2575-ND 106.24 89.96 86.46 MLH100PGP06C150PSI 0.5 ~ 4.5VDC 480-2577-ND 106.24 89.96 86.46 MLH150PGB01A150PSI 4 ~ 20mA 480-2578-ND 106.24 89.96 86.46 MLH150PGB01B150PSI 0.5 ~ 4.5VDC 480-2579-ND 106.24 89.96 86.46 MLH150PGB06A150PSI 4 ~ 20mA 480-2580-ND 106.24 89.96 86.46 MLH150PGB06B150PSI 1 ~ 5VDC 480-2581-ND 106.24 89.96 86.46 MLH150PGB06G200PSI 4 ~ 20mA 480-2584-ND 106.24 89.96 86.46 MLH200PGB01B200PSI 0.5 ~ 4.5VDC 480-2586-ND 106.24 89.96 86.46 MLH200PSB06A200PSI 4 ~ 20mA 480-2587-ND 106.24 89.96 86.46 MLH200PSB06B200PSI 1 ~ 6VDC 480-2588-ND 106.24 89.96 86.46 MLH200PSB09C250BAR 4 ~ 20mA 480-2590-ND 106.24 89.96 86.46 MLH250BSB01B250BAR 4 ~ 20mA 480-2591-ND 106.24 89.96 86.46 MLH250BSD01B250PSI 1 ~ 5VDC 480-2592-ND 106.24 89.96 86.46 MLH250PGB06G250PSI 1 ~ 6VDC 480-2593-ND 106.24 89.96 86.46 MLH250PGP06C250PSI 0.5 ~ 4.5VDC 480-2594-ND 106.24 89.96 86.46 MLH250PSB01A250PSI 4 ~ 20mA 480-2595-ND 106.24 89.96 86.46 MLH250PSB01B250PSI 0.5 ~ 4.5VDC 480-2596-ND 106.24 89.96 86.46 MLH250PSB09A6300PSI 0.5 ~ 4.5VDC 480-2598-ND 106.24 89.96 86.46 MLH300PSB01A300PSI 4 ~ 20mA 480-2599-ND 106.24 89.96 86.46 MLH300PSB01B300PSI 1 ~ 6VDC 480-2600-ND 106.24 89.96 86.46 MLH300PSB01C300PSI 0.5 ~ 4.5VDC 480-2601-ND 106.24 89.96 86.46 MLH300PSB01E300PSI 0.5 ~ 4.5VDC 480-2602-ND 106.24 89.96 86.46 MLH300PSB09A300PSI 0.5 ~ 4.5VDC 480-2603-ND 106.24 89.96 86.46 MLH300PSB09E500PSI 4 ~ 20mA 480-2608-ND 106.24 89.96 86.46 MLH500PSB06B500PSI 0.5 ~ 4.5VDC 480-2609-ND 106.24 89.96 86.46 MLH500PSB09A500PSI 1 ~ 6VDC 480-2610-ND 106.24 89.96 86.46 MLH500PSB09C500PSI 0.5 ~ 4.5VDC 480-2605-ND 106.24 89.96 86.46 MLH500PSB01A500PSI 4 ~ 20mA 480-2606-ND 106.24 89.96 86.46 MLH500PSB01B500PSI 4 ~20mA 480-2616-ND 106.24 89.96 86.46 MLH500PSP06B500PSI 1 ~ 6VDC 480-2617-ND 106.24 89.96 86.46 MLH500PSP06C1000PSI 0.5 ~ 4.5VDC 480-2530-ND 106.24 89.96 86.46 MLH01KPSB01A1000PSI 4 ~ 20mA 480-2531-ND 106.24 89.96 86.46 MLH01KPSB01B1000PSI 0.5 ~ 4.5VDC 480-2532-ND 106.24 89.96 86.46 MLH01KPSB06A1000PSI 4 ~ 20mA 480-2533-ND 106.24 89.96 86.46 MLH01KPSB06B2000PSI 0.5 ~ 4.5VDC 480-2534-ND 106.24 89.96 86.46 MLH02KPSB06A2000PSI 4 ~ 20mA 480-2535-ND 106.24 89.96 86.46 MLH02KPSB01B3000PSI 4 ~ 20mA 480-2536-ND 106.24 89.96 86.46 MLH03KPGB01B3000PSI 0.5 ~ 4.5VDC 480-2537-ND 106.24 89.96 86.46 MLH03KPSB01A3000PSI 4 ~ 20mA 480-2538-ND 106.24 89.96 86.46 MLH03KPSB01B3000PSI 1 ~ 5VDC 480-3102-ND 106.24 89.96 86.46 MLH03KPSB01G(Continued)156 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Pressure Sensors (Cont.)Dimensions in InchesFig. 202 XØ.138P11.202 X P2.102 XØ.246.1881.19.432.3281.337.682 XØ.090Fig. 21P1PORT.431.3281.3371.09.682 X.1001.20P2PORT.1871.19Fig. 222.001.70.75 HEX.801.27Fig. 23.6004 x R.110.900Pin 14 x Ø.138Fig. 242 XØ .046.62Ø .15.52.761.20.495.11.040Fig. 25+OUT+EX-EX-OUTØ .04 .13.13.30Ø .02 .03.08.13.03.30.158 X .05A..081B..09.14.26.34.14.26.34Fig. 26Ø .05 .13.13+OUT+EX-EX-OUT.08.30Ø .02 .03.30.13.03.158 X .05.14.26Fig. 271.16Ø .16PIN1 4.10 .02.80Ø .19.43.70.32Fig. 28Ø .161.16Ø .19 .25.43.70PIN1 4.80.10 .02 .40Digi-KeyPrice EachHoneywellFig. Pressure Output Part No.1 10 25 Part No.3000PSI 0.5 ~ 4.5VDC 480-2539-ND 106.24 89.96 86.46 MLH03KPSB06A3000PSI 4 ~ 20mA 480-2540-ND 106.24 89.96 86.46 MLH03KPSB06B3000PSI 4 ~ 20mA 480-3103-ND 106.24 89.96 86.46 MLH03KPSB10B5000PSI 4 ~ 20mA 480-2548-ND 106.24 89.96 86.46 MLH05KPGB01B6 5000PSI 0.5 ~ 4.5VDC 480-2549-ND 106.24 89.96 86.46 MLH05KPSB01A5000PSI 4 ~ 20mA 480-3105-ND 106.24 89.96 86.46 MLH05KPSB01B5000PSI 1 ~ 6VDC 480-2552-ND 106.24 89.96 86.46 MLH05KPSP06C8000PSI 0.5 ~ 4.5VDC 480-2553-ND 106.24 89.96 86.46 MLH08KPSB01A8000PSI 4 ~ 20mA 480-2554-ND 106.24 89.96 86.46 MLH08KPSB01B100PSI 0.5 ~ 4.5VDC 480-2565-ND 106.24 89.96 86.46 MLH100PGL01A100PSI 4 ~ 20mA 480-2566-ND 106.24 89.96 86.46 MLH100PGL01B100PSI 0.5 ~ 4.5VDC 480-2567-ND 106.24 89.96 86.46 MLH100PGL06A100PSI 4 ~ 20mA 480-2568-ND 106.24 89.96 86.46 MLH100PGL06B100PSI 1 ~ 6VDC 480-2569-ND 106.24 89.96 86.46 MLH100PGL06C100PSI 4 ~ 20mA 480-2570-ND 106.24 89.96 86.46 MLH100PGL09B100PSI 4 ~ 20mA 480-2571-ND 106.24 89.96 86.46 MLH100PGM01B100PSI 4 ~ 20mA 480-2572-ND 106.24 89.96 86.46 MLH100PGM06B100PSI 1 ~ 6VDC 480-2573-ND 106.24 89.96 86.46 MLH100PGM06C150PSI 1 ~ 5VDC 480-2582-ND 106.24 89.96 86.46 MLH150PGL04G150PSI 4 ~ 20mA 480-2583-ND 106.24 89.96 86.46 MLH150PGL06B200PSI 4 ~ 20mA 480-2585-ND 106.24 89.96 86.46 MLH200PGL01B7 200PSI 0.5 ~ 4.5VDC 480-2589-ND 106.24 89.96 86.46 MLH200PSL09A250PSI 0.5 ~ 4.5VDC 480-2597-ND 106.24 89.96 86.46 MLH250PSL09A500PSI 0.5 ~ 4.5VDC 480-2607-ND 106.24 89.96 86.46 MLH500PSLB06A500PSI 0.5 ~ 4.5VDC 480-2611-ND 106.24 89.96 86.46 MLH500PSL01A500PSI 0.5 ~ 4.5VDC 480-2612-ND 106.24 89.96 86.46 MLH500PSL06A500PSI 0.5 ~ 4.5VDC 480-2613-ND 106.24 89.96 86.46 MLH500PSL09A500PSI 4 ~ 20mA 480-2614-ND 106.24 89.96 86.46 MLH500PSL09B500PSI 0.5 ~ 4.5VDC 480-2615-ND 106.24 89.96 86.46 MLH500PSM09A3000PSI 0.5 ~ 4.5VDC 480-2541-ND 106.24 89.96 86.46 MLH03KPSL01A3000PSI 4 ~ 20mA 480-2542-ND 106.24 89.96 86.46 MLH03KPSL01B3000PSI 1 ~ 5VDC 480-3104-ND 106.24 89.96 86.46 MLH03KPSL01G5000PSI 0.5 ~ 4.5VDC 480-2550-ND 106.24 89.96 86.46 MLH05KPSL06A5000PSI 1 ~ 6VDC 480-2551-ND 106.24 89.96 86.46 MLH05KPSL10CForce Sensor1500G 180mV 480-2618-ND 60.05 49.75 47.60 FSS1500NSB8 1500G 180mV 480-2620-5-ND 60.05 49.75 47.60 FSS1500NST1500G 180mV 480-3308-5-ND NEW! 61.65 51.08 48.87 FSS1500NGT9 1500G 360mV 480-2621-5-ND 87.28 72.31 69.19 FSG15N1A5PSIG 10VDC 480-2622-ND 104.93 88.85 85.40 1865-01G-KDN5PSIG 1.5mA 480-2623-ND 104.93 88.85 85.40 1865-01G-LDN10PSIG 10VDC 480-2624-ND 109.43 92.66 89.06 1865-02G-KDN10PSIG 1.5mA 480-2625-ND 109.43 92.66 89.06 1865-02G-LDN1015PSIG 10VDC 480-2626-ND 112.43 95.20 91.49 1865-03G-KDN15PSIG 1.5mA 480-2627-ND 112.43 95.20 91.49 1865-03G-LDN25PSIG 10VDC 480-2628-ND 116.93 99.01 95.15 1865-05G-KDN25PSIG 1.5mA 480-2629-ND 116.93 99.01 95.15 1865-05G-LDN30PSIG 10VDC 480-2630-ND 119.92 101.55 97.59 1865-07G-KDN30PSIG 1.5mA 480-2631-ND 119.92 101.55 97.59 1865-07G-LDNLasertrim Board111.5LBS 3.0VDC 480-2632-5-ND 94.44 79.97 76.86 FS013LBS 3.0VDC 480-2633-5-ND 97.44 82.51 79.30 FS03±50mm Hg 4.5VDC 480-2634-5-ND 50.77 40.39 37.84 40PC001B1A12A 15PSIG 4.5VDC 480-2635-5-ND 48.45 38.54 36.11 40PC015G1A150PSIG 4.5VDC 480-3092-5-ND 47.50 37.79 35.41 40PC150G1A±50mm Hg 4.5VDC 480-3090-5-ND 50.24 41.62 39.83 40PC001B2A15PSIG 4.5VDC 480-3091-5-ND 48.45 38.54 36.11 40PC015G2A15PSIV 4.5VDC 480-2636-5-ND 48.45 38.54 36.11 40PC015V2A12B 100PSIG 4.5VDC 480-2638-5-ND 48.45 38.54 36.11 40PC100G2A150PSIG 4.5VDC 480-2639-5-ND 48.45 38.54 36.11 40PC150G2A250PSIG 4.5VDC 480-2640-5-ND 48.45 38.54 36.11 40PC250G2A500PSIG 4.5VDC 480-2642-5-ND 50.77 40.39 37.84 40PC500G2A12C15PSIV 4.5VDC 480-2637-5-ND 48.45 38.54 36.11 40PC015V3A250PSIG 4.5VDC 480-2641-5-ND 50.77 40.39 37.84 40PC250G3A.3PSIV 20mVDC 480-2644-5-ND 34.96 27.81 26.06 CPC0.3GFH1PSIG 18mV 480-3096-ND 31.61 25.15 23.57 CPC01GFC1PSIV 18mV 480-2646-5-ND 39.77 31.64 29.64 CPC01GFH13A 5PSIV 60mV 480-2647-5-ND 31.61 25.15 23.57 CPC05GFC5PSIV 60mV 480-2648-5-ND 39.77 31.64 29.64 CPC05GFH4H2OG 25mV 480-2652-5-ND 34.96 27.81 26.06 CPCL04GFC10H2OG 20mV 480-2654-5-ND 34.96 27.81 26.06 CPCL10GFCDigi-KeyPrice EachHoneywellFig. Pressure Output Part No.1 10 25 Part No.15PSIA 90mV 480-2649-5-ND 39.77 31.64 29.64 CPC15AFH13A 15PSIA 90mV 480-2650-5-ND 39.77 31.64 29.64 CPC15AH15PSIA 253mV 480-2655-5-ND 29.43 23.42 21.94 CPX15AF.3PSID 20mVDC 480-2643-5-ND 34.96 27.81 26.06 CPC0.3DFH1PSI 18mV 480-2645-5-ND 31.61 25.15 23.57 CPC01DFC13B4H2OD 25mV 480-2651-5-ND 34.96 27.81 26.06 CPCL04DFC4H2OD 68mV 480-3098-ND 31.82 25.31 23.72 CPXL04DF10H2OD 20mV 480-2653-5-ND 34.96 27.81 26.06 CPCL10DFC10H2OD 78.5mV 480-3099-ND 31.82 25.31 23.72 CPXL10DF14 100PSIG 295mV 480-3097-ND 29.43 23.42 21.94 CPX100G1H2OD ±2VDC 480-2656-5-ND 104.78 88.73 85.27 DC001NDC42H2OD ±2VDC 480-2657-5-ND 104.78 88.73 85.27 DC002NDC45H2OD ±2VDC 480-2658-5-ND 86.61 73.34 70.48 DC005NDC415 10H2OD ±2VDC 480-2659-5-ND 86.61 73.34 70.48 DC010NDC430H2OD ±2VDC 480-2660-5-ND 83.43 69.12 66.14 DC030NDC42.5MBARD ±2VDC 480-2661-5-ND 104.78 88.73 85.27 DC2R5BDC430H2OD ±2.5VDC 480-3100-ND 83.43 69.12 66.14 DC030NDR51H2OD 10mV 480-2662-5-ND 92.88 78.65 75.59 DCXL01DS5H2OD 20mV 480-2663-5-ND 85.46 70.79 67.74 DCXL05DS16 10H2OD 20mV 480-2664-5-ND 85.46 70.79 67.74 DCXL10DS20H2OD 20mV 480-3101-ND 71.61 59.32 56.76 DCXL20DS30H2OD 20mV 480-2665-5-ND 71.61 59.32 56.76 DCXL30DS1H2OD 6mV 480-2666-5-ND 104.78 88.73 85.27 DUXL01D175H2OD 22.5mV 480-2667-5-ND 86.61 73.34 70.48 DUXL05D10H2OD 30mV 480-2668-5-ND 86.61 73.34 70.48 DUXL10D20H2OD 30mV 480-2669-5-ND 77.26 64.00 61.24 DUXL20D1PSIDV 75mV 480-2687-5-ND 37.35 29.71 27.84 XPX01D18100PSIDV 295mV 480-2688-5-ND 43.94 34.96 32.75 XPX100DT150PSIDV 262.5mV 480-2690-5-ND 37.35 29.71 27.84 XPX150D10H2ODV 2mV/in H2O 480-2684-5-ND 47.87 38.08 35.68 XPCL10DHAirflow30SCCM 5VDC 480-3282-ND 111.61 94.51 90.83 AWM3150V19200SCCM ±44.5mV 480-2691-5-ND 101.47 85.92 82.58 AWM2100V200SCCM 5VDC 480-2692-5-ND 111.61 94.51 90.83 AWM3100V1000SCCM 5VDC 480-2693-5-ND 111.61 94.51 90.83 AWM3300V201000SCCM 54.7mV 480-3093-ND 101.47 85.92 82.58 AWM42300V1000SCCM 5VDC 480-2694-5-ND 111.61 94.51 90.83 AWM43300V21 6SLPM 5VDC 480-2695-5-ND 111.61 94.51 90.83 AWM43600V5SLPM 5VDC 480-2696-ND 119.43 101.13 97.19 AWM5101VN22 10SLPM 5VDC 480-3094-ND 119.43 101.13 97.19 AWM5102VN20SLPM 5VDC 480-2697-ND 119.43 101.13 97.19 AWM5104VN23 200SLPM 1 ~ 5VDC 480-3095-ND 119.43 101.13 97.19 AWM720P124 200SCCM ±77mVDC 480-2698-5-ND 61.24 50.74 48.55 AWM92100VFig. Pressure SensitivityDigi-KeyPart No.1Price Each10 25Typical SensitivityHoneywellPart No.5PSIG 7.5mV/mA/PSI 480-2673-5-ND 32.92 26.19 24.54 SCCP05GSMTP15PSIA 4.3mV/mA/PSI 480-3106-ND 32.92 26.19 24.54 SCCP15ASMTP15PSIG 4.3mV/mA/PSI 480-3107-ND 32.92 26.19 24.54 SCCP15GSMTP25A30PSIA 2.9mV/mA/PSI 480-3108-ND 32.92 26.19 24.54 SCCP30ASMTP30PSIG 2.9mV/mA/PSI 480-3109-ND 32.92 26.19 24.54 SCCP30GSMTP100PSIG 1.3mV/mA/PSI 480-2674-5-ND 32.92 26.19 24.54 SCCP100GSMTP15PSIA 1.50mV/mA/PSI 480-3112-ND 31.61 25.15 23.57 SXP15ASMTP100PSIG 0.30mV/mA/PSI 480-3111-ND 31.61 25.15 23.57 SXP100GSMTP25B 15PSIA 4.3mV/mA/PSI 480-2675-5-ND 32.92 26.19 24.54 SCCP15ASMTLP15PSIA 4.3mV/mA/PSI 480-2671-5-ND 31.61 25.15 23.57 SCC15ASMT2630PSIA 2.9mV/mA/PSI 480-2672-5-ND 32.92 26.19 24.54 SCC30ASMT300PSIA 0.14mV/mA/PSI 480-2677-5-ND 31.61 25.15 23.57 SX150ASMT300PSIG 0.14mV/mA/PSI 480-3110-ND 32.92 26.19 24.54 SX150GSMT1PSIV 18mV/PSI 480-2680-5-ND 49.76 41.23 39.45 XPC01GTC27 150PSIV 90mV typ 480-2681-5-ND 49.76 41.23 39.45 XPC150GTC15PSIA 6mV/PSI 480-2682-5-ND 49.76 41.23 39.45 XPC15ATC4H2ODV 6.25mV/PSI 480-2683-5-ND 49.76 41.23 39.45 XPCL04DTC281PSIDV 18mV/PSI 480-2679-5-ND 49.76 41.23 39.45 XPC01DTC10H2OD 2mV/in H2O 480-2685-5-ND 49.76 41.23 39.45 XPCL10DTC10H2OD 2mV/in H2O 480-2686-5-ND 49.76 41.23 39.45 XPCL10DTHNMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)157157

MediaSensor P51 Pressure TransducersDescription: This family of bulk micro-machined, absolute, gauge and sealed pressure transducers andtrans mitters are for both harsh and benign media with a total error of ±1% and are well suited for a variety ofautomotive, industrial and commercial applications. Features: Robust Package: All laser-welded stainlesssteel design for optimal media isolation Maximum Flexibility: Custom ASIC provides signal conditioning forcalibration and temperature compensation Temperature Range: ThreadLength - mmSize A B CPressureRange(psi)40.0 A BC 22.0HexØ22.0 ThreadSizePortThread Digi-Key(npt) Part No.Ø4.01/4-18 NPT 66.6 26.0 18.01/8-27 NPT 61.6 21.0 13.0Output1 ~ 5 VOUTColor 0.5 ~ 4.5 VOUT 4 ~ 20mAOUTRed Power PowerWhite VOUT ReturnBlack Ground Not UsedPressureType †1Price Each10 100SSI TechnologiesPart No.0.5 ~ 4.5 VOUT — 5+/-0.5 VIN15 G 1/4 734-1000-ND 68.63 64.05 61.77 P51-15-G-A-I36-4.5V-R50 G 1/4 734-1001-ND 68.63 64.05 61.77 P51-50-G-A-I36-4.5V-R100 G 1/4 734-1002-ND 68.63 64.05 61.77 P51-100-G-A-I36-4.5V-R200 G 1/4 734-1003-ND 68.63 64.05 61.77 P51-200-G-A-I36-4.5V-R300 G 1/4 734-1004-ND 68.63 64.05 61.77 P51-300-G-A-I36-4.5V-R15 G 1/8 734-1005-ND 68.63 64.05 61.77 P51-15-G-B-I36-4.5V-R50 G 1/8 734-1006-ND 68.63 64.05 61.77 P51-50-G-B-I36-4.5V-R100 G 1/8 734-1007-ND 68.63 64.05 61.77 P51-100-G-B-I36-4.5V-R200 G 1/8 734-1008-ND 68.63 64.05 61.77 P51-200-G-B-I36-4.5V-R300 G 1/8 734-1009-ND 68.63 64.05 61.77 P51-300-G-B-I36-4.5V-R50 A 1/4 734-1041-ND 68.63 64.05 61.77 P51-50-A-A-I36-4.5V-R100 A 1/4 734-1042-ND 68.63 64.05 61.77 P51-100-A-A-I36-4.5V-R500 A 1/4 734-1043-ND 68.63 64.05 61.77 P51-500-A-A-I36-4.5V-R1000 A 1/4 734-1044-ND 68.63 64.05 61.77 P51-1000-A-A-I36-4.5V-R50 A 1/8 734-1046-ND 68.63 64.05 61.77 P51-50-A-B-I36-4.5V-R100 A 1/8 734-1047-ND 68.63 64.05 61.77 P51-100-A-B-I36-4.5V-R500 A 1/8 734-1048-ND 68.63 64.05 61.77 P51-500-A-B-I36-4.5V-R1000 A 1/8 734-1049-ND 68.63 64.05 61.77 P51-1000-A-B-I36-4.5V-R100 S 1/4 734-1082-ND 68.63 64.05 61.77 P51-100-S-A-I36-4.5V-R500 S 1/4 734-1083-ND 68.63 64.05 61.77 P51-500-S-A-I36-4.5V-R1000 S 1/4 734-1084-ND 68.63 64.05 61.77 P51-1000-S-A-I36-4.5V-R100 S 1/8 734-1087-ND 68.63 64.05 61.77 P51-100-S-B-I36-4.5V-R500 S 1/8 734-1088-ND 68.63 64.05 61.77 P51-500-S-B-I36-4.5V-R1000 S 1/8 734-1089-ND 68.63 64.05 61.77 P51-1000-S-B-I36-4.5V-R0.5 ~ 4.5 VOUT — 5+/-0.5 VIN — Over Voltage Protection50 G 1/4 734-1011-ND 76.13 71.05 68.51 P51-50-G-A-I36-4.5OV-R200 G 1/4 734-1013-ND 76.13 71.05 68.51 P51-200-G-A-I36-4.5OV-R300 G 1/4 734-1014-ND 76.13 71.05 68.51 P51-300-G-A-I36-4.5OV-R15 G 1/8 734-1015-ND 76.13 71.05 68.51 P51-15-G-B-I36-4.5OV-R300 G 1/8 734-1019-ND 76.13 71.05 68.51 P51-300-G-B-I36-4.5OV-R50 A 1/4 734-1051-ND 76.13 71.05 68.51 P51-50-A-A-I36-4.5OV-R100 A 1/4 734-1052-ND 76.13 71.05 68.51 P51-100-A-A-I36-4.5OV-R50 A 1/8 734-1056-ND 76.13 71.05 68.51 P51-50-A-B-I36-4.5OV-R100 A 1/8 734-1057-ND 76.13 71.05 68.51 P51-100-A-B-I36-4.5OV-R500 A 1/8 734-1058-ND 76.13 71.05 68.51 P51-500-A-B-I36-4.5OV-R1000 A 1/8 734-1059-ND 76.13 71.05 68.51 P51-1000-A-B-I36-4.5OV-R15 S 1/4 734-1090-ND 76.13 71.05 68.51 P51-15-S-A-I36-4.5OV-R50 S 1/4 734-1091-ND 76.13 71.05 68.51 P51-50-S-A-I36-4.5OV-R100 S 1/4 734-1092-ND 76.13 71.05 68.51 P51-100-S-A-I36-4.5OV-R100 S 1/8 734-1097-ND 76.13 71.05 68.51 P51-100-S-B-I36-4.5OV-R3 G 1/8 734-1166-ND 76.13 71.05 68.51 P51-3-G-UB-I36-4.5V-R5 G 1/8 734-1167-ND 76.13 71.05 68.51 P51-5-G-UB-I36-4.5V-R10 G 1/8 734-1168-ND 76.13 71.05 68.51 P51-10-G-UB-I36-4.5V-R3 G 1/4 734-1169-ND 76.13 71.05 68.51 P51-3-G-UC-I36-4.5V-R5 G 1/4 734-1170-ND 76.13 71.05 68.51 P51-5-G-UC-I36-4.5V-R10 G 1/4 734-1171-ND 76.13 71.05 68.51 P51-10-G-UC-I36-4.5V-R1 ~ 5 VOUT — 8 ~ 30 VIN3 G 1/4 734-1175-ND 76.13 71.05 68.51 P51-3-G-UC-I36-5V-R5 G 1/4 734-1176-ND 76.13 71.05 68.51 P51-5-G-UC-I36-5V-R10 G 1/4 734-1177-ND 76.13 71.05 68.51 P51-10-G-UC-I36-5V-R15 G 1/4 734-1020-ND 68.63 64.05 61.77 P51-15-G-A-I36-5V-R50 G 1/4 734-1021-ND 68.63 64.05 61.77 P51-50-G-A-I36-5V-R100 G 1/4 734-1022-ND 68.63 64.05 61.77 P51-100-G-A-I36-5V-R200 G 1/4 734-1023-ND 68.63 64.05 61.77 P51-200-G-A-I36-5V-R300 G 1/4 734-1024-ND 68.63 64.05 61.77 P51-300-G-A-I36-5V-R3 G 1/8 734-1172-ND 76.13 71.05 68.51 P51-3-G-UB-I36-5V-R5 G 1/8 734-1173-ND 76.13 71.05 68.51 P51-5-G-UB-I36-5V-R10 G 1/8 734-1174-ND 76.13 71.05 68.51 P51-10-G-UB-I36-5V-R15 G 1/8 734-1025-ND 68.63 64.05 61.77 P51-15-G-B-I36-5V-R50 G 1/8 734-1026-ND 68.63 64.05 61.77 P51-50-G-B-I36-5V-R100 G 1/8 734-1027-ND 68.63 64.05 61.77 P51-100-G-B-I36-5V-R200 G 1/8 734-1028-ND 68.63 64.05 61.77 P51-200-G-B-I36-5V-R300 G 1/8 734-1029-ND 68.63 64.05 61.77 P51-300-G-B-I36-5V-RPressureRange(psi)PortThread(npt)PressureType †Digi-KeyPart No.1Price Each10 100SSI TechnologiesPart No.50 A 1/4 734-1061-ND 68.63 64.05 61.77 P51-50-A-A-I36-5V-R100 A 1/4 734-1062-ND 68.63 64.05 61.77 P51-100-A-A-I36-5V-R500 A 1/4 734-1063-ND 68.63 64.05 61.77 P51-500-A-A-I36-5V-R1000 A 1/4 734-1064-ND 68.63 64.05 61.77 P51-1000-A-A-I36-5V-R50 A 1/8 734-1066-ND 68.63 64.05 61.77 P51-50-A-B-I36-5V-R100 A 1/8 734-1067-ND 68.63 64.05 61.77 P51-100-A-B-I36-5V-R1000 A 1/8 734-1069-ND 68.63 64.05 61.77 P51-1000-A-B-I36-5V-R15 S 1/4 734-1100-ND 68.63 64.05 61.77 P51-15-S-A-I36-5V-R50 S 1/4 734-1101-ND 68.63 64.05 61.77 P51-50-S-A-I36-5V-R100 S 1/4 734-1102-ND 68.63 64.05 61.77 P51-100-S-A-I36-5V-R100 S 1/8 734-1107-ND 68.63 64.05 61.77 P51-100-S-B-I36-5V-R500 S 1/8 734-1108-ND 68.63 64.05 61.77 P51-500-S-B-I36-5V-R4 ~ 20 mAOUT — 8 ~ 30 VIN3 G 1/4 734-1181-ND 76.13 71.05 68.51 P51-3-G-UC-I36-20MA-R5 G 1/4 734-1182-ND 76.13 71.05 68.51 P51-5-G-UC-I36-20MA-R10 G 1/4 734-1183-ND 76.13 71.05 68.51 P51-10-G-UC-I36-20MA-R15 G 1/4 734-1030-ND 68.63 64.05 61.77 P51-15-G-UC-I36-20MA-0-R50 G 1/4 734-1031-ND 68.63 64.05 61.77 P51-50-G-A-I36-20MA-R100 G 1/4 734-1032-ND 68.63 64.05 61.77 P51-100-G-A-I36-20MA-R200 G 1/4 734-1033-ND 68.63 64.05 61.77 P51-200-G-A-I36-20MA-R300 G 1/4 734-1034-ND 68.63 64.05 61.77 P51-300-G-A-I36-20MA-R3 G 1/8 734-1178-ND 76.13 71.05 68.51 P51-3-G-UB-I36-20MA-R5 G 1/8 734-1179-ND 76.13 71.05 68.51 P51-5-G-UB-I36-20MA-R10 G 1/8 734-1180-ND 76.13 71.05 68.51 P51-10-G-UB-I36-20MA-R15 G 1/8 734-1035-ND 68.63 64.05 61.77 P51-15-G-B-I36-20MA-R50 G 1/8 734-1036-ND 68.63 64.05 61.77 P51-50-G-B-I36-20MA-R100 G 1/8 734-1037-ND 68.63 64.05 61.77 P51-100-G-B-I36-20MA-R200 G 1/8 734-1038-ND 68.63 64.05 61.77 P51-200-G-B-I36-20MA-R15 A 1/4 734-1070-ND 68.63 64.05 61.77 P51-15-A-A-I36-20MA-R50 A 1/4 734-1071-ND 68.63 64.05 61.77 P51-50-A-A-I36-20MA-R100 A 1/4 734-1072-ND 68.63 64.05 61.77 P51-100-A-A-I36-20MA-R500 A 1/4 734-1073-ND 68.63 64.05 61.77 P51-500-A-A-I36-20MA-R1000 A 1/4 734-1074-ND 68.63 64.05 61.77 P51-1000-A-A-I36-20MA-R50 A 1/8 734-1076-ND 68.63 64.05 61.77 P51-50-A-B-I36-20MA-R100 A 1/8 734-1077-ND 68.63 64.05 61.77 P51-100-A-B-I36-20MA-R50 S 1/4 734-1111-ND 68.63 64.05 61.77 P51-50-S-A-I36-20MA-R100 S 1/4 734-1112-ND 68.63 64.05 61.77 P51-100-S-A-I36-20MA-R500 S 1/4 734-1113-ND 68.63 64.05 61.77 P51-500-S-A-I36-20MA-R†Digital Fluid-TracUltrasonic Drum Level GaugeDescription: This drum level gauge is a cost competitive non-contact continuous liquid level drum gauge.Designed for use on 55 gallon vertical drums storing a wide variety of media such as water, waste water,motor oil, hydraulic fluid and diesel fuel. Features: Fits NPT openings (2” or 3/4”) Accurate to 1 gallonwith a resolution of +/- 0.5 gallon Powered by two 9V batteries (not included)Operating Battery Digi-KeyPrice Each SSI TechnologiesRange Temperature Life Part No.1 5 Part No.Up to 32” 0°C ~ 50°C 30 Days 734-1162-ND 125.00 112.50 DFT-110MediaGauge DigitalPressure GaugesSpecifications: Package: NEMA 4X Rating Operating Temperature:-10°C ~ 60°C (-14°F ~ 140°F) Output Type: 4 Digit LCD Keypad Operated Functions: Auto Zero and Peak Hold Port: 1/4 - 18 NPTAdditional Specifications:MG-MD: 4-20mA Current option and High and LowPressure Set pointsMGA-9V: Air OnlyPressureGaugeDimensions (mm)Digi-KeyPrice EachA B Accuracy Part No.1 5AB12.018.0 1/418 NPT22.0 HexSSI TechnologiesPart No.vMG - 9V (9 Volt Battery)3000 75.5 44.0 ±0.25% 734-1132-ND 180.50 171.00 MG-3000-A-9V-R5000 75.5 44.0 ±0.25% 734-1133-ND 180.50 171.00 MG-5000-A-9V-RMG - MD (12 Vdc)300 75.5 44.0 ±0.25% 734-1140-ND 237.50 225.00 MG-300-A-MD-RMG1 - 9V (9 Volt Battery)5 63.5 46.0 ±1.0% 734-1151-ND 148.20 140.40 MG1-5-A-9V-R100 63.5 46.0 ±1.0% 734-1153-ND 142.00 127.80 MG1-100-A-9V-R200 63.5 46.0 ±1.0% 734-1154-ND 142.00 127.80 MG1-200-A-9V-R3000 63.5 46.0 ±1.0% 734-1157-ND 142.00 127.80 MG1-3000-A-9V-R5000 63.5 46.0 ±1.0% 734-1158-ND 142.00 127.80 MG1-5000-A-9V-RMGA - 9V (9 Volt Battery)30 63.5 46.0 ±1.0% 734-1159-ND 80.00 72.00 MGA-30-A-9V-R300 63.5 46.0 ±1.0% 734-1161-ND 80.00 72.00 MGA-300-A-9V-RNIntegrated Pressure TransducersHoneywell’s Integrated Pressure Transducer (IPT) provides high accuracy pressure data in an industry standard SPI digital format.Applications: Alitmeters Cabin Air Pressure Flight Test Systems Meteorology Instrumentation and Analytical Equipment Features andBenefits: Digital SPI Output Industry Standard Interface: Ready communication between a µController/µProcessor and the IPT MediaInterface: Handles most dry gas mediaFig.MeasurementTypeFull ScaleRange AccuracyDigi-KeyPart No.Price EachHoneywellPart No.1 Absolute 20 PSIA ±0.04%FS 342-1075-ND 518.75 IPT0020A33R2 Differential 1 PSID ±0.10%FS 342-1074-ND 518.75 IPT0001D33RFig. 1 Fig. 2158 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Sensors®AccelerometersDim. in mmFig. 13.551.27BSC7.6110.450.4910.67Fig. 23.551.27BSC12.967.60 10.6710.49Fig. 3 NEW!314 1613139568Fig. 4151 613 837Fig. 5 NEW!10 X 0.303.08 X 0.53.0Fig.Supply(VDC)AccelerationRange (g) Typ.SensingAxisZero g Output(VDD = 5V)*PackageOperatingTemp. (°C)* The device can measure both +/- acceleration. With no input acceleration the output is at midsupply. For positive acceleration the output will increase above VDD/2 and for negative acceleration the output will decreasebelow VDD/2. ◆ RoHS Compliant § Cut Tape ∆ Tape and Reel † VDDDigi-KeyPart No.Price Each1 10 254.75 ~ 5.25 1.5 X 2.5V 16-SOIC -40 ~ 105 MMA2260EG-ND◆ 14.49 13.17 12.194.75 ~ 5.25 56.3 X 2.5V 16-SOIC -40 ~ 125 MMA2202EG-ND◆ 8.45 7.61 6.934.75 ~ 5.25 112.5 X 2.5V 16-SOIC -40 ~ 125 MMA2204EG-ND◆ 8.45 7.61 6.934.75 ~ 5.25 40 X 2.5V 16-SOIC -40 ~ 105 MMA2201EG-ND◆ 8.45 7.61 6.934.75 ~ 5.25 200 X 2.5V 16-SOIC -40 ~ 125 MMA2301EG-ND◆ 8.45 7.61 6.934.75 ~ 5.25 200 X 2.5V 16-SOIC -40 ~ 125 MMA2301EGR2-ND◆ 3988.00/1,0001 4.75 ~ 5.25 2.5 Z 2.5V 16-SOIC -40 ~ 105 MMA1270EG-ND◆ 9.35 8.42 7.674.75 ~ 5.25 2.5 Z 2.5V 16-SOIC -40 ~ 105 MMA1270EGR2CT-ND◆§ 8.13 7.36 6.754.75 ~ 5.25 225 Z 2.5V 16-SOIC -40 ~ 125 MMA1212EG-ND◆ 7.11 6.41 5.844.75 ~ 5.25 281 Z 2.5V 16-SOIC -40 ~ 125 MMA1200EG-ND◆ 7.11 6.41 5.844.75 ~ 5.25 8 Z 2.5V 16-SOIC -40 ~ 125 MMA1220EG-ND◆ 7.67 6.90 6.294.75 ~ 5.25 5 Z 2.5V 16-SOIC -40 ~ 125 MMA1250EG-ND◆ 9.35 8.42 7.674.75 ~ 5.25 1.55 Z 2.5V 16-SOIC -40 ~ 105 MMA1260EG-ND◆ 9.35 8.42 7.674.75 ~ 5.25 40 (X) / 40 (Y) X-Y 2.5V 20-SOIC -40 ~ 125 MMA3201EG-ND◆ 11.83 10.65 9.7024.75 ~ 5.25 100 (X) / 50 (Y) X-Y 2.5V 20-SOIC -40 ~ 125 MMA3202EG-ND◆ 11.83 10.65 9.704.75 ~ 5.25 100 (X) / 50 (Y) X-Y 2.5V 20-SOIC -40 ~ 125 MMA3202EGR2CT-ND◆§ 10.28 9.31 8.544.75 ~ 5.25 100 (X) / 50 (Y) X-Y 2.5V 20-SOIC -40 ~ 125 MMA3202EGR2TR-ND◆∆ 5581.00/1,0003 1.71 ~ 1.89 2 / 4 / 8 X-Y-Z 1.65V† 16-QFN -40 ~ 85 MMA8450QT-ND◆ NEW! 3.24 3.06 2.882.2 ~ 3.6 4 / 12 X-Y 1.4V† 14-LGA -40 ~ 85 MMA6331LT-ND◆ NEW! 1.94 1.84 1.7342.2 ~ 3.6 4 / 12 X-Y-Z 1.4V† 14-LGA -40 ~ 85 MMA7331LCT-ND◆ NEW! 1.94 1.84 1.732.2 ~ 3.6 1.5 / 6 X-Y-Z 1.65V† 14-LGA -40 ~ 85 MMA7361LCT-ND◆ NEW! 1.94 1.84 1.732.4 ~ 3.6 2 / 4 / 8 X-Y-Z 1.65V† 14-LGA -40 ~ 85 MMA7455LT-ND◆ 2.02 1.91 1.805 2.4 ~ 3.6 1.5 X-Y-Z 1.65V† 10-DFN -40 ~ 85 MMA7660FCT-ND◆ NEW! 1.51 1.35 .84Accelerometer Development Kits — RoHS CompliantAccelerometer Evaluation Kit for MMA7361L KIT3376MMA7361L-ND 35.00 — —Evaluation Kit for MMA7456L KIT3468MMA7455L-ND NEW! 35.00 — —Evaluation Kit for MMA7660FC RD3803MMA7660FC-ND NEW! 119.00 — —Accelerometer Development Board for MMA7361L LFSTBEB7361-ND NEW! 75.00 — —Accelerometer Development Board for MMA7660 LFSTBEB7660-ND NEW! 75.00 — —Accelerometer Development Board for MMA7455L D3172MMA7455L-ND NEW! 59.00 — —Accelerometer Development Board for MMA7660FC D3965MMA7660FC-ND NEW! 49.00 — —ZStar USB Board D3965USB-ND NEW! 49.00 — —Accelerometer Development Board MMA8450 LFSTBEB8450-ND NEW! 75.00 — —Development Board, Proto Board for Accelerometer LFSTBPROTO-ND NEW! 37.19 — —Reference Design KitsTriax Reference Design 3-Axis for MMA2260D ±1.5g with MMA1260D RD1986MMA2260D-ND 65.00 — —Evaluation Board for MMA7455L RD3172MMA7455L-ND◆ NEW! 99.00 — —Accelerometer Development Board MMA8450 RD3924MMA8450Q-ND◆ NEW! 99.00 — —Precision Temperature Compensated Pressure Sensors Operating Temperature Range: -40°C ~ 125°CFig. 17.06Port 21:GND2: +Vout11.1818.1611.053: Vs4: -VoutFig. 2 Fig. 36.3529.8511.4323.11 BSC11.188.384.935.59Port 2Port 118.16VacuumPositive 13.56 16.00PressurePin 1 12.57ø4.04Pin 1++18.420.51 2.54 BSC8.262.54 BSC0.511: GND 3: Vs1: GND 3: Vs2: +Vout 4: -Vout2: +Vout 4: -Vout23.11BSCPort 1PositivePressure+Pin 12.54 BSC29.85+0.514.93ø4.0418.42Fig. 410.792.5414.2213.211: GND 3: Vs 5: N/C 7: N/C2: +Vout 4: -Vout 6: N/C 8: N/C®Dim. in mmPressureType Output PackageSupply(VDC)ResponseTime*CompensatedTemp. Range (°C)Digi-KeyPart No.Price Each1 10 25Fig. PressureUnamplified Uncompensated Pressure Sensors1 0 ~ 1.45 psi Differential 35mV 344C-01 3.0 1.0ms — MPX10DP-ND 7.58 7.16 6.742 0 ~ 1.45 psi Differential 35mV 344-15 3.0 1.0ms — MPX10D-ND 7.58 7.16 6.743 0 ~ 1.45 psi Gauge 35mV 344B-01 3.0 1.0ms — MPX10GP-ND 7.58 7.16 6.744 0 ~ 1.45 psi Gauge 35mV 482C-03 3.0 1.0ms — MPXV10GC7U-ND 7.83 7.40 6.971 0 ~ 1.45 psi Differential 55mV 344C-01 3.0 1.0ms — MPX12DP-ND 7.58 7.16 6.743 0 ~ 1.45 psi Gauge 55mV 344B-01 3.0 1.0ms — MPX12GP-ND 7.58 7.16 6.741 0 ~ 7.25 psi Differential 60mV 344C-01 3.0 1.0ms — MPX53DP-ND 7.58 7.16 6.74Unamplified Temperature Compensated Pressure Sensors2 0 ~ 1.45 psi Differential 25mV 344-15 10.0 1.0ms 0 ~ 85 MPX2010D-ND 10.61 10.03 9.441 0 ~ 1.45 psi Differential 25mV 344C-01 10.0 1.0ms 0 ~ 85 MPX2010DP-ND 10.61 10.03 9.443 0 ~ 1.45 psi Gauge 25mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2010GP-ND 10.61 10.03 9.44* Response time is defined as the time for the incremental change in output to go from 10% to 90% of its final value when subjected to a specified step change in pressure. § Cut Tape ∆ Tape and Reel (Continued)N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)159159

SensorsPrecision Temperature Compensated Pressure Sensors (Cont.)®Dim. in mmFig. 5 Fig. 618.2812.32Fig. 7Fig. 82.9720.821: GND2: +VoutFig. 1011.1818.162.543: Vs4: -VoutPin 11: GND2: +VoutPin 129.854.19Port #2Vacuum2.543: Vs4: -VoutPositivePressure8.516.48 3.3Fig. 1111.381: GND2: Vout10.79 1.0718.41Pin 11.273: Vs4: -Vout2.54 BSC13.33.171.81: N/C 3: GND 5: N/C 7: N/C2: Vs 4: Vout 6: N/C 8: N/C12.329.476.4813.211.27BSC0.46Pin 110.081: GND2: +VoutFig. 128.513: Vs4: -Vout7.625.1312.3212.327.6212.326.4718.211: GND 3: Vs 5: N/C 7: N/C2: +Vout 4: -Vout 6: N/C 8: N/C17.5212.321: N/C 3: GND 5: N/C 7: N/C2: Vs 4: Vout 6: N/C 8: N/C2.54PIN 1Fig. 13Port 1PositivePressurePort 2Vacuum2.547.0611.1818.1611.05Fig. 916.511: Vout 2: GND 3: Vs4: NC 5: NC 6: NC8.38Port 2Vacuum28.4529.8519.30Pin 12.5423.11 BSC4.93Port 1PositivePressureø4.04 + +Pin 118.426.12.54 BSC 0.84NPressureSupply Response Compensated Digi-KeyPrice EachFig. PressureType Output Package (VDC) Time* Temp. Range (°C) Part No.1 10 255 0 ~ 1.45 psi Gauge 25mV 344E-01 10.0 1.0ms 0 ~ 85 MPX2010GS-ND 10.61 10.03 9.446 0 ~ 1.45 psi Differential 25mV MPAK 10.0 1.0ms 0 ~ 85 MPXM2010D-ND 6.82 6.45 6.077 0 ~ 1.45 psi Gauge 25mV Ported MPAK 10.0 1.0ms 0 ~ 85 MPXM2010GS-ND 6.82 6.45 6.078 0 ~ 1.45 psi Gauge 25mV 1369-01 10.0 1.0ms 0 ~ 85 MPXV2010GP-ND 9.49 8.96 8.443 0 ~ 7.25 psi Gauge 40mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2050GP-ND 10.61 10.03 9.441 0 ~ 7.25 psi Differential 40mV 344C-01 10.0 1.0ms 0 ~ 85 MPX2053DP-ND 10.61 10.03 9.443 0 ~ 7.25 psi Gauge 40mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2053GP-ND 10.61 10.03 9.446 0 ~ 7.25 psi Differential 40mV MPAK 10.0 1.0ms 0 ~ 85 MPXM2053D-ND 6.82 6.45 6.077 0 ~ 7.25 psi Gauge 40mV Ported MPAK 10.0 1.0ms 0 ~ 85 MPXM2053GS-ND 6.82 6.45 6.078 0 ~ 7.25 psi Gauge 40mV 1369-01 10.0 1.0ms 0 ~ 85 MPXV2053GP-ND 9.49 8.96 8.442 0 ~ 14.5 psi Absolute 40mV 344-15 10.0 1.0ms 0 ~ 85 MPX2100A-ND 10.61 10.03 9.443 0 ~ 14.5 psi Absolute 40mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2100AP-ND 10.61 10.03 9.442 0 ~ 14.5 psi Differential 40mV 344-01 10.0 1.0ms 0 ~ 85 MPX2100D-ND 10.61 10.03 9.441 0 ~ 14.5 psi Differential 40mV 344C-01 10.0 1.0ms 0 ~ 85 MPX2100DP-ND 10.61 10.03 9.443 0 ~ 14.5 psi Gauge 40mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2100GP-ND 10.61 10.03 9.442 0 ~ 14.5 psi Absolute 40mV 344-15 10.0 1.0ms 0 ~ 85 MPX2102A-ND 10.61 10.03 9.443 0 ~ 14.5 psi Absolute 40mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2102AP-ND 10.61 10.03 9.449 0 ~ 14.5 psi Absolute 40mV 344F-01 10.0 1.0ms 0 ~ 85 MPX2102ASX-ND 10.61 10.03 9.441 0 ~ 14.5 psi Differential 40mV 344C-01 10.0 1.0ms 0 ~ 85 MPX2102DP-ND 10.61 10.03 9.443 0 ~ 14.5 psi Gauge 40mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2102GP-ND 10.61 10.03 9.4410 0 ~ 14.5 psi Gauge 40mV 344D-01 10.0 1.0ms 0 ~ 85 MPX2102GVP-ND 10.61 10.03 9.448 0 ~ 14.5 psi Gauge 40mV 1369-01 10.0 1.0ms 0 ~ 85 MPXV2102GP-ND 9.49 8.96 8.446 0 ~ 14.5 psi Absolute 40mV MPAK 10.0 1.0ms 0 ~ 85 MPXM2102A-ND 6.82 6.45 6.077 0 ~ 14.5 psi Absolute 40mV Ported MPAK 10.0 1.0ms 0 ~ 85 MPXM2102AS-ND 6.82 6.45 6.077 0 ~ 14.5 psi Gauge 40mV Ported MPAK 10.0 1.0ms 0 ~ 85 MPXM2102GS-ND 6.82 6.45 6.072 0 ~ 29 psi Absolute 40mV 344-15 10.0 1.0ms 0 ~ 85 MPX2200A-ND 10.61 10.03 9.443 0 ~ 29 psi Absolute 40mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2200AP-ND 10.61 10.03 9.442 0 ~ 29 psi Differential 40mV 344-15 10.0 1.0ms 0 ~ 85 MPX2200D-ND 10.61 10.03 9.441 0 ~ 29 psi Differential 40mV 344C-01 10.0 1.0ms 0 ~ 85 MPX2200DP-ND 10.61 10.03 9.448 0 ~ 29 psi Gauge 40mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2200GP-ND 10.61 10.03 9.449 0 ~ 29 psi Absolute 40mV 344F-01 10.0 1.0ms 0 ~ 85 MPX2202ASX-ND 10.61 10.03 9.441 0 ~ 29 psi Differential 40mV 344C-01 10.0 1.0ms 0 ~ 85 MPX2202DP-ND 10.61 10.03 9.443 0 ~ 29 psi Gauge 40mV 344B-01 10.0 1.0ms 0 ~ 85 MPX2202GP-ND 10.61 10.03 9.446 0 ~ 29 psi Absolute 40mV MPAK 10.0 1.0ms 0 ~ 85 MPXM2202A-ND 6.82 6.45 6.077 0 ~ 29 psi Absolute 40mV Ported MPAK 10.0 1.0ms 0 ~ 85 MPXM2202AS-ND 6.82 6.45 6.076 0 ~ 29 psi Differential 40mV MPAK 10.0 1.0ms 0 ~ 85 MPXM2202D-ND 6.82 6.45 6.077 0 ~ 29 psi Gauge 40mV Ported MPAK 10.0 1.0ms 0 ~ 85 MPXM2202GS-ND 6.82 6.45 6.078 0 ~ 29 psi Gauge 40mV 1369-01 10.0 1.0ms 0 ~ 85 MPXV2202GP-ND 9.49 8.96 8.44Amplified Temperature Compensated Pressure Sensors11 0 ~ 0.57 psi Gauge 4.9V 482A-01 5.0 — 0 ~ 85 MPXV5004GC6U-ND 12.32 11.64 10.9611 0 ~ 0.57 psi Gauge 4.9V 482A-01 5.0 — 10 ~ 60 MPXV5004GC6T1CT-ND§ 13.33 11.90 11.1911 0 ~ 0.57 psi Gauge 4.9V 482A-01 5.0 — 10 ~ 60 MPXV5004GC6T1TR-ND∆ 684.72/1004 0 ~ 0.57 psi Gauge 4.9V 482C-03 5.0 — 10 ~ 60 MPXV5004GC7U-ND 12.32 11.64 10.968 0 ~ 0.57 psi Gauge 4.9V 1369-01 5.0 — 10 ~ 60 MPXV5004GP-ND 12.13 11.46 10.7912 0 ~ 0.57 psi Gauge 4.9V 1368-01 5.0 — 10 ~ 60 MPXV5004GVP-ND 12.13 11.46 10.794 0 ~ 0.87 psi Gauge 4.6V 482C-03 5.0 — 10 ~ 60 MPXV4006GC7U-ND 12.32 11.64 10.968 0 ~ 0.87 psi Gauge 4.6V 1369-01 5.0 — 10 ~ 60 MPXV4006GP-ND 12.13 11.46 10.7913 0 ~ 1.45 psi Differential 4.5V 867C-05 5.0 1.0ms -40 ~ 125 MPX5010DP-ND 14.00 13.22 12.4514 0 ~ 1.45 psi Gauge 4.5V 867B-04 5.0 1.0ms -40 ~ 125 MPX5010GP-ND 14.00 13.22 12.45* Response time is defined as the time for the incremental change in output to go from 10% to 90% of its final value when subjected to a specified step change in pressure. § Cut Tape ∆ Tape and Reel (Continued)®For Digi-Reel ® information, please see page 73.160 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

SensorsPrecision Temperature Compensated Pressure Sensors (Cont.)®Fig. 14 Fig. 15Fig. 16Fig. 1729.856.3523.11ø11.4317.8BSCPositiveø4.9311.185.59Pressure12.318.16ø4.0413.56 16 Pin 112.572.5418.4218.16 ++18.422.660.84 2.54 BSC4.612.31.88.26Pin 12.54 BSC 0.849.91: Vout 3: Vcc 5: V21: Vout 3: Vs 5: NC2: GND 4: V1 6: Vex2: GND 4: NC 6: NC5.8410.7910.79 1.0718.411: N/C 3: GND 5: N/C 7: N/C2: Vs 4: Vout 6: N/C 8: N/CDim. in mm2.54 BSC1Fig.PressurePressureType Output PackageSupply(VDC)* Response time is defined as the time for the incremental change in output to go from 10% to 90% of its final value when subjected to a specified step change in pressure. § Cut Tape ∆ Tape and Reel (Continued)ResponseTime*CompensatedTemp. Range (°C)Digi-KeyPart No.Price Each1 10 258 0 ~ 1.45 psi Gauge 4.5V 1369-01 5.0 1.0ms -40 ~ 125 MPXV5010GP-ND 12.13 11.46 10.7915 0 ~ 7.25 psi Differential 4.5V 867-08 5.0 1.0ms -40 ~ 125 MPX5050D-ND 14.00 13.22 12.4514 0 ~ 7.25 psi Differential 4.5V 867C-05 5.0 1.0ms -40 ~ 125 MPX5050DP-ND 14.00 13.22 12.4514 0 ~ 7.25 psi Gauge 4.5V 867B-04 5.0 1.0ms -40 ~ 125 MPX5050GP-ND 14.00 13.22 12.458 0 ~ 7.25 psi Gauge 4.5V 1369-01 5.0 1.0ms -40 ~ 125 MPXV5050GP-ND 12.13 11.46 10.7915 0 ~ 11.6 psi Differential 4.3V 867-08 5.1 — -40 ~ 105 MPX4080D-ND 14.00 13.22 12.4514 2.2 ~ 16.7 psi Absolute 4.7V 867B-04 5.0 1.0ms 0 ~ 85 MPX5100AP-ND 14.00 13.22 12.4515 0 ~ 14.5 psi Differential 4.7V 867-08 5.0 1.0ms -40 ~ 125 MPX5100D-ND 14.00 13.22 12.4514 0 ~ 14.5 psi Gauge 4.7V 867B-04 5.0 1.0ms 0 ~ 85 MPX5100GP-ND 14.00 13.22 12.4516 2.2 ~ 16.7 psi Absolute 4.7V 1351-01 5.0 1.0ms 0 ~ 85 MPXV5100DP-ND 12.15 11.48 10.8011 0 ~ 14.5 psi Gauge 4.7V 482A-01 5.0 1.0ms -40 ~ 125 MPXV5100GC6U-ND 12.56 11.87 11.174 2.2 ~ 16.7 psi Absolute 4.7V 482C-03 5.0 1.0ms 0 ~ 85 MPXV5100GC7U-ND 12.56 11.87 11.1715 0 ~ 36.3 psi Differential 4.7V 867-08 5.1 1.0ms -40 ~ 125 MPX4250D-ND 14.00 13.22 12.4513 0 ~ 36.3 psi Differential 4.7V 867C-05 5.0 1.0ms -40 ~ 125 MPX4250DP-ND 14.00 13.22 12.4515 0 ~ 72.5 psi Differential 4.5V 867-08 5.0 1.0ms -40 ~ 125 MPX5500D-ND 14.00 13.22 12.4515 0 ~ 101.5 psi Differential 4.5V 867-08 5.0 1.0ms -40 ~ 125 MPX5700D-ND 14.00 13.22 12.4513 0 ~ 101.5 psi Differential 4.5V 867C-05 5.0 1.0ms -40 ~ 125 MPX5700DP-ND 14.00 13.22 12.4514 0 ~ 101.5 psi Gauge 4.5V 867B-04 5.0 1.0ms -40 ~ 125 MPX5700GP-ND 14.00 13.22 12.4515 0 ~ 150 psi Differential 4.7V 867-08 5.0 1.0ms -40 ~ 125 MPX5999D-ND 14.00 13.22 12.4515 2.2 ~ 16.7 psi Absolute 4.6V 867-08 5.1 1.0ms -40 ~ 125 MPX4115A-ND 14.00 13.22 12.4514 2.2 ~ 16.7 psi Absolute 4.6V 867B-04 5.1 1.0ms -40 ~ 125 MPX4115AP-ND 14.00 13.22 12.4517 2.2 ~ 16.7 psi Absolute 4.6V 482-01 5.1 1.0ms -40 ~ 125 MPXA4115A6U-ND 13.75 12.50 11.5711 2.2 ~ 16.7 psi Absolute 4.6V 482A-01 5.1 1.0ms -40 ~ 125 MPXA4115AC6U-ND 14.21 12.92 11.9615 2.2 ~ 16.7 psi Absolute 4.7V 867-08 5.0 1.0ms -40 ~ 125 MPX5100A-ND 14.00 13.22 12.458 2.2 ~ 16.7 psi Absolute 4.8V 1369-01 5.0 1.0ms -40 ~ 125 MPXAZ6115AP-ND 12.56 11.87 11.1717 2.2 ~ 16.7 psi Absolute 4.5V 482-01 5.0 1.0ms -40 ~ 125 MPXA6115A6U-ND 12.15 11.48 10.8011 2.2 ~ 16.7 psi Absolute 4.5V 482A-01 5.0 1.0ms -40 ~ 125 MPXA6115AC6U-ND 12.56 11.87 11.1717 2.2 ~ 16.7 psi Absolute 4.8V 482-01 5.1 1.0ms -40 ~ 125 MPXAZ4115A6U-ND 14.21 12.92 11.9611 2.2 ~ 16.7 psi Absolute 4.8V 482A-01 5.1 1.0ms -40 ~ 125 MPXAZ4115AC6U-ND 14.65 13.32 12.3318 2.2 ~ 16.7 psi Absolute 4.5V 1317-04 5.0 1.0ms -40 ~ 125 MPXH6115A6T1CT-ND§ 19.50 17.63 15.0018 2.2 ~ 16.7 psi Absolute 4.5V 1317-04 5.0 1.0ms -40 ~ 125 MPXH6115A6T1TR-ND∆ 5367.58/1,00014 2.2 ~ 16.7 psi Absolute 4.6V 867B-04 5.1 1.0ms -40 ~ 125 MPXA4115AP-ND 13.75 12.50 11.5717 2.2 ~ 16.7 psi Absolute 4.5V 482-01 5.0 1.0ms -40 ~ 125 MPXAZ6115A6U-ND 12.56 11.87 11.1711 2.2 ~ 16.7 psi Absolute 4.5V 482A-01 5.0 1.0ms -40 ~ 125 MPXAZ6115AC6U-ND 12.95 12.23 11.5118 2.2 ~ 16.7 psi Absolute 4.5V 1317-04 5.0 1.0ms -40 ~ 125 MPXHZ6115A6U-ND 10.03 9.48 8.9219 2.2 ~ 16.7 psi Absolute 4.5V 1317A-03 5.0 1.0ms -40 ~ 125 MPXHZ6115AC6U-ND 10.44 9.86 9.2818 2.2 ~ 16.7 psi Absolute 4.5V 1317-04 5.0 1.0ms -40 ~ 125 MPXH6115A6U-ND 9.66 9.13 8.5919 2.2 ~ 16.7 psi Absolute 4.5V 1317A-01 5.0 1.0ms -40 ~ 125 MPXH6115AC6T1CT-ND§ 11.06 9.88 9.2919 2.2 ~ 16.7 psi Absolute 4.5V 1317A-01 5.0 1.0ms -40 ~ 125 MPXH6115AC6U-ND 10.24 9.68 9.1117 2.9 ~ 15.2 psi Absolute 4.9V 482-01 5.1 1.0ms -40 ~ 125 MPXAZ4100A6U-ND 14.21 12.92 11.9611 2.9 ~ 15.2 psi Absolute 4.9V 482A-01 5.1 1.0ms -40 ~ 125 MPXAZ4100AC6U-ND 12.04 10.95 10.1314 2.9 ~ 15.2 psi Absolute 4.8V 867B-04 5.1 1.0ms 0 ~ 85 MPX4100AP-ND 15.84 14.40 13.3217 2.9 ~ 15.2 psi Absolute 4.8V 482-01 5.1 1.0ms -40 ~ 125 MPXA4100A6U-ND 13.75 12.50 11.5711 2.9 ~ 15.2 psi Absolute 4.8V 482A-01 5.1 1.0ms -40 ~ 125 MPXA4100AC6U-ND 14.21 12.92 11.9615 2.9 ~ 15.2 psi Absolute 4.9V 867-08 5.0 1.0ms -40 ~ 125 MPX4100A-ND 14.00 13.22 12.4515 2.9 ~ 36.3 psi Absolute 4.7V 867-08 5.1 1.0ms -40 ~ 125 MPX4250A-ND 14.00 13.22 12.4514 2.9 ~ 36.3 psi Absolute 4.7V 867B-04 5.1 1.0ms -40 ~ 125 MPX4250AP-ND 14.00 13.22 12.4517 2.9 ~ 36.3 psi Absolute 4.7V 482-01 5.1 1.0ms -40 ~ 125 MPXA4250A6U-ND 13.75 12.50 11.5711 2.9 ~ 36.3 psi Absolute 4.7V 482A-01 5.1 1.0ms -40 ~ 125 MPXA4250AC6U-ND 14.21 12.92 11.9618 2.18 ~ 14.8 psi Absolute 4.7V 1317-04 5.1 15.0ms -40 ~ 125 MPXH6101A6T1CT-ND§ 10.44 9.33 8.7718 2.18 ~ 14.8 psi Absolute 4.7V 1317-04 5.1 15.0ms -40 ~ 125 MPXH6101A6T1TR-ND∆ 5367.58/1,00018 2.18 ~ 14.8 psi Absolute 4.7V 1317-04 5.1 15.0ms -40 ~ 125 MPXH6101A6U-ND 9.66 9.13 8.5914 2.18 ~ 101.5 psi Absolute 4.7V 867-08 5.0 1.0ms -40 ~ 125 MPX5700A-ND 14.00 13.22 12.4518 3.0 ~ 36 psi Absolute 4.7V 1317-04 5.1 1.0ms -40 ~ 125 MPXH6250A6U-ND 9.86 9.31 8.7719 3.0 ~ 36 psi Absolute 4.7V 1317A-01 5.1 1.0ms -40 ~ 125 MPXH6250AC6U-ND 9.99 9.44 8.8918 3.0 ~ 42 psi Absolute 4.6V 1317-04 5.1 1.0ms -40 ~ 125 MPXH6300A6U-ND 9.86 9.31 8.7719 3.0 ~ 42 psi Absolute 4.6V 1317A-01 5.1 1.0ms -40 ~ 125 MPXH6300AC6U-ND 9.99 9.44 8.8919 3.0 ~ 58 psi Absolute 4.8V 1317A-03 5.0 1.0ms -40 ~ 125 MPXH6400AC6U-ND 9.99 9.44 8.8919 3.0 ~ 58 psi Absolute 4.6V 1317A-01 5.0 1.0ms -40 ~ 125 MPXH6400AC6T1CT-ND§ 10.81 9.65 9.0819 3.0 ~ 58 psi Absolute 4.6V 1317A-01 5.0 1.0ms -40 ~ 125 MPXH6400AC6T1TR-ND∆ 1665.35/30011 -16.7 ~ 2.2 psi Differential 4.6V 482A-01 5.0 1.0ms -40 ~ 125 MPXV4115VC6U-ND 14.21 12.92 11.9611 -16.7 ~ 2.2 psi Differential 4.4V 482A-01 5.0 1.0ms -40 ~ 125 MPXV6115VC6U-ND 12.56 11.87 11.1711 -7.25 ~ 0 psi Differential 4.5V 482A-01 5.0 1.0ms -40 ~ 125 MPXV5050VC6T1CT-ND§ 13.58 12.13 11.4011 -7.25 ~ 0 psi Differential 4.5V 482A-01 5.0 1.0ms -40 ~ 125 MPXV5050VC6T1TR-ND∆ 697.68/10018 2.2 ~ 18.9 psi Absolute 4.8V 1317-04 5.0 1.0ms -40 ~ 125 MPXHZ6130A6U-ND 10.03 9.48 8.92N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)161161

SensorsPrecision Temperature Compensated Pressure Sensors (Cont.)®Dim. in mmFig. 1810.67Fig. 19Fig. 20Fig. 2110.670.7007.625.0810.7919.94541.2714.220.100548.760.485634.199.9172817.62818.760.2600.4850.3901: N/C 3: GND 5: N/C 7: N/C1: N/C 3: GND 5: N/C 7: N/C2: Vs 4: Vout 6: N/C 8: N/C2: Vs 4: Vout 6: N/C 8: N/CPressureSupply Response Compensated Digi-KeyPrice EachFig. PressureType Output Package (VDC) Time* Temp. Range (°C) Part No.1 10 2518 2.2 ~ 16.7 psi Absolute 2.8V 1317-04 5.0 1.0ms -40 ~ 125 MP3H6115A6U-ND 9.66 9.13 8.5919 2.2 ~ 16.7 psi Absolute 2.8V 1317A-03 5.0 1.0ms -40 ~ 125 MP3H6115AC6U-ND 9.99 9.44 8.8920 0.57 psi Gauge 4.5V 1560-03 5.0 1.0ms -40 ~ 125 MPVZ5004GW7U-ND 12.64 11.94 11.2420 1.45 psi Gauge 4.5V 1560-03 5.0 1.0ms -40 ~ 125 MPVZ5010GW7U-ND 12.64 11.94 11.2421 0.57 psi Differential 4.5V 1351-01 5.0 1.0ms -40 ~ 125 MPXV5004DP-ND 12.13 11.46 10.794 1.45 psi Gauge 4.5V 482C-03 5.0 1.0ms -40 ~ 125 MPXV5010GC7U-ND 12.32 11.64 10.9621 0.3 psi Differential 4.5V 1351-01 5.0 1.0ms -40 ~ 125 MPXV7002DP-ND 12.13 11.46 10.7921 1 psi Differential 4.5V 1351-01 5.0 1.0ms -40 ~ 125 MPXV7007DP-ND 12.13 11.46 10.7921 3.6 psi Differential 4.5V 1351-01 5.0 1.0ms -40 ~ 125 MPXV7025DP-ND 12.13 11.46 10.794 3.6 psi Gauge 4.5V 482C-03 5.0 1.0ms -40 ~ 125 MPXV7025GC6U-ND 12.32 11.64 10.96NEW! Digital Barometric Pressure Sensors®Dim. in mmSupplyVoltageTypicalPackagePeakTemperatureAmbientOperatingTemperaturePressureMeasurementPressureRangeMin./ Max.PressureRatingMaximumPressureRatingMaximumSupplyVoltageMin./ Max. Digi-KeyCut TapePrice Each Freescale(V) (°C) (°C) Type (kPa) (kPa) (psi) (V) Part No.1 10 25 Part No.3.3 245 -40 ~ 105 Absolute 50 ~ 115 115 16.7 2.4 ~ 5.5 MPL115A1T1CT-ND 7.31 6.53 6.14 MPL115A1T185143.3 245 -40 ~ 105 Absolute 50 ~ 115 115 16.7 2.4 ~ 5.5 MPL115A1T1TR-ND∆ 3758.40/1,000 MPL115A1T13.3 245 -40 ~ 105 Absolute 50 ~ 115 115 16.7 2.4 ~ 5.5 MPL115A2T1CT-ND 7.31 6.53 6.14 MPL115A2T133.3 245 -40 ~ 105 Absolute 50 ~ 115 115 16.7 2.4 ~ 5.5 MPL115A2T1TR-ND∆ 3758.40/1,000 MPL115A2T1Evaluation board that demonstrates the SPI communication protocol KITMPL115A1SPI-ND 27.00 25.50 24.00 KITMPL115A1SPIEvaluation board that demonstrates the I 2 C communication protocol KITMPL115A2I2C-ND 27.00 25.50 24.00 KITMPL115A2I2CEvaluation Kit for MPL115A1 KITMPL115A1EVB-ND 49.00 — — KITMPL115A1EVB∆ Tape and Reel51.2Proximity Sensors and Kits®Dim. in mmFig. 16 x 0.58 x 0.250.251 428 X 0.458 52Fig. 20.65 BSC4.501615.1098Fig. 3123.2593.2513 161458Fig. 4 NEW!53.0120 x 0.256 101116 X 0.41520 163.0NSupply Supply Operating Digi-KeyCut Tape Price Each Digi-KeyTape and Reel FreescaleFig. (VDC) Current (A) Temperature (°C) Package Part No.1 25 100 Part No.Qty. Pricing Part No.1 1.8 150µA -40 ~ 85 8-DFN MPR031EPR2CT-ND .98 .83 .79 MPR031EPR2TR-ND 3,000 496.80/M MPR031EPR21 1.8 150µA -40 ~ 85 8-DFN MPR032EPR2CT-ND .98 .83 .79 MPR032EPR2TR-ND 3,000 496.80/M MPR032EPR22 1.8 ~ 3.6 150µA -40 ~ 85 16-TSSOP MPR083EJ-ND† 2.43 2.16 1.35 — — — MPR083EJ2 1.8 ~ 3.6 150µA -40 ~ 85 16-TSSOP MPR084EJ-ND† 2.43 2.16 1.35 — — — MPR084EJ3 1.8 ~ 3.6 150µA -40 ~ 85 16-QFN MPR083Q-ND† 2.43 2.16 1.35 — — — MPR083Q3 1.8 ~ 3.6 150µA -40 ~ 85 16-QFN MPR084Q-ND† 2.43 2.16 1.35 — — — MPR084Q4 1.71 ~ 3.6 29µA 1.71 ~ 3.6 20-QFN MPR121QR2CT-ND NEW! 1.71 1.44 1.38 MPR121QR2TR-ND NEW! 1,000 870.00 MPR121QR2Demo Kit for MC34940E DEMO1985MC34940E-ND 83.94 — — — — — DEMO1985MC34940EAltitude Pressure Demo Board DEMOAPEXSENSOR-ND NEW! 135.00 — — — — — DEMOAPEXSENSORDemo Kit for MPR083 DEMOMPR083-ND 25.00 — — — — — DEMOMPR083Demo Board for MC33941 DEMOMC33941-ND 159.38 — — — — — DEMOMC33941Demo Board for MPR031 DEMOMPR031-ND 25.00 — — — — — DEMOMPR031Evaluation Kit for MPR03X KITMPR03XEVM-ND 99.00 — — — — — KITMPR03XEVMEvaluation Kit for MPR083 KITMPR083EVM-ND 99.00 — — — — — KITMPR083EVMEvaluation Kit for MPR084 KITMPR084EVM-ND 99.00 — — — — — KITMPR084EVMEvaluation Kit for MPR121 KITMPR121EVM-ND NEW! 99.00 — — — — — KITMPR121EVMSensor Toolbox Starter Kit KITSTARTER1EVM-ND NEW! 299.95 — — — — — KITSTARTER1EVM† Bulk®For Digi-Reel ® information, please see page 73.162 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Pressure SensorsFig. 1PressureSupply Compensated Operating Digi-KeyPrice Each All SensorsFig. Pressure Type Output (VDC) Temperature Temperature Part No.1 25 100 Part No.Amplified Low Pressure±1 mbar 4V 3 ~ 6 5°C ~ 50°C -25°C ~ 85°C 442-1011-ND 135.00 119.70 108.00 1 MBAR-D-4V±1 In H 2O 4V 3 ~ 6 5°C ~ 50°C -25°C ~ 85°C 442-1012-ND◆ 110.00 77.00 68.75 1 INCH-D-4V0-1 In H 2O 4V 3 ~ 6 5°C ~ 50°C -25°C ~ 85°C 442-1013-ND◆ 120.00 84.00 75.00 1 INCH-G-4V1±5 In H 2O 4V 3 ~ 6 5°C ~ 50°C -25°C ~ 85°C 442-1014-ND◆ 110.00 77.00 68.75 5 INCH-D-4V0-5 In H 2O 4V 3 ~ 6 5°C ~ 50°C -25°C ~ 85°C 442-1015-ND 110.00 77.00 68.75 5 INCH-G-4V±10 In H 2O 4V 3 ~ 6 5°C ~ 50°C -25°C ~ 85°C 442-1016-ND◆ 110.00 77.00 68.75 10 INCH-D-4V0-10 In H 2O 4V 3 ~ 6 5°C ~ 50°C -25°C ~ 85°C 442-1017-ND 82.50 73.15 66.00 10 INCH-G-4V±30 In H 2O 4V 3 ~ 6 5°C ~ 50°C -25°C ~ 85°C 442-1020-ND 82.50 73.15 66.00 30 INCH-D-4VAmplified Middle Pressure1 0-0.3 PSIG 4V 3 ~ 7 5°C ~ 50°C -25°C ~ 85°C 442-1023-ND 75.00 66.50 60.00 0.3 PSI-G-4VBarometric Pressure1 600-1100 mbar 4V 4.5 ~ 5.5 5°C ~ 50°C -40°C ~ 125°C 442-1089-ND◆ 100.00 70.00 62.50 BARO-A-4V2 600-1100 mbar Digital/Serial 7 -40°C ~ 125°C -40°C ~ 125°C 442-1098-ND 405.00 — — BARO-DO-MIL3A 600-1100 mbar 4.5 ~ 5.5V 4.5 ~ 75.5 -25°C ~ 85°C -25°C ~ 85°C 442-1093-ND◆ 180.00 126.00 112.50 BARO-A-4V-MINI-PRIMEMillivolt Output C-Grade Pressure - RoHS Compliant4 0-1 PSID 18mV 16 0°C ~ 70°C -25°C ~ 85°C 442-1030-ND 50.00 35.00 31.25 1 PSI-D-CGRADE-MVMillivolt Output H-Grade Pressure - RoHS Compliant0-1 PSID 18mV 16 0°C ~ 70°C -25°C ~ 85°C 442-1033-ND 56.00 39.20 35.00 1 PSI-D-HGRADE-MV4 0-5 PSID 60mV 16 0°C ~ 70°C -25°C ~ 85°C 442-1034-ND 44.00 30.80 27.50 5 PSI-D-HGRADE-MV0-15 PSID 90mV 16 0°C ~ 70°C -25°C ~ 85°C 442-1035-ND 44.00 30.80 27.50 15 PSI-D-HGRADE-MVMillivolt Output Low Pressure0-1 In H 2O 10mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1037-ND◆ 80.00 56.00 50.00 1 INCH-D-MV0-5 In H 2O 20mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1038-ND 74.00 51.80 46.25 5 INCH-D-MV4 0-10 In H 2O 20mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1039-ND◆ 74.00 51.80 46.25 10 INCH-D-MV0-20 In H 2O 20mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1040-ND 55.50 49.21 44.40 20 INCH-D-MV0-30 In H 2O 20mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1041-ND◆ 74.00 51.80 46.25 30 INCH-D-MVMillivolt Output Prime Grade Pressure4 0-0.3 PSID 20mV 16 0°C ~ 70°C -25°C ~ 85°C 442-1042-ND 64.00 44.80 40.00 0.3 PSI-D-PRIME-MVMiniature Basic Offset Compensated Pressure0-20 In H 2O 15 ~ 45mV 6 0°C ~ 70°C -25°C ~ 85°C 442-1054-ND 37.50 33.25 30.00 20 INCH-G-BASIC0-5 In H 2O 15 ~ 30mV 6 0°C ~ 70°C -25°C ~ 85°C 442-1049-ND◆ 37.50 33.25 30.00 5 INCH-D1-BASIC0-10 In H 2O 15 ~ 45mV 6 0°C ~ 70°C -25°C ~ 85°C 442-1052-ND 37.50 33.25 30.00 10 INCH-D1-BASIC3B 0-5 In H 2O 15 ~ 30mV 6 0°C ~ 70°C -25°C ~ 85°C 442-1050-ND◆ 37.50 33.25 30.00 5 INCH-D2-BASIC0-10 In H 2O 15 ~ 45mV 6 0°C ~ 70°C -25°C ~ 85°C 442-1053-ND 37.50 33.25 30.00 10 INCH-D2-BASIC0-20 In H 2O 15 ~ 45mV 6 0°C ~ 70°C -25°C ~ 85°C 442-1056-ND 37.50 33.25 30.00 20 INCH-D2-BASIC0-30 In H 2O 15 ~ 45mV 6 0°C ~ 70°C -25°C ~ 85°C 442-1059-ND 37.50 33.25 30.00 30 INCH-D2-BASICMiniature Low Pressure0-5 In H 2O 19 ~ 21mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1077-ND 52.50 46.55 42.00 5 INCH-G-MV-MINI0-10 In H 2O 19 ~ 21mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1080-ND 52.50 46.55 42.00 10 INCH-G-MV-MINI0-20 In H 2O 19 ~ 21mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1084-ND 52.50 46.55 42.00 20 INCH-D1-MV-MINI3B0-30 In H 2O 19 ~ 21mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1087-ND 52.50 46.55 42.00 30 INCH-D1-MV-MINI0-5 In H 2O 19 ~ 21mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1079-ND 52.50 46.55 42.00 5 INCH-D2-MV-MINI0-10 In H 2O 19 ~ 21mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1082-ND 52.50 46.55 42.00 10 INCH-D2-MV-MINI0-20 In H 2O 19 ~ 21mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1085-ND 52.50 46.55 42.00 20 INCH-D2-MV-MINI0-30 In H 2O 19 ~ 21mV 16 0°C ~ 50 (70)°C -25°C ~ 85°C 442-1088-ND 52.50 46.55 42.00 30 INCH-D2-MV-MINIMiniature H-Grade Pressure0-4 In H2O 24 ~ 26mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1060-ND 45.00 39.90 36.00 4 INCH-G-HGRADE-MINI0-0.3 PSIG 19 ~ 21mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1063-ND 45.00 39.90 36.00 0.3 PSI-G-HGRADE-MINI50-10 In H 2O 19 ~ 21mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1066-ND 45.00 39.90 36.00 10 INCH-G-HGRADE-MINI0-1 PSIG 17.82 ~ 18.18mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1069-ND 45.00 39.90 36.00 1 PSI-G-HGRADE-MINI0-5 PSIG 59.4 ~ 60.6mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1072-ND 37.50 33.25 30.00 5 PSI-G-HGRADE-MINI0-15 PSIA 89.1 ~ 90.9mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1075-ND◆ 37.50 33.25 30.00 15 PSI-A-HGRADE-MINI0-4 In H 2O 24 ~ 26mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1061-ND 45.00 39.90 36.00 4 INCH-GF-HGRADE-MINI6 0-0.3 PSIG 19 ~ 21mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1064-ND◆ 60.00 42.00 37.50 0.3 PSI-GF-HGRADE-MINI0-10 In H 2O 19 ~ 21mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1067-ND◆ 45.00 39.90 36.00 10 INCH-GF-HGRADE-MINI7 0-1 PSID 17.82 ~ 18.18mV 16 0°C ~ (50) 70°C -25°C ~ 85°C 442-1071-ND 45.00 39.90 36.00 1 PSI-D-HGRADE-MINI◆ RoHS CompliantFig. 50.25 x0.506.427.4Fig. 227.4Fig. 412.214.00.25 x0.506.4Fig. 3A10.164 places forelectrical connection4.8 to 4.412.79.5Fig. 6 — Single Pressure Port10.162.54 typical12.79.5Fig. 7 — Dual Pressure Ports10.167.6212.79.51234561AMounting3.6 typicalB20.321.627.91.N/C2. +Vsupply2.54 typical12341A10.5Mounting3.6 typical B1. +20.32. Common21.627.93. +Voutput4.Do not connect to this pin6 places forelectrical connection4.8 to 4.412.2 14.01. Vcc2. Data/SI3. Clock/SO123412.73.0510.5Marking Color Code:15.752.0311.4312342.541 Inch: Yellow5 Inch: Pink10 Inch: Orange20 Inch: Green30 Inch: Purple5.311.427.45.311.4.635Marking: 2 Color DotsLeft Dot: Right Dot:White: L04 Gold: H-GradeYellow: L10 Silver: C-GradePink: 0.3 Red: P-GradeGreen: 01Blue: 05Purple: 157.620.25 x0.506.43. +Voutput4. -Vsupply2.54 typical1A16.0B20.321.627.94. Ready/Mode5. Convert/BR6. GroundB6 places forelectrical connection12.2 14.0123456123412.74.8 to 4.43.05.635PressurePort 4.57 OD3.05.6355.310.55. -Voutput6. N/C10.514.482.0311.4312342.54PressurePorts 4.57 ODCurrent SensorThe SCD series current sensors are PC board mounted, Hall effect, open-loop devices whichoutput a voltage equivalent to the magnitude of current sensed.Capable of detecting DC current and AC currents where ± input currents are represented as a+ voltage only.Pin AssignmentPin No. Pin Name1 +5V2 NC3 Output4 0V5 Input (+)6 Input (-)204 ØA0.25515150.57.624-Ø0.82.51234106510 ØBRatedCurrentOutputVoltageSupplyVoltage InputOperatingMounting HoleDimensions — mm Digi-KeyPrice EachCUI(A) (V) (V) Current Polarity Response Temperature øA øB Part No.1 10 25 Part No.±3 4.5/0.5 5 ± Bipolar 3µS typical -10°C ~ 75°C 0.6 1.1 102-1055-ND◆ 26.03 20.82 17.70 SCD03PUR±20 4.5/0.5 5 ± Bipolar 3µS typical -10°C ~ 75°C 1.7 2.2 102-1059-ND◆ 26.03 20.82 17.70 SCD20PUR3 4.5 5 +DC only 3µS typical -10°C ~ 75°C 0.6 1.1 102-1050-ND◆ 26.03 20.82 17.70 SCD03PUN10 4.5 5 +DC only 3µS typical -10°C ~ 75°C 1.1 1.6 102-1052-ND 26.03 20.82 17.70 SCD10PUN15 4.5 5 +DC only 3µS typical -10°C ~ 75°C 1.4 1.9 102-1053-ND◆ 26.03 20.82 17.70 SCD15PUN20 4.5 5 +DC only 3µS typical -10°C ~ 75°C 1.7 2.2 102-1054-ND◆ 26.03 20.82 17.70 SCD20PUN◆ RoHS CompliantNMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)163163

LTS xx-NP/LTSR xx-NP: Closed loop (comp ensated) multi-range currenttransducer using the Hall effect, unipolar voltage supply, com pact design for PCBmounting, isolated plastic case recognized according to UL94-VO, incorporatedmeasuring resistance, and extended measuring range.LA 20-PB: Closed loop (comp ensated) current transducer using the Hall effect,voltage output, and printed circuit board mounting.LAH 25-NP, LAH 50-P, LAH 100-P, LA 55-P and LA 100-P: Closed loop(compensated) multi-range current transducer using the Hall effect, printed circuitboard mounting, insulated plastic case recognized according to UL94-VO.LA 150-P/ LAX 100-NP: Closed loop (compensated) current transducer using theHall effect, and printed circuit board mounting.CAS/CASR-xx-NP: Closed loop (compensated) multi-range current transducers.Compact Fluxgate based current transducer single supplied (+5V). Three primarypins. (CASR = with reference access)CKSR-xx-NP: Closed loop (compensated) multi-range current transducers.Compact Fluxgate based current transducer single supplied (+5V) with referenceaccess. Four primary pins.Fig. 1Ø3.223.5(3x)Ø0.5x0.35 0.74.57.62 2x2.543.81 3.815.08+ 0OutFig. 821.9116 1612.3Closed/Open TransducersFig. 24.515.020.06.0Fig. 9 Fig. 1021.9120.9519.026.06.015.1Fig. 321.0LV xx-P: Closed loop (compensated) voltage transducer using the Hall effect, andinsulated plastic case recognized according to UL94-VO.HXS xx-NP: Small packaged O/L, ASIC based with +5V supply. Four primary busbars can be connected in parallel or series for flexibility.HAIS xx-P: PCB mount with aperture. O/L ASIC based with +5V supply. Rangeis from 50A thru 400A. Programmable offset and gain. Wide temperature rangeof -40°C ~ 125°C.HAIS xx-TP: PCB mount with primary bus bar. O/L ASIC based with +5Vsupply. Range is from 50A, 75A and 100A. Programmable offset and gain. Widetemperature range of -40°C ~ 125°C.HX xx-P: Small, cost effective PCB mount package that ranges from 3A thru 50A.Isolated with DC/AC/Pulse measurements.HTB xx-P: PCB mount with aperture. Small package O/L with range form 50Athru 400A. Isolated with DC/AC/Pulse measurements.HTB xx-TP: PCB mount with primary bus bar. Small package O/L with range of50A, 75A and 100A. Isolated DC/AC/Pulse measurements.HAS xx-S: Panel mount O/L. Isolated and can measure DC/AC currents at range33.34.25.0Ø1.4 (2x)(2x)2.542.54 12.7 (3x)Ø0.7x0.6Fig. 111016.53.5 1218.5143.5Fig. 436.527.25.08 4.2822.86Fig. 1229 8160.5333.5150.25x0.45(4x)Fig. 55.13Ø1.0(2x)36.022.929.5Fig. 1329.59.07.029of 50A thru 600A. Measuring range to 3 times nominal.HAS xx-P: PCB mount with aperture. Isolated and can measure DC/AC currents atrange of 50A thru 600A. Measuring range to 3 times nominal.HASS xx-S: Panel mount O/L ASIC based device that can measure DC/AC currentat 50A thru 600A. Unipolar +5V supply with accuracy of 1%.HMS xx-NP: Surface mount O/L ASIC device with +5V supply. Measuring rangefrom 5A thru 25A.TT xx-SD: Split core transducer for the electronic measurement of AC waveformcurrents, with galvanic isolation between the primary circuit (power) and thesecondary circuit (measurement).AT xxx B10: Split core transducer for the electronic measurement of ACwaveform currents, with galvanic isolation between the primary circuit (power)and the secondary circuit (measurement).APR xxx B10: Split core transducer for the electronic measurement of ACcurrents (all waveforms). Switch selectable measuring ranges.DHR 100 C10/200 C420: The transducer for the electronic measurement of DCand distorted AC waveform currents.Dim. in mmFig. 6 Fig. 73.55.7212.70.5x0.35(4x)330.531.56Ø1.0(2x)3.57.623.5Ø3.22.54(2x)Fig. 14312.319 Max.10.85Ø20.52725.520Max.3.5215.5Fig. 153.56.510.5232 4.54.5319 Max.16.3514.280.58.8 5.4320Max.3Fig. 16914 Max.341.5394 3 2 12.5(3x)24.5Ø1619.50.635x 0.635(4x)3.5Fig. 17 39 Fig. 18Fig. 19Fig. 2020.420.4143410.40.5x0.2522.8(x4)163010.410.4 30313.84 32117Ø4.5 R5.2 4 1Ø2.59.8min.43403.5= =Ø2.5203.51.54.8 4 3 2 17.0 202.5 9.01.51.51.530(3x) 402.53.2 3.510Fig. 21 Ø8Fig. 22 Ø16Fig. 23Fig. 24 Fig. 25Ø16Ø3.2Ø3.26913181818DIN40.5 size22163723.540.535.5032.527.523.523.54331.531.5515118.50 67432170Ø329010658NFig.PrimaryNominalRMSCurrentSecondaryNom. RMSCurrent/Output Volt.FrequencyRange(kHz)LEMUSA Inc.Part No.SupplyVoltageDigi-KeyPart No.1Price Each10 25Closed Loop Current Transducers5V 6A ±2.5V 200 398-1000-ND 19.25 15.40 12.32 LTS 6-NP1 5V 15A ±2.5V 200 398-1001-ND 19.25 15.40 12.32 LTS 15-NP5V 25A ±2.5V 200 398-1002-ND 19.25 15.40 12.32 LTS 25-NP2 ±15V 20A ±4V 150 398-1006-ND 44.38 35.50 28.40 LA 20-PB±12 ~ 15V 25A 25mA 200 398-1007-ND 25.50 20.40 16.32 LAH 25-NP3 ±12 ~ 15V 50A 25mA 200 398-1008-ND 26.00 20.80 16.64 LAH 50-P±12 ~ 15V 100A 50mA 200 398-1009-ND 26.50 21.20 16.96 LAH 100-P4±12 ~ 15V 50A 50mA 200 398-1010-ND 25.00 20.00 16.00 LA 55-P±12 ~ 15V 100A 50mA 200 398-1011-ND 30.75 24.60 19.68 LA 100-P5 ±15V 150A 75mA 150 398-1012-ND 42.50 34.00 27.20 LA 150-P5V 6A 2.5V 200 398-1021-5-ND 20.38 16.30 13.04 LTSR 6-NP6 5V 15A 2.5V 200 398-1022-5-ND 20.38 16.30 13.04 LTSR 15-NP5V 25A 2.5V 200 398-1023-5-ND 20.38 16.30 13.04 LTSR 25-NP7 ±11.4 ~ 15.75V 100A 50mA 300 398-1024-5-ND 25.38 20.30 16.24 LAX 100-NP5V 6A 2.5V 300 398-1087-5-ND 20.38 16.30 13.04 CAS 6-NP5V 15A 2.5V 300 398-1088-5-ND 20.38 16.30 13.04 CAS 15-NP5V 25A 2.5V 300 398-1089-5-ND 20.38 16.30 13.04 CAS 25-NP85V 50A 2.5V 300 398-1090-5-ND 22.38 17.90 14.32 CAS 50-NP5V 6A 4V 300 398-1091-5-ND 21.38 17.10 13.68 CASR 6-NP5V 15A 4V 300 398-1092-5-ND 21.38 17.10 13.68 CASR 15-NP5V 25A 4V 300 398-1093-5-ND 21.38 17.10 13.68 CASR 25-NP5V 50A 4V 300 398-1094-5-ND 23.63 18.90 15.12 CASR 50-NP5V 6A 4V 300 398-1095-5-ND 21.38 17.10 13.68 CKSR 6-NP95V 15A 4V 300 398-1096-5-ND 21.38 17.10 13.68 CKSR 15-NP5V 25A 4V 300 398-1097-5-ND 21.38 17.10 13.68 CKSR 25-NP5V 50A 4V 300 398-1098-5-ND 23.63 18.90 15.12 CKSR 50-NPClosed Loop Voltage Transducers10±12 ~ 15V 10mA 25mA 25 398-1019-ND 63.20 50.56 40.45 LV 25-P±12 ~ 15V 10mA 25mA 25 398-1020-ND 36.60 29.28 23.43 LV 20-POpen Loop Current Transducers115V 20A ±2.5V 50 398-1025-5-ND 14.00 11.20 8.96 HXS 20-NP5V 50A ±2.5V 50 398-1026-5-ND 14.00 11.20 8.96 HXS 50-NP5V 50A ±2.5V 50 398-1029-ND 25.50 20.40 16.32 HAIS 50-P125V 100A ±2.5V 50 398-1030-ND 25.50 20.40 16.32 HAIS 100-P5V 150A ±2.5V 50 398-1031-ND 25.50 20.40 16.32 HAIS 150-P5V 200A ±2.5V 50 398-1032-ND 25.50 20.40 16.32 HAIS 200-P135V 50A ±2.5V 50 398-1027-ND 26.50 21.20 16.96 HAIS 50-TP5V 100A ±2.5V 50 398-1028-ND 26.50 21.20 16.96 HAIS 100-TPPrimary SecondaryNominal Nom. RMSRMS Current/Current Output Volt.FrequencyRange(kHz)LEMUSA Inc.Part No.Fig.SupplyVoltageDigi-KeyPart No.1Price Each10 25±15V 3A ±4V 50 398-1034-ND 14.50 11.60 9.28 HX 03-P±15V 5A ±4V 50 398-1035-ND 14.50 11.60 9.28 HX 05-P14 ±15V 10A ±4V 50 398-1036-ND 14.50 11.60 9.28 HX 10-P±15V 15A ±4V 50 398-1037-ND 14.50 11.60 9.28 HX 15-P±15V 20A ±4V 50 398-1038-ND 14.50 11.60 9.28 HX 20-P15 ±15V 50A ±4V 50 398-1039-ND 18.00 14.40 11.52 HX 50-P16 ±12 ~ 15V 200A ±4V 50 398-1041-ND 25.00 20.00 16.00 HTB 200-P17±12 ~ 15V 50A ±4V 50 398-1075-ND 25.88 20.70 16.56 HTB 50-TP±12 ~ 15V 100A ±4V 50 398-1077-ND 25.88 20.70 16.56 HTB 100-TP±15V 50A ±4V 50 398-1049-ND 25.00 20.00 16.00 HAS 50-S±15V 100A ±4V 50 398-1050-ND 25.00 20.00 16.00 HAS 100-S±15V 200A ±4V 50 398-1051-ND 25.00 20.00 16.00 HAS 200-S18±15V 300A ±4V 50 398-1052-ND 26.50 21.20 16.96 HAS 300-S±15V 400A ±4V 50 398-1053-ND 26.50 21.20 16.96 HAS 400-S±15V 500A ±4V 50 398-1054-ND 26.50 21.20 16.96 HAS 500-S±15V 600A ±4V 50 398-1055-ND 26.50 21.20 16.96 HAS 600-S±15V 300A ±4V 25 398-1045-ND 26.50 21.20 16.96 HAS 300-P5V 50A 5V 50 398-1062-ND 26.00 20.80 16.64 HASS 50-S5V 100A 5V 50 398-1063-ND 26.00 20.80 16.64 HASS 100-S5V 200A 5V 50 398-1064-ND 26.00 20.80 16.64 HASS 200-S19 5V 300A 5V 50 398-1065-ND 27.50 22.00 17.60 HASS 300-S5V 400A 5V 50 398-1066-ND 27.50 22.00 17.60 HASS 400-S5V 500A 5V 50 398-1067-ND 27.50 22.00 17.60 HASS 500-S5V 600A 5V 50 398-1068-ND 27.50 22.00 17.60 HASS 600-S205V 5A 5V 50 398-1058-ND 14.15 11.32 9.06 HMS 05-P5V 10A 5V 50 398-1059-ND 14.15 11.32 9.06 HMS 10-PAC Split Core Current Transducers21 — 50A 16.66mA 50/60Hz 398-1078-ND 32.75 26.20 17.69 TT 50-SD22 — 100A 33.33mA 50/60Hz 398-1079-ND 37.25 29.80 20.12 TT 100-SDSelf-Powered 5A 0 ~ 10V 50/60Hz 398-1080-ND 52.13 41.70 28.15 AT 5 B1023 Self-Powered 20A 0 ~ 10V 50/60Hz 398-1081-ND 81.50 65.20 44.01 AT 20 B10Self-Powered 50A 0 ~ 10V 50/60Hz 398-1082-ND 62.50 50.00 33.75 AT 50 B1024 24 ±5%VDC 50A 0~5V/0~10V 30~6000Hz 398-1084-ND 201.50 161.20 108.81 APR 50 B10AC/DC Current Transducers2520 ~ 50VDC 100A 0 ~ 10V 20~6000Hz 398-1086-ND 209.38 167.50 113.07 DHR 100 C1020 ~ 50VDC 200A 4 ~ 20mA 20~6000Hz 398-1099-ND 209.38 167.50 134.00 DHR 200 C420164 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

SMD Current TransducerThe Minisens transducer is an ultra flat SMD open loop integrated circuit current transducer based on the Hall effectprinciple. The IC is calibrated to minimize offset and temperature drifts. Advantages: Low cost Excellent LinearityMaximumCurrent SupplyDigi-KeyCut TapePrice Each Digi-KeyTape & ReelPricing LEM USA Inc.Range (A) Voltage Package Part No.1 10 25 Part No.2,600 Part No.±100 5V 8-SOIC 398-1057-1-ND 4.40 3.52 2.82 398-1057-2-ND 2112.00/M FHS 40-P/SP600Evaluation Kits for FHS 40-P/S600DescriptionDigi-KeyPart No.PriceEachEvaluation Kit with PCB for 0 ~ 30A range, 78A maximum 398-1069-ND 22.32Evaluation Kit with PCB for 0 ~ 5A range, 16A maximum 398-1070-ND 22.32Evaluation Kit with PCB for 0 ~ 5A range, 11A maximum 398-1071-ND 22.32Evaluation Kit with PCB for 0 ~ 10A range, 10A maximum 398-1072-ND 22.32Evaluation Kit with PCB for 0 ~ 15A range, 55A maximum 398-1073-ND 22.32Evaluation Kit with PCB for 0 ~ 16A range, 30A maximum 398-1074-ND 22.32Digital Current SensorsCurrent SensorsMicro Switch CS series digital current sensors provide a logic leveloutput that changes from approximately Vcc ~ 0.4 volts when thesensed current exceeds the operate point. Each digital sensor willoperate on AC or DC current, but the output will turn off at every zerocrossing when sensing AC current. Housing material: PET polyesterSpecifications: Operating Temperature Range: -25°C ~ 85°Cµ Sec.Dimensions in mmSupply Digi-KeyPrice EachHoneywell SensingMounting Voltage Part No.1 10 25 Part No.Screw 6 ~ 16 480-3249-ND 17.87 13.68 12.92 CSDA1BAConnector 6 ~ 16 480-3250-ND 21.12 16.80 15.75 CSDA1DA31.819.0CSL Series Open LoopCurrent SensorsCSL Series miniature, open-loop current sensors incorporate the SS490Series miniature ratiometric linear Hall-Effect sensor (MRL). The sensingelement is encapsulated in a printed circuit board-mountable plastic package.The combination of sensor, flux collector and housing comprises the currentsensor assembly. These sensors are ratiometric.Specifications: Operating Temperature Range: -25°C ~ 100° Voltage: 4.5 ~ 10.5SupplyHoneywellCurrent Voltage Digi-KeyPrice Each SensingFig. Range (Typical) Part No. 1 10 25 Part No.1 ±60A 5 480-3251-ND 12.48 9.13 8.55 CSLS6B602 ±100A 5 480-3252-ND 9.36 6.85 6.42 CSLT6B100±1A 5 480-3253-ND 14.65 11.22 10.60 CSLW6B13 ±40mA 5 480-3255-ND 14.65 11.22 10.60 CSLW6B40M±200mA 5 480-3254-ND 14.65 11.22 10.60 CSLW6B200MDimensions in mmFig. 110.016.410.24.2Fig. 2 Ø5.2Ø10.6Fig. 316.210.2Current SensorsRemote Current IndicatorsCR Magnetics Remote Electrical Current Indicators provides an effective method for remote monitoring of electrical current. When the current exceeds theturn-on point of the sensing transformer, the LED illuminates to indicate the pre sence of current. Specifications:Indicating Range: 2.5 ~ 100 Amps (1-WireMinimum turn-on point:Maximum Continuous Current: 100 AmpsDigi-KeyPrice EachCR MagneticsFig. Part No.1 10 25Part No.1 582-1036-ND 34.29 27.43 25.72 MODEL 18-6002 582-1037-ND NEW! 10.28 8.23 7.72 MODEL 19Fig. 1Fig. 2 NEW!Ø .55(14)1.33 (33.8).95(24.1)1.48(37.6)1.04(26.4)Dimensions in Inch (mm).29 (7.4) Dia..50 (12.7)Current Indicators — CR2550 and PH SeriesThe CR2550 series remote current indicators are designed as a low cost meth od for providing a visual indication of electrical current flow.Specifications: LED Turn On Point Digi-KeyPrice EachCR MagneticsFig. Color (1 pass) AAC Part No.1 10 25 Part No.Red 0.75 582-1003-ND 10.45 8.89 8.37 CR2550-R1Amber 1.5 582-1000-ND NEW! 10.77 9.16 8.62 CR2550-ABlue 1.0 582-1001-ND NEW! 13.95 11.87 11.17 CR2550-BGreen 1.5 582-1002-ND NEW! 11.23 9.55 8.99 CR2550-G2 Red 2.0 582-1041-ND NEW! 6.55 5.57 5.24 PH-25-RAmber 2.5 582-1042-ND NEW! 9.18 7.81 7.35 PH-31-A3Blue 2.0 582-1043-ND NEW! 9.18 7.81 7.35 PH-31-BGreen 2.5 582-1044-ND NEW! 9.18 7.81 7.35 PH-31-GRed 2.0 582-1045-ND NEW! 8.25 7.02 6.60 PH-31-RFig. 1Fig. 2 NEW!.866(21.99).250(6.4)-.002Dia. Hole.984(24.99).350(8.89)Fig. 3 NEW!Dimensions in Inch (mm)11(279.4).16 (4.1).39(9.9)Transducers / TransmittersCR4100 Series: Designed for applications where ACcurrent waveforms are not purely sinusoidal. Thesedevices are ideal in chopped wave and phase firedcontrol systems.CR4210 Series: Calibrated to provide a 0 ~ 5VDC and0 ~ 10VDC signal that is proportional to the averageRMS input AC current.CR4200 Series: Produces a calibrated 4 ~ 20mADCsignal that is proportional to the average RMS inputAC current. The output signal is generated from auser supplied 24VDC power supply within the outputcurrent loop.CR4400 Series: Designed to provide a DC outputproportional to the AC current input.CR5200 Series: Designed to provide a DC signalwhich is proportional to a DC sensed current. Theranges 2 ~ 10 Amp utilize an advanced MagneticModulator technology and the ranges 20 Amps andabove utilize Hall Effect technology.CR4500 Series: Designed for applications where ACvoltage waveforms are not purely sinusoidalCR5300 Series: Designed to provide an output DCsignal that is proportional to the input DC voltage.CR6600 Series: Designed to give a DC output that isproportional to an input frequency value.Dimensions in Inch (mm)Fig. 1 Fig. 2 Fig. 3 Fig. 43.268(83)2.99(76)3.268(83)2.20(56)3.268(83)2.99(76)3.268(83)1.16(29.5)Output Input Digi-KeyPrice EachCR MagneticsFig. Range Range Part No.1 10 25 Part No.True RMS AC Current Transducers0 ~ 5VDC 0 ~ 10AAC 582-1046-ND 191.27 153.02 143.45 CR4110-100 ~ 5VDC 0 ~ 15AAC 582-1047-ND 191.27 153.02 143.45 CR4110-150 ~ 5VDC 0 ~ 20AAC 582-1048-ND 191.27 153.02 143.45 CR4110-201 0 ~ 5VDC 0 ~ 25AAC 582-1049-ND 191.27 153.03 143.45 CR4110-254 ~ 20mADC 0 ~ 30AAC 582-1050-ND 211.60 169.28 158.70 CR4120-304 ~ 20mADC 0 ~ 40AAC 582-1051-ND 211.60 169.28 158.70 CR4120-404 ~ 20mADC 0 ~ 75AAC 582-1052-ND 211.60 169.28 158.70 CR4120-75Self-Powered AC Current Transducer1 0 ~ 5VDC 0 ~ 50AAC 582-1053-ND 106.72 85.38 80.04 CR4210-50Loop-Powered AC Current Transmitters4 ~ 20mADC 0 ~ 5AAC 582-1056-ND 95.08 76.06 71.32 CR4220-51 4 ~ 20mADC 0 ~ 10AAC 582-1054-ND 95.08 76.06 71.32 CR4220-104 ~ 20mADC 0 ~ 20AAC 582-1055-ND 95.08 76.06 71.32 CR4220-20Average RMS AC Current Transducers10 ~ 5VDC 0 ~ 50AAC 582-1057-ND 91.48 73.18 68.62 CR4410-504 ~ 20mADC 0 ~ 30AAC 582-1058-ND 102.91 82.33 77.19 CR4420-30DC Current Transducers1 0 ~ 5VDC 0 ~ 2ADC 582-1060-ND 105.69 84.55 79.27 CR5210-2Output Input Digi-KeyPrice EachCR MagneticsFig. Range Range Part No.1 10 25 Part No.0 ~ 5VDC 0 ~ 5ADC 582-1061-ND 105.69 84.55 79.27 CR5210-50 ~ 5VDC 0 ~ 10ADC 582-1059-ND 105.69 84.55 79.27 CR5210-1014 ~ 20mADC 0 ~ 2ADC 582-1063-ND 125.82 100.66 94.37 CR5220-24 ~ 20mADC 0 ~ 10ADC 582-1062-ND 125.82 100.66 94.37 CR5220-104 ~ 20mADC 0 ~ 20ADC 582-1064-ND 125.82 100.66 94.37 CR5220-20True RMS AC Voltage Transducers (Single Phase)20 ~ 5VDC 0 ~ 250ADC 582-1065-ND 191.27 153.02 143.45 CR4510-2504 ~ 20mADC 0 ~ 150ADC 582-1066-ND 211.39 169.11 158.54 CR4520-150True RMS AC Voltage Transducer (3-Phase, 3-Wire)3 0 ~ 5VDC 0 ~ 150VAC 582-1067-ND 337.26 269.82 252.95 CR4550-150Frequency Transducers30 ~ 5VDC 0 ~ 100Hz 582-1072-ND 109.34 87.47 82.01 CR6610-1004 ~ 20mADC 0 ~ 100Hz 582-1073-ND 121.23 96.98 90.93 CR6620-100DC Voltage Transducers0 ~ 5VDC 0 ~ 50VDC 582-1069-ND 157.08 125.66 117.82 CR5310-5040 ~ 5VDC 0 ~ 200VDC 582-1068-ND 157.08 125.66 117.82 CR5310-2004 ~ 20mADC 0 ~ 50VDC 582-1071-ND 168.86 135.09 126.65 CR5320-504 ~ 20mADC 0 ~ 100VDC 582-1070-ND 168.86 135.09 126.65 CR5320-100(Continued)NMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)165165

Current Sensors (Cont.)High Ratio TransformersThe CR8300 series of PCB Mounted Current Transformers and the CR8400 series of Wire Lead Current Transformers are available in a wide rangeof sizes and materials to meet any AC current sensing needs.Fig.Ir†VmaxRMS§ Te‡ FrequencyDigi-KeyPart No.1Price Each10 25General Purpose Vertical PCB Current Transformers† Maximum Input Current to be linearly sensed § Maximum Linear Voltage (Saturation) CT will develop at I r‡ Effective turns ratio including lossesCR MagneticsPart No.10 1.0 1613 20 ~ 1 kHz 582-1009-ND 6.23 5.30 4.99 CR8320-160050 10.2 2046 20 ~ 1 kHz 582-1010-ND 8.16 6.94 6.53 CR8348-20001 50 2.4 1009 20 ~ 1 kHz 582-1084-ND NEW! 11.34 9.07 8.51 CR8349-1000-N75 10.3 1520 20 ~ 1 kHz 582-1012-ND 8.68 7.38 6.95 CR8349-1500200 14.6 2037 20 ~ 1 kHz 582-1014-ND 11.27 9.59 9.02 CR8350-2000Revenue Grade Vertical PCB Current Transformers40 2.3 2510 20 ~ 1 kHz 582-1011-ND 9.09 7.73 7.28 CR8348-2500-N1 75 4.8 2512 20 ~ 1 kHz 582-1013-ND 10.18 8.66 8.15 CR8349-2500-N100 7.2 2511 20 ~ 1 kHz 582-1015-ND 14.25 12.12 11.40 CR8350-2500-NGeneral Purpose Current Transformer2 20 2.1 1012 20 ~ 1 kHz 582-1017-ND 8.16 6.94 6.53 CR8410-1000Revenue Grade Current Transformer2 100 7.2 2511 20 ~ 1 kHz 582-1019-ND 17.52 14.90 14.02 CR8459-2000-NGround Fault Current Transformers4 0.3 1005 20 ~ 1 kHz 582-1016-ND 7.70 6.55 6.17 CR8401-1000-G2 20 2.0 1011 20 ~ 1 kHz 582-1018-ND 10.66 9.06 8.53 CR8420-1000-G50 3.8 1018 20 ~ 1 kHz 582-1085-ND NEW! 10.12 8.10 7.59 CR8420-1000-PCBNEW! Commercial and ANSI Metering Class Current Transformers NEW!3 100 — — 50 ~ 400 Hz 582-1083-ND 20.39 16.31 15.29 CR2-SFT-101Fig. 1BFig. 2APart No.PrefixDCPart No.PrefixCEB A DDimensions Inch (mm)A Min. B Max. C Max. D Max.CR8320 .22 (5.5) .77 (19.6) .79 (20) .34 (8.6)CR8348 .27 (6.9) .93 (23.5) .98 (25) .43 (11)CR8349 .35 (9) 1.02 (26) 1.10 (28) .67 (17)CR8350 .50 (12.8) 1.48 (37.5) 1.54 (39) .55 (14)Dimensions Inch (mm)A Min. B Max. C Max. D Max. E Typ.CR8410 .35 (8.89) .87 (22.10) 1.02 (25.91) .35 (8.89) 2.87 (72.90)CR8459 .75 (19.05) 1.89 (48.01) 2.36 (59.94) .67 (17.02) 7.88 (200.15)CR8401 .23 (5.84) .71 (18.03) .83 (21.08) .31 (7.87) .79 (20.07)CR8420 .59 (14.9) 1.18 (30.0) 1.27 (32.2) .35 (9.0) 3.94 (100.0)Fig. 3 NEW!ABPart No.PrefixDimensions Inch (mm)A Min. B Max.CR2 1.13 (28.7) 2.68 (68.1)Split-Core CurrentTransformerThe CR3110 Split-Core Current Transformer is designed toprovide a low cost method to monitoring electrical current.A unique hinge and locking snap allows attachment withoutinterrupting the current-carrying wire.Specifications:Maximum Continuous Pri mary Current: 75 AACSecondary Turns: 3000DC Resistance: 460Ω @ 20°CFre quency: 50 ~ 60Hz1.04(26.42)Ø 0.40(10.16) 1.58(40.13)Dimensions in Inch (mm)6.00(152.4)0.24(6.1)Digi-KeyPrice EachCR MagneticsPart No.1 10 25 Part No.582-1004-ND 14.80 12.58 11.84 CR3110-30001.04(26.42)Low CostCurrent SensorsSpecifications: ±.5% Full Scale 1% Maximum 0-5 Vdc 1.0MΩ or greater for rated accuracy 250ms Maximum 10 ~ 90% Full Scale 50 ~ 400Hz (All specifications for oper ation@ 60Hz)1.24(32)Dimensions in Inch (mm)Window Digi-KeyPrice Each CR MagneticsAAC Dia. (inch) Part No.1 10 25 Part No.10 0.40‡ 582-1033-ND 34.41 29.25 27.53 CR9580-1020 0.40‡ 582-1034-ND 34.41 29.25 27.53 CR9580-20‡ Window Split Core2.00(51)1.00(25.4)0.40(1.0)Current SwitchesThe CR9321 series and the CR9380 series is a low cost, selfpowered, fixed set-point Current Switch designed for applicationsthat require an on-off indication of current flow.Specifications: Rated Full-on: 0.350 AAC TurnonTime: 100 ms Maximum @ rated full-Turn-off Time:Maximum Sense Current:Continuous: 100AAC, 1 Second: 500AAC Frequency:50 ~ 400Hz (All specifications for operation @ 60Hz only)Operating Temperature: -30°C ~ 60°CDC Switching (NPN or PNP):Vce (full-off): 30 Vdc MaximumIsink (full-on): 120 mAdc Maximum @ rated full-onAC Switching (ACA): Off State Voltage: 240 Vac RMSMinimum Switch Voltage: OnState Current: 1.0 AAC RMS Maximum continuousTransistor Window Digi-KeyPrice EachCR MagneticsFig. Output Diameter Part No.1 10 25 Part No.ACA‡ 0.27 582-1020-ND 21.45 18.24 17.17 CR9321-ACA1 NPN 0.27 582-1021-ND 21.45 18.24 17.17 CR9321-NPNPNP 0.27 582-1022-ND 21.45 18.24 17.17 CR9321-PNP2 NPN Split Core 582-1027-ND 34.41 29.25 27.53 CR9380-NPN‡ AC OutputSensorsCR4395 Series: Current Sensing Relay that provides aneffective and highly stable method for monitoring electricalcurrent. The current-carrying wire is routed through the openingextending from the top of the case. When current reaches thelevel set by the trip point adjustment, the relay trips and startsthe adjustable timer. After the timer cycles the electromechanicalrelay is energized.CR5395 Series: Direct Current Sensing Relay that providesa precision and cost effective method for monitoring directcurrent. Magnetic Modulator Technology is utilized for thecurrent sensing to provide a stable and highly repeatable currenttrip. The current-carrying wire is routed through the openingextending from the top of the case. When current reaches thelevel set by the trip point adjustment, the relay trips and startsthe adjustable timer. After the timer cycles the electromechanicalrelay is energized.CR7310 Series: Ground Fault Sensor that provides a reliableand cost effective method for sensing ground faults. Thecurrent-carrying wires are routed through the opening extendingfrom the top of the case. When ground current reaches the levelset by the trip point adjustment, the relay trips, illuminates thetripped LED and provides an output signal.Dimensions in Inch (mm)Fig. 1 Fig. 21.614 (41).875(22.2)1.062(27)Ø 0.27 (6.8)TRIP STATUS:EH: Energized on High, trips whensense current is above trip point andreturns to non-trip status when sensecurrent is below the trip point.EL: Energized on Low, trips whensense current is below trip point andreturns to non-trip status when sensecurrent is above the trip point..875(22.2)1.24(32)2.00(51)1.00(25.4)0.40(10)Current SensingRelay ShownNTripStatusSupplyVoltageTripRangeTime OnDelayTrip PointDialTransformerDigi-KeyPart No.Price Each1 10 25CR MagneticsPart No.Current Sensing RelayEH 120VAC 1.0 ~ 10AAC None Calibrated Dial Internal 582-1074-ND 62.02 49.62 46.52 CR4395-EH-120-110-X-CD-ELR-IEH 120VAC 3.0 ~ 30AAC .5 ~ 6 Sec. Calibrated Dial Internal 582-1075-ND 62.02 49.62 46.52 CR4395-EH-120-330-A-CD-ELR-IEH 120VAC 6.0 ~ 60AAC .5 ~ 6 Sec. Calibrated Dial Internal 582-1076-ND 62.02 49.62 46.52 CR4395-EH-120-660-A-CD-ELR-IEL 120VAC 1.0 ~ 10AAC .5 ~ 6 Sec. Calibrated Dial Internal 582-1077-ND 62.02 49.62 46.52 CR4395-EL-120-110-A-CD-ELR-IDirect Current Sensing RelayEH 24VDC ± 10% 1.0 ~ 10ADC None Calibrated Dial Internal 582-1078-ND 69.72 55.78 52.29 CR5395-EH-24D-110-X-CD-ELR-IEH 85 ~ 265VAC 1.0 ~ 10ADC None Calibrated Dial Internal 582-1079-ND 69.72 55.80 52.29 CR5395-EH-ACV-110-X-CD-ELR-IGround Fault SensorEH 120VAC .01 ~ 0.1AAC None Calibrated Dial Internal 582-1080-ND 99.90 79.93 74.93 CR7310-EH-120-.01.1-X-CD-ELR-IEH 120VAC 0.1 ~ 1.0AAC None Calibrated Dial Internal 582-1081-ND 99.90 79.93 74.93 CR7310-EH-120-.11-X-CD-ELR-IEL 120VAC .01 ~ 0.1AAC None Calibrated Dial Internal 582-1082-ND 99.90 79.93 74.93 CR7310-EL-120-.01.1-X-CD-ELR-I166 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Open Loop Current Sensors — Hall Effect TechnologyFig. 1 — L01Z Series4.0Fig. 2 — L03S Series20.52730.510.58 15138118.52 3 4 40.51 OUT2 GND3 5VFig. 3 — L07P Series18L07P 010 D15062A91 +5V2 NC3 OUT14 OUT25 GND6 +IN17 -IN28 +IN29 -IN225Fig. 5 — L18P SeriesL18P 010 D15TAM 062A916181215.2Fig. 4 — L08P Series3419.51.51 +15V2 -15V3 OUT4 GND1524.51 +Vc (15V)2 -Vc (15V)3 OUT4 GND5 NCØ 161 -V cc2 GND3 +V cc4 OUT5 + Primary Input6 - Primary InputA hall effect current sensor measures the magnetic flux which is produced proportionally to the current without any contact with the primary circuit. Thisresults in no voltage drop in the measured circuit which provide excellent galvanic isolation.Features:Specifications Fig.PrimaryNominalCurrent(A)SupplyVoltage(V)SecondaryOutputVoltage(V)†◆ RoHS CompliantSaturationCurrent(A)OffsetTemperatureCoefficent(mV/°C)Digi-KeyPrice EachTamuraPart No.1 10 25 50 Part No.L01Z Series — RoHS Compliant±50 +5 4† ±62.5 ≤±2 MT7173-ND 17.75 14.20 11.36 10.65 L01Z050S05±100 +5 4† ±125 ≤±1 MT7174-ND 17.75 14.20 11.36 10.65 L01Z100S051±150 +5 4† ±187.5 ≤±1 MT7175-ND 17.75 14.20 11.36 10.65 L01Z150S05±200 +5 4† ±250 ≤±1 MT7176-ND 17.75 14.20 11.36 10.65 L01Z200S05±400 +5 4† ±500 ≤±1 MT7178-ND 17.75 14.20 11.36 10.65 L01Z400S05±600 +5 4† ±750 ≤±1 MT7180-ND 17.75 14.20 11.36 10.65 L01Z600S05L03S Series (Molex Mating Connector Required) — RoHS Compliant±50 ±15 ±4 ±150 ≤±2 MT7181-ND 17.48 13.98 11.19 10.49 L03S050D152 ±200 ±15 ±4 ±600 ≤±1 MT7183-ND 17.48 13.98 11.19 10.49 L03S200D15±400 ±15 ±4 ±700 ≤±1 MT7185-ND 17.48 13.98 11.19 10.49 L03S400D15L07P Series — RoHS Compliant3 ±15 ±15 ±4 ±45 ≤±2 MT7300-ND 17.90 14.32 11.46 10.74 L07P015D1545L08P Series±50 ±15 ±4 ±150 ≤±2 MT7188-ND◆ 16.20 12.96 10.37 9.72 L08P050D15±100 ±15 ±4 ±300 ≤±1 MT7189-ND◆ 16.20 12.96 10.37 9.72 L08P100D15±150 ±15 ±4 ±350 ≤±1 MT7190-ND 16.20 12.96 10.37 9.72 L08P150D15L18P Series — RoHS Compliant±3 ±15 ±4 ±9 ≤±1.5 MT7311-ND 12.60 10.08 8.07 7.56 L18P003D15±5 ±15 ±4 ±15 ≤±1.5 MT7312-ND 12.60 10.08 8.07 7.56 L18P005D15±10 ±15 ±4 ±30 ≤±1.5 MT7313-ND 12.60 10.08 8.07 7.56 L18P010D15±15 ±15 ±4 ±45 ≤±1.5 MT7314-ND 12.60 10.08 8.07 7.56 L18P015D15±20 ±15 ±4 ±60 ≤±1.5 MT7315-ND 12.60 10.08 8.07 7.56 L18P020D15±25 ±15 ±4 ±60 ≤±1.5 MT7316-ND 12.60 10.08 8.07 7.56 L18P025D15WM2022-ND 4 Position Housing (2.50mm) KK Series. .................................................................................................. $.59WM2312-ND Crimp Terminal - Wire Size: 22-30AWG; Insulation Dia.: .062” (1.57) Max; Finish: Selective Gold 15u" ...........................$3.24/10WM1129-ND Crimp Terminal - Wire Size: 22-30AWG; Insulation Dia.: .062” (1.57) Max; Finish: Gold 15u" ......................................$8.66/10WM1114-ND Crimp Terminal - Wire Size: 22-30AWG; Insulation Dia.: .062” (1.57) Max; Finish: Tin ..............................................$2.41/10WM9999-ND Universal Crimp Tool......................................................................................................................$33.75WM9927-ND Extraction Tool ............................................................................................................................. $8.28OUTClosed Loop Multi-range Current Sensors 456Closed loop (compensated) current sensor provides an exact duplication of the primary current scaled by the number of turns in the secondary coil. Eachmulti-range sensor has a nominal sensing current but can be changed by configuring the primary pins. The sensing current can be scaled down by 1/2 or 1/3 the nominaloutput sensing current, which gives you the flexibility to sense 3 different current ranges with only one part.Specifications (measured at input voltage and 25°C): 10kΩ 3mW MinimumPrimary NominalCurrent(A)SupplyVoltage(V)Secondary SaturationOutput Voltage Current(V)±1% (A)Offset TemperatureCoefficent(mV/°C)Digi-KeyPrice EachTamuraPart No.1 10 25 50 Part No.S22P Series±6 +5 2.5±30mV ±18 1.25 MT7318-ND 15.18 12.14 9.72 9.11 S22P006S05±15 +5 2.5±20mV ±45 1.25 MT7319-ND 15.18 12.14 9.72 9.11 S22P015S05±25 +5 2.5±15mV ±75 1.25 MT7320-ND 15.18 12.14 9.72 9.11 S22P025S055.524102.5422.2S22P025S05TAM065A9+5VGVoutOUTOV+5VIN321Selectable InputPin Configuration1/3 Nom. 6 5 4I f (A) 1 2 31/2 Nom.6 5 4I f (A)1 2 3Nominal 6 5 4I f (A) 1 2 3Current Transformer Standard Accuracy Low-Cost 50/60 HzApplications:Notes: reliable at the time of publication, but may be subject to changewithout notice.SizeCodeDimensions – mmW L H A B C D (Dia.) IDA 23.83 23.83 11.13 15.24 7.62 1.75 0.81 9.53B 30.18 30.18 14.30 20.32 10.16 2.08 1.02 11.43C 34.93 34.93 14.30 25.40 10.16 2.08 1.02 14.61D 38.10 38.10 15.88 30.48 10.16 2.84 1.02 14.61E 44.45 44.45 14.30 35.56 10.16 2.08 1.02 19.05F 55.58 55.58 20.65 45.72 12.70 3.96 1.02 23.88WLIDD.635 - Full R.-2 plcs.2 plcs. AA/2 CHBDSizeCodeRatedIpAmpsTurnsRatioNominalDCRRCF @10% (1)Volts/Amp @ Rated Ip,for Various Loads (Ω)Digi-KeyPrice Each100 500 2K 5K Part No.1 10 25A 5.0 1000:1 39 1.040 0.10 0.45 1.35 1.8 TE1005-ND 11.27 9.66 9.02 AC1005A 10.0 1000:1 39 1.035 0.10 0.45 1.00 1.3 TE1010-ND 11.27 9.66 9.02 AC1010A 15.0 1000:1 39 1.030 0.10 0.43 0.80 1.0 TE1015-ND 11.27 9.66 9.02 AC1015A 20.0 1000:1 39 1.030 0.10 0.42 0.70 0.8 TE1020-ND 9.24 7.92 7.40 AC1020B 25.0 1000:1 46 1.020 0.10 0.40 1.00 1.2 TE1025-ND 13.48 11.55 10.78 AC1025B 30.0 1000:1 46 1.020 0.10 0.40 0.85 1.1 TE1030-ND 13.51 11.58 10.81 AC1030C 40.0 1000:1 46 1.020 0.10 0.45 0.75 1.0 TE1040-ND 15.65 13.41 12.52 AC1040C 50.0 1000:1 46 1.020 0.10 0.44 0.70 0.8 TE1050-ND 17.01 14.58 13.61 AC1050D 60.0 1000:1 23 1.020 0.10 0.36 0.60 0.7 TE1060-ND 17.75 15.21 14.20 AC1060D 75.0 1000:1 23 1.015 0.10 0.35 0.50 0.6 TE1075-ND 17.82 15.27 14.26 AC1075E 100 1000:1 20 1.015 0.10 0.35 0.50 0.6 TE1100-ND 18.34 15.72 14.68 AC1100F 150 1000:1 10 1.010 0.10 0.32 0.55 0.6 TE1150-ND 17.35 15.62 13.88 AC1150F 200 1000:1 10 1.010 0.10 0.30 0.45 0.6 TE1200-ND 17.60 15.84 14.08 AC1200AmvecoPart No.NMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)167167

YZXYZXSolid State Magnetic Hall Effect SensorsFig. 11.0Fig. 2(25.4)39.4(1 M)15/32-32 TPI0.47(11.94)Snap-Fit5.91(150).550 (13.97).175 (4.44)Fig. 3VaneSensor.425(10.80) .475(12.07).975(19.05)Fig. 4M12-1 ThreadPartLabel39.4(1 M)2.56 (65)SD100203: 2.05(52.07)1.61(41)Fig. 5Ø.250(6.4).68(17.3).38(9.7)#8-32Cherry magnetic sensors are used to detectchanges in magnetic field polarities and themotion of ferrous metals such as gear tooth movements.Used for such ap pli cations as speed andproximity sensing, magnetic polarity detectionand current flow monitoring. Solid state design forunlimited life.Features:MP100 Series: Aluminum threaded barrel sensor for speed and precise po si tioning and adjustmentGS100 Series: Barrel sensors in tend ed for gear tooth speedpower gears, conveyer speed and other rotatingFig.SupplyVoltageOutputCurrentTerminalTypePolarityDigi-KeyPart No.‡ Industrial Grade-Stainless Steel † Commercial Grade Aluminum ◆ RoHS CompliantPrice Each1 10 50 100CherryPart No.1 4.75-24VDC 25mA 20AWG Wires South Pole CH396-ND†◆ 27.73 24.65 20.54 19.00 MP1007012 4.75-24VDC 25mA 24AWG Wires South Pole CH399-ND 6.91 6.15 5.12 4.74 MP1013013 4.5-24VDC 25mA PC Mount Ferrous Vane CH401-ND◆ 7.59 6.75 5.62 5.20 VN10150144.5-24VDC 25mA 20AWG Wires Gear Teeth CH416-ND† 34.29 30.48 25.40 23.50 GS1005024.5-24VDC 25mA 22AWG Wires Gear Teeth CH414-ND‡ 61.18 54.39 45.32 41.93 GS1001025 Threaded Actuator, South pole magnet, Aluminum Housed CH700-ND◆ 5.83 5.19 4.32 4.00 AS101001NSensorsLinear / Angular / RotaryDisplacement Sensors –HMC1501 / HMC1512High resolution, low power MR sensor capable of measuring the angle direction of a magnetic field from amagnet with

SensorsDigital Compass SolutionThe Honeywell HMR3400 is a digital compass solution designed for use innavigation and precision pointing applications. Using a common set of commandsfrom the legacy HMR3300 digital compass solution, the HMR3400 is designed tobe easily integrated into host systems with a regulated 5 volt supply and a UARTserial data interface.Features: Tilt-Compensated Operating Temperature Range: -40°C ~ 85°CDigi-KeyPrice HoneywellDescription Part No.Each Part No.HMR3400 Module 342-1057-ND 360.00 HMR3400TruePoint Compass ModuleThe HMR3500 TruePoint compass module is a 3-axis digital compass solutionwith a customizable coordinate system for mounting in any desired orientation.It has provisions for hard and soft-iron correction algorithms to handle magneticdistortion effects. In addition a World Magnetic Model feature is provided toautomatically add declination angle corrections for reference to true north(geographical north). Features: Tilt-Compensated Operating TemperatureRange: -40°C ~ 85°C Supply Voltage Range: 5DC Benefits: Better than1° Nominal Heading Accuracy (1δ), 0.1° Resolution ±89° Pitch and Roll, 360°Continuous Roll CapabilityDescriptionDigi-KeyPart No.PriceEachHoneywellPart No.HMR3500 Module 342-1058-ND 650.00 HMR3500Demo Kit 342-1059-ND 812.50 HMR3500 DEMO3-Axis Magnetic - HybridA complete 3-axis magneto-meter with analog output in a 20-Pin hybrid DIP package.Features: Applications:Specifications (Power Supply: +15VDC; Set/Reset switching is active): Range: Units:Digi-KeyPriceHoneywellDescriptionPart No.EachPart No.3-Axis Magnet Sensor Hybrid 342-1011-ND 220.00 HMC20031, 2 and 3-Axis MagnetoresistiveConfigured as a 4-element wheatstone bridge, these highly sensitive sensorsconvert magnetic fields to differential output voltages, capable of sensing magneticfields as low as 30 µgauss.Features: state devices reduce board assembly costs, improve reliability and ruggedness effects of temperature drift, non-linearity errors and loss of signal output due to thethe effects of hard iron distortionApplications: ®Honeywell Part No.HMC1021HMC1043, HMC1051SPECIFICATIONS:HMC1001HMC1022HMC1042 HMC1052, HMC1053Operating Temperature -55°C ~ 150°C ‡ -55°C ~ 150°C -40°C ~ 125°C -40°C ~ 125°C(Condition) (—) (—) (Ambient) (Ambient)Field RangeFull scale (FS) - total applied field±2 gauss ‡ ±6 gauss ±6 gauss ±6 gaussSensitivity Typical 3.2 mV/V/gauss 1.0 mV/V/gauss 1.0 mV/V/gauss 1.0 mV/V/gauss(Set/Reset Current) (0.3A) (0.5A) (0.5A) (0.5A)Resolution Typical 27 µgauss ‡ 85 µgauss 160 µgauss 120 µgauss(Bandwidth, Vbridge) (10Hz, 5V) (10Hz, 5V) (1kHz, 5V) (50Hz, 5V)Bandwidth5MHz ‡ 5MHz 5MHz 5MHz‡ Not tested in production, guaranteed by characterizationDigi-KeyPrice EachDigi-KeyTape and Reel HoneywellDescriptionPart No.1 25 100 Part No.Qty. Pricing Part No.8-Pin SIP, Single Axis 342-1001-5-ND 19.00 16.50 13.50 — — — HMC10018-Pin SIP, Single Axis 342-1061-ND◆ 17.00 6.75 5.00 — — — HMC1021Z-RC8-Pin SIP, Single Axis 342-1034-5-ND 17.00 6.75 5.00 — — — HMC1051Z8-Pin SIP, Single Axis 342-1060-ND◆ 17.00 6.00 5.00 — — — HMC1051Z-RC8-Pin SOIC, Single Axis 342-1003-5-ND◆ 17.00 6.75 5.00 — — — HMC1021S8-Pin In-Line LCC, Single Axis 342-1043-5-ND 17.00 15.00 13.00 — — — HMC1051ZL16-Pin SOIC, Double Axis 342-1005-1-ND◆† 17.00 10.00 6.00 342-1005-2-ND◆ 2,500 3250.00/M HMC102216-Pin LCC, Double Axis 342-1042-5-ND◆ 17.00 7.00 6.00 — — — HMC1052L16-Pin LCC, Double Axis 342-1053-1-ND◆† 17.00 7.00 6.00 342-1053-2-ND◆ 3,000 3250.00/M HMC1042L-TR20-Pin SOIC, Double Axis 342-1070-ND◆ 21.00 19.80 18.70 — — — HMC1002-RC16-Pin LCC, Triple Axis 342-1035-5-ND 55.00 50.00 42.00 — — — HMC105316-Pin LPCC, Triple Axis 342-1054-1-ND† 34.00 15.00 14.00 342-1054-2-ND 1,000 8999.97 HMC1043-TRDemonstration BoardsDemo Board for HMC1041Z and HMC1042L 342-1064-ND 250.00/1 — — — HMC1042L/HMC1041Z-DEMODemo Board for HMC1043 342-1066-ND 250.00/1 — — — HMC1043-DEMO◆ RoHS Compliant † Cut TapeHMC6042®The HMC6042 includes our state of the art 1042 series magneto-resistive sensors plus a precision mixed signal ASICcontaining three sensor amplifiers and a compatible set/reset strap driver circuit for 2.4V ~ 3.6V operation. The sensorsfeature precision in-axis sensitivity and linearity, solid-state construction with very low cross-axis sensitivity designed tomeasure both direction and magnitude of Earth’s magnetic fields. Features: Low Voltage Operations (2.4V ~ 3.6V) Built-In Set/Reset Drive Circuit Wide Magnetic Field Range (+/-6 Oe) Benefits: Single Logic Input for Degaussing, ThermalDrift Compensation Feedback Pins for Gain and Bandwidth ShapingDescriptionDigi-KeyPart No.1Cut TapePrice Each25 100Tape & Reel†Pricing1,000HoneywellPart No.2-Axis Magnetic Sensor 342-1055-1-ND 25.00 8.00 7.00 5625.00 HMC6042-TR† For Tape and Reel part number, change 1-ND to 2-ND.Digital Compass ModulesDimensions in mmThe Honeywell HMC5843 is a surface mount multi-chip moduledesigned for low field magnetic sensing with a digital interface Fig. 1 Fig. 2Fig. 3for applications such as low cost compassing and magnetometry.The HMC5843 includes our state of the art 1043 series magnetoresistivesensors plus Honeywell developed ASIC containing2.256.46.4amplification, strap drivers, offset cancellation, 12-bit ADC andan I 2 4.0 4.06.4C serial bus interface. Features: 6.509.0 2 (+/-6 Oe) Benefits: 4.04.09.0The HMC63xx digital compass modules combine a 2 or 3-axis tilt sensor with the required support circuitry for heading computation. By combiningthe sensor and processing elements into a small LCC or LPCC package designers will have the most simple solution to integrate low cost and spaceefficient compasses for mobile phones, consumer electronics, vehicle compassing and antenna positioning. HMC6352 Features: HMC6343 Features:DRM 4000Features and Benefits: State-of-the-art deadreckoning device for personnel navigation Typical DR accuracy 2% distance traveled Low power consumption Industrialtemperature range: -40°C ~ 85°CThe Dead Reckoning Module (DRM) 4000 is a miniature, electronicdevice for personnel on foot that provides the user’s position relative to aninitialization point. When GPS data is available, the dead reckoning sensorsare automatically calibrated continuously and the two data sources are blendedinto a composite real-time position data output. When GPS data is unavailable,dead reckoning takes over. Motion classification algorithms analyze walkingmotion, and compensate when the user is running, or in place.DescriptionDigi-KeyPart No.Digi-KeyPart No.PriceEachPriceEachHoneywellPart No.HoneywellPart No.Fig. Description342-1071-1-ND◆ 20.00 HMC58431 20-Pin LCC, Triple Axis342-1071-2-ND◆ 8125.00/2,500 HMC5843342-1041-1-ND◆ 25.00 HMC63522 24-Pin LCC, Double Axis342-1041-2-ND◆ 8125.00/1,000 HMC63523 36-Pin LPCC, Triple Axis 342-1056-ND◆ 95.00 HMC6343Demonstration Board for HMC6343 342-1067-ND 250.00 HMC6343-DEMOEvaluation Board for HMC5843 342-1072-ND◆ 150.00 HMC5843-EVALDemonstration Board for HMC5843 342-1073-ND◆ 250.00 HNC5843-DEMO◆ RoHS CompliantDRM 4000 Module 342-1052-ND 1195.00 DRM4000-N00-232DRM 4000 Evaluation Kit 342-1063-ND 2500.00 DRM4000-N00-USB-EVALN®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)169169

Rugged Stainless Steel Pressure TransducersFeaturing Microfused Technology®MSP Series:The MSP pressure transducer is designed for high-volume, low-cost commercial, industrial and off roadapplications which require accurate measurement of gases or liquids. Operating ranges up to 10,000psi is available with your choice of output signal in volts, millivolts, or milliamps. The MSP uses a micromachined silicon strain gauge inorganically bonded to a machined stainless steel diaphragm; no welds,no 0-rings, no silicone oil. All wetted surfaces are stainless steel and all signal conditioning electronicsare housed in a stainless steel cover which provides protection from hostile environments. The housingis sealed and requires no maintenance. Each transducer is thoroughly tested and calibrated beforeshipment.Applications: 2 FOOT CABLE —MSP SERIES22.23Pressure PortN=1/4" NPT Stainless SteelA=1/8" NPT Cover15.24 20.3247.75StrainRelief609.6PACKARD CONNECTOR —MSP AND M5100 SERIES22.23Pin APin CPin BDimensionsA B C DSAE 9.14 44.45 74.42 20.8UNF 13.3 48.0 81.7 20.3Pressure Port7/16"-20with "O" ringAStainless SteelCoverBCPackardConnectorD2 FOOT CABLE —ULTRASTABLE 5100 AND M5100 SERIES22.231/4” NPTPressure Port16.2 48.072.424.0MSP-100 MSP-300 MSP-340 MSP-400 MSP-600 MSP-610 U5100 M5100Pressure Range (PSIG) 0-100 ~ 500 0-100 ~ 10,000 0-100 ~ 1,000 1,000 ~ 5,000 0-25 ~ 5,000 0-100 ~ 500 0-15 ~ 500 0-25 ~ 10,000Accuracy (combined linearity,hysteresis and repeatability)±0.20% of FS ±1% of FS ±1% of FS ±0.50% of FS ±0.25% BSL ±0.25% of FS ±1% of FS ±0.25% of FSPressure Overload 1.5X 2X 2X 2X 2X 2X 3X 2XBurst PressureOutputs VDC or mAZero Offset (millivolt output)(amplified output)3X0-100mV±2% of FS±2% of FS0-100mV, 1-5V0.5-4.5V, 4-20mA±3% of FS±2% of FS0-100mV,0.5-4.5V±3% of FS±2% of FS5x or 20,000 PSIwhichever is less1-5V,4-20mA—±2% of FS0.5-4.5V1-5V, 4-20mA——4X 4X 5X0.5-4.5V,1-5V, 4-20mA——0.5-4.5V,1-5V, 4-20mA——0.5-4.5V,1-5V, 4-20mA——Span Tolerance ±2% of FS ±2% of FS ±2% of FS ±2% of FS — — — —Long-Term Stability,Typical (1 year)±0.25% ±0.25% ±0.25% ±0.25% ±0.25% ±0.25% ±0.1% ±0.25%Operating Temperature (°C) 0 ~ 55 -20 ~ 85 -20 ~ 85 -40 ~ 85 -40 ~ 125 -40 ~ 125 -40 ~ 125 -40 ~ 125Compensated Range (°C) 0 ~ 55 0 ~ 55 0 ~ 55 0 ~ 70 -20 ~ 85 — -20 ~ 85 -20 ~ 85Thermo Zero Shift

Rugged Stainless Steel Pressure TransducersFeaturing Microfused Technology (Cont.)®OperatingPressureRangePSIGVoltageSupply(VDC)Digi-KeyPart No.1Price Each10MSP-340 Series — RoHS CompliantMeasurementSpecialtiesPart No.100mV Output — 1/8” NPT, 2 Foot Cable100 5 MSP6892-ND 109.15 93.56 M3421-000006-100PG300 5 MSP6893-ND 109.15 93.56 M3421-000006-300PG500 5 MSP6894-ND 109.15 93.56 M3421-000006-500PG1000 5 MSP6895-ND 109.15 93.56 M3421-000006-01KPG0.5V ~ 4.5V Output — 1/8” NPT, 2 Foot Cable100 5 MSP6896-ND 127.34 109.15 M3431-000006-100PG300 5 MSP6897-ND 127.34 109.15 M3431-000006-300PG500 5 MSP6898-ND 127.34 109.15 M3431-000006-500PG1000 5 MSP6899-ND 127.34 109.15 M3431-000006-01KPGMSP-400 Series — RoHS Compliant4mA ~ 20mA Output — 2 Wire Regulated Supply 1/4” NPT, 2 Foot Cable1000 10 ~ 32 MSP4102P4-ND 108.50 93.00 2000417MSP-600 Series — RoHS Compliant0.5VDC ~ 4.5VDC Output — 7/16” SAE, Packard Connector50 5 MSP6050P3-4-ND 96.25 82.50 200096575 5 MSP6075P3-4-ND 96.25 82.50 2000966100 5 MSP6101P3-4-ND 96.25 82.50 20009671000 5 MSP6102P3-4-ND 96.25 82.50 20009704mA ~ 20mA Output — 1/4” NPT, 2 Foot Cable50 10 ~ 30 MSP6050P5-1-ND 119.00 102.00 2000879MSP-610 Series — RoHS Compliant0.5V ~ 4.5V Output — 1/8” NPT, 2 Foot Cable300 5 MSP6906-ND 114.19 97.88 M6131-C00006-300PG500 5 MSP6907-ND 114.19 97.88 M6131-C00006-500PG0.5V ~ 4.5V Output — 1/4” NPT, 2 Foot Cable100 5 MSP6903-ND 114.19 97.88 M6131-C00005-100PG500 5 MSP6905-ND 114.19 97.88 M6131-C00005-500PG1V ~ 5V Output — 1/4” NPT, 2 Foot Cable300 8 ~ 30 MSP6909-ND 119.00 102.00 M6141-C00005-300PG4mA ~ 20mA Output — 1/4” NPT, 2 Foot Cable100 10 ~ 30 MSP6911-ND 135.63 116.25 M6181-C00005-100PG300 10 ~ 30 MSP6912-ND 135.63 116.25 M6181-C00005-300PG500 10 ~ 30 MSP6913-ND 135.63 116.25 M6181-C00005-500PGUltraStable 5100 Series — RoHS Compliant0.5V ~ 4.5V Ratiometric Output — 1/4” NPT, Absolute Pressure, 2 Foot Cable15PSIA 4.75 ~ 5.25 223-1000-ND 175.00 150.00 U5131-000005-015PA30PSIA 4.75 ~ 5.25 223-1002-ND 198.20 168.17 U5131-000005-030PA100PSIA 4.75 ~ 5.25 223-1004-ND 198.20 168.17 U5131-000005-100PA4mA ~ 20mA Output — 1/4” NPT, Absolute Pressure, 2 Foot Cable15PSIA 9 ~ 30 223-1007-ND 211.41 179.38 U5151-000005-015PA30PSIA 9 ~ 30 223-1009-ND 254.42 215.88 U5151-000005-030PA100PSIA 9 ~ 30 223-1011-ND 254.42 215.88 U5151-000005-100PA0.5V ~ 4.5V Ratiometric Output — 1/4” NPT, 2 Foot Cable15 4.75 ~ 5.25 223-1001-ND 198.20 168.17 U5131-000005-015PG30 4.75 ~ 5.25 223-1003-ND 175.00 150.00 U5131-000005-030PG100 4.75 ~ 5.25 223-1005-ND 198.20 168.17 U5131-000005-100PG500 4.75 ~ 5.25 223-1006-ND 198.20 168.17 U5131-000005-500PGM5100 Series — RoHS Compliant0.5V ~ 4.5V Ratiometric Output — 1/4” NPT, 2 Foot Cable50 4.75 ~ 5.25 223-1038-ND 138.46 118.68 M5131-000005-050PG75 4.75 ~ 5.25 223-1041-ND 138.46 118.68 M5131-000005-075PG100 4.75 ~ 5.25 223-1020-ND 138.46 118.68 M5131-000005-100PG250 4.75 ~ 5.25 223-1026-ND 138.46 118.68 M5131-000005-250PG500 4.75 ~ 5.25 223-1032-ND 138.46 118.68 M5131-000005-500PG1000 4.75 ~ 5.25 223-1014-ND 138.46 118.68 M5131-000005-01KPG2500 4.75 ~ 5.25 223-1029-ND 138.46 118.68 M5131-000005-2K5PG5000 4.75 ~ 5.25 223-1017-ND 138.46 118.68 M5131-000005-05KPG10000 4.75 ~ 5.25 223-1023-ND 138.46 118.68 M5131-000005-10KPGOperatingPressure VoltageMeasurementRange Supply Digi-KeyPrice Each SpecialtiesPSIG (VDC) Part No.1 10 Part No.1V ~ 5V Output — 1/4” NPT, 2 Foot Cable50 8 ~ 30 223-1039-ND 144.52 123.88 M5141-000005-050PG75 8 ~ 30 223-1042-ND 144.52 123.88 M5141-000005-075PG100 8 ~ 30 223-1021-ND 144.52 123.88 M5141-000005-100PG250 8 ~ 30 223-1027-ND 144.52 123.88 M5141-000005-250PG500 8 ~ 30 223-1033-ND 144.52 123.88 M5141-000005-500PG1000 8 ~ 30 223-1015-ND 144.52 123.88 M5141-000005-01KPG2500 8 ~ 30 223-1030-ND 144.52 123.88 M5141-000005-2K5PG5000 8 ~ 30 223-1018-ND 144.52 123.88 M5141-000005-05KPG10000 8 ~ 30 223-1024-ND 144.52 123.88 M5141-000005-10KPG4mA ~ 20mA Output — 1/4” NPT, 2 Foot Cable50 9 ~ 30 223-1040-ND 151.59 129.94 M5151-000005-050PG75 9 ~ 30 223-1043-ND 125.78 107.82 M5151-000005-075PG100 9 ~ 30 223-1022-ND 151.59 129.94 M5151-000005-100PG250 9 ~ 30 223-1028-ND 151.59 129.94 M5151-000005-250PG500 9 ~ 30 223-1034-ND 151.59 129.94 M5151-000005-500PG1000 9 ~ 30 223-1016-ND 151.59 129.94 M5151-000005-01KPG2500 9 ~ 30 223-1031-ND 151.59 129.94 M5151-000005-2K5PG5000 9 ~ 30 223-1019-ND 151.59 129.94 M5151-000005-05KPG10000 9 ~ 30 223-1025-ND 151.59 129.94 M5151-000005-10KPG0.5V ~ 4.5V Ratiometric Output — 7/16” UNF Male, O-Ring, Packard Connector50 4.75 ~ 5.25 223-1045-ND 114.84 98.44 M5134-000004-050PG75 4.75 ~ 5.25 223-1046-ND 114.84 98.44 M5134-000004-075PG250 4.75 ~ 5.25 223-1048-ND 138.46 118.68 M5134-000004-250PG500 4.75 ~ 5.25 223-1049-ND 138.46 118.68 M5134-000004-500PG1000 4.75 ~ 5.25 223-1050-ND 114.84 98.44 M5134-000004-01KPG2500 4.75 ~ 5.25 223-1051-ND 138.46 118.68 M5134-000004-2K5PG5000 4.75 ~ 5.25 223-1052-ND 138.46 118.68 M5134-000004-05KPG7500 4.75 ~ 5.25 223-1074-ND 138.46 118.68 M5134-000004-7K5PG10000 4.75 ~ 5.25 223-1053-ND 138.46 118.68 M5134-000004-10KPG1V ~ 5V Output — 7/16” UNF Male, O-Ring, Packard Connector50 8 ~ 30 223-1055-ND 144.52 123.88 M5144-000004-050PG75 8 ~ 30 223-1056-ND 120.31 103.13 M5144-000004-075PG100 8 ~ 30 223-1057-ND 120.31 103.13 M5144-000004-100PG250 8 ~ 30 223-1058-ND 120.31 103.13 M5144-000004-250PG500 8 ~ 30 223-1059-ND 120.31 103.13 M5144-000004-500PG1000 8 ~ 30 223-1060-ND 144.52 123.88 M5144-000004-01KPG2500 8 ~ 30 223-1061-ND 120.31 103.13 M5144-000004-2K5PG5000 8 ~ 30 223-1062-ND 144.52 123.88 M5144-000004-05KPG7500 8 ~ 30 223-1075-ND 120.31 103.13 M5144-000004-7K5PG10000 8 ~ 30 223-1063-ND 144.52 123.88 M5144-000004-10KPG4mA ~ 20mA Output — 7/16” UNF Male, O-Ring, Packard Connector100 9 ~ 30 223-1067-ND 151.59 129.94 M5154-000004-100PG500 9 ~ 30 223-1069-ND 125.78 107.82 M5154-000004-500PG2500 9 ~ 30 223-1071-ND 125.78 107.82 M5154-000004-2K5PG7500 9 ~ 30 223-1076-ND 151.59 129.94 M5154-000004-7K5PG10000 9 ~ 30 223-1073-ND 151.59 129.94 M5154-000004-10KPGBarometric Pressure Sensors — RoHS Compliant.010 ~ 1.1 bar 2.2 ~ 3.6 223-1098-1-ND† 21.00 16.80 MS5440-CM.010 ~ 1.1 bar 2.2 ~ 3.6 223-1098-2-ND‡ 10710.00/1,000 MS5440-CM0 ~ 14 bar 2.2 ~ 3.6 223-1099-1-ND† 19.53 15.35 MS5441-CM0 ~ 14 bar 2.2 ~ 3.6 223-1099-2-ND‡ 11858.00/1,000 MS5441-CM.010 ~ 1.1 bar 2.2 ~ 3.6 223-1100-1-ND† 21.21 16.67 MS5534-CM.010 ~ 1.1 bar 2.2 ~ 3.6 223-1100-2-ND‡ 12878.00/1,000 MS5534-CM0 ~ 14 bar 2.2 ~ 3.6 223-1101-1-ND† 26.99 21.21 MS5535-CM0 ~ 14 bar 2.2 ~ 3.6 223-1101-2-ND‡ 16384.00/1,000 MS5535-CM◆ RoHS Compliant † Cut Tape ‡ Tape and ReelDescriptionLengthInchCable HarnessesPre-made Cable Harnesses from SSI Technologies, Inc. with the industry standard Packard Automotive Connector.Digi-KeyPart No.Price Each1 10 25SSI TechnologiesPart No.Cable Harness Packard 12 734-1163-ND 11.66 10.43 9.78 P2432.3Cable Harness Packard 36 734-1164-ND 20.90 20.05 18.14 P2435.3Cable Harness Packard 72 734-1165-ND 26.43 25.44 23.23 14306.3N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)171171

PC Board Mountable Pressure Sensors Temperature CompensatedThese pressure sensors are intended for cost sensitive appli cations where excellent performance and longtermstability are required. Integral temperature compensation is provided using laser-trimmed resistors. Anad d itional laser-trimmed resistor is included to normalize pressure sensitivity variations by programming thegain of an external differ ential amplifier. This provides sensitivity inter change ability of ±1%.Features: Specifications:Output: Sup ply Current: Response Time:Oper ating Temperature: -40°C ~ 125°CModel 1210/1220 – Low Pressure:Model 1230/1240 – UltraStable:Model 1210/1220 – Medium Pressure:8.65.68 x 0.5Tube Length:470 (±5mil.)2 x 3.24.2Lid -9.4 x 13.9715.215.22.58 7 6 51 2 3 49.4Dimensions in mm3.88.15.13.0PressureDigi-KeyPrice EachMeasurementSpecialtiesPressure Type Package Part No.1 10 100 Part No.Model 1210 / 1220 - Low and Medium Pressure — RoHS Compliant0-1PSID Differential 8-Pin Dip MSP6940-ND 35.08 30.70 24.56 1210A-001D-3L0-2PSID Differential 8-Pin Dip MSP6814-ND 35.08 30.70 24.56 1210A-002D-3L0-5PSID Differential 8-Pin Dip MSP6816-ND 35.08 30.70 24.56 1220A-005D-3L0-15PSID Differential 8-Pin Dip MSP6941-ND 35.08 30.70 24.56 1210A-015D-3L0-15PSID Differential 8-Pin Dip MSP6943-ND 35.08 30.70 24.56 1220A-015D-3L0-100PSID Differential 8-Pin Dip MSP6942-ND 35.08 30.70 24.56 1210A-100D-3L0-100PSID Differential 8-Pin Dip MSP6944-ND 35.08 30.70 24.56 1220A-100D-3LModel 1230 / 1240 - Ultrastable0-15PSID Differential 8-Pin Dip MSP6819-ND 43.89 38.41 30.73 1240-015D-3L0-15PSID Differential 8-Pin Dip MSP6945-ND◆ 43.90 38.42 30.73 1230-015D-3L0-30PSID Differential 8-Pin Dip MSP6822-ND◆ 43.89 38.41 30.73 1230-030D-3L0-100PSID Differential 8-Pin Dip MSP6828-ND 43.89 38.41 30.73 1230-100D-3L0-100PSID Differential 8-Pin Dip MSP6829-ND◆ 43.89 38.41 30.73 1240-100D-3L◆ RoHS CompliantPC Board Mountable Pressure Sensors 44xx SeriesFig. 1 Fig. 27.513.7PC Board Mountable Pressure SensorsModel 1451This pressure sensor is intended for high volume applications where small size, light weight, low cost, andcom pat ibility with auto mated assembly equip ment are required.Features: Specifications:Output: Sup ply Volt age:Response Time:Op erating Temperature: -40°C ~ 125°C'B' Through hole(1451 N & T)(Pressure Port)'B' Through hole(1451 W Only)OrientationFeature2.54Pins Pitch7.6 Sq.6.4 Sq.Ø3.40DC13.72.54PinsPitchAØ3.40.646.47.5Dim. in mmModel 4425 and 4426These pressure sensors are temperature compensated, piezoresistive silicon pressure sensors packaged in a dual-in-line configuration andintended for cost sensitive applications where excellent performance and long-term stability are required. Features:Specifications:Pressure Digi-KeyPrice EachMeasurement SpecialtiesPressure Type Part No.1 10 100 Part No.Fig. 1 — Model 44251PSID Differential 223-1089-ND 34.08 29.82 23.86 4425-001D5PSID Differential 223-1090-ND 34.08 29.82 23.86 4425-005D15PSID Differential 223-1091-ND 34.08 29.82 23.86 4425-015D15PSIA Absolute 223-1092-ND 34.08 29.82 23.86 4425-015A100PSID Differential 223-1093-ND 34.08 29.82 23.86 4425-100DFig. 2 — Model 44261PSIG Gage 223-1094-ND 34.08 29.82 23.86 4426-001G5PSIG Gage 223-1095-ND 34.08 29.82 23.86 4426-005G15PSIG Gage 223-1096-ND 34.08 29.82 23.86 4426-015G15PSIA Absolute 223-1097-ND 34.08 29.82 23.86 4426-015ADimensions (mm)Package A B C DNarrow Hole 2.79 0.78 — —Wide Hole 2.79 4.06 — —Tube 2.79 0.78 5.59 2.29PressurePressureType PackageDigi-KeyPart No.1Price Each10 100MeasurementSpecialtiesPart No.0-5PSIG Gage Tube MSP6800-ND◆ 35.19 28.15 19.71 1451-005G-T0-5PSIA Absolute Wide MSP6801-ND 35.19 28.15 19.71 1451-005A-W0-15PSIA Absolute Narrow MSP6802-ND◆ 35.19 28.15 19.71 1451-015A-N0-15PSIG Gage Tube MSP6803-ND◆ 35.19 28.15 19.71 1451-015G-T0-30PSIA Absolute Narrow MSP6805-ND 35.19 28.15 19.71 1451-030A-N0-30PSIG Gage Tube MSP6806-ND 35.19 28.15 19.71 1451-030G-T0-30PSIA Absolute Wide MSP6807-ND 35.19 28.15 19.71 1451-030A-W0-50PSIA Absolute Narrow MSP6808-ND◆ 35.19 28.15 19.71 1451-050A-N0-50PSIG Gage Tube MSP6809-ND◆ 35.19 28.15 19.71 1451-050G-T0-50PSIA Absolute Wide MSP6810-ND 35.19 28.15 19.71 1451-050A-W0-100PSIA Absolute Narrow MSP6811-ND◆ 35.19 28.15 19.71 1451-100A-N0-100PSIG Gage Tube MSP6812-ND◆ 35.19 28.15 19.71 1451-100G-T0-100PSIA Absolute Wide MSP6813-ND◆ 35.19 28.15 19.71 1451-100A-W◆ RoHS CompliantUltraStable Stainless Steel PressureSensors Ribbon Cable with ConnectorFeatures: Specifications: Output: Sup ply Current: 1.5mA typical (guarantees output/input ratio-Oper ating Temperature: -40°C ~ 125°CFig. 1#15 x1.27Ø 14.1comp boardclearanceCompboard3.75.7152.415.2Fig. 2Dimensions (mm)Model A B C1/8 - 27 NPT 22.2 19.1 9.51/4 - 18 NPT 15.9 18.5 6.2ABCNFig.12PressureOutputLoadRes.Digi-KeyPart No.1Price Each10 100Model 82 , O-Ring Flush Mount — RoHS CompliantMeasurementSpecialtiesPart No.0-1PSIG 5MΩ Min. MSP6927-ND 107.28 91.96 79.70 82-001G-C0-15PSIG 5MΩ Min. MSP6928-ND 89.55 75.03 65.35 82-015G-C0-30PSIG 5MΩ Min. MSP6929-ND 89.55 75.03 65.35 82-030G-C0-100PSIG 5MΩ Min. MSP6930-ND 89.55 75.03 65.35 82-100G-C0-300PSIG 5MΩ Min. MSP6931-ND 89.55 75.03 65.35 82-300G-C0-15PSIA 5MΩ Min. MSP6932-ND 89.55 75.03 65.35 82-015A-C0-30PSIA 5MΩ Min. MSP6933-ND 89.55 75.03 65.35 82-030A-C0-100PSIA 5MΩ Min. MSP6934-ND 89.55 75.03 65.35 82-100A-C0-300PSIA 5MΩ Min. MSP6935-ND 89.55 75.03 65.35 82-300A-C0-500PSIA 5MΩ Min. MSP6936-ND 89.55 75.03 65.35 82-500A-CModel 85, 1/4” - 18 NPT0-15PSIG 5MΩ Min. MSP6853-ND 88.61 74.24 64.66 85-015G-4C0-30PSIG 5MΩ Min. MSP6854-ND◆ 88.61 74.24 64.66 85-030G-4C0-50PSIG 5MΩ Min. MSP6855-ND◆ 88.61 74.24 64.66 85-050G-4C0-100PSIG 5MΩ Min. MSP6856-ND◆ 88.61 74.24 64.66 85-100G-4C0-300PSIG 5MΩ Min. MSP6857-ND◆ 88.61 74.24 64.66 85-300G-4C0-500PSIG 5MΩ Min. MSP6858-ND◆ 88.61 74.24 64.66 85-500G-4C0-15PSIA 5MΩ Min. MSP6916-ND◆ 88.61 74.24 64.66 85-015A-4C0-30PSIA 5MΩ Min. MSP6917-ND◆ 88.61 74.24 64.66 85-030A-4COutputMeasurementPrice EachLoad Digi-KeySpecialtiesFig. Pressure Res. Part No.1 10 100 Part No.0-100PSIA 5MΩ Min. MSP6918-ND◆ 88.61 74.24 64.66 85-100A-4C2 0-300PSIA 5MΩ Min. MSP6919-ND◆ 88.61 74.24 64.66 85-300A-4C0-500PSIA 5MΩ Min. MSP6920-ND◆ 88.61 74.24 64.66 85-500A-4CModel 86, O-Ring Flush Mount0-5PSIG 1MΩ Min. MSP6859-ND◆ 80.03 67.06 58.41 86-005G-C0-15PSIG 1MΩ Min. MSP6860-ND◆ 80.03 67.06 58.41 86-015G-C0-30PSIG 1MΩ Min. MSP6861-ND◆ 80.03 67.06 58.41 86-030G-C0-50PSIG 1MΩ Min. MSP6862-ND◆ 80.03 67.06 58.41 86-050G-C0-100PSIG 1MΩ Min. MSP6863-ND◆ 80.03 67.06 58.41 86-100G-C0-300PSIG 1MΩ Min. MSP6864-ND 80.03 67.06 58.41 86-300G-C1 0-500PSIG 1MΩ Min. MSP6865-ND 80.03 67.06 58.41 86-500G-C0-5PSIA 5MΩ Min. MSP6921-ND◆ 80.03 67.06 58.41 86-005A-C0-15PSIA 5MΩ Min. MSP6922-ND◆ 80.03 67.06 58.41 86-015A-C0-100PSIA 5MΩ Min. MSP6924-ND◆ 80.03 67.06 58.41 86-100A-C0-300PSIA 5MΩ Min. MSP6925-ND◆ 80.03 67.06 58.41 86-300A-C0-500PSIA 5MΩ Min. MSP6926-ND◆ 80.03 67.06 58.41 86-500A-CModel 87N, 1/8” - 27 NPT — RoHS Compliant0-1000PSIA 5MΩ Min. MSP6937-ND 90.61 77.67 67.31 87N-1000A-8C2 0-3000PSIA 5MΩ Min. MSP6938-ND 90.61 77.67 67.31 87N-3000A-8C0-5000PSIA 5MΩ Min. MSP6939-ND 90.61 77.67 67.31 87N-5000A-8C◆ RoHS Compliant172 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

GCD-SE Series Gage Heads -Precision Spring-LoadedFeatures: GCD-SE Series Linear Range Digi-KeyPrice EachMeasurement SpecialtiesModel No. Inches (mm) Part No.1 5 10 Part No.GCD-SE-100 0.10 (2.54) 356-1005-ND 526.50 470.56 442.26 02351006-000GCD-SE-500 0.50 (12.7) 356-1007-ND 673.06 602.16 565.50 02351008-000GCD-SE-1000 1.0 (25.4) 356-1008-ND 708.21 633.77 595.14 02351009-000GCD-SE-2000 2.0 (50.8) 356-1009-ND 765.14 684.81 642.72 02351010-000AccuStar ® II ClinometerAccuStar II combines the function of two clinometers in one package. The unique dome shaped design features acapacitance based sensor which produces output signals directly proportional to the relative tilt in two axis.Features:Linear Op. Temp. Digi-KeyPrice Each Measurement SpecialtiesDescription Range Range Part No. 1 10 25 Part No.Dual Axis Clinometer ±20° -20°C ~ 75°C 356-1034-ND 125.36 119.09 112.83 02119011-000Rotary Variable Inductance Transducer (RVIT)The R120LC is a DC operated noncontact rotary transducer.Full Input Output Digi-KeyPrice EachMeasurementSpecialtiesDescription Range Voltage Voltage Part No. 1 5 20 Part No.R120LC Transducer ±60° 4.75-5.25VDC 0.5-4.5VDC 356-1076-ND 147.23 134.96 122.69 02183000-000AngleStar ® Digital ProtractorThe AngleStar Digital Protractor Model DP-45 provides instant digital display of level, angle and tilt.Features: DescriptionDigital ProtractorModel DP-45DC Powered Voltage ModuleThe LVM-110 Module is a DC-powered LVDT signal conditioner board consisting of a carrier oscillator, AC amplifier,demodulator, filter, and DC amplifier.Features:DescriptionLVDT SignalConditioner BoardLinearRangeOperatingRange3.5 ± 10%VrmsOperatingTemperatureRangePowerRange2.5kHz, 5kHz,10kHzDigi-KeyPart No.Digi-KeyPart No.Price Each1 5 20Price Each1 5 10MeasurementSpecialtiesPart No.±45° 0°C ~ 65°C 356-1035-ND 368.85 347.37 313.95 02475-01MeasurementSpecialtiesPart No.356-1001-ND 156.80 146.18 137.32 04171776-000Dual Channel LVDT Readout/ControllerThe Measurement Specialties microprocessor based LVDT indicator and set-point controller is designed for industrial andprocess control applications utilizing any LVDT/RVDT-based measurement device.Features:OperatingTemperatureRangeMeasurementSpecialtiesPart No.LinearDigi-KeyPriceDescription RangePart No.EachMP2000 Series

Load CellsMeasurement Specialties Sensors’pro prietary Microfused technology,de rived from demanding aerospaceap pli cations, employs micro-machinedsilicon piezo-resistive strain gages fusedwith high temperature glass to a highper formance stainless steel substrate.Features: Fig. 1 Fig. 2Ø 6.03 Core Wire (Amplifier)28 AWG 85°C 300V609.6Ø 26.019.4016.802.502-Ø 3.08.034.010.209.201.0Ø 8.0Ø 31.754 Core Wire(Bridge Only)2-M3 Mounting ScrewsISO 68-197325.40Dimensions in mmFig.12Compression/Tension Excitation Output Span Voltage Storage/Operating Digi-KeyPrice EachMeasurement SpecialtiesRange (Lbf)(VDC)@±5% ToleranceTemperature Range Part No.1 10 100 Part No.10 3.3 ~ 5.0 0.5 ~ 4.5 V -40°C ~ 85°C MSP6948-ND 63.53 51.17 38.13 FC2231-0000-0010-L25 3.3 ~ 5.0 0.5 ~ 4.5 V -40°C ~ 85°C MSP6949-ND 63.53 51.17 39.27 FC2231-0000-0025-L50 3.3 ~ 5.0 0.5 ~ 4.5 V -40°C ~ 85°C MSP6950-ND 63.53 51.17 38.13 FC2231-0000-0050-L250 5.0 10.0 mV/V -40°C ~ 85°C MSP6952-ND 127.05 98.18 76.24 FC2311-0000-0250-L500 5.0 10.0 mV/V -40°C ~ 85°C MSP6953-ND 127.05 98.18 79.71 FC2311-0000-0500-L1000 5.0 10.0 mV/V -40°C ~ 85°C MSP6954-ND 127.05 98.18 76.24 FC2311-0000-1000-L2000 5.0 10.0 mV/V -40°C ~ 85°C MSP6955-ND 127.05 98.18 79.71 FC2311-0000-2000-LSensors with Temperature OutputSenstronics Storm Series is a unique product providing a lifetime of accuracy for combined pressure/temperature applications used in harsh mediarequiring stainless steel wetted parts. The 17-4PH stainless steel sensor design allows for a wide range of temperature and provides a rugged design thatcan withstand high levels of shock and vibration.Specification:Note: Mating harness included with each sensor.Operating PressureRange (PSIG)OperatingTemperature RangeOutputVoltageSupply VoltageRange (V)Digi-KeyPart No.PriceEachSenstronicsPart No.250 -40°C ~ 125°C 0.5 ~ 4.5 8 ~ 30 ST00638-ND 52.80 ST00638500 -40°C ~ 125°C 0.5 ~ 4.5 8 ~ 30 ST00223-ND 52.80 ST00223Ø 19M12 x 1PConnector9.7355.714.4Ø 24.5PolarizingKeyPin 2Pin 3Dimensions in mmPin 1Pin 4Dimensions in mmFig. 1Fig. 2Fig. 3 Fig. 4SensorsThe relative humidity sensors by Humirel are based on capacitive cell technology usinga patented solid polymer structure. They are fully interchangeable with no calibrationrequired in standard conditions. Suitable for linear voltage or frequency output circuitry.An NTC thermistor is used for temperature measurement.The RH modules are based on the HS1101LF capacitive humidity sensor and are voltageoutput devices. The RH/Temperature modules include a NTC thermistor for temperaturemeasurement and are voltage or frequency output.Features:Fig. 5Fig. 6Fig. 7 Fig. 82711.92711.9Supply Nom. Cap. Response Nominal RH Measuring Operating Digi-KeyPrice EachFig. DescriptionVoltage (Typ.) @55% RH TimeOutRange Temperature Part No.1 10 100Sensors — RoHS Compliant1 RH Sensor Side Opening 5V 180pF — — 1 ~ 99% RH -60°C ~ 140°C HS1101LF-ND 14.43 12.80 10.832 Temp./RH Sensor SMD Side Opening 5V 180pF 10 Sec. — 1 ~ 99% RH -60°C ~ 140°C HTS2030SMD-ND 22.29 19.77 16.72Modules3 Temp./RH Module Voltage Output 5V — — 2.48V @55% RH 1 ~ 99% RH -30°C ~ 70°C HTM2500LF-ND 79.80 71.25 57.004 Temp./RH Module Frequency Output JST Conn. 5V — 10 Sec. 8750Hz @55% RH 0 ~ 99% RH -30°C ~ 80°C HTF3226LF-ND◆ 21.60 20.30 16.245 Temp./RH Module Frequency Output Mini 5V — 10 Sec. 6600Hz @55% RH 0 ~ 100% RH -40°C ~ 85°C HTF3000LFPVH-ND◆ 25.27 23.75 19.006 Temp./RH Module Voltage Output Analog 5V — 10 Sec. 2.48V @55% RH 0 ~ 100% RH -40°C ~ 100°C HTM1735LF-ND◆ 33.68 31.65 25.327 Temp./RH Module, Side Conn. with Tab, Vout 5V –– 5 Sec. 2.48V @55% RH 0 ~ 100% RH -40°C ~ 110°C HTG3515CH-ND◆ 22.56 18.39 15.808 Temp./RH Module, Side Conn. Vout 5V — 5 Sec. 2.48V @55% RH 0 ~ 100% RH -40°C ~ 110°C HTG3535CH-ND◆ 22.56 18.39 15.80Demo Kit Includes: 1 x HM1500, 1 x HM1510 and 5 x HS1101 HDEMOKIT-ND† 135.50 — —◆ RoHS Compliant † HM1510 - HM1500 with socket at tip to accept HS1101 to test interchangeabilityCapacitive Humidity Sensors®NHCH-1000 Series humidity sensor is a capacitive polymer sensor designed for relative humiditymeasure ment. Features:Operating Temperature Range: -40°C ~120°C Operating Humidity Range: 0 ~ 100%HIH-40xx and HIH-50xx Series humidity sensors are designed specifically for high volumeOEM users. Features: % RH Operating Temperature Range: -40°C ~ 85°C Operating Humidity Range: 0 ~ 100%HIH-4602 Series relative humidity sensors combine both rela tive humidity and temperaturesensing in a TO-5 housing with a hydrophobic sintered stainless steel filter. Features:HCH-1000 SeriesHIH-4030/31 andHIH-5030/31 SeriesHIH-4000 SeriesHIH-4602 SeriesNom. Cap. Sensitivity pF/% RH Response Time Digi-KeyPrice Each Honeywell@55% RH (Typ.) Min. / Max. Sec. (Typ.) Part No. 1 10 25 Part No.HCH-1000 Series330pF 0.55/0.65 15 480-2903-ND 5.26 3.61 3.24 HCH-1000-001330pF 0.55/0.65 15 480-2904-ND 5.39 3.69 3.32 HCH-1000-002Supply Voltage(Vdc)Min. / Max.Accuracy Response% RH Time Sec. Digi-KeyMin. / Max. (Typ.) Part No.Tape & Reel‡Pricing1,000Price EachHoneywell1 10 25Part No.HIH-4000 Series4/5.8 -3.5/+3.5 15 480-2905-ND 21.33 16.97 15.90 — HIH-4000-0014/5.8 -3.5/+3.5 15 480-2906-ND 24.41 19.42 18.20 — HIH-4000-003HIH-4030 Series4/5.8 -3.5/+3.5 5 480-3166-1-ND† 13.69 10.48 9.90 7122.00 HIH-4030-0014/5.8 -3.5/+3.5 5 480-3167-ND 13.74 10.52 9.94 — HIH-4030-003HIH-4031 Series4/5.8 -3.5/+3.5 5 480-3168-1-ND† 17.17 13.14 12.41 8932.00 HIH-4031-0014/5.8 -3.5/+3.5 5 480-3169-ND 16.85 12.90 12.19 — HIH-4031-003HIH-4602 Series4/5.8 -3.5/+3.5 50 480-3178-ND 60.11 49.80 47.65 — HIH-4602-CHIH-5030 Series2.7/5.5◊ -3.0/+3.0▲ 5 480-3294-1-ND† 11.23 8.22 7.70 5419.00 HIH-5030-001HIH-5031 Series2.7/5.5◊ -3.0/+3.0▲ 5 480-3284-1-ND† 14.11 10.80 10.20 7342.00 HIH-5031-001◊ Device is tested @3.3Vdc and 25°C ▲ Total accuracy including interchangeability is ±3% RH.† Cut Tape ‡ For Tape & Reel part number, change 1-ND to 2-ND.®For Digi-Reel ® information, please see page 73.174 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

ChipCap Humidity and Temperature SensorsFeatures: OutputMeasuring Range Digi-KeyPrice EachGE SensingType(%) RH Part No.1 10 100 Part No.0 ~ 1 VDC Linear 0 ~ 100 CHIPCAP-L-50-TUBE-ND 22.74 19.90 15.43 CHIPCAP-L-50-TUBE0.5 ~ 4.5 VDC Ratiometric 0 ~ 100 CHIPCAP-R-50-TUBE-ND 22.74 19.90 15.43 CHIPCAP-R-50-TUBEDigital 0 ~ 100 CHIPCAP-D-50-TUBE-ND 34.16 29.89 23.18 CHIPCAP-D-50-TUBECHS SeriesHumidity SensorsDim. in mmTDK’s CHS Series humidity sensors are compact and extremely simple to apply. Because theycon tain the necessary circuitry, there is no need to provide additional control circuitry or per formtime-consuming calibration. With simple con nection to a power supply, they will output DC at 100%relative humidity. This makes it possible to read RH directly with a voltmeter.Fig. 1 Fig. 2 Fig. 3203.86.5 Max.Max.2.52.59 Max.2.5 2.55 Max.Fig.1SupplyVoltage(VDC)MeasuringRange(%) RHNominalAccuracy Digi-KeyRH Part No.Price Each TDK1 10 100 Part No.5 5 ~ 95 ±5% 445-2577-ND 51.01 45.92 40.82 CHS-UGS5 5 ~ 95 ±3% 445-2578-ND 74.40 63.77 55.27 CHS-UPS2 5 5 ~ 95 ±3% 445-2579-ND 74.40 63.77 55.27 CHS-UPR35 5 ~ 90 ±5% 445-2575-ND 34.01 30.61 27.21 CHS-GSS5 20 ~ 85 ±5% 445-2576-ND 23.81 21.43 19.05 CHS-MSS27Max.5.711.5 Max.1 2 31. Analog outputvoltage2. GND3. +Power supplyvoltage0.4955 15 5230.491. Analog outputvoltage2. GND3. +Power supplyvoltage20Max.10 Max.7 0.51 230.251. Analog outputvoltage2. GND3. +Power supplyvoltageUltrasonic Nebulizer UnitsThe TDK ultrasonic humidifier unit was the first such product in the world to be developed. In additionto such home uses, these ultrasonic humidifier units have numerous advantages for humidification of vegetableshowcases, preservation and growth of agricultural products, industrial applications, etc.Fig. 1 Fig. 2NB-59S-09S-0: Compact with highly reliable circuitry Separate transducer and drive circuit sections provide superior layout versatilityNB-80E-01-H: Compact with highly reliable circuitry Separate transducer and drive circuit sections provide superior layout versatility Because the ultrasonic frequencies used are higher than with typical household-type units, mist particle size isextremely fine. This unit is thus ideal for products intended for smaller spaces508 + BFFig.Rated InputVoltage(VAC)PowerConsumption(W)UltrasonicFrequency(kHz)Digi-KeyPart No.Price Each1 10 100TDKPart No.1 48 30 ±5 1,600 ~ 1,750 445-4833-ND 80.00 70.00 65.00 NB-59S-09S-02 48 13.2 max. 2,350 ~ 2,600 445-4831-ND 96.00 84.00 78.00 NB-80E-01-H68mm x 54mm65mm x 40mmNEW! Pressure SensorsFig. 1Ø 22Dim. in mmThese transmitters are based on piezoresistive silicon pressure sensors from Epcos’ own clean room. This series electronically compensates nonlinearity and temperature errorsand supplies a precise calibrated output signal with a high immunity against EMI.Features: Piezoresistive MEMS technology Measured media (gauge pressure): Air and non-aggressive gases (0~100% r.h.) and non-aggressive fluidsSpecifications: Operating Temperature Range: -25°C ~ 85°C6.5Ø 1550 9.5Fig.12Rated PressureDigi-KeyPrice EachEpcos(mbar) Supply Voltage Output Part No.1 10 100 Part No.100 7.5 ~ 30 0.5 ~ 4.5V 495-4123-ND 163.22 137.83 119.70 B58621H5810A02310,000 7.5 ~ 30 0.5 ~ 4.5V 495-4124-ND 163.22 137.83 119.70 B58621H5810A029100 10 ~ 30 4 ~ 20mA 495-4125-ND 177.43 149.83 130.12 B58621H5820A04010,000 10 ~ 30 4 ~ 20mA 495-4126-ND 177.43 149.83 130.12 B58621H5820A046100 4.75 ~ 5.5 0.5 ~ 4.5V 495-4127-ND 69.03 58.30 50.63 B58621K1110A0541,000 4.75 ~ 5.5 0.5 ~ 4.5V 495-4128-ND 69.03 58.30 50.63 B58621K1110A057100 4.75 ~ 5.5 0.5 ~ 4.5V 495-4129-ND 67.54 57.04 49.53 B58621K1510A06210,000 4.75 ~ 5.5 0.5 ~ 4.5V 495-4130-ND 67.54 57.04 49.53 B58621K1510A068Fig. 2ISO228-G1/80.25Ø3.0Ø4.81.5 93.114.618.89M12x1BCcomponentsCapacitive Humidity SensorDim. in mmThe capacitive atmospheric humidity sensor consists of a non-conductive foil, which is covered on both sides with a layer of gold. The dielectric constant of the foilchanges as a function of the relative humidity of the ambient atmosphere, and accordingly, the capacitance value of the sensor is a measure for relative humidity.HumidityRange(RH)Capacitance†(pF)SensitivityBetween12-75% RH(pF/%RH)Frequency(kHz)Max.AC / DCVoltage(V)StorageHumidityRange(RH)AmbientTemperature Range(°C)Digi-KeyPrice EachOperating Storage Part No. 1 10 50VishayPart No.10 ~ 90% 122 ±15% 0.4 ±0.05 1 ~ 1000 15 0 ~ 100% 0 ~ 85 -25 ~ 85 BC2325-ND 10.76 10.10 8.30 2381 691 9000123.035.0815.51.1511.517.03.15.0N† Capacitance at 25°C; 43% RH; 100kHzMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)175175

PNP D-ONNPN L-ONCapacitive Proximity SensorsFeatures:Capacitive sensors operate similar to Inductive sensors except that a plate is used instead of a coil in the sensor’s head.This plate develops a capacitive field between the sensor and ground. When an object comes within sensing distance of thesensor, the capacitive field changes which gets detected by the sensor and turns on the output. Perfect for detecting bothmetallic and non-metallic objects such as glass, wood, water, oils and plastics. Also works well for detecting liquids andsolids in containers.SensingDistance (mm) DescriptionOutputTypeDigi-KeyPart No.PriceEachOmronPart No.3 ~ 25 Amplified Sensor, Adjustable, NO, 10-40VDC NPN Z1071-ND 140.94 E2K-C25ME13 ~ 25 Amplified Sensor, Adjustable, NC, 10-40VDC NPN Z1072-ND 140.94 E2K-C25ME23 ~ 25 Amplified Sensor, Adjustable, NC, 90-250VAC SCR Z1073-ND 179.82 E2K-C25MY13 ~ 25 Amplified Sensor, Adjustable, NC, 90-250VAC SCR Z1074-ND 179.82 E2K-C25MY2Mounting Bracket for E2K-C Sensors — Z1659-ND 5.92 Y92E-A340 ~ 4 M12, 3 Wire Sensor, THD Body, NO, 10-30VDC PNP Z2356-ND 111.78 E2K-X4MF10 ~ 8 M18, 3 Wire Sensor, THD Body, NO, 30VDC PNP Z2426-ND 114.70 E2K-X8MF10 ~ 15 M30, 3 Wire Sensor, THD Body, NO, 10-30VDC PNP Z2427-ND 116.64 E2K-X15MF10 ~ 4 M12, 3 Wire Sensor, THD Body, NO, 10-30VDC NPN Z2423-ND 111.78 E2K-X4ME10 ~ 8 M18, 3 Wire Sensor, THD Body, NO, 10-30VDC NPN Z2424-ND 114.70 E2K-X8ME10 ~ 15 M30, 3 Wire Sensor, THD Body, NO, 10-30VDC NPN Z2425-ND 116.64 E2K-X15ME10 ~ 8 M18, 2 Wire Sensor, THD Body, NO, 90-250VAC SCR Z2421-ND 136.08 E2K-X8MY10 ~ 15 M30, 2 Wire Sensor, THD Body, NO, 90-250VAC SCR Z2422-ND 145.80 E2K-X15MY1AdjustableStyle:ThreadedBody Style:E2K-CsensorMilk cartonEjectorRejectAcceptPhotoelectric SensorsThrough BeamReflective/DiffuseFeatures: Photoelectric sensors consist of a light source and detector for object detection. Through-beam sensors use a separate transmitter and receiver,which an object must pass between to block the light. Retroflective sensors is a combined transmitter/receiver in one body and is reflected. A reflector typicallyis used to return the beam from the transmitter back to the receiver. Once an object is moved between the reflector and emitter/detector, the receiver outputturns on. Diffuse reflective is a combined transmitter/receiver in one body. Objects are detected by moving an object closer to the sensor directly from the front,rather than from the side. Once an object has come within the sensing distance, the amount of reflected light is sufficient to trigger the receiver output. connectors are easy connect (e-CON) connectors with spring loaded terminals for industrial applications and fast wire termination. connectors feature an 1/8 turn smart click connection that is fully IP67 sealed. Offered in both single and double ended styles.Fig. 1Fig. 2 Fig. 3Fig. 4 Fig. 5DiffuseRetroflectiveThroughBeamA — MaleB — FemaleMale - FemaleReflective/DiffuseThrough BeamSMin MaxSENSE3S-CD12LStabilityindicator(green)Lightindicator(red)SensitivityadjusterNPN/PNP output selectorStability indicator (green)Operation selectorMin - MaxDLOperation indicator (orange)Sensitivty adjuster5.0518AXN2x-xx3x: Tin AlloyXN2x-xx7x: Tin Plating12.8523.26.4SensingDigi-KeyPrice EachOmronFig. DescriptionDistanceType Part No.1 25 50 Part No.SensorsM18, Diffused Photoelectric Sensor, 10 ~ 30VDC, Nickel Plated Brass 3.94” (10cm) NPN Z1087-ND 75.12 69.56 64.92 E3F2-DS10C4-N1M18, Diffused Photoelectric Sensor, 24 ~ 240VAC, Plastic Housing 3.94” (10cm) NPN Z1088-ND 93.26 86.36 80.60 E3F2-DS10Z1-NM18, Retroflective Photoelectric Sensor, 24 ~ 240VAC, Plastic Housing 6.56’ (2m) Light - On Z1090-ND 97.51 90.29 84.27 E3F2-R2Z1M18, Through-Beam Photoelectric Sensor, 10 ~ 30VDC, Plastic Housing 9.84’ (3m) Light - On Z1091-ND 200.95 186.07 173.67 E3F2-3Z1Diffused Photoelectric Sensor, 10 ~ 30VDC, Metal Body Horizontal 27.6” (70cm) NPN/PNP Z1096-ND 249.54 231.06 215.66 E3S-CD11Diffused Photoelectric Sensor, 10 ~ 30VDC, Metal Body Horizontal 6.56’ (2m) NPN/PNP Z1097-ND 268.73 248.83 232.24 E3S-CD122 Retroflective Photoelectric Sensor, 10 ~ 30VDC, Metal Body, Vertical 9.84’ (3m) NPN/PNP Z1101-ND 189.52 175.49 163.79 E3S-CR61Through-Beam Photoelectric Sensor, 10 ~ 30VDC, Metal Body, Horizontal 98.43’ (30m) NPN/PNP Z1102-ND 304.18 281.66 262.88 E3S-CT11Through-Beam Photoelectric Sensor, 10 ~ 30VDC, Metal Body, Vertical 98.43’ (30m) NPN/PNP Z1103-ND 304.18 281.66 262.88 E3S-CT61Compact Long Distance, Photoelectric Sensor, IR Through-Beam 49.21’ (15m) NPN Z1106-ND 113.06 104.69 97.71 E3Z-T613Compact Long Distance, Photoelectric Sensor, IR Retroflective 13.12’ (4m) NPN Z1107-ND 90.03 83.37 77.81 E3Z-R61Compact Long Distance, Photoelectric Sensor, IR Diffused 3.94” (10cm) NPN Z1108-ND 80.62 74.66 69.68 E3Z-D61OMSCompact Long Distance, Photoelectric Sensor, IR Diffused 3.28’ (1m) NPN Z1109-ND 85.96 79.60 74.29 E3Z-D62Photo Sensor Connectors (e-CON) — RoHS CompliantDiscrete 3 Position Cable Plug - Free Hanging - Spring Clamp Type; Dim. A: 13.8mm OR1020-ND NEW! 4.75 4.28 3.80 XN2A-1370Discrete 4 Position Cable Plug - Free Hanging - Spring Clamp Type; Dim. A: 15.8mm Z2787-ND 5.73 5.16 4.58 XN2A-14304ADiscrete 4 Position Cable Plug - Free Hanging - Spring Clamp Type; Dim. A: 15.8mm OR1021-ND NEW! 4.84 4.36 3.88 XN2A-1470Discrete 5 Position Cable Plug - Free Hanging - Spring Clamp Type; Dim. A: 17.8mm OR1022-ND NEW! 5.90 5.31 4.72 XN2A-1570Discrete 6 Position Cable Plug - Free Hanging - Spring Clamp Type; Dim. A: 19.8mm OR1023-ND NEW! 7.15 6.44 5.72 XN2A-1670Discrete 8 Position Cable Plug - Free Hanging - Spring Clamp Type; Dim. A: 23.8mm OR1024-ND NEW! 7.77 7.00 6.22 XN2A-18704BDiscrete 4 Position Cable Socket - Free Hanging - Spring Clamp Type Z2788-ND 6.64 5.98 5.31 XN2B-1430Discrete 4 Position Cable Socket - Free Hanging - Spring Clamp Type OR1025-ND NEW! 5.61 5.05 4.49 XN2B-1470PCB 4 Position Socket, Single Socket Type for PCB Mount Z2789-ND 3.72 3.36 2.98 XN2D-1431PCB 3 Position Socket, Single Socket Type for PCB Mount OR1026-ND NEW! 3.09 2.78 2.47 XN2D-1371PCB 4 Position Socket, Single Socket Type for PCB Mount OR1027-ND NEW! 3.15 2.84 2.53 XN2D-1471—PCB 5 Position Socket, Single Socket Type for PCB Mount OR1028-ND NEW! 3.59 3.24 2.88 XN2D-1571PCB 6 Position Socket, Single Socket Type for PCB Mount OR1029-ND NEW! 3.95 3.56 3.16 XN2D-1671PCB 8 Position Socket, Single Socket Type for PCB Mount OR1030-ND NEW! 4.66 4.20 3.74 XN2D-1871PCB 4 Position Socket, Quad Socket Type for PCB Mount Z2790-ND 7.19 6.47 5.75 XN2D-4431PCB 4 Position Socket, Quad Socket Type for PCB Mount OR1031-ND NEW! 6.08 5.47 4.87 XN2D-4471XS5 Waterproof Connectors and Cables — RoHS CompliantConnector Kit Waterproof - 4 Conductor - Straight, Female OR794-ND 19.88 17.90 15.91 XS5C-D4S1Connector Kit Waterproof - 4 Conductor - Angled, Female OR795-ND 19.72 17.75 15.78 XS5C-D4S25Connector Kit Waterproof - 4 Conductor - Straight, Male OR792-ND 20.22 18.20 16.18 XS5G-D4S1Connector Kit Waterproof - 4 Conductor - Angled, Male OR793-ND 20.06 18.06 16.05 XS5G-D4S2Single Sided Cable Assembly - 4 Conductor - Male, 10m Z2796-ND 86.30 77.67 69.04 XS5H-D421-J80-ADouble Sided Cable Assembly - 4 Conductor - Male to Female, 1m Z2797-ND 41.02 36.92 32.82 XS5W-D421-C81-ANOptical Fiber OpticAmplifiersFeatures: Omron's E3X-NH/E3X-NA series of high performance Fiber OpticAmplifiers contain true 16 Bit processor which allows a very fine tuningsensitivity feature. Three separate teach modes for hassle free setup for differentapplications. Ideal for detecting very small objects or fine wires.The E3X series feature high performance, fast switching response times. Setmodeblinking output aids in alignment. Sensing distances vary with the typeof fiber used.E3X-NHOutputDigi-KeyPrice Each OmronDescriptionType Features Part No.1 25 50 Part No.High Precision General Purpose Fiber Optic Amplifier with Timer 12-24VDC NPN with Delay Off Z1112-ND 319.95 296.25 276.50 E3X-NH21High Precision General Purpose Fiber Optic Amplifier with Timer 12-24VDC PNP with Delay Off Z1113-ND 319.95 296.25 276.50 E3X-NH51High Precision General Purpose Fiber Optic Amplifier with Timer 12-24VDC PNP with Delay Off Z2941-ND NEW! 190.54 176.43 164.66 E3X-NA51 2MOperation Indicator (orange)Lit when output is ON.Incident Level Indicators(green, 8 levels)Lit depending on the incidentlight amount.UP/DOWN SelectorSelect UP for increasing thethreshold value.Select Down for decreasingthe threshold value.Operation Mode SelectorSwitchable between light-ONand dark-ON modes.E3X-NH11OUTLEVELSETTEACHADJL.ONRUND.ONThreshold Indicators(red, 13 levels)Indicates threshold level.SET ButtonFor teaching or for finethreshold adjustment.Mode SelectorSwitchable amongTEACH, ADJ, andRUN modes.176 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Fiber Cables for E3X AmplifiersFig. 1 Fig. 2Ø 2Ø 3Fig. 3 Fig. 4Ø 3Pre-made fiber optic cables that enable very confined mounting spaces and very fast target detection. Use Through-beam for long distance detection where thetransmit and receive cable are separated. Use Concentric Beam for depth detection or changing target distances where eliminating background objects is required.Periscope sensing heads (Side Beam) save space in right angle detecting. Most fiber cables offer IP67 protection and temperature ratings of -40°C ~ 70°C.Distance Terminal Digi-KeyPrice Each OmronFig. Description Maximum Type Part No.1 25 50 Part No.Diffuse Side Beam Fiber Optic Cable, 2mm diameter .6" (1.5cm) 2m Cable Z1118-ND 163.76 151.64 141.53 E32-D241 Diffuse Top Beam Fiber Optic Cable, Concentric Beam,2mm diameter.79" (2cm) 2m Cable Z1119-ND 84.67 78.40 73.18 E32-D32Diffuse Top Beam Fiber Optic Cable, Low Cost, M6 THD .79" (2cm) 2m Cable Z1120-ND 58.30 53.98 50.38 E32-DC200Diffuse Top Beam Fiber Optic Cable, Mini, M3 THD .71" (1.8cm) 2m Cable Z1121-ND 70.79 65.55 61.18 E32-DC200E2Diffuse Top Beam Fiber Optic Cable, Concentric Beam, M6 THD 3" (7.5cm) 2m Cable Z1122-ND 64.68 59.90 55.90 E32-CC200Cable Fiber Optic, Top Beam, High Temperature, M6 THD 1.8" (4.5cm) 2m Cable Z1187-ND 339.23 314.11 293.17 E32-D61Diffuse Top Beam Fiber Optic Cable, Through Beam, M3 THD 4.72" (12cm) 2m Cable Z1123-ND 59.98 55.54 51.84 E32-TC200A3Cable Fiber Optic, Through Beam, Low Cost, M4 THD 7.88" (20cm) 2m Cable Z1188-ND 56.63 52.44 48.95 E32-TC2004 Through Beam Fiber Optic Cable, Side Beam, 3mm diameter 4.72" (12cm) 2m Cable Z1124-ND 97.17 89.98 83.98 E32-T14LQTouch®QProx/QTouch Charge-Transfer (“QT”) General Description: These are self-contained digital capacitance ICs capableof detecting proximity, touch, and fluid level. With appropriate electrodes they can sense through sealed surfaces madeof glass, plastic, stone, ceramic, and wood, up to thicknesses of several inches. This capability coupled with an ability tocontinuously calibrate leads to new product concepts. They are designed specifically for control panels in home appliances,PC peripherals, machinery, security systems, lighting controls, or anywhere a mechanical switch or button may be found.Versions also available for fluid sensing.SupplyVoltage (V)SupplyCurrentOperatingTemp.Digi-KeyCut TapePrice Each Digi-KeyTape and Reel AtmelDescriptionMin. Max. (Typical) (°C) Package Part No.1 25 Part No.Qty. Pricing Part No.QT1010 QTouch 1-Key Sensor IC 1.8 5.5 219µA† -40 ~ 85 SOT23-6 AT42QT1010-TSHRCT-ND NEW! .87 .55 AT42QT1010-TSHRTR-ND NEW! 4,500 487.20/M AT42QT1010-TSHRQT1011 QTouch 1-Key Sensor IC 1.8 5.5 219µA† -40 ~ 85 SOT23-6 AT42QT1011-TSHRCT-ND NEW! .87 .55 AT42QT1011-TSHRTR-ND NEW! 4,500 487.20/M AT42QT1011-TSHRQT1012 Qtouch 1-Key Sensor IC 1.8 5.5 31.5µA‡ -40 ~ 85 SOT23-6 AT42QT1012-TSHRCT-ND NEW! .87 .55 AT42QT1012-TSHRTR-ND NEW! 4,500 487.20/M AT42QT1012-TSHRQT1040 QTouch 4-Key Sensor IC 1.8 5.5 10mA -40 ~ 85 20-VQFN AT42QT1040-MMHCT-ND NEW! 1.92 1.21 AT42QT1040-MMHTR-ND NEW! 6,000 1071.60/M AT42QT1040-MMHQT1060 QTouch 6-Key Sensor IC 1.8 5.5 10mA -40 ~ 85 28-MLF AT42QT1060-MMUCT-ND 3.20 2.02 AT42QT1060-MMUTR-ND 6,000 1788.00/M AT42QT1060-MMUQT110 QTouch 8-Pin Sensor IC 2.5 5.5 9.5 ~ 26µA -40 ~ 85 8-SOIC 427-1137-1-ND 3.23 2.03 — — — QT110A-ISGQT118 QProx 8-Pin Sensor IC 2.5 5.0 8 ~ 30µA -40 ~ 85 8-SOIC 427-1139-1-ND 3.23 2.03 — — — QT118HA-ISGQT161 QTouch 6-Key Sensor IC 3.0 5.5 2.5mA -40 ~ 105 28-SSOP 427-1112-1-ND 7.11 6.84 — — — QT161-ASGQT2160A QSlide 16-Key QMatrix Sensor IC 0.5 6.0 476 ~ 1127µA -40 ~ 85 28-MLF 427-1140-1-ND 3.20 2.02 427-1140-2-ND 6,000 1788.00/M AT42QT2160-MMUQT220 QTouch 2-Key Sensor IC 3.9 5.5 1.5mA -40 ~ 85 20-SSOP 427-1114-1-ND 5.09 4.52 — — — QT220-ISSGQT240 QTouch 4-Key Sensor IC 3.9 5.0 1.5mA -40 ~ 85 20-SSOP 427-1102-1-ND 5.10 4.76 — — — QT240-ISSGQT320 QTouch 2-Key Sensor IC 1.8 5.0 600µA -40 ~ 85 8-SOIC 427-1121-1-ND 5.58 2.52 — — — QT320-ISGQT401 QSlide Touch Slider IC 2.5 5.5 110 ~ 180µA -40 ~ 85 14-TSSOP 427-1104-1-ND 4.00 3.85 427-1104-2-ND 2,500 3696.00/M QT401-ISSGQT510 QWheel Touch Slider IC 2.5 5.5 110 ~ 180µA -40 ~ 85 14-SOIC 427-1105-1-ND 5.32 5.12 — — — QT510-ISGQT510 QWheel Touch Slider IC 2.5 5.5 110 ~ 180µA -40 ~ 85 14-TSSOP 427-1106-1-ND 5.32 5.12 427-1106-2-ND 2,500 4908.00/M QT510-ISSGQT1080 QTouch 8-Key Sensor IC 2.8 5.0 1.3 ~ 4.5mA -40 ~ 85 32-QFN 427-1090-1-ND 4.00 3.82 — — — QT1080-ISGQT1100 QTouch 10-Key Sensor IC 2.8 5.0 1.5 ~ 4.5mA -40 ~ 85 32-QFN 427-1094-1-ND 2.78 2.68 — — — QT1101-ISGQT60160 QMatrix 16-Key Touch IC 1.8 5.25 1.02mA -40 ~ 85 32-MLF 427-1125-1-ND 3.48 2.19 427-1125-2-ND 3,000 2184.01/M QT60160-ISGQT60168 QProx 16-Key QMatrix IC 3.0 5.25 10mA -40 ~ 105 32-TQFP 427-1107-ND§ 8.21 5.20 — — — QT60168-ASGQT60248 QProx 24-Key QMatrix IC 3.0 5.25 10mA -40 ~ 105 32-TQFP 427-1108-ND§ 10.34 6.56 — — — QT60248-ASGQT60326 QProx 32-Key QMatrix IC 4.75 5.25 15mA -40 ~ 105 44-TQFP 427-1109-ND§ 12.92 8.22 — — — QT60326-ASGQT60486 QProx 48-Key QMatrix IC 4.75 5.25 15mA -40 ~ 105 44-TQFP 427-1110-ND§ 15.50 9.78 — — — QT60486-ASG† Slow Mode ‡ Fast Mode § TrayEvaluation Boards and KitsDigi-KeyPrice AtmelDescriptionPart No.Each Part No.E3A Evaluation Board for QT300 427-1069-ND 80.99 E3AE100S Evaluation Board for QT100 427-1128-ND 12.17 E100SE240B Evaluation Board for QT240 427-1113-ND 19.76 E240BE1103 Evaluation Board for QT1103-ISG 427-1134-ND 40.56 E1103E6248 Evaluation Board for QT60248 24-Key QMatrix IC 427-1087-ND 192.40 E6248E6486 Evaluation Board for QT60486 48-Key QMatrix IC 427-1088-ND 197.60 E6486EVK1060A Evaluation Board for QT1060 EVK1060A-ND 85.80 EVK1060ADescriptionDigi-KeyPart No.PriceEachAtmelPart No.EVK2160A Evaluation Board for QT2160 427-1141-ND 85.80 EVK2160AEvaluation Board for ATtiny88 Library ATAVRTS2080B-ND NEW! 202.80 ATAVRTS2080BEvaluation Board for AT42QT1010A ATEVK1010A-ND NEW! 13.00 ATEVK1010AEvaluation Board for AT42QT1012A ATEVK1012A-ND NEW! 19.55 ATEVK1012AEvaluation Touch Kit for QT600 ATQT600-ND NEW! 206.96 ATQT600QTouch® Kit with ATmega88 ATAVRTS2080A-ND NEW! 202.80 ATAVRTS2080ADescription943 Series, Software Programmable, 200 ~ 2,000mmscan distance, M18 Plastic HousingUltrasonic SensorsThe 943 Series industrial sensors add to our product range of sensors. They have improved scanning ranges, remoteteach in of the switching or analog outputs, as well as new advanced features, such as window and hysteresis modes.Digi-KeyPrice EachHoneywellOutput Part No.1 10 25 Part No.1.2Hz NPN, 2 NO/NC 480-3007-ND 277.70 239.27 227.88 943-F4Y-2D-002-180ESwitchingFrequency250ms 0 ~ 10V 480-3008-ND 277.70 239.27 227.88 943-F4Y-2D-1C0-180EN®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)177177

NEW!SensorsFlex Sensor: Features: Angle Displacement Measurement HotPots:MagnetoPot:SoftPot:ThinPot:NResistance Dimensions (mm) Digi-KeyPrice EachSpectra SymbolFig. (Ω)A B Part No.1 10 25 Part No.Flex Sensor1 10K — — 905-1000-ND 12.95 11.66 11.34 FS-L-0095-103-STHotPots10K 28.36 12.50 905-1006-ND 13.14 11.83 11.50 HP-L-0012-103-1%-RH10K 28.36 12.50 905-1005-ND 10.95 9.86 9.59 HP-L-0012-103-3%-RH10K 40.86 25.00 905-1014-ND 16.74 15.07 14.65 HP-L-0025-103-1%-RH10K 40.86 25.00 905-1013-ND 13.95 12.56 12.21 HP-L-0025-103-3%-RH10K 65.86 50.00 905-1024-ND 20.34 18.31 17.80 HP-L-0050-103-1%-RH10K 65.86 50.00 905-1023-ND 16.95 15.26 14.84 HP-L-0050-103-3%-RH10K 115.86 100.00 905-1004-ND 22.74 20.47 19.90 HP-L-0100-103-1%-RH10K 115.86 100.00 905-1003-ND 18.95 17.06 16.59 HP-L-0100-103-3%-RH10K 165.86 150.00 905-1008-ND 23.94 21.55 20.95 HP-L-0150-103-1%-RH10K 165.86 150.00 905-1007-ND 19.95 17.96 17.46 HP-L-0150-103-3%-RH10K 185.86 170.00 905-1010-ND 25.14 22.63 22.00 HP-L-0170-103-1%-RH210K 185.86 170.00 905-1009-ND 20.95 18.86 18.34 HP-L-0170-103-3%-RH10K 215.86 200.00 905-1012-ND 26.34 23.71 23.05 HP-L-0200-103-1%-RH10K 215.86 200.00 905-1011-ND 21.95 19.76 19.21 HP-L-0200-103-3%-RH10K 315.86 300.00 905-1016-ND 31.14 28.03 27.25 HP-L-0300-103-1%-RH10K 315.86 300.00 905-1015-ND 25.95 23.36 22.71 HP-L-0300-103-3%-RH20K 415.86 400.00 905-1018-ND 33.54 30.19 29.35 HP-L-0400-203-1%-RH20K 415.86 400.00 905-1017-ND 27.95 25.16 24.46 HP-L-0400-203-3%-RH20K 515.86 500.00 905-1022-ND 37.14 33.43 32.50 HP-L-0500-203-1%-RH20K 515.86 500.00 905-1021-ND 30.95 27.86 27.09 HP-L-0500-203-3%-RH20K 765.86 750.00 905-1026-ND 53.94 48.55 47.20 HP-L-0750-203-1%-RH20K 765.86 750.00 905-1025-ND 44.95 40.46 39.34 HP-L-0750-203-3%-RH20K 1015.86 1000.00 905-1002-ND 71.94 64.75 62.95 HP-L-1000-203-1%-RH20K 1015.86 1000.00 905-1001-ND 59.95 53.96 52.46 HP-L-1000-203-3%-RH310K — — 905-1020-ND 22.74 20.47 19.90 HP-R-0046-353-103-3%-RH10K — — 905-1019-ND 18.95 17.06 16.59 HP-R-0046-353-103-5%-RHMagnetoPots10K 28.36 12.50 905-1029-ND 11.95 10.76 10.46 MP1-L-0012-103-5%-RH10K 40.86 25.00 905-1033-ND 14.95 13.46 13.09 MP1-L-0025-103-5%-RH10K 65.86 50.00 905-1038-ND 17.95 16.16 15.71 MP1-L-0050-103-5%-RH10K 115.86 100.00 905-1028-ND 19.95 17.96 17.46 MP1-L-0100-103-5%-RH10K 165.86 150.00 905-1030-ND 20.95 18.86 18.34 MP1-L-0150-103-5%-RH410K 185.86 170.00 905-1031-ND 21.95 19.76 19.21 MP1-L-0172-103-5%-RH10K 215.86 200.00 905-1032-ND 22.95 20.66 20.09 MP1-L-0200-103-5%-RH10K 315.86 300.00 905-1034-ND 26.95 24.26 23.59 MP1-L-0300-103-5%-RH20K 415.86 400.00 905-1035-ND 29.95 26.96 26.21 MP1-L-0400-203-5%-RH20K 515.86 500.00 905-1037-ND 32.95 29.66 28.84 MP1-L-0500-203-5%-RH20K 765.86 750.00 905-1039-ND 47.95 43.16 41.96 MP1-L-0750-203-5%-RH20K 1015.86 1000.00 905-1027-ND 62.95 56.65 55.09 MP1-L-1000-203-5%-RH5 10K — — 905-1036-ND 19.95 17.96 17.46 MP1-R-0046-353-103-5%-RHSoftPots10K 28.36 12.50 905-1045-ND 9.56 8.60 8.37 SP-L-0012-103-1%-RH10K 28.36 12.50 905-1044-ND 7.95 7.16 6.96 SP-L-0012-103-3%-RH10K 40.86 25.00 905-1053-ND 11.94 10.75 10.45 SP-L-0025-103-1%-RH10K 40.86 25.00 905-1052-ND 9.95 8.96 8.71 SP-L-0025-103-3%-RH10K 65.86 50.00 905-1063-ND 15.54 13.99 13.60 SP-L-0050-103-1%-RH10K 65.86 50.00 905-1062-ND 12.95 11.66 11.34 SP-L-0050-103-3%-RH10K 115.86 100.00 905-1043-ND 17.94 16.15 15.70 SP-L-0100-103-1%-RH10K 115.86 100.00 905-1042-ND 14.95 13.46 13.09 SP-L-0100-103-3%-RH10K 165.86 150.00 905-1047-ND 20.34 18.31 17.80 SP-L-0150-103-1%-RH10K 165.86 150.00 905-1046-ND 16.95 15.26 14.84 SP-L-0150-103-3%-RH10K 185.86 170.00 905-1049-ND 20.94 18.85 18.33 SP-L-0170-103-1%-RH210K 185.86 170.00 905-1048-ND 17.45 15.71 15.27 SP-L-0170-103-3%-RH10K 215.86 200.00 905-1051-ND 21.54 19.39 18.85 SP-L-0200-103-1%-RH10K 215.86 200.00 905-1050-ND 17.95 16.16 15.71 SP-L-0200-103-3%-RH10K 315.86 300.00 905-1055-ND 22.74 20.47 19.90 SP-L-0300-103-1%-RH10K 315.86 300.00 905-1054-ND 18.95 17.06 16.59 SP-L-0300-103-3%-RH20K 415.86 400.00 905-1057-ND 25.14 22.63 22.00 SP-L-0400-203-1%-RH20K 415.86 400.00 905-1056-ND 20.95 18.86 18.34 SP-L-0400-203-3%-RH20K 515.86 500.00 905-1061-ND 31.14 28.03 27.25 SP-L-0500-203-1%-RH20K 515.86 500.00 905-1060-ND 25.95 23.36 22.71 SP-L-0500-203-3%-RH20K 765.86 750.00 905-1065-ND 41.94 37.75 36.70 SP-L-0750-203-1%-RH20K 765.86 750.00 905-1064-ND 34.95 31.46 30.59 SP-L-0750-203-3%-RH20K 1015.86 1000.00 905-1041-ND 53.94 48.55 47.20 SP-L-1000-203-1%-RH20K 1015.86 1000.00 905-1040-ND 44.95 40.46 39.34 SP-L-1000-203-3%-RH310K — — 905-1059-ND 17.94 16.15 15.70 SP-R-0046-353-103-3%-RH10K — — 905-1058-ND 14.95 13.46 13.09 SP-R-0046-353-103-5%-RHThinPots10K 18.85 12.50 905-1071-ND 11.34 10.21 9.93 TSP-L-0012-103-1%-RH10K 18.85 12.50 905-1070-ND 9.45 8.51 8.27 TSP-L-0012-103-3%-RH10K 31.35 25.00 905-1079-ND 13.74 12.37 12.03 TSP-L-0025-103-1%-RH10K 31.35 25.00 905-1078-ND 11.45 10.31 10.02 TSP-L-0025-103-3%-RH10K 56.35 50.00 905-1089-ND 17.34 15.61 15.18 TSP-L-0050-103-1%-RH10K 56.35 50.00 905-1088-ND 14.45 13.01 12.65 TSP-L-0050-103-3%-RH10K 106.35 100.00 905-1069-ND 19.74 17.77 17.28 TSP-L-0100-103-1%-RH10K 106.35 100.00 905-1068-ND 16.45 14.81 14.40 TSP-L-0100-103-3%-RH10K 156.35 150.00 905-1073-ND 22.14 19.93 19.38 TSP-L-0150-103-1%-RH10K 156.35 150.00 905-1072-ND 18.45 16.61 16.15 TSP-L-0150-103-3%-RH10K 176.35 170.00 905-1075-ND 22.74 20.47 19.90 TSP-L-0170-103-1%-RH610K 176.35 170.00 905-1074-ND 18.95 17.06 16.59 TSP-L-0170-103-3%-RH10K 206.35 200.00 905-1077-ND 23.34 21.01 20.43 TSP-L-0200-103-1%-RH10K 206.35 200.00 905-1076-ND 19.45 17.51 17.02 TSP-L-0200-103-3%-RH10K 306.35 300.00 905-1081-ND 25.14 22.63 22.00 TSP-L-0300-103-1%-RH10K 306.35 300.00 905-1080-ND 20.95 18.86 18.34 TSP-L-0300-103-3%-RH20K 406.35 400.00 905-1085-ND 27.54 24.79 24.10 TSP-L-0400-203-1%-RH20K 406.35 400.00 905-1084-ND 22.95 20.66 20.09 TSP-L-0400-203-3%-RH20K 506.35 500.00 905-1087-ND 34.14 30.73 29.88 TSP-L-0500-203-1%-RH20K 506.35 500.00 905-1086-ND 28.45 25.61 24.90 TSP-L-0500-203-3%-RH20K 756.35 750.00 905-1091-ND 45.54 40.99 39.85 TSP-L-0750-203-1%-RH20K 756.35 750.00 905-1090-ND 37.95 34.16 33.21 TSP-L-0750-203-3%-RH20K 1006.35 1000.00 905-1067-ND 57.54 51.79 50.35 TSP-L-1000-203-1%-RH20K 1006.35 1000.00 905-1066-ND 47.95 43.16 41.96 TSP-L-1000-203-3%-RH710K — — 905-1083-ND 19.74 17.77 17.28 TSP-R-0036-351-103-3%-RH10K — — 905-1082-ND 16.45 14.81 14.40 TSP-R-0036-351-103-5%-RHAccessories8 Wiper Accessory 905-1092-ND 3.68 3.32 3.22 WP-M1-01-03-014-DIFig. 1Fig. 2Fig. 310.01Fig. 4Fig. 54.83Fig. 6Fig. 76.00Fig. 8112.24AAA95.25B7.11353° Active AngleØ45.57Center of TrackBB3.81353° Active AngleØ45.57Center of Track6.00351° Active AngleØ35.40Center of Track178 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

MEMS Accelerometers®ST offers a portfolio of MEMS-based sensors able to sense acceleration in two or three axis. The mechanicalpart of linear accelerometer sensor is based on a silicon inter-digitated structure done by fixed and movablefingers. To sense the acceleration in each axis, these structures are packaged in orthogonally groups and theacceleration in each direction is sensed by measuring the change of capacitance between fixed and movableNEW! MEMS Gyroscopeselements correlated to that axis. The changing of capacitance per axis is then translated into an analog ordigital output signal in the interface chip. The whole process of design and production of sensors is managed bySTMicroelectronics. This guarantees to the customer high volume production, long term security, high precisionand reliability since all the devices are tested by Standards and Proprietary Test Systems.Digi-KeyCut TapePrice EachDigi-KeyTape and Reel STMicroelectronicsAxis Acceleration Range (g) Package Part No.1 10 100 Part No.Qty. Pricing Part No.Digital2 ±2/±8 14-LGA 497-6071-1-ND 7.11 6.40 5.22 — — — LIS202DLTR3 ±2/±4/±8/±16 16-LGA 497-10610-ND† NEW! 4.54 3.65 3.33 — — — LIS3DH3 ±2/±4/±8/±16 16-LGA 497-10613-1-ND NEW! 4.86 3.97 3.57 497-10613-2-ND NEW! 4,000 2155.00/M LIS3DHTR3 ±2/±4/±8 14-LGA 497-10052-ND† NEW! 7.00 6.25 5.13 — — — LIS302DLH3 ±2/±6 28-QFPN 497-10189-1-ND NEW! 14.85 13.57 11.63 497-10189-2-ND NEW! 2,300 8234.00/M AIS326DQTR3 ±2/±4/±8 16-LGA 497-10397-1-ND NEW! 9.18 8.32 6.93 497-10397-2-ND NEW! 4,000 4505.00/M LIS331DLHTR3 ±2/±6 16-LGA 497-5531-ND† 11.44 10.40 8.84 — — — LIS3LV02DL3 ±2/±8 14-LGA 497-5911-1-ND 10.91 9.88 8.24 497-5911-2-ND 5,000 5145.00/M LIS302DLTR3 ±2/±6 28-QFPN 497-6346-1-ND 12.80 11.69 10.02 497-6346-2-ND 2,300 7095.00/M LIS3LV02DQ-TR3 ±2/±6 14-LGA 497-6969-1-ND 8.01 7.26 6.05 497-6969-2-ND 5,000 3780.00/M FC30TR3 ±2/±8 16-LGA 497-8327-1-ND 11.85 10.74 8.95 497-8327-2-ND 4,000 5815.00/M LIS331DLTR3 ±2/±6 16-LGA 497-8415-1-ND 11.96 10.92 9.36 497-8415-2-ND 4,000 6627.00/M LIS3LV02DLTR3 ±2/±8 16-LGA 497-8548-ND† 5.12 4.57 3.75 — — — LIS33DE3 ±2/±8 14-LGA 497-8549-ND† 5.12 4.57 3.75 — — — LIS35DE3 ±2/±4/±8 16-LGA 497-8830-ND† NEW! 6.83 6.15 5.06 — — — LIS331DLF3 ±2/±4/±8 16-LGA 497-8831-ND† NEW! 8.66 7.80 6.42 — — — LIS331DLH3 ±2/±4/±8 16-LGA 497-8832-ND† NEW! 7.88 7.09 5.83 — — — LIS331DLM3 ±6/±12/±24 16-LGA 497-10134-ND† NEW! 6.93 6.24 5.13 — — — LIS331HH3 ±2/±6 Module 497-9085-ND‡ NEW! 88.00 — — — — — SPMB250-A1Analog1 ±2/±6 28-LGA 497-8230-ND† 13.18 11.98 10.19 — — — LISY300AL1 ±2/±8 16-LGA 497-8938-ND† NEW! 8.82 7.94 6.53 — — — LY530ALH1 ±2/±8 16-LGA 497-8959-1-ND NEW! 9.35 8.47 7.06 497-8959-2-ND NEW! 3,000 4586.00/M LY5150ALHTR1 ±2/±8 16-LGA 497-8960-1-ND NEW! 9.35 8.47 7.06 497-5960-2-ND NEW! 3,000 4586.00/M LY550ALHTR1 ±2/±8 16-LGA 497-8961-1-ND NEW! 9.35 8.47 7.06 497-8961-2-ND NEW! 3,000 4586.00/M LY530ALHTR1 ±2/±8 16-LGA 497-8962-1-ND NEW! 9.35 8.47 7.06 497-8962-2-ND NEW! 3,000 4586.00/M LY510ALHTR1 ±2/±8 16-LGA 497-8963-1-ND NEW! 9.35 8.47 7.06 497-8963-2-ND NEW! 3,000 4586.00/M LY503ALHTR2 ±2 16-LGA 497-6343-ND† 4.59 4.10 3.36 — — — LIS244AL2 ±2/±6 16-LGA 497-6344-1-ND 8.51 7.72 6.43 497-6344-2-ND 3,000 4177.00/M LIS244ALHTR2 ±2/±8 16-LGA 497-8964-1-ND NEW! 9.35 8.47 7.06 497-8964-2-ND NEW! 3,000 4586.00/M LPR5150ALTR2 ±2/±8 16-LGA 497-8965-1-ND NEW! 9.35 8.47 7.06 497-8965-2-ND NEW! 3,000 4586.00/M LPR550ALTR2 ±2/±8 16-LGA 497-8966-1-ND NEW! 9.35 8.47 7.06 497-8966-2-ND NEW! 3,000 4586.00/M LPR530ALTR2 ±2/±8 16-LGA 497-8967-1-ND NEW! 9.35 8.47 7.06 497-8967-2-ND NEW! 3,000 4586.00/M LPR510ALTR2 ±2/±8 16-LGA 497-8968-1-ND NEW! 9.35 8.47 7.06 497-8968-2-ND NEW! 3,000 4586.00/M LPR503ALTR2 ±2/±8 16-LGA 497-8969-1-ND NEW! 9.35 8.47 7.06 497-8969-2-ND NEW! 3,000 4586.00/M LPY5150ALTR2 ±2/±8 16-LGA 497-8970-1-ND NEW! 9.35 8.47 7.06 497-8970-2-ND NEW! 3,000 4586.00/M LPY550ALTR2 ±2/±8 16-LGA 497-8971-1-ND NEW! 9.35 8.47 7.06 497-8971-2-ND NEW! 3,000 4586.00/M LPY530ALTR2 ±2/±8 16-LGA 497-8972-1-ND NEW! 9.35 8.47 7.06 497-8972-2-ND NEW! 3,000 4586.00/M LPY510ALTR2 ±2/±8 16-LGA 497-8973-1-ND NEW! 9.35 8.47 7.06 497-8973-2-ND NEW! 3,000 4586.00/M LPY503ALTR3 ±2 14-LGA 497-5910-1-ND 6.08 5.51 4.60 497-5910-2-ND 5,000 3304.00/M LIS302ALBTR3 ±2 14-LGA 497-6340-ND† 6.83 6.15 5.06 — — — LIS302SG3 ±3.5 16-LGA 497-6341-ND† 5.12 4.57 3.75 — — — LIS344AL3 ±2/±6 16-LGA 497-6345-1-ND 9.35 8.47 7.06 497-6345-2-ND 3,000 4586.00/M LIS344ALHTR3 ±2 16-LGA 497-8333-1-ND 11.85 10.74 8.95 497-8333-2-ND 4,000 5815.00/M LIS331ALTR3 ±2 14-LGA 497-8979-1-ND NEW! 5.67 5.11 4.16 497-8979-2-ND NEW! 5,000 2410.00/M LIS352AXTR3 ±2/±4/±8 28-LGA 497-10474-ND† NEW! 10.50 9.45 7.77 — — — LSM303DLH† Tray ‡ BulkRangeDegrees per Second Sensing Axes PackageDigi-KeyPart No.1Price Each10 1000.67mV ±1500 Pitch, Roll 28-LGA 497-10137-ND 10.03 9.03 7.43 LPR4150AL0.67mV ±1500 Pitch, Yaw 28-LGA 497-10142-ND 10.03 9.03 7.43 LPY4150AL0.67mV ±2000 Yaw 10-LGA 497-10146-ND 10.03 9.03 7.43 LY3200ALH1.1mV ±1000 Yaw 10-LGA 497-10145-ND 10.03 9.03 7.43 LY3100ALH2mV ±500 Pitch, Roll 28-LGA 497-10139-ND 10.03 9.03 7.43 LPR450AL2mV ±500 Pitch, Yaw 28-LGA 497-10144-ND 10.03 9.03 7.43 LPY450AL3.33mV ±300 Pitch, Roll 28-LGA 497-10138-ND 10.03 9.03 7.43 LPR430AL3.33mV ±300 Pitch, Yaw 28-LGA 497-10143-ND 10.03 9.03 7.43 LPY430AL3.752mV ±300 Yaw 10-LGA 497-10147-ND 10.03 9.03 7.43 LY330ALH10mV ±100 Pitch, Roll 28-LGA 497-10136-ND 10.03 9.03 7.43 LPR410AL10mV ±100 Pitch, Yaw 28-LGA 497-10141-ND 10.03 9.03 7.43 LPY410AL33.3mV ±30 Pitch, Roll 28-LGA 497-10135-ND 10.03 9.03 7.43 LPR403AL33.3mV ±30 Pitch, Yaw 28-LGA 497-10140-ND 10.03 9.03 7.43 LPY403ALSensitivityDegrees per SecondSTMicroelectronicsPart No.N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)179179

The Micro Electro Mechanical System is a new technology that exploits the mechanical properties of siliconto integrate mechanical structures sensitive to vibration, displacement, acceleration and rotation. This newtechnology opened the door to a new generation of compact, cost effective and sensitive sensors. Whileconventional microelectronics development focuses on incremental improvements of a well-establishedtechnology, MEMS challenge the way designers work, compelling them to think three dimensionally and toLIS302DL Evaluation BoardsTools and Evaluation BoardsMEMS 3-Axis ±2g/±8g. Digital Output Low Power Linear Accelerometer Evaluation Boards based onLIS302DL (EK302DL).497-6229-ND (STEVAL-MKI006V1)....................................................................... $66.15497-6342-ND (STEVAL-MKI013V1)....................................................................... $40.95acquire a unique blend of multi-disciplinary skills combining electrical, semiconductor and mechanical design.Features: Strategic Cost Low Power Consumption Low size and weight High volumes High reproducibility High thermal stability by design High integration with standard IC devices to build Multi Chip Modules(MCM) or smart sensors.NEW! STEVAL-MKI043V1 Evaluation BoardThe STEVAL-MKI043V1 can be plugged into a standard DIL 24 socket. The adapter provides the completeLPR510AL pinout and comes ready-to-use with the required decoupling capacitors on the VDD powersupply line.497-10363-ND (STEVAL-MKI043V1) .....................................................................$39.38NLIS3LV02DQ Evaluation BoardMEMS 3-Axis ±2g/±6g. Digital Output Low Voltage Linear Accelerometer Evaluation Board based onLIS3LV02DQ.497-6249-ND (STEVAL-MKI004V1).......................................................................$66.15LIS3LV02DL Evaluation BoardMEMS 3-Axis ±2g/±6g. Digital Output Low Voltage Linear Accelerometer. Evaluation Board based onLIS3LV02DL (EK3LV02DL).497-6226-ND (STEVAL-MKI005V1).......................................................................$66.15LIS331AL Evaluation BoardThe STEVEL-MKI021V1 MEMS 3-Axis 2g Analog Output Evaluation Board based on NANO AccelerometerLIS331AL.497-8205-ND (STEVAL-MKI021V1).......................................................................$58.28NEW! STEVAL-MKI033V1 Evaluation BoardThe STEVAL-MKI033V1 is a demonstration kit designed to provide the user with a complete, ready-to-useplatform for demonstration of the LPR503AL product family. The STEVAL-MKI033V1 demo board has beendesigned for use in two different working modes; Analog working mode: the microcontroller on the board isdisabled and the analog outputs of the device are available to the user on a dedicated connector. This is thedefault working mode when the power supply is applied either through the USB connector or through thesupply connector. Digital working mode: the microcontroller on the board is enabled and it allows the user todigitally acquire the output signals of the device, to see them on the PC through the dedicated GUI, and tocontrol the control pins of the device.497-10367-ND (STEVAL-MKI033V1) ....................................................................$106.13NEW! STEVAL-MKI034V1 Evaluation BoardThe STEVAL-MKI034V1 is a demonstration kit designed to provide the user with a complete, ready-to-useplatform for demonstration of the LPR510AL product family. The STEVAL-MKI034V1 demo board has beendesigned for use in two different working modes; Analog working mode: the microcontroller on the board isdisabled and the analog outputs of the device are available to the user on a dedicated connector. This is thedefault working mode when the power supply is applied either through the USB connector or through thesupply connector. Digital working mode: the microcontroller on the board is enabled and it allows the user todigitally acquire the output signals of the device, to see them on the PC through the dedicated GUI, and tocontrol the control pins of the device.497-10366-ND (STEVAL-MKI034V1) ................................................................... $101.08NEW! STEVAL-MKI035V1 Evaluation BoardMEMS analog output demonstration board for the LPR530AL, ±300/s and ±1200/s, dual-axis pitch and rollgyroscope.497-9088-ND (STEVAL-MKI035V1)..................................................................... $106.13NEW! STEVAL-MKI037V1 Evaluation BoardThe STEVAL-MKI037V1 is a demonstration kit designed to provide the user with a complete, ready-to-useplatform for demonstration of the LPY530AL product family. The STEVAL-MKI037V1 demo board has beendesigned for use in two different working modes; Analog working mode: the microcontroller on the board isdisabled and the analog outputs of the device are available to the user on a dedicated connector. This is thedefault working mode when the power supply is applied either through the USB connector or through thesupply connector. Digital working mode: the microcontroller on the board is enabled and it allows the user todigitally acquire the output signals of the device, to see them on the PC through the dedicated GUI, and tocontrol the control pins of the device.497-10365-ND (STEVAL-MKI037V1) ................................................................... $106.13NEW! STEVAL-MKI038V1 Evaluation BoardAcceleration Modules and Development Tools STM8S207R6 BRD LIS331DLH MEMS.497-10046-ND (STEVAL-MKI038V1) ................................................................... $106.13NEW! STEVAL-MKI042V1 Evaluation BoardThe STEVAL-MKI042V1 can be plugged into a standard DIL 24 socket. The adapter provides the completeLPR503AL pinout and comes ready-to-use with the required decoupling capacitors on the VDD powersupply line.497-10364-ND (STEVAL-MKI042V1) .....................................................................$39.38NEW! STEVAL-MKI044V1 Evaluation BoardAcceleration Modules and Development Tools LPR530AL Dual-Axis DIL24 Adapter Board.497-9089-ND (STEVAL-MKI044V1).......................................................................$33.08NEW! STEVAL-MKI045V1 Evaluation BoardThe STEVAL-MKI045V1 can be plugged into a standard DIL 24 socket. The adapter provides the completeLPY503AL pinout and comes ready-to-use with the required decoupling capacitors on the VDD powersupply line.497-10362-ND (STEVAL-MKI045V1) .....................................................................$39.38NEW! STEVAL-MKI047V1 Evaluation BoardAcceleration Modules and Development Tools LPR550AL Dual-Axis GYRO Sensor Board.497-10047-ND (STEVAL-MKI047V1) .....................................................................$33.08NEW! STEVAL-MKI050V1 Evaluation BoardAcceleration Modules and Development Tools LPR530AL Adapter BRD Plug into DIL 20.497-9090-ND (STEVAL-MKI050V1).......................................................................$33.08NEW! STEVAL-MKI062V1 Evaluation BoardiNEMO: inertial module demonstration board based on MEMS and STM32. The STEVAL-MKI062V1(iNEMO) is a unique platform designed to demonstrate the performance of ST’s most advancedinertial, temperature and pressure sensors. It provides a complete set of inertial measurements from anaccelerometer, magnetometer and gyroscopes, as well as data from pressure and temperature sensorsto measure environmental conditions. iNEMO, a 9 DOF (degrees of freedom) inertial system to sensemotion using a combination of sensors, represents a complete hardware platform for a variety of applicationincluding virtual reality, augmented reality, platform stabilization, human machine interfaces and robotics.To aid in user development and analysis, the STEVAL-MKI062V1 demonstration kit includes a PC GUIfor sensor output display and a firmware library to facilitate the use of the demonstration board features. Acomplete set of communication interfaces (USB, wireless, COM), small 4.5cm x 5cm size, and several powersupply options make iNEMO a flexible, open evaluation platform.497-10048-ND (STEVAL-MKI062V1) ................................................................... $262.50NEW! STEVAL-MKI062V2 Evaluation BoardThe STEVAL-MKI062V2 is the second generation of the iNEMO module family. It combines accelerometers,gyroscopes and magnetometers with pressure and temperature sensors to provide 3-axis sensingof linear, angular and magnetic motion, complemented with temperature and barometer/altitude readings,representing the new ST 10-DOF (degrees of freedom) platform. Based on the pervious version, theSTEVAL-MKI062V2 represents another step forward in miniaturization, integrating five ST sensors: a 2-axisroll-and-pitch gyroscope, a 1-axis yaw gyroscope, a 6-axis geomagnetic module, a pressure sensor and atemperature sensor.497-10508-ND (STEVAL-MKI062V2) ................................................................... $262.50NEW! STEVAL-MKI089V1 Evaluation BoardThe STEVAL-MKI089V1 can be plugged into a standard DIL 24 socket. The adapter provides the completeLIS331DLH pinout and comes ready-to-use with the required decoupling capacitors on the VDD powersupply line.497-10493-ND (STEVAL-MKI089V1) .....................................................................$33.08NEW! STEVAL-MKI090V1 Evaluation BoardThe STEVAL-MKI090V1 can be plugged into a standard DIL 24 socket. The adapter provides the completeLIS331DLF pinout and comes ready-to-use with the required decoupling capacitors on the VDD powersupply line.497-10492-ND (STEVAL-MKI090V1) .....................................................................$33.08NEW! STEVAL-MKI091V1 Evaluation BoardThe STEVAL-MKI091V1 can be plugged into a standard DIL 24 socket. The adapter provides the completeLIS331DLM pinout and comes ready-to-use with the required decoupling capacitors on the VDD powersupply line.497-10491-ND (STEVAL-MKI091V1) .....................................................................$33.08(Continued)®For Digi-Reel ® information, please see page 73.180 (US2010)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Tools and Evaluation Boards (Cont.)NEW! STM8L1526-EVAL Evaluation BoardThe STM8L1526-EVAL evaluation board is a complete demonstration and development platform forSTMicroelectronic’s STM8 core-based STM8L152C6 microcontroller which supports I2C, SPI, USART,12-bit ADC, 12-bit DAC, LCD driver, 2KB internal SRAM, 32KB EEPROM and SWIM debugging. The fullrange of hardware features on the board helps you evaluate all peripherals (motor control, USART, audioDAC, LCD, IR LED, IrDA, SPI Flash, MicroSD Card, temperature sensor and EEPROM… etc.) and developyour own applications. Extension headers facilitate easy connection of a daughterboard or wrapping boardfor specific applications. An ST-LINK is integrated on the board as the embedded in-circuit debugger andprogrammer for the STM8 MCU.497-10590-ND (STM8L1526-EVAL)..................................................................... $198.75STEVAL-IFS012V9 Demonstration BoardMulti device temperature sensor demonstrator based on ST72F65x. Demonstration board features:Evaluation system to demonstrate features of ST’s new temperature sensor (digital and analog) family, instandalone mode and USB interfaced Graphical User Interface (GUI) mode.Features: Measures and displays temperature I2C / SMBus / SPI/ADC communication compatible Displays RTC time and date and its featured through GUI Easy to use GUI, interfaced through USB. GUIcan be used to configure the sensors and RTC Temperature monitoring, storing in NAND and plotting ongraph is supported497-8923-ND (STEVAL-IFS012V9) Card for 8-TSSOP Package ....................................... $28.35LIS344ALH Demonstration KitThe STEVAL-MKI014V1 is a demonstration kit designed to provide the user with a complete, ready-to-useplatform for the evaluation of the LIS344ALH.497-8231-ND (STEVAL-MKI014V1).......................................................................$61.43LIS344AL Demonstration KitThe STEVAL-MKI016V1 is a demonstration kit designed to provide the user with a complete, ready-to-useplatform for the evaluation of the LIS344AL.The LIS344AL is a low-power 3-axis linear capacitive accelerometer that includes a sensing element andan IC interface capable of taking information from the sensing element and providing an analog signal to anexternal application.497-8200-ND (STEVAL-MKI016V1).......................................................................$61.43LIS302SG Demonstration KitThe STEVAL-MKI019V1 is a demonstration kit designed to provide the user with a complete, ready-to-useplatform for the evaluation of the LIS302SG.The LIS302SG is a low-power 3-axis linear capacitive accelerometer that includes a sensing element and anIC interface capable of taking information from the sensing element and providing and analog signal to anexternal application.497-8203-ND (STEVAL-MKI019V1).......................................................................$61.43LIS331DL Demonstration KitThe STEVAL-MKI024V1 is a demonstration kit designed to provide the user with a complete, ready-to-useplatform for demonstration of the LIS331DL. The LIS331DL is a low-power 3-axis linear accelerometer withdigital output. The device includes a sensing element and an IC interface capable of translating informationfrom the sensing element into a measured signal that can be used for external applications. In addition tothe MEMS sensor, the demonstration board utilizes an ST7-USB microcontroller which functions as a bridgebetween the sensor and the PC, on which it is possible to use the graphical user interface downloadable tothe website or dedicated software routines for customized applications.497-8719-ND (STEVAL-MKI024V1)....................................................................... $82.39LISY300AL Demonstration KitThe LISY300AL is a low-power single-axis yaw rate gyroscope. It includes a sensing element and an ICinterface able to provide the measured angular rate to the external world through an analog output voltage.497-8504-ND (STEVAL-MKI023V1)....................................................................... $59.85NEW! STEVAL-MKI022V1 Demonstration KitThe STEVAL-MKI022V1 is a demonstration kit designed to provide the user with a complete, ready-to-useplatform for demonstration of the LIS331DLH. The LIS331DLH is a low-power 3-axis linear accelerometerwith digital output. The device includes a sensing element and an IC interface capable of translatinginformation from the sensing element into a measured signal that can be used for external applications.497-9053-ND (STEVAL-MKI022V1).......................................................................$82.39Adapter Boards497-6227-ND (STEVAL-MKI009V1) LIS3LV02DL Adapter Board DIL 20 socket .......................$29.93497-8199-ND (STEVAL-MKI015V1) Adapter Board for the LIS344ALH ................................$40.95497-8201-ND (STEVAL-MKI017V1) Adapter Board for the LIS344AL ..................................$40.95497-8202-ND (STEVAL-MKI018V1) Adapter Board for the LIS244AL ..................................$40.95497-8204-ND (STEVAL-MKI020V1) Adapter Board for the LIS302SG .................................$40.95iMEMS ® Accelerometers and Gyroscopes®As a MEMS pioneer, Analog Devices has held a leadership position as a large volume supplier of integratedMEMS accelerometers and gyroscopes. The ADXL products are the foundation for Analog Devices accelerometerfamily. Available in low-g or high-g sensing ranges iMEMS (Integrated Micro Electro Mechanical System)accelerometers are used to measure position, motion, tilt, shock, and vibration in a broad array of applications.Analog Devices offer a broad accelerometer portfolio, including high performance, low power consumptionand small size.GSupplyDigi-KeyPrice EachTape and Reel§DescriptionRange Axes Sensitivity Bandwidth Voltage Current Package Part No.1 25 100 Qty. PricingSingle Axis AccelerometersLow Power, High Performance ±18g X, Y 100mV/g 0.5Hz ~ 2.5kHz 5 0.7mA 8-CLCC ADW22035Z-ND 13.64 12.29 10.90 — —Low Power, High Performance ±70g X 24.2mV/g 22kHz 3.3 ~ 5 2.5mA 8-CLCC ADXL001-70BEZ-ND 49.42 — — — —Low Power, High Performance ±70g X 24.2mV/g 22kHz 3.3 ~ 5 2.5mA 8-CLCC ADXL001-70BEZ-R7CT-ND‡ 55.19 51.51 47.83 250 11726.81Low Power, High Precision ±1.5g X 1000mV/g 10Hz 3 ~ 6 0.7mA 8-CLCC ADXL103CE-ND 13.64 12.29 10.90 — —Low Power, ADXL78 ±35g X 55mV/g 400Hz 5 1.3mA 8-CLCC AD22279-A-R2CT-ND‡ 11.80 10.62 9.42 250 2256.75Low Power, ADXL78 ±50g X 38mV/g 400Hz 5 1.3mA 8-CLCC AD22280-R2CT-ND‡ 11.80 10.62 9.42 250 2256.75Low Power, ADXL78 ±70g X 27mV/g 400Hz 5 1.3mA 8-CLCC AD22281-R2CT-ND‡ 11.80 10.62 9.42 250 2256.75Low Power, ADXL193 ±120g X 18mV/g 400Hz 5 1.5mA 8-CLCC AD22282-A-R2CT-ND‡ 12.98 11.69 10.37 250 2483.06Low Power, ADXL193 ±250g X 8mV/g 400Hz 5 1.5mA 8-CLCC AD22283-B-R2CT-ND‡ 12.98 11.69 10.37 250 2483.06Dual Axis AccelerometersLow Power, High Performance ±18g X, Y 100mV/g 0.5Hz ~ 2.5kHz 5 0.7mA 8-CLCC ADW22037Z-ND 16.41 14.78 13.11 — —Low Power, High Precision ±1.5g X, Y 1000mV/g 10Hz 3 ~ 6 0.7mA 8-CLCC ADXL203CE-ND 16.41 14.78 13.11 — —Low Power, Single IC Chip ±1.7g X, Y 620mV/g 2.5kHz 3 ~ 6 0.5mA 8-CLCC ADXL204CE-ND 19.82 18.50 17.18 — —Low Power, Digital Out ±1.2g X, Y 30%/g 60Hz 3 ~ 6 0.7mA 8-CLCC ADXL213AE-ND 16.41 14.78 13.11 — —Low Power, Small, Thin ±5g X, Y 174mV/g 2.5kHz 2.4 ~ 5.25 0.45mA 16-LFCSP ADXL320JCP-ND 13.54 12.20 10.82 — —Low Power ±18g X, Y 57mV/g 50Hz 2.4 ~ 6 0.49mA 16-LFCSP ADXL321JCP-ND 13.54 12.20 10.82 — —Low Power ±2g X, Y 420mV/g 60Hz 2.4 ~ 6 0.45mA 16-LFCSP ADXL322JCP-ND 13.54 12.20 10.82 — —Low Power, Small ±3g X, Y 300mV/g 1600Hz 1.8 ~ 5.25 320µA 16-LFCSP ADXL323KCPZ-ND NEW! 12.15 10.94 9.70 — —Low Power, Small ±3g X, Y 300mV/g 1600Hz 1.8 ~ 5.25 320µA 16-LFCSP ADXL323KCPZ-RLCT-ND‡ 12.15 10.94 9.70 — —Low Power, ADXL278 ±35g X, Y 55mV/g 400Hz 5 2.2mA 8-CLCC AD22284-A-R2CT-ND‡ 15.95 14.89 13.82 250 3388.31Low Power, ADXL278 ±50g X, Y 38mV/g 400Hz 5 2.2mA 8-CLCC AD22285-R2CT-ND‡ 15.95 14.89 13.82 250 3388.31Low Power, ADXL278 ±70g X, Y 27mV/g 400Hz 5 2.2mA 8-CLCC AD22286-R2CT-ND‡ 15.95 14.89 13.82 250 3388.31Triple Axis AccelerometersLow Power, Small ±3g X, Y, Z 300mV/g 1.6kHz(X,Y) 550Hz(Z) 2 ~ 3.6 0.2mA 16-LFCSP ADXL330KCPZ-RLCT-ND‡ 12.15 10.94 9.70 4,000 8857.35/MLow Power, Small ±3g X, Y, Z 300mV/g 0.5 ~ 1600Hz (X, Y) 0.5 ~ 550Hz (Z) 1.8 ~ 3.6 350µA 16-LFCSP ADXL335BCPZ-RL7CT-ND‡ 5.42 4.34 3.38 1,000 3072.75Low Power, Small ±5g X, Y, Z 174mV/g 0.5 ~ 1600Hz (X, Y) 0.5 ~ 550Hz (Z) 1.8 ~ 3.6 350µA 16-LFCSP ADXL325BCPZ-RL7CT-ND‡ NEW! 4.82 3.86 3.26 1,000 3012.50Low Power — X, Y, Z — Variable/Selectable 2 ~ 3.6 40µA 14-LGA ADXL345BCCZ-RL7CT-ND‡ 6.16 4.93 4.16 1,500 3850.00/MLow Power — X, Y, Z — Variable/Selectable 2 ~ 3.6 40µA 14-LGA ADXL345BCCZ-RLCT-ND‡ NEW! 6.16 4.93 4.16 5,000 3757.60/MLow Power — X, Y, Z — Variable/Selectable 1.7 ~ 2.75 23µA 16-LGA ADXL346ACCZ-RL7CT-ND‡ NEW! 6.08 4.87 4.11 1,500 3800.00/M(Continued)N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2010)(TZS111.US)181181

iMEMS® Accelerometers and Gyroscopes (Cont.)®DescriptionSingle Chip Yaw Rate GyroRange(°/s) Axes Sensitivity Bandwidth Voltage§ For Tape and Reel part number, change CT-ND to TR-ND. ‡ Cut TapeSupplyCurrent PackageGyroscopesDigi-KeyPart No.Price EachTape and Reel§1 25 100 Qty. Pricing±300 Z 6mV/°/s 2500Hz 4.75 ~ 5.25 3.5mA 32-CBGA ADXRS620WBBGZA-ND NEW! 31.47 29.38 27.28 — —±300 Z 6mV/°/s 2500Hz 4.75 ~ 5.25 3.5mA 32-CBGA ADXRS610BBGZ-RLCT-ND‡ 31.47 29.38 27.28 — —±250 Z 7mV/°/s 2500Hz 4.75 ~ 5.25 3.5mA 32-CBGA ADXRS622WBBGZA-ND NEW! 31.47 29.38 27.28 — —±150 Z 12.5 mV/°/s 3000Hz 4.75 ~ 5.25 3.5mA 32-CBGA ADXRS623WBBGZ-ND NEW! 31.47 29.38 27.28 — —±150 Z 12.5mV/°/s 3000Hz 4.75 ~ 5.25 5.0mA 32-CBGA ADXRS613BBGZ-RLCT-ND‡ 31.47 29.38 27.28 500 13112.50±50 Z 25mV/°/s 1000Hz 4.75 ~ 5.25 3.5mA 32-CBGA ADXRS624WBBGZ-ND NEW! 31.47 29.38 27.28 — —±250 Z 7mV/°/s 2500Hz 4.75 ~ 5.25 3.5mA 32-CBGA ADXRS652BBGZ-ND NEW! 25.55 23.85 22.14 — —iMEMS ® Evaluation BoardsDescriptionDigi-KeyPart No.PriceEachEvaluation Board for ADXL203 ADXL203EB-ND 32.96Evaluation Board for ADXL213 ADXL213EB-ND 32.96Evaluation Board for ADXL322 ADXL322EB-ND NEW! 32.59Evaluation Board for ADXL335 EVAL-ADXL335Z-ND◆ 37.50Evaluation Board for ADXL345-M EVAL-ADXL345Z-M-ND◆ 311.25Evaluation Board for ADXL345 EVAL-ADXL345Z-ND◆ 37.50Satellite Board for ADXL345Z-S EVAL-ADXL345Z-S-ND◆ 186.25Evaluation Board for ADXRS610BBGZ EVAL-ADXRS610Z-ND◆ 55.03DescriptionDigi-KeyPart No.PriceEachEvaluation Board for ADXRS612BBGZ EVAL-ADXRS612Z-ND◆ 55.03Evaluation Board for ADXRS613BBGZ EVAL-ADXRS613Z-ND◆ 55.03Evaluation Board for ADXRS614BBGZ EVAL-ADXRS614Z-ND◆ 55.03Evaluation Board for ADXRS622 EVAL-ADXRS622Z-ND◆ 62.50Evaluation Board for ADXL001-500 EVAL-ADXL001-500Z-ND◆ 82.54Evaluation Board for ADXL001-70 EVAL-ADXL001-70Z-ND◆ 82.54Evaluation Board for ADXL326 EVAL-ADXL326Z-ND◆ NEW! 37.50◆ RoHS CompliantDescriptionSensorCoreRange(°/s) Sensitivity OutputBandwidth(Maximum)OutputTypeSensitivityNoiseDensity(°/s / √Hz rms)TemperatureSensorTemperatureSensorVoltageSupply(V)SupplyVoltage(V)SupplyCurrent(mA)TemperatureRange(°C)Digi-KeyPart No.Price Each1 25 100ADIS Gyroscope±80 0.0122 °/s /LSB SPI 1000Hz 0.04 Yes 4.75 ~ 5.25 6.5 -40 ~ 105 ADIS16060BCCZ-ND 62.09 57.95 53.81±80 0.098 °/s /LSB SPI 40Hz 0.05 Yes 4.75 ~ 5.25 7 -40 ~ 85 ADIS16080ACCZ-ND 54.02 50.42 46.82±250 0.000042 °/s /LSB SPI 320Hz 0.0125 Yes 4.75 ~ 5.25 73 -40 ~ 85 ADIS16130AMLZ-ND 869.00 811.07 753.13±20 ~ ±80 0.004 °/s /LSB SPI 50Hz 0.05 Yes 4.75 ~ 5.25 18 -40 ~ 85 ADIS16251ACCZ-ND 74.76 69.78 64.80±75 ~ ±300 0.05 °/s /LSB SPI 330Hz 0.038 Yes 4.75 ~ 5.25 42 -40 ~ 85 ADIS16300AMLZ-ND 119.40 111.44 103.48±75 ~ ±300 0.018 °/s /LSB SPI 350Hz 0.05 Yes 4.75 ~ 5.25 35 -40 ~ 85 ADIS16350AMLZ-ND 516.12 481.72 447.31±75 ~ ±300 0.018 °/s /LSB SPI 350Hz 0.05 Yes 4.75 ~ 5.25 33 -40 ~ 85 ADIS16354AMLZ-ND 604.17 563.90 523.62±350 0.0125 °/s /LSB SPI 330Hz 0.05 Yes 4.75 ~ 5.25 49 -40 ~ 85 ADIS16360BMLZ-ND 492.87 — —±350 0.05 °/s /LSB SPI 330Hz 0.044 Yes 4.75 ~ 5.25 49 -40 ~ 105 ADIS16362BMLZ-ND NEW! 654.53 610.89 567.26±350 0.0125 °/s /LSB SPI 330Hz 0.05 Yes 4.75 ~ 5.25 49 -40 ~ 105 ADIS16364BMLZ-ND 577.02 — —±75 ~ ±300 0.0125 °/s /LSB SPI 350Hz 0.038 Yes 4.75 ~ 5.25 49 -40 ~ 85 ADIS16365BMLZ-ND 635.54 593.17 550.80±350 0.0125 °/s /LSB SPI 330Hz 0.05 Yes 4.75 ~ 5.25 70 -40 ~ 105 ADIS16400BMLZ-ND NEW! 552.00 — —±350 0.0125 °/s /LSB SPI 330Hz 0.05 Yes 4.75 ~ 5.25 70 -40 ~ 105 ADIS16405BMLZ-ND 707.54 — —SupplyCurrent(mA)TemperatureRange(°C)Package(mm/type)Digi-KeyPart No.Price Each1 25 100ADIS Accelerometers±1.7g Accelerometer Accelerometer SPI 820 LSB/g Yes 3 ~ 5.25 1.5 (typical) -40 ~ 125 12-LGA ADIS16003CCCZ-ND 28.73 26.81 24.90±5g Accelerometer Accelerometer SPI 256 LSB/g Yes 3 ~ 5.25 1.5 (typical) -40 ~ 125 12-LGA ADIS16006CCCZ-ND 28.73 26.81 24.90Programmable, ±5g2 LSB/Accelerometer/Ind. SPIAccelerometermg(10LSB/°)Yes 3 ~ 3.6 11 (.5 in Standby) -40 ~ 125 16-LGA ADIS16201CCCZ-ND 38.24 35.69 33.14Programmable, Single AxisInclinometer360° Inclinometer SPI 0.025°/LSB Yes 3 ~ 3.6 11 (.5 in Standby) -40 ~ 125 16-LGA ADIS16203CCCZ-ND 38.24 35.69 33.14Programmable, High-g Accelerometer/ImpactSPI ±70g; ±37g Yes 3 ~ 3.6 12 (.5 in Standby) -40 ~ 105 16-LGA ADIS16204BCCZ-ND 32.96 30.76 28.57Sensor/RecorderDigital Dual AxisAccelerometer/InclinometerDigital Triple-AxisAccelerometeriSensor Intelligent SensorsiSensor ADIS Accelerometers/Gyros enhance ADXL/ADXRS iMEMS accelerometers with additionalperformance and functionality, such as embedded signal processing and control. These inertial sensorsSensorAccelerometer/Inclinometeraddress special requirements such as calibration/tuning, application specific interfaces, digital I/O, wirelesslinks, embedded intelligence and programmability, power management, and analog signal conditioning.SPI 0.025°/LSB Yes 3 ~ 3.6 14 -40 ~ 125 16-LGA ADIS16209CCCZ-ND 63.59 59.35 55.11Accelerometer SPI 51.4mg/LSB Yes 2.4 ~ 3.6 1 -40 ~ 85 112-PBGA ADIS16240ABCZ-ND NEW! 51.35 47.93 44.50NiSensor Evaluation BoardsDescriptionDigi-KeyPart No.PriceEachEvaluation Board for the ADIS16003, ±1.7g. Dual AxisAccelerometerADIS16003/PCBZ-ND◆ 103.31Evaluation Board for ADIS16006/PCB ADIS16006/PCBZ-ND◆ 103.31Evaluation Board for ADIS16060 ADIS16060/PCBZ-ND◆ 103.31Evaluation Board for ADIS16080 ADIS16080/PCBZ-ND◆ 103.31Evaluation Board for the ADIS16100, ±300°/Sec. YawRate GyroADIS16100/PCB-ND 103.31Evaluation Board for the ADIS16201, Program., Dual-Axis Inclinometer/AccelerometerADIS16201/PCBZ-ND◆ 103.31Evaluation Board for the ADIS16203 ADIS16203/PCBZ-ND◆ 103.31Evaluation Board for ADIS16204/PCB ADIS16204/PCBZ-ND◆ 103.31Evaluation Board for ADIS16209 ADIS16209/PCBZ-ND◆ 103.31Evaluation Board for ADIS16240 ADIS16240/PCBZ-ND◆ NEW! 103.31Evaluation Board for ADIS16251 ADIS16251/PCBZ-ND◆ 103.31®For Digi-Reel ® information, please see page 73.DescriptionDigi-KeyPart No.PriceEachEvaluation Board for Tri Gyro Accelerometer ADIS16350/PCBZ-ND◆ 527.44Evaluation Board for ADIS16354 ADIS16354/PCBZ-ND◆ 616.31Evaluation Board for ADIS16355 ADIS16355/PCBZ-ND◆ 674.25Evaluation Board for ADIS16360 ADIS16360/PCBZ-ND◆ 576.38Evaluation Board for ADIS16364 ADIS16364/PCBZ-ND◆ 663.38Evaluation Board Interface for ADIS16365 ADIS16365/PCBZ-ND◆ 739.50Evaluation Board for ADIS16400 ADIS16400/PCBZ-ND◆ NEW! 641.63Evaluation Board for ADIS16405 ADIS16405/PCBZ-ND◆ 810.19iSensor PC Evaluation System ADISEVALZ-ND◆ 320.81iSensor PC-USB Evaluation System ADISUSBZ-ND◆ 281.25◆ RoHS Compliant182 (US2010)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

ACH-01 AccelerometersThe ACH-01 Accelerometer is a robust, general purpose, linear single axis accelerometer featuring bufferedelectronic output.Specifications: ACH-01-03 with Shielded CableAmplifier Box17.7817.1513.08Dimensions in mm1.27 6.20DescriptionDigi-KeyPart No. 1Price Each10 100MeasurementSpecialtiesPart No.ACH-01-03 Sensor Accelerometer with40” Single Coax Cable and Female ConnectorMSP1001-ND 45.00 40.00 35.50 1-1001220-0ACH-01-04 Sensor Accelerometer with Wires MSP1002-ND 37.50 33.75 30.00 1-1001497-0For use with ACH-01-03 and ACH-01-04Characteristics: Gain:Power Supply:Supply Current:Input Interface:Output Impedance:Output Connector: BNCDigi-KeyPrice Each Measurement SpecialtiesDescriptionPart No.1 10 100 Part No.IB-ACH-01 — Amplifier Box MSP1003-ND 250.00 225.00 202.50 0-1003058-0Basic Design KitThis kit demonstrates the use of MSI piezo film sensors as microphones, speakers, switches and acousticpick ups. All components and film samples in the kit can be used for experimentation.Kit Includes: Seven sen sor elements One piezo cable One PCB for ACH-04-08 Application/instruction specifications Technical manualDigi-KeyPrice Measurement SpecialtiesDescriptionPart No.Each Part No.Basic Design Kit MSP1010-ND 200.00 0-1004308-0LDT Vibration SensorsTypically, a 0.005” (125µm) polyester layer is laminated to a 28µm piezo film element. When used in a“bend ing” mode, laminated film elements develop much higher voltage output when flexed than non-laminatedelements. The piezo film is off the neutral axis in the laminate, and is strained more when flexed.LDT0-028K High SensitivityStretch DirectionMiniSenseProtective CoatingPiezo FilmPolyester LaminateConnector7.005.002.54PCB12.802.40256.0014.705.101310.20Cap. Digi-KeyPrice EachMeasurementSpecialtiesDescription(nF) Part No.1 10 100 Part No.LDT0-028K, with Solder Tabs .500 MSP1006-ND 2.40 2.00 1.80 1002794-0LDTM-028K, with Mass and Solder Tabs .420 MSP1007-ND 2.85 2.38 2.14 0-1005447-1MiniSense 100 (Horizontal) — MSP6914-ND 4.00 3.38 2.75 1005939-1MiniSense 100 (Vertical) — MSP6915-ND 4.00 3.38 2.75 1005940-15.10LDTM1310.202514.703.5Dimensions in mmAlso available with a mass (M) whichprovides higher output (mv/g) forhigher sensitivity appli cations.Pressure SensorsThe SCP1000 performs almost complete data processing on-chip. The communication between the SCP1000 and its hostmicro-controller (µC) is based on a serial interface, an interrupt line and specialized pins used to trigger special functions. Twodifferent serial interfaces are available: SPI and TWI (TWI is very similar to I2C bus). The appropriate communication interface ispre-programmed in the factory.The SCP1000 pressure demonstrator is designed to give a quick access and understanding on the performance and capabilitiesof the SCP1000 pressure component. The demo kit supports SCP1000-D01 and SCP1000-D11 sensors.SCP1000 Demo Kit Includes: SCP1000-D01 sensor soldered on chip carrier PCB, USB interface card inside the demo box,USB cable, CD-ROM with documentation, drivers and GUI software running on PC®0.420.803.20 0.50.55PIN #14.091.60.420.520.350.732.605.110.500.10Dimensions in mmØ6.10Ø5.25 0.651.704.60 0.70DescriptionSupplyVoltageAverageSupplyCurrent (µA)MeasuringRange(kPa)TemperatureRangePackageDigi-KeyPart No.Cut TapePrice Each Digi-KeyTape and Reel1 10 25 Part No.Qty. PricingVTIPart No.Absolute Pressure Sensor 2.4 ~ 3.3V 25 30 ~ 120 -20°C ~ 70°C SPI Interface 551-1046-1-ND 29.73 28.32 26.97 551-1046-2-ND 100 2446.20 SCP1000-D01Absolute Pressure Sensor 2.4 ~ 3.3V 25 30 ~ 120 -20°C ~ 70°C I2C Interface 551-1043-1-ND 29.73 28.32 26.97 — — — SCP1000-D11SCP1000-D11 on PCB 2.4 ~ 3.3V 25 30 ~ 120 -20°C ~ 70°C I2C Interface 551-1044-ND† 57.08 56.06 55.04 — — — SCP1000 PCB3† BulkAccelerometersand Inclinometers®Dim. in mmVTI Technologies is a forerunner in motion andpressure sensors and the world’s leading designerand producer of acceleration sensors.VTI develops and produces silicon basedcapacitive sensors with unique 3D-MEMS(MicroElectroMechanical System) technology,with application areas in acceleration, inclination,shock, vibration and pressure measurement.Fig. 1Fig. 2 0.55 (18x)Fig. 3 .50Fig. 40.43 (18x)12 11 10 9 8 77.0 SQ.0.101.80LEFT VIEW2.03 (4x)1.93 (4x)0.808X 0.80 = 6.40FRONT VIEW5.000.69 (14x)0.76 (14x)6.243.37.001 2 3 4 5 68.600.701.600.502.002.00SupplyVoltage(V)CurrentConsumption(Typ.)MeasuringRangeFrequencyResponse(Hz)TemperatureRange(°C)Digi-KeyCut Tape Price Each Tape and Reel† VTIFig. DescriptionSensitivityPackage Part No.1 10 25 Qty. Pricing Part No.InclinometersSingle Output, 1g 4.75 ~ 5.25 2.5mA ±90° 2V/g 8 ~ 28 -55 ~ 125 8-DIL SMD 551-1005-1-ND 49.16 46.82 44.60 100 4044.60 SCA61T-FA1H1GSingle Output, 0.5g 4.75 ~ 5.25 2.5mA ±30° 4V/g 8 ~ 28 -55 ~ 125 8-DIL SMD 551-1004-1-ND 49.16 46.82 44.60 100 4044.60 SCA61T-FAHH1G—Dual Output, 0.5g 4.75 ~ 5.25 4mA ±30° 4V/g 8 ~ 28 -55 ~ 125 12-DIL SMD 551-1002-1-ND 64.62 61.55 58.62 100 5316.80 SCA100T-D01Dual Output, 1g 4.75 ~ 5.25 4mA ±90° 2V/g 8 ~ 28 -55 ~ 125 12-DIL SMD 551-1003-1-ND 64.62 61.55 58.62 100 5316.80 SCA100T-D02Single Output, 0.26g 4.75 ~ 5.25 4mA ±15° 16V/g 8 ~ 28 -55 ~ 125 12-DIL SMD 551-1000-1-ND 64.62 61.55 58.62 100 5316.80 SCA103T-D04Single Output, 0.5g 4.75 ~ 5.25 4mA ±30° 8V/g 8 ~ 28 -55 ~ 125 12-DIL SMD 551-1001-1-ND 64.62 61.55 58.62 100 5316.80 SCA103T-D05† For Tape and Reel part number, change 1-ND to 2-ND. ‡ Bulk(Continued)N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)183183

Accelerometers and Inclinometers (Cont.)®SupplyVoltage(V)CurrentConsumption(Typ.)† For Tape and Reel part number, change 1-ND to 2-ND. ‡ BulkMeasuringRangeFrequencyResponse(Hz)TemperatureRange(°C)Digi-KeyCut Tape Price Each Tape and Reel† VTIFig. DescriptionSensitivityPackage Part No.1 10 25 Qty. Pricing Part No.AccelerometersDual Output 4.75 ~ 5.25 5mA ±1.7g 1.2V/g 50±30 -55 ~ 125 12-DIL SMD 551-1008-1-ND 55.31 52.68 50.17 100 4550.00 SCA1020-D02Dual Output 4.75 ~ 5.25 4.5mA ±4g .55V/g 115±55 -55 ~ 125 12-DIL SMD 551-1025-1-ND 89.21 84.97 80.92 100 7339.70 SCA1000-N1000070—Single Output 4.75 ~ 5.25 2mA ±0.5g 4V/g 18±10 -55 ~ 125 8-DIL SMD 551-1009-1-ND 45.36 43.10 40.94 — — SCA610-CAHH1GSingle Output 4.75 ~ 5.25 2mA ±1g 2V/g 18±10 -55 ~ 125 8-DIL SMD 551-1010-1-ND 49.16 46.82 44.60 100 3000.20 SCA610-CA1H1GSingle Output 4.75 ~ 5.25 2mA ±1.7g 1.2V/g 50±30 -55 ~ 125 8-DIL SMD 551-1012-1-ND 39.62 37.73 35.94 100 3260.40 SCA610-C28H1ASingle Output 4.75 ~ 5.25 2mA ±1.7g 1.2V/g 50±30 -55 ~ 125 8-DIL SMD 551-1013-1-ND 47.57 45.31 43.15 100 2935.40 SCA620-CF8H1AStand Alone Inclinometers and AccelerometersDual Axis 7 ~ 35 5mA ±90° 2V/g, 70mV/°≥4V/g 18 -40 ~ 85 Module 551-1017-ND‡ 159.82 130.47 110.90 — — SCA121T-D031 Dual Axis 4.75 ~ 5.25 5mA ±90° 2V/g, 70mV/°≥4V/g 18 -40 ~ 85 Module 551-1029-ND‡ 159.82 130.47 110.90 — — SCA121T-D05Dual Axis 7 ~ 35 5mA ±30° 2V/g, 70mV/°≥4V/g 18 -40 ~ 85 Module 551-1018-ND‡ 159.82 130.47 110.90 — — SCA121T-D07Triple Axis Digital 2.35 ~ 3.6 480µA ±2g 1333/g 45 -40 ~ 85 SPI Interface 551-1033-1-ND 29.73 28.32 26.97 100 2446.20 SCA3000-D01Triple Axis Digital 2.35 ~ 3.6 650µA ±2g 1333/g 45 -40 ~ 85 I2C Interface 551-1035-1-ND 29.73 28.32 26.97 — — SCA3000-D022Triple Axis Digital 2.35 ~ 3.6 120µA ±3g 1000/g 35 -40 ~ 85 SPI Interface 551-1037-1-ND 29.73 28.32 26.97 — — SCA3000-E01Triple Axis Digital 2.35 ~ 3.6 200µA ±3g 1000/g 40 -40 ~ 85 I2C Interface 551-1039-1-ND 29.73 28.32 26.97 — — SCA3000-E02Triple Axis Digital 2.35 ~ 3.6 120µA ±18g 160/g Selectable -40 ~ 85 SPI Interface 551-1048-1-ND 23.33 21.70 20.07 100 1633.00 SCA3000-E05Triple Axis Digital 2.35 ~ 3.6 120µA ±18g 160/g Selectable -40 ~ 85 SPI Interface 551-1050-ND‡ 57.08 56.06 55.04 — — SCA3000-E05 PWB— Dual Axis Subassembly 7 ~ 35 4.5mA ±10° 200mV/° 3 -40 ~ 85 PC Board 551-1020-ND‡ 105.70 94.59 81.54 — — SCL1700-D01Single Z-Axis Digital 3.3 5mA ±2g 900/g 80 -40 ~ 125 SPI Interface 551-1051-1-ND 39.27 36.00 32.73 100 2617.70 SCA820-D04Single Y-Axis Digital 3.3 5mA ±2g 900/g 80 -40 ~ 125 SPI Interface 551-1052-1-ND 37.56 34.44 31.31 100 2504.30 SCA830-D06Single Y-Axis Digital 3.3 5mA ±1g 32000/g 6.25 -40 ~ 125 SPI Interface 551-1053-1-ND 53.20 48.77 44.34 100 3546.60 SCA830-D073 Dual XY-Axis Digital 3.3 3mA ±2g 900/g 55 -40 ~ 125 SPI Interface 551-1054-1-ND 49.82 45.67 41.52 100 3321.40 SCA2100-D02Triple XYZ-Axis Digital 3.3 3mA ±2g 900/g 55 -40 ~ 125 SPI Interface 551-1055-1-ND 61.22 56.12 51.02 100 4081.40 SCA3100-D04Triple XYZ-Axis Digital 3.3 3mA ±6g 650/g 55 -40 ~ 125 SPI Interface 551-1067-1-ND NEW! 61.24 56.14 51.03 100 4082.40 SCA3100-D07Triple XYZ-Axis Digital 3 ~ 3.6 150µA ±2g 1000/g 35 -40 ~ 105 SPI Interface 551-1073-1-ND NEW! 16.88 15.48 14.07 100 1125.36 SCA3060-D01SCA820-D04 on PCB 3.3 — ±2g 900/g 80 -40 ~ 125 SPI Interface 551-1057-ND‡ 85.62 78.49 74.21 — — SCA820-D04 PCBSCA830-D06 on PCB 3.3 — ±2g 900/g 80 -40 ~ 125 SPI Interface 551-1058-ND‡ 85.62 78.49 74.21 — — SCA830-D06 PCBSCA830-D07 on PCB 3.3 — ±1g 32000/g 6.25 -40 ~ 125 SPI Interface 551-1059-ND‡ 85.62 78.49 74.21 — — SCA830-D07 PCB—SCA2100-D02 on PCB 3.3 — ±2g 900/g 55 -40 ~ 125 SPI Interface 551-1060-ND‡ 85.62 78.49 74.21 — — SCA2100-D02 PCBSCA3100-D04 on PCB 3.3 — ±2g 900/g 55 -40 ~ 125 SPI Interface 551-1061-ND‡ 85.62 78.49 74.21 — — SCA3100-D04 PCBSCA3100 Demo w/D04 on PCB — — — — — — Demo Kit 551-1056-ND‡ 570.78 — — — — SCA3100 DEMO KITSCA3060-D01 on PWB 3 ~ 3.6 — ±2g 1000/g — -40 ~ 105 SPI Interface 551-1075-ND‡ NEW! 96.45 78.74 66.93 — — SCA3060-D01 PWBSCA3060 Demo w/D01 on PWB — — — — — — Demo Kit 551-1074-ND‡ NEW! 675.17 551.16 468.49 — — SCA3060-D01DEMO4Triple Axis Digital 1.7 ~ 3.6 70µA ±2g, ±8g 56/g, 14/g 50 -40 ~ 85 SPI/ I2C Interface 551-1062-1-ND 8.90 8.46 8.04 100 649.10 CMA3000-D01Triple Axis Analog Output 1.7 ~ 3.6 180µA ±2g, ±8g 6/g, 24/g 50 -40 ~ 85 SPI/ I2C Interface 551-1063-1-ND 8.90 8.46 8.04 100 649.10 CMA3000-A01Board PWB Accelerometer3-Axis SPI/I2C1.7 ~ 3.6 180µA ±2g, ±8g 6/g, 24/g 50 -40 ~ 85 SPI/ I2C Interface 551-1065-ND‡ 52.92 — — — — CMA3000-A01 PWB—Board PWB Accelerometer3-Axis SPI/I2C1.7 ~ 3.6 70µA ±2g, ±8g 56/g, 14/g 50 -40 ~ 85 SPI/ I2C Interface 551-1064-ND‡ 52.92 — — — — CMA3000-D01 PWBKit Demo AccelerometerCMA3000-D011.7 ~ 3.6 70µA ±2g, ±8g 56/g, 14/g 50 -40 ~ 85 Demo Kit 551-1066-ND‡ 151.20 — — — — CMA3000-D01DEMONEW! Combined Gyroscope and 3-Axis Accelerometer0.60Dimensions in mmDescription:MEMS technology. The housing is suitable for SMD mounting and the component is compatible with ROHS and ELV directives. Features:-Applications:®8.5018.654.53Supply Voltage Current Measuring Sensitivity Frequency Temp. Digi-KeyCut Tape Price Each Tape and Reel† VTIDescription(V) Consumption (Typ.) Range (g) (LSB/g) Response (Hz) Range (°C) Part No.1 10 25 Qty. Pricing Part No.Triple Axis Digital - SPI 5 3 2 1800 50 -40 ~ 125 551-1068-1-ND 162.43 154.31 146.59 50 6963.25 SCC1300-D02Triple Axis Digital - SPI 5 3 6 650 50 -40 ~ 125 551-1069-1-ND 162.43 154.31 146.59 50 6963.25 SCC1300-D04SCC1300-D02 on PWB 5 3 2 1800 50 -40 ~ 125 551-1071-ND‡ 244.62 — — — — SCC1300-D02 PWBSCC1300-D04 on PWB 5 3 6 650 50 -40 ~ 125 551-1072-ND‡ 244.62 — — — — SCC1300-D04 PWBSCC1300 Demo w/D04 on PWB 5 3 6 650 50 -40 ~ 125 551-1070-ND‡ 611.55 — — — — SCC1300-D04DEMO† For Tape and Reel part number, change 1-ND to 2-ND. ‡ BulkAcceleration and Pressure Sensors®NBMA020/BMA150: The BMA020/BMA150 is a triaxial, digital low-g acceleration sensor with digital interfaces,aiming for low-power consumer market applications. Features:power consumptionBMA140/BMA145: The BMA140/145 is an analog, triaxial low-g acceleration sensor for consumer market applications,available in a super-flat land grid array (LGA) package with a very small footprint and height of merely0.9mm. Features:BMD040: The BMD040 analog output, absolute pressure sensor comprises a piezo-resistive 3MPa pressuresensor element and a circuitry for signal amplification and temperature compensation. Features:-BMP085: The BMP085 is a high-precision, ultra-low power barometric pressure sensor for use in advancedDigi-KeyCut Tape Price Each Digi-KeyTape and Reel Bosch SensortecFig. Axis Range Output Part No.1 10 100 Part No. Qty. Pricing Part No.x/y/z ±2g/±4g/±8g Digital 828-1000-1-ND◆ 5.16 4.30 3.62 828-1000-2-ND◆ 5,000 2408.00/M BMA0201x/y/z ±2g/±4g/±8g Digital 828-1003-1-ND◆ 4.86 4.05 3.41 828-1003-2-ND◆ 5,000 2520.00/M BMA150x/y/z ±4g Analog 828-1001-1-ND◆ 4.83 4.03 3.39 828-1001-2-ND◆ 5,000 2254.00/M BMA140x/y/z ±2g/±4g/± 8g/±16g Digital 828-1015-1-ND◆ NEW! 3.24 2.70 2.27 828-1015-2-ND◆ 5,000 1512.00/M BMA1202 x/y/z ±4g Analog 828-1002-1-ND◆ 5.31 4.43 3.72 828-1002-2-ND◆ 5,000 2478.00/M BMA1453 — 300 ~ 1,100hPa Digital 828-1005-1-ND◆ 8.79 7.33 6.16 828-1005-2-ND◆ 3,000 4248.50/M BMP0854 — 60 ~ 115kPa Analog 828-1006-1-ND◆ 8.97 7.48 6.28 — — — SMD0855 x/y/z ±2g/±4g/± 8g/±16g Digital 828-1016-1-ND◆ NEW! 3.09 2.58 2.17 828-1016-2-ND◆ 10,000 1369.90/M BMA220— — 50 ~ 3,000kPa Analog 828-1004-ND◆† 24.38 20.70 17.48 — — — BMD040-3MPDevelopment Board for Sensor ICs 828-1007-ND 530.00 — — — — — 0330.DB0.022BMA020 Daughtercard for Development Kit 828-1008-ND 79.50 — — — — — BMA020-SHUTLBMA150 Daughtercard for Development Kit 828-1009-ND 79.50 — — — — — BMA150-SHUTLBMA140 Daughtercard for Development Kit 828-1010-ND 79.50 — — — — — BMA140-SHUTLBMA145 Daughtercard for Development Kit 828-1011-ND 79.50 — — — — — BMA145-SHUTLBMP085 Daughtercard for Development Kit 828-1012-ND 79.50 — — — — — BMP085-SHUTLBMA120 Daughtercard For Development Kit 828-1017-ND◆† NEW! 79.50 67.50 57.00 — — — BMA120-SHUTLBMA220 Daughtercard For Development Kit 828-1018-ND◆† NEW! 79.50 67.50 57.00 — — — BMA220-SHUTL◆ RoHS Compliant † Bulkmobile applications. Features:SMD085: The SMD085 is a high precision barometric pressure sensor. It consists of an integrated sensingelement, a logic control unit, a temperature compensation circuit, as well as an offset compensation circuit.Features:functionBMA120: The BMA120 is a triaxial, low-g acceleration sensor with digital interfaces, aiming for low-powerconsumer market applications. The BMA120 senses tilt, motion, shock and vibration in cell phones, handhelds,computer peripherals, man-machine interfaces, virtual reality features and game controllers.BMA220: The BMA220 allows measurement of accelerations in 3 perpendicular axes and thus senses tilt,motion, shock and vibration in cell phones, handhelds, computer peripherals, man-machine interfaces, virtualreality features and game controllers.Fig. 1 Fig. 20.250.5Fig. 3 Fig. 4 Fig. 5 NEW!0.603.005.003.001.276.98.40.65Dimensions in mm4.00 4.000.250.250.5130.51.03Max.2.00 2.00®For Digi-Reel ® information, please see page 73.184 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Discrete NTC Thermistors®Bead Thermistors: Features:to electric power Specifications:Glass Probe Thermistors: Features:10s (in still air) maximumGlass Encapsulated Chip Therm istors: Features:packageUni-Curve® Series: Features: Disc Thermistors: Features:AxialAdjacent0.51Ø0.369.59.5 2.29Ø1.14MiniStandard31.550.812.712.72.541.5DO-351.1251.80 Ø.020 TinnedCopper CladSteelUni-Curve1.5Ø.008 Lead (2)Tinned Copper Alloy.095DiscD1.5Resistance@25°C(Ω)Tolerance@25°C(%)HoneywellSensingPart No.Resistance@25°C(Ω)Tolerance@25°C(%)Digi-KeyPrice EachPart No.1 10 25Small Bead ThermistorsAxial2K ±25.0 480-3113-ND 9.10 6.66 6.23 111-202CAK-H012K ±25.0 480-3114-ND 11.74 8.99 8.49 111-202CAK-H02Large Bead ThermistorsAdjacent1K ±20.0 480-3115-ND 11.69 8.55 8.01 112-102EAJ-B012K ±20.0 480-3118-ND 11.58 8.87 8.38 112-202EAJ-B0110K ±20.0 480-3116-ND 11.67 8.93 8.44 112-103FAJ-B01100K ±20.0 480-3117-ND 11.79 9.02 8.52 112-104KAJ-B01Glass Probe ThermistorsMiniDim. ResistancanceToler-1K ±20.0 480-3119-ND 11.37 8.32 7.79 120-102EAJ-Q01DDigi-Key2K ±20.0 480-3120-ND 24.70 19.65 18.42 120-202EAD-Q02 (Inch) @25°C (Ω) @25°C (%) Part No.2K ±20.0 480-3121-ND 12.43 9.52 8.99 120-202EAG-Q01Standard1K ±20.0 480-3122-ND 21.15 16.83 15.77 121-102EAJ-Q012K ±20.0 480-3125-ND 12.11 8.86 8.30 121-202EAJ-Q0110K ±20.0 480-3123-ND 12.09 8.85 8.28 121-103FAJ-Q01100K ±20.0 480-3124-ND 13.41 10.27 9.70 121-104KAH-Q01Glass Encapsulated ThermistorsDO-351K ±10.0 480-3126-ND 1.03 .64 .58 135-102DAG-J0110K ±10.0 480-3127-ND 1.26 .78 .70 135-103FAD-J0110K ±5.0 480-3128-ND 1.22 .72 .60 135-103FAF-J0110K ±10.0 480-3129-ND 1.09 .64 .54 135-103FAG-J0110K ±10.0 480-3130-ND 1.26 .74 .62 135-103FBX-J01Size10K ±5.0 480-3131-ND 1.02 .64 .57 135-103LAF-J01Code10K ±10.0 480-3132-ND 1.02 .64 .57 135-103LAG-J0150K ±10.0 480-3140-ND 1.02 .64 .57 135-503LAG-J01100K ±1.0 480-3133-ND 1.08 .67 .60 135-104LAC-J010805100K ±5.0 480-3134-ND 1.11 .65 .55 135-104LAF-J01100K ±10.0 480-3135-ND 1.11 .65 .55 135-104LAG-J01100K ±5.0 480-3136-ND 1.11 .65 .55 135-104LBF-J01100K ±10.0 480-3137-ND 1.08 .67 .60 135-104QAD-J011206200K ±10.0 480-3139-ND 1.27 .75 .63 135-204QAG-J011M ±10.0 480-3138-ND 1.26 .74 .62 135-105QAG-J01 ‡ For Tape and Reel Part Number Change 1-ND to 2-ND.HoneywellSensingPart No.Digi-KeyPart No.1Price Each10 25Uni-Curve ® Series500 ±0.2 480-3163-ND 4.07 2.79 2.51 192-501DET-A011K ±1.0 480-3157-ND 4.09 2.80 2.52 192-102DEW-A012.2K ±0.2 480-3160-ND 3.88 2.66 2.39 192-222LET-A013K ±0.2 480-3161-ND 3.60 2.47 2.22 192-302LET-A015K ±0.2 480-3164-ND 3.75 2.57 2.31 192-502LET-A0110K ±0.2 480-3158-ND 4.38 3.00 2.70 192-103LET-A0130K ±1.0 480-3162-ND 3.75 2.57 2.31 192-303KET-A0150K ±0.2 480-3165-ND 3.62 2.48 2.23 192-503QET-A01100K ±0.2 480-3159-ND 3.75 2.57 2.31 192-104QET-A01HoneywellSensingPart No.Price Each1 10 25Disc Thermistors0.1 500 ±10.0 480-3143-ND 2.66 1.73 1.58 140-501FAG-RB10.1 1K ±10.0 480-3141-ND 2.66 1.73 1.58 140-102FAG-RB10.1 5K ±10.0 480-3144-ND 2.61 1.70 1.54 140-502LAG-RB10.1 10K ±10.0 480-3142-ND 2.66 1.73 1.58 140-103LAG-RB10.2 100 ±10.0 480-3145-ND 2.94 1.91 1.74 143-101FAG-RC10.2 200 ±10.0 480-3147-ND 2.94 1.91 1.74 143-201FAG-RC10.2 1K ±10.0 480-3146-ND 3.27 2.13 1.93 143-102LAG-RC10.2 3K ±10.0 480-3148-ND 2.94 1.91 1.74 143-302LAG-RC10.2 30K ±10.0 480-3149-ND 2.94 1.91 1.74 143-303QAG-RC1ResistanceToleranceDigi-KeyCut TapePrice EachT&R‡PricingHoneywellSensing@25° (Ω) @25° (%) Part No.1 10 25 3,000 Part No.SMD Thermistors5K ±5.0 480-3152-1-ND 1.25 .73 .62 338.00/M 173-502GAF-30110K ±2.0 480-3150-1-ND 1.72 1.07 .96 561.00/M 173-103LAD-30147K ±5.0 480-3151-1-ND 1.46 .91 .81 476.00/M 173-473LAF-3015K ±5.0 480-3155-1-ND 1.77 1.10 .98 575.00/M 175-502GAF-30110K ±3.0 480-3153-1-ND 1.94 1.20 1.08 632.00/M 175-103LAE-30150K ±10.0 480-3156-1-ND 1.98 1.23 1.10 646.00/M 175-503LAG-301440K ±5.0 480-3154-1-ND 1.63 1.01 .90 530.00/M 175-444QBF-301Surface Mount NTC Thermistors®NTC (Negative Temperature Coefficient) Thermistors are manufactured from sintered metaloxides. TDK thermistors have low thermal time constraints, which result in extremely high ratesof re sistance change to accurately track the temperature.Features:SizeDimensions - mmCode L W T B0402 1.0 ±0.05 0.5 ±0.05 0.5 ±0.05 0.1 Min.0603 1.6 ±0.1 0.8 ±0.1 0.8 ±0.1 0.2 Min.WLTBSizeCode04020603NominalResistanceB ConstantDigi-KeyCut TapePricingDigi-KeyTape and Reel TDK@ B25°/85° (Ω) 25°/85°C 25°/50°C Part No.1 10 100 Part No.Qty. Pricing Part No.10K 3435K ±1% 3380K ±1% 445-2550-1-ND .31 2.71 21.31 445-2550-2-ND 10,000 101.00/M NTCG103JF103FT1100K 4500K ±1% 4498K ±1% 445-2552-1-ND .31 2.71 21.31 — — — NTCG104KF104FT110K 3435K ±1% 3380K ±1% 445-2554-1-ND .35 3.07 24.12 445-2554-2-ND 4,000 132.00/M NTCG163JF103FT110K 4100K ±3% 4067K ±3% 445-2555-1-ND .29 2.56 20.10 445-2555-2-ND 4,000 110.00/M NTCG164BH103HT1100K 4500K ±1% 4498K ±1% 445-2556-1-ND .35 3.07 24.12 445-2556-2-ND 4,000 132.00/M NTCG164KF104FT1Axial Leaded Glass NTC ThermistorsFeatures: The NTCDS Series features a glass-sealed construction identical to that of DHDs (Double Heatsink Diodes). Tight tolerances are maintained in resistance vs. temperature characteristics. The application of semiconductor mass production techniques has resulted in considerable size reduction and improved consistency.NominalResistance@ 25°CBConstant@25°C ~ 85°CDimensions (mm)Digi-KeyPrice EachL D d Part No.1 10 10010kΩ 3400K ±2% 3.0 1.8ø 0.45ø 445-4828-ND 3.60 3.15 2.48 NTCDS3HG103GC3NB100kΩ 3850K ±2% 4.0 2.0ø 0.55ø 445-4829-ND 3.40 2.98 2.34 NTCDS3SG104GC4NB26minLD26minTDKPart No.ØdN®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)185185

NSMD NTC ThermistorsFeatures: Free Thermistor design tool - “Output Voltage Simulator” is available at http://murata.com/designlib/index.htmlResistance25°CB-Constant25-50°CTolerance25°CMax.OperatingCurrent 25°CRatedElectricPower 25°CTypicalDissipationConstant 25°C Digi-KeyCut TapePricingDigi-KeyTape and Reel MurataΩ (k) ±3% (%) (mA) (mW) (mW/°C) Part No.1 10 100 Part No.Qty. Pricing Part No.0201 Series11 2750 ±5 9.50 100 1 490-4637-1-ND .17 1.52 11.91 490-4637-2-ND 15,000 62.00/M NCP03YS110J05RL22 2750 ±5 6.70 100 1 490-4638-1-ND .17 1.52 11.91 490-4638-2-ND 15,000 62.00/M NCP03YS220J05RL33 2750 ±5 5.50 100 1 490-4639-1-ND .17 1.52 11.91 490-4639-2-ND 15,000 62.00/M NCP03YS330J05RL47 2750 ±5 4.60 100 1 490-4640-1-ND .17 1.52 11.91 490-4640-2-ND 15,000 62.00/M NCP03YS470J05RL68 2750 ±5 3.80 100 1 490-4641-1-ND .17 1.52 11.91 490-4641-2-ND 15,000 62.00/M NCP03YS680J05RL100 2750 ±5 3.10 100 1 490-4642-1-ND .17 1.52 11.91 490-4642-2-ND 15,000 62.00/M NCP03YS101J05RL6.8k 3380 ±5 0.38 100 1 490-4643-1-ND .17 1.52 11.91 490-4643-2-ND 15,000 62.00/M NCP03XH682J05RL10k 3380 ±5 0.31 100 1 490-4644-1-ND .17 1.48 11.61 490-4644-2-ND 15,000 60.00/M NCP03XH103J05RL15k 3380 ±5 0.25 100 1 490-4645-1-ND .17 1.52 11.91 490-4645-2-ND 15,000 62.00/M NCP03XH153J05RL22k 3380 ±5 0.21 100 1 490-4646-1-ND .17 1.52 11.91 490-4646-2-ND 15,000 62.00/M NCP03XH223J05RL33k 4250 ±5 0.17 100 1 490-4647-1-ND .17 1.52 11.91 490-4647-2-ND 15,000 62.00/M NCP03WF333J05RL47k 4050 ±5 0.14 100 1 490-4648-1-ND .17 1.52 11.91 490-4648-2-ND 15,000 62.00/M NCP03WB473J05RL68k 4250 ±5 0.12 100 1 490-4649-1-ND .17 1.52 11.91 490-4649-2-ND 15,000 62.00/M NCP03WF683J05RL100k 4250 ±5 0.10 100 1 490-4650-1-ND .17 1.48 11.61 490-4650-2-ND 15,000 60.00/M NCP03WF104J05RL0402 Series22 3100 ±5 6.70 100 1 490-2408-1-ND .11 .96 7.56 490-2408-2-ND 10,000 39.19/M NCP15XC220J03RC33 3100 ±5 5.50 100 1 490-2409-1-ND .15 1.29 10.15 490-2409-2-ND 10,000 39.19/M NCP15XC330J03RC47 3100 ±5 4.60 100 1 490-2410-1-ND .15 1.29 10.15 — — — NCP15XC470J03RC68 3100 ±5 3.80 100 1 490-2411-1-ND .15 1.29 10.15 — — — NCP15XC680J03RC150 3250 ±5 2.50 100 1 490-2413-1-ND .11 .96 7.56 490-2413-2-ND 10,000 39.19/M NCP15XF151J03RC220 3500 ±5 2.10 100 1 490-2415-1-ND .11 .96 7.56 490-2415-2-ND 10,000 39.19/M NCP15XM221J03RC1.5k 3950 ±5 0.81 100 1 490-2421-1-ND .11 .96 7.56 490-2421-2-ND 10,000 39.19/M NCP15XW152J03RC2.2k 3950 ±5 0.67 100 1 490-2423-1-ND .11 .96 7.56 490-2423-2-ND 10,000 39.19/M NCP15XW222J03RC4.7k 3500 ±5 0.46 100 1 490-2417-1-ND .09 .75 5.86 490-2417-2-ND 10,000 30.00/M NCP15XM472J03RC6.8k 3950 ±5 0.38 100 1 490-2426-1-ND .15 1.29 10.15 — — — NCP15XW682J03RC10k 3380 ±1 — 100 1 490-4801-1-ND .10 .89 7.01 490-4801-2-ND 10,000 36.00/M NCP15XH103F03RC10k 3380 ±5 0.31 100 1 490-2414-1-ND .09 .75 5.86 490-2414-2-ND 10,000 30.00/M NCP15XH103J03RC15k 3950 ±5 0.25 100 1 490-2422-1-ND .11 .96 7.56 490-2422-2-ND 10,000 39.19/M NCP15XW153J03RC22k 3950 ±5 0.21 100 1 490-2424-1-ND .11 .96 7.56 490-2424-2-ND 10,000 39.19/M NCP15XW223J03RC33k 4050 ±5 0.17 100 1 490-2401-1-ND .15 1.29 10.15 — — — NCP15WB333J03RC47k 4050 ±1 — 100 1 490-4802-1-ND .10 .89 7.01 490-4802-2-ND 10,000 36.00/M NCP15WB473F03RC47k 4050 ±5 0.14 100 1 490-2402-1-ND .09 .75 5.86 490-2402-2-ND 10,000 30.00/M NCP15WB473J03RC68k 4150 ±5 0.12 100 1 490-2403-1-ND .11 .96 7.56 490-2403-2-ND 10,000 39.19/M NCP15WD683J03RC100k 4250 ±1 — 100 1 490-4803-1-ND .10 .89 7.01 490-4803-2-ND 10,000 36.00/M NCP15WF104F03RC100k 4250 ±5 0.10 100 1 490-2404-1-ND .09 .75 5.86 490-2404-2-ND 10,000 30.00/M NCP15WF104J03RC150k 4500 ±5 0.08 100 1 490-2405-1-ND .11 .96 7.56 490-2405-2-ND 10,000 39.19/M NCP15WM154J03RC220k 4500 ±5 0.06 100 1 490-2406-1-ND .11 .96 7.56 490-2406-2-ND 10,000 39.19/M NCP15WM224J03RC470k 4500 ±5 0.04 100 1 490-2407-1-ND .11 .96 7.56 490-2407-2-ND 10,000 39.19/M NCP15WM474J03RC0603 Series100 3250 ±5 3.10 100 1 490-2434-1-ND .17 1.47 11.52 — — — NCP18XF101J03RB150 3250 ±5 2.50 100 1 490-2435-1-ND .17 1.47 11.52 490-2435-2-ND 4,000 62.85/M NCP18XF151J03RB220 3500 ±5 2.10 100 1 490-2437-1-ND .17 1.47 11.52 490-2437-2-ND 4,000 62.85/M NCP18XM221J03RB330 3500 ±5 1.70 100 1 490-2438-1-ND .17 1.47 11.52 490-2438-2-ND 4,000 62.85/M NCP18XM331J03RB470 3650 ±5 1.40 100 1 490-2441-1-ND .17 1.47 11.52 490-2441-2-ND 4,000 62.85/M NCP18XQ471J03RB1.0k 3650 ±5 1.00 100 1 490-2440-1-ND .17 1.47 11.52 490-2440-2-ND 4,000 62.85/M NCP18XQ102J03RB1.5k 3950 ±5 0.81 100 1 490-2443-1-ND .17 1.47 11.52 490-2443-2-ND 4,000 62.85/M NCP18XW152J03RB2.2k 3950 ±5 0.67 100 1 490-2445-1-ND .17 1.47 11.52 490-2445-2-ND 4,000 62.85/M NCP18XW222J03RB3.3k 3950 ±5 0.55 100 1 490-2447-1-ND .17 1.47 11.52 490-2447-2-ND 4,000 62.85/M NCP18XW332J03RB4.7k 3500 ±5 0.46 100 1 490-2439-1-ND .15 1.31 10.31 490-2439-2-ND 4,000 56.00/M NCP18XM472J03RB6.8k 3950 ±5 0.38 100 1 490-2448-1-ND .17 1.47 11.52 490-2448-2-ND 4,000 62.85/M NCP18XW682J03RB10k 3380 ±1 — 100 1 490-4800-1-ND .17 1.51 11.88 490-4800-2-ND 4,000 65.00/M NCP18XH103F03RB10k 3380 ±5 0.31 100 1 490-2436-1-ND .15 1.31 10.31 490-2436-2-ND 4,000 56.00/M NCP18XH103J03RB15k 3950 ±5 0.25 100 1 490-2444-1-ND .17 1.47 11.52 490-2444-2-ND 4,000 62.85/M NCP18XW153J03RB22k 3950 ±5 0.21 100 1 490-2446-1-ND .17 1.47 11.52 490-2446-2-ND 4,000 62.85/M NCP18XW223J03RB33k 4050 ±5 0.17 100 1 490-2427-1-ND .17 1.47 11.52 490-2427-2-ND 4,000 62.85/M NCP18WB333J03RB47k 4050 ±5 0.14 100 1 490-2428-1-ND .15 1.31 10.31 490-2428-2-ND 4,000 56.00/M NCP18WB473J03RB68k 4150 ±5 0.12 100 1 490-2429-1-ND .17 1.47 11.52 490-2429-2-ND 4,000 62.85/M NCP18WD683J03RB100k 4250 ±5 0.10 100 1 490-2430-1-ND .15 1.31 10.31 490-2430-2-ND 4,000 56.00/M NCP18WF104J03RB220k 4500 ±5 0.06 100 1 490-2432-1-ND .17 1.47 11.52 490-2432-2-ND 4,000 62.85/M NCP18WM224J03RB470k 4500 ±5 0.04 100 1 490-2433-1-ND .17 1.47 11.52 490-2433-2-ND 4,000 62.85/M NCP18WM474J03RB0805 Series220 3500 ±5 3.00 200 2 490-2452-1-ND .21 1.84 14.49 490-2452-2-ND 4,000 79.00/M NCP21XM221J03RA470 3650 ±5 2.00 200 2 490-2455-1-ND .21 1.84 14.49 490-2455-2-ND 4,000 79.00/M NCP21XQ471J03RA1.0k 3650 ±5 1.40 200 2 490-2454-1-ND .21 1.84 14.49 490-2454-2-ND 4,000 79.00/M NCP21XQ102J03RA2.2k 3950 ±5 0.90 200 2 490-2458-1-ND .21 1.84 14.49 490-2458-2-ND 4,000 79.00/M NCP21XW222J03RA4.7k 3500 ±5 0.65 200 2 490-2453-1-ND .21 1.84 14.49 490-2453-2-ND 4,000 79.00/M NCP21XM472J03RA10k 3900 ±5 0.44 200 2 490-2456-1-ND .21 1.84 14.49 490-2456-2-ND 4,000 79.00/M NCP21XV103J03RA15k 3950 ±5 0.36 200 2 490-2457-1-ND .21 1.84 14.49 490-2457-2-ND 4,000 79.00/M NCP21XW153J03RA22k 3950 ±5 0.30 200 2 490-2459-1-ND .21 1.84 14.49 490-2459-2-ND 4,000 79.00/M NCP21XW223J03RA33k 4050 ±5 0.24 200 2 490-2449-1-ND .21 1.84 14.49 490-2449-2-ND 4,000 79.00/M NCP21WB333J03RA47k 4050 ±5 0.20 200 2 490-2450-1-ND .21 1.84 14.49 490-2450-2-ND 4,000 79.00/M NCP21WB473J03RA100k 4250 ±5 0.14 200 2 490-2451-1-ND .21 1.84 14.49 490-2451-2-ND 4,000 79.00/M NCP21WF104J03RA®CACBSizeCodeDimensions - mmA B C0201 0.6 0.3 0.150402 1.0 0.5 0.250603 1.6 0.8 0.60805 2.0 1.25 0.7®For Digi-Reel ® information, please see page 73.186 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

CWF Precision NTC Thermistor Probes Features:temperature coefficient of resistance can reach- (2% ~ 5%/°and reliability (yearly drift of ≤accuracy of R and B value can be ±≤15S ~ 70SMF11 NTC Thermistor Features:±5% and ±≤≥6.0mW/°C≤and inter change abilityMF51 Precision Glass Encapsulated NTC Thermistor Benefits: resistanceMF52 NTC Thermistor Features:Constant of ≤MF58 Glass Shell Precision NTC Thermistors Features: ≥2mW/°C°C ~ 200°≤50mWMF72 Power NTC Thermistors Features:NTC ThermistorsCWF Series10 1 meter5MF58 SeriesMF51 SeriesMF52 SeriesMF52 Series (G410 Package)MF11 and MF72 Series0.453 Cantherm4252.5 9.19Part No.Ø1.83.8B17.78A1000.2Dimensions (mm)D d F1MF11-xxxxxx 6.5 0.45 2.5MF72-xxxD5 6.5 0.6/0.45 5/2.5MF72-xxxD7 8.5 0.6 5MF72-xxxD9 10.5 0.8/0.6 7.5/5MF72-xxxD11 12.5 0.8/0.6 7.5/5MF72-xxxD13 14.5 0.8 7.5MF72-xxxD15 16.5 0.8 10/7.5MF72-xxxD20 21.5 1.0 10/7.5MF72-xxxD25 26.5 1.0 10Dimensions in mmCantherm Dimensions (mm)Series A BMF51B 3.0 1.5MF51E 4.0 1.6®25DF14dTolerance(±)Resistance(Ω)ToleranceDigi-Key(±) Part No.Pricing Cantherm1 10 50 Part No.CWF Series10K 1% 317-1310-ND 5.06 44.31 158.25 CWF1B103F3380100K 1% 317-1311-ND 5.06 44.31 158.25 CWF1B104F395010K 2% 317-1312-ND 4.43 38.78 138.50 CWF1B103G3380100K 2% 317-1313-ND 4.43 38.78 138.50 CWF1B104G395010K 3% 317-1314-ND 3.80 33.25 118.75 CWF1B103H3380100K 3% 317-1315-ND 3.80 33.25 118.75 CWF1B104H3950100K 5% 317-1317-ND 2.54 22.19 79.25 CWF1B104J395010K 2% 317-1382-ND 6.62 57.96 207.00 CWF3AA103G3380100K 2% 317-1383-ND 6.62 57.96 207.00 CWF3AA104G415050K 2% 317-1384-ND 6.62 57.96 207.00 CWF3AA503G395010K 2% 317-1385-ND 6.62 57.96 207.00 CWF4B103G3380MF11 Series20 5% 317-1267-ND .63 5.53 19.75 MF11-0002005100 5% 317-1270-ND .63 5.53 19.75 MF11-0010005250 5% 317-1272-ND .63 5.53 19.75 MF11-0025005300 5% 317-1273-ND .63 5.53 19.75 MF11-0030005350 5% 317-1274-ND .63 5.53 19.75 MF11-0035005600 5% 317-1275-ND .63 5.53 19.75 MF11-0060005800 5% 317-1276-ND .63 5.53 19.75 MF11-00800051000 5% 317-1277-ND .63 5.53 19.75 MF11-01000052000 5% 317-1279-ND .63 5.53 19.75 MF11-02000053300 5% 317-1280-ND .63 5.53 19.75 MF11-03300054600 5% 317-1281-ND .63 5.53 19.75 MF11-046000533K 5% 317-1285-ND .63 5.53 19.75 MF11-3300005100 10% 317-1289-ND .32 2.77 9.88 MF11-0010010170 10% 317-1290-ND .32 2.77 9.88 MF11-0017010250 10% 317-1291-ND .32 2.77 9.88 MF11-0025010300 10% 317-1292-ND .32 2.77 9.88 MF11-0030010350 10% 317-1293-ND .32 2.77 9.88 MF11-0035010600 10% 317-1294-ND .32 2.77 9.88 MF11-00600101400 10% 317-1297-ND .32 2.77 9.88 MF11-01400102000 10% 317-1298-ND .32 2.77 9.88 MF11-02000103300 10% 317-1299-ND .32 2.77 9.88 MF11-03300104600 10% 317-1300-ND .32 2.77 9.88 MF11-046001033000 10% 317-1304-ND .32 2.77 9.88 MF11-3300010MF51B Series10K 1% 317-1370-ND 4.42 38.64 138.00 MF51B103F3380100K 1% 317-1371-ND 4.42 38.64 138.00 MF51B104F395050K 1% 317-1372-ND 4.42 38.64 138.00 MF51B503F3950MF51E Series10K 0.5% 317-1305-ND 3.60 31.50 112.50 MF51E103E395010K 1% 317-1306-ND 1.98 17.29 61.75 MF51E103F39502.25K 1% 317-1488-ND 2.38 20.79 74.25 MF51E2.252F3950C10K 1% 317-1309-ND 2.38 20.79 74.25 MF51E103F3950C22.5K 1% 317-1308-ND 2.38 20.79 74.25 MF51E2252F3950C10K 2% 317-1307-ND 1.98 17.29 61.75 MF51E103G3950MF52A Series10K 1% 317-1355-ND 1.58 13.83 49.38 MF52A1103F3380100K 1% 317-1356-ND 1.58 13.83 49.38 MF52A1104F415010K 2% 317-1357-ND .95 8.33 29.75 MF52A1103G3380100K 2% 317-1358-ND .95 8.33 29.75 MF52A1104G41504.7K 3% 317-1360-ND .60 5.25 18.75 MF52A1472H3470100K 3% 317-1362-ND .60 5.25 18.75 MF52A1104H41501.5K 5% 317-1252-ND .38 3.33 11.88 MF52A152J34702K 5% 317-1253-ND .38 3.33 11.88 MF52A202J34702.2K 5% 317-1254-ND .38 3.33 11.88 MF52A2222J34704.7K 5% 317-1256-ND .38 3.33 11.88 MF52A472J34706.8K 5% 317-1257-ND .38 3.33 11.88 MF52A682J3470ResistancanceToler-Digi-KeyPricing Cantherm(Ω) (±) Part No. 1 10 50 Part No.10K 5% 317-1258-ND .38 3.33 11.88 MF52A2103J347015K 5% 317-1259-ND .38 3.33 11.88 MF52A153J347022K 5% 317-1260-ND .38 3.33 11.88 MF52A2223J347033K 5% 317-1363-ND .38 3.33 11.88 MF52A2333J395047K 5% 317-1364-ND .38 3.33 11.88 MF52A1473J395068K 5% 317-1263-ND .38 3.33 11.88 MF52A683J3950100K 5% 317-1264-ND .38 3.33 11.88 MF52A1104J3950220K 5% 317-1265-ND .38 3.33 11.88 MF52A1224J4150MF52C Series10K 1% 317-1376-ND 1.97 17.22 61.50 MF52C1103F3380100K 1% 317-1377-ND 1.97 17.22 61.50 MF52C1104F415050K 1% 317-1378-ND 1.97 17.22 61.50 MF52C1503F395010K 1% 317-1406-ND 6.62 57.96 207.00 MF52C103F3380-G410100K 1% 317-1407-ND 6.62 57.96 207.00 MF52C104F4150-G41050K 1% 317-1408-ND 6.62 57.96 207.00 MF52C503F3950-G410MF52F Series10K 1% 317-1373-ND 1.92 16.80 60.00 MF52F103F3380100K 1% 317-1374-ND 1.92 16.80 60.00 MF52F104F415050K 1% 317-1375-ND 1.92 16.80 60.00 MF52F503F3950MF58 Series10K 1% 317-1379-ND 1.58 13.86 49.50 MF58103F3380100K 1% 317-1380-ND 1.58 13.86 49.50 MF58104F395050K 1% 317-1381-ND 1.58 13.86 49.50 MF58503F3950MF72 Series5 20% 317-1144-ND .43 3.78 13.50 MF72-005D510 20% 317-1145-ND .36 3.15 11.25 MF72-010D560 20% 317-1146-ND .43 3.78 13.50 MF72-060D5200 20% 317-1147-ND .43 3.78 13.50 MF72-200D55 20% 317-1148-ND .43 3.78 13.50 MF72-005D78 20% 317-1149-ND .43 3.78 13.50 MF72-008D710 20% 317-1150-ND .36 3.15 11.25 MF72-010D712 20% 317-1151-ND .43 3.78 13.50 MF72-012D716 20% 317-1152-ND .43 3.78 13.50 MF72-016D722 20% 317-1153-ND .43 3.78 13.50 MF72-022D733 20% 317-1154-ND .43 3.78 13.50 MF72-033D7200 20% 317-1155-ND .43 3.78 13.50 MF72-200D73 20% 317-1156-ND .48 4.17 14.88 MF72-003D94 20% 317-1157-ND .48 4.17 14.88 MF72-004D95 20% 317-1158-ND .48 4.17 14.88 MF72-005D96 20% 317-1159-ND .48 4.17 14.88 MF72-006D98 20% 317-1160-ND .48 4.17 14.88 MF72-008D910 20% 317-1161-ND .40 3.47 12.38 MF72-010D912 20% 317-1162-ND .48 4.17 14.88 MF72-012D916 20% 317-1163-ND .48 4.17 14.88 MF72-016D920 20% 317-1164-ND .48 4.17 14.88 MF72-020D922 20% 317-1165-ND .48 4.17 14.88 MF72-022D930 20% 317-1166-ND .48 4.17 14.88 MF72-030D933 20% 317-1167-ND .48 4.17 14.88 MF72-033D950 20% 317-1168-ND .48 4.17 14.88 MF72-050D960 20% 317-1169-ND .48 4.17 14.88 MF72-060D980 20% 317-1170-ND .48 4.17 14.88 MF72-080D9120 20% 317-1171-ND .48 4.17 14.88 MF72-120D9200 20% 317-1172-ND .48 4.17 14.88 MF72-200D9400 20% 317-1173-ND .48 4.17 14.88 MF72-400D92.5 20% 317-1174-ND .55 4.83 17.25 MF72-002.5D113 20% 317-1175-ND .55 4.83 17.25 MF72-003D114 20% 317-1176-ND .55 4.83 17.25 MF72-004D115 20% 317-1177-ND .55 4.83 17.25 MF72-005D116 20% 317-1178-ND .55 4.83 17.25 MF72-006D118 20% 317-1179-ND .55 4.83 17.25 MF72-008D1110 20% 317-1180-ND .55 4.83 17.25 MF72-010D11Resistance(Ω)Digi-KeyPricing CanthermPart No. 1 10 50 Part No.12 20% 317-1181-ND .46 4.03 14.40 MF72-012D1116 20% 317-1182-ND .55 4.83 17.25 MF72-016D1120 20% 317-1183-ND .55 4.83 17.25 MF72-020D1122 20% 317-1184-ND .55 4.83 17.25 MF72-022D1130 20% 317-1185-ND .55 4.83 17.25 MF72-030D1133 20% 317-1186-ND .55 4.83 17.25 MF72-033D1150 20% 317-1187-ND .55 4.83 17.25 MF72-050D1160 20% 317-1188-ND .55 4.83 17.25 MF72-060D1180 20% 317-1189-ND .55 4.83 17.25 MF72-080D111.3 20% 317-1190-ND .99 8.65 30.88 MF72-001.3D131.5 20% 317-1191-ND .99 8.65 30.88 MF72-001.5D132.5 20% 317-1192-ND .99 8.65 30.88 MF72-002.5D133 20% 317-1193-ND .99 8.65 30.88 MF72-003D134 20% 317-1194-ND .99 8.65 30.88 MF72-004D135 20% 317-1195-ND .99 8.65 30.88 MF72-005D136 20% 317-1196-ND .99 8.65 30.88 MF72-006D137 20% 317-1197-ND .99 8.65 30.88 MF72-007D138 20% 317-1198-ND .99 8.65 30.88 MF72-008D1310 20% 317-1199-ND .99 8.65 30.88 MF72-010D1312 20% 317-1200-ND .82 7.21 25.75 MF72-012D1315 20% 317-1201-ND .99 8.65 30.88 MF72-015D1316 20% 317-1202-ND .99 8.65 30.88 MF72-016D1320 20% 317-1203-ND .99 8.65 30.88 MF72-020D1330 20% 317-1204-ND .99 8.65 30.88 MF72-030D1347 20% 317-1205-ND .99 8.65 30.88 MF72-047D13120 20% 317-1206-ND .99 8.65 30.88 MF72-120D131.3 20% 317-1207-ND 1.42 12.46 44.50 MF72-001.3D151.5 20% 317-1208-ND 1.42 12.46 44.50 MF72-001.5D153 20% 317-1209-ND 1.42 12.46 44.50 MF72-003D155 20% 317-1210-ND 1.42 12.46 44.50 MF72-005D156 20% 317-1211-ND 1.42 12.46 44.50 MF72-006D157 20% 317-1212-ND 1.42 12.46 44.50 MF72-007D158 20% 317-1213-ND 1.42 12.46 44.50 MF72-008D1510 20% 317-1214-ND 1.42 12.46 44.50 MF72-010D1512 20% 317-1215-ND 1.19 10.40 37.13 MF72-012D1515 20% 317-1216-ND 1.42 12.46 44.50 MF72-015D1516 20% 317-1217-ND 1.42 12.46 44.50 MF72-016D1520 20% 317-1218-ND 1.42 12.46 44.50 MF72-020D1530 20% 317-1219-ND 1.42 12.46 44.50 MF72-030D1547 20% 317-1220-ND 1.42 12.46 44.50 MF72-047D15120 20% 317-1221-ND 1.42 12.46 44.50 MF72-120D150.7 20% 317-1222-ND 4.35 38.08 136.00 MF72-000.7D201.3 20% 317-1223-ND 4.35 38.08 136.00 MF72-001.3D203 20% 317-1224-ND 4.35 38.08 136.00 MF72-003D205 20% 317-1225-ND 4.35 38.08 136.00 MF72-005D206 20% 317-1226-ND 4.35 38.08 136.00 MF72-006D208 20% 317-1228-ND 4.35 38.08 136.00 MF72-008D2010 20% 317-1229-ND 3.63 31.75 113.38 MF72-010D2012 20% 317-1230-ND 4.35 38.08 136.00 MF72-012D2016 20% 317-1231-ND 4.35 38.08 136.00 MF72-016D200.7 20% 317-1232-ND 7.10 62.16 222.00 MF72-000.7D251.5 20% 317-1233-ND 7.10 62.16 222.00 MF72-001.5D253 20% 317-1234-ND 7.10 62.16 222.00 MF72-003D255 20% 317-1235-ND 7.10 62.16 222.00 MF72-005D258 20% 317-1236-ND 7.10 62.16 222.00 MF72-008D2510 20% 317-1237-ND 5.92 51.80 185.00 MF72-010D2512 20% 317-1238-ND 7.10 62.16 222.00 MF72-012D2516 20% 317-1239-ND 7.10 62.16 222.00 MF72-016D25Chip NTC Thermistors — CMF SeriesResistance(Ω)ToleranceDigi-Key(±)0 Part NoCut Tape Pricing Digi-KeyTape and Reel Cantherm1 10 50 Part No.Qty. Pricing Part No.040210K 5% 317-1470-1-ND .19 1.70 7.01 317-1470-2-ND 10,000 51.00/M CMFX3435103JNT47K 5% 317-1471-1-ND .19 1.70 7.01 317-1471-2-ND 10,000 51.00/M CMFX3950473JNT100K 5% 317-1472-1-ND .19 1.70 7.01 317-1472-2-ND 10,000 51.00/M CMFX4050104JNT060310K 5% 317-1473-1-ND .22 1.92 7.90 317-1473-2-ND 4,000 62.27/M CMFA3970103JNT22K 5% 317-1474-1-ND .22 1.92 7.90 317-1474-2-ND 4,000 62.27/M CMFA3900223JNT47K 5% 317-1475-1-ND .22 1.92 7.90 317-1475-2-ND 4,000 62.27/M CMFA3950473JNT68K 5% 317-1476-1-ND .22 1.92 7.90 317-1476-2-ND 4,000 62.27/M CMFA3950683JNT100K 5% 317-1477-1-ND .22 1.92 7.90 317-1477-2-ND 4,000 62.27/M CMFA3950104JNT220K 5% 317-1478-1-ND .22 1.92 7.90 317-1478-2-ND 4,000 62.27/M CMFA3950224JNTResistance(Ω)Tolerance(±)0Digi-KeyCut Tape Pricing Digi-KeyTape and Reel CanthermPart No1 10 50 Part No.Qty. Pricing Part No.560K 5% 317-1479-1-ND .22 1.92 7.90 317-1479-2-ND 4,000 62.27/M CMFA4100564JNT08052.0K 5% 317-1480-1-ND .26 2.30 9.49 317-1480-2-ND 4,000 74.75/M CMFB3200202JNT4.7K 5% 317-1481-1-ND .26 2.30 9.49 317-1481-2-ND 4,000 74.75/M CMFB3435472JNT10K 5% 317-1482-1-ND .26 2.30 9.49 317-1482-2-ND 4,000 74.75/M CMFB3970103JNT15K 5% 317-1483-1-ND .26 2.30 9.49 317-1483-2-ND 4,000 74.75/M CMFB3630153JNT22K 5% 317-1484-1-ND .26 2.30 9.49 317-1484-2-ND 4,000 74.75/M CMFB3900223JNT33K 5% 317-1485-1-ND .26 2.30 9.49 317-1485-2-ND 4,000 74.75/M CMFB4055333JNT47K 5% 317-1486-1-ND .26 2.30 9.49 317-1486-2-ND 4,000 74.75/M CMFB4000473JNT100K 5% 317-1487-1-ND .26 2.30 9.49 317-1487-2-ND 4,000 74.75/M CMFB4000104JNT®N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)187187

Precision ThermistorU.S. Sensor’s standard precision interchangeablethermistors are low cost, highlyaccurate, stable devices designed specificallyfor temperature sensing and controlapplications. They are particularly suited foruses where their precision interchangeabilityeliminates the necessity for costly individualcircuit calibration.1.500(38.10)0.095(2.41)Power ThermistorsThermistorsRes.@25°C Digi-Key(Ω) Part No.Surface Mount NTC ThermistorsU.S. Sensor’s inrush current limiting power thermistors arespecially formulated and processed NTC thermistors suitablefor suppressing high inrush currents in switching powersupplies and other applications where the high initial startingcurrents are undesirable.Price Each1 10 25 100Bare Leads (±0.1°C from 0°C ~ 70°C)U.S. SensorPart No.2252 615-1000-ND 8.90 4.70 3.06 1.71 PS222J23000 615-1001-ND 8.90 4.70 3.06 1.71 PS302J25000 615-1002-ND 8.90 4.70 3.06 1.71 PS502J210000 615-1003-ND 8.90 4.70 3.06 1.71 PS103J230000 615-1004-ND 8.90 4.70 3.06 1.71 PS303J250000 615-1005-ND 8.90 4.70 3.06 1.71 PS503J2100000 615-1006-ND 8.90 4.70 3.06 1.71 PS104J2Bare Leads (±0.2°C from 0°C ~ 70°C)2252 615-1007-ND 7.10 3.76 2.45 1.39 PT222J23000 615-1008-ND 7.10 3.76 2.45 1.39 PT302J25000 615-1009-ND 7.10 3.76 2.45 1.39 PT502J210000 615-1010-ND 7.10 3.76 2.45 1.39 PT103J230000 615-1011-ND 7.10 3.76 2.45 1.39 PT303J2Standard Leaded Epoxy Coated ThermistorsSpecifications: Thermal Time Constant: 2 seconds maximum in a well stirredoil bath, 15 seconds maximum in still air. Dissipation Constant: 3mW/°C“MELF” style glass encapsulated surface mount.Specifications Thermal Time Constant: 8 seconds maximum DissipationConstant: 2mW/°C Maximum Operating Temperature: 220°CResistance Digi-Key(Ω) @ 25°C Part No.Price Each1 10 25 100U.S. SensorPart No.10000 615-1034-ND 12.33 4.92 2.96 1.48 SM103J1KRB50000 615-1035-ND 12.33 4.92 2.96 1.48 SM503J1KRA100000 615-1036-ND 12.33 4.92 2.96 1.48 SM104J1KRC1.0.310 (25.40)(7.87) DRes. (Ω) Dimensions - Inch (mm) Digi-KeyPrice EachU.S. Sensor@ 25°C D T Part No. 1 10 25 100 Part No.1.0 0.900 (22.86) 0.300 (7.62) 615-1046-ND 10.78 6.34 3.70 2.25 ST1R020BRA1.0 1.250 (31.75) 0.250 (6.35) 615-1047-ND 13.69 8.06 4.70 2.87 ST1R030BRA2.0 0.900 (22.86) 0.350 (8.89) 615-1048-ND 10.81 6.37 3.72 2.26 ST2R018BRA2.5 0.900 (22.86) 0.300 (7.62) 615-1049-ND 10.81 6.37 3.72 2.26 ST2R515BRA5.0 0.600 (15.24) 0.250 (6.35) 615-1053-ND 2.70 2.43 2.03 1.77 ST5R007BRB10.0 0.450 (11.43) 0.300 (7.62) 615-1051-ND 2.25 2.09 1.70 1.53 ST10003BRC10.0 0.600 (15.24) 0.350 (8.89) 615-1052-ND 2.25 2.09 1.70 1.53 ST10006BRD10.0 1.250 (31.75) 0.300 (7.62) 615-1050-ND 13.37 7.86 4.59 2.79 ST10010BRCRing Lug ThermistorsSpecifications: Ring tongue mounting hole diameter: 0.145” nominal Ring tongue mounting hole stud size: #6 UL RecognizedFile Number E232830Resistance(Ω) @ 25°CTolerance@ 25°CDigi-KeyPart No.NTC ThermistorsØ 0.060(1.52).615 (15.62)Price Each1 10 25 1001.0 (25.4)Min. .125(3.175)Max.Resistance Tolerance Digi-KeyPrice EachU.S. Sensor(Ω) @ 25°C @ 25°C Part No.1 10 25 100 Part No.10000 ±2% 615-1054-ND 8.20 4.50 2.88 1.65 DC103G9G.280(7.11)0.019(.48)0.135(3.43)TU.S. SensorPart No.10000 ±2% 615-1060-ND 39.81 26.28 18.40 10.70 USUR1000-103G10000 ±5% 615-1061-ND 30.19 19.90 14.60 8.50 USUR1000-103J100000 ±2% 615-1062-ND 39.81 26.28 18.40 10.70 USUR1000-104G100000 ±5% 615-1063-ND 30.19 19.90 14.60 8.50 USUR1000-104JGlass Encapsulated ThermistorsSpecifications:DO-35 pack age Thermal Time Constant: (Fig. 1) 5 seconds (still air); 0.5 seconds (stirredliquid) Dissipation Constant: 2mW/°C (still air) Maximum Power Rating: (Fig. 2) 20mWFig. 1Resistance Tolerance Digi-KeyPrice EachU.S. Sensor(Ω) @ 25°C @ 25°C Part No.1 10 25 100 Part No.Fig. 1 - Standard2500 ±5% 615-1014-ND 3.30 2.89 1.73 .87 252FG1JRA5000 ±5% 615-1015-ND 3.30 2.89 1.73 .87 502FG1JRA10000 ±5% 615-1016-ND .80 .73 .68 .62 103JG1JRA20000 ±5% 615-1017-ND .80 .73 .68 .62 203JG1JRA30000 ±5% 615-1018-ND .80 .73 .68 .62 303JG1JRA50000 ±5% 615-1019-ND .80 .73 .68 .62 503JG1JRA100000 ±5% 615-1020-ND .80 .73 .68 .62 104JG1JRA250000 ±5% 615-1021-ND .80 .73 .68 .62 254JG1JRA10000 ±1% 615-1024-ND 10.45 4.18 2.50 1.25 103JG1FRA20000 ±1% 615-1025-ND 10.45 4.18 2.50 1.25 203JG1F30000 ±1% 615-1026-ND 10.45 4.18 2.50 1.25 303JG1FRA50000 ±1% 615-1027-ND 10.45 4.18 2.50 1.25 503JG1FRA100000 ±1% 615-1028-ND 10.45 4.18 2.50 1.25 104JG1FRAFig. 1 - Interchangeable10000 ±0.5% 615-1029-ND 15.30 6.12 3.67 1.84 103JL1A25000 ±0.5% 615-1031-ND 19.89 7.96 4.77 2.39 253JL1A50000 ±0.5% 615-1032-ND 19.89 7.96 4.77 2.39 503JL1A100000 ±0.5% 615-1033-ND 19.89 6.12 3.67 1.84 104JL1AFig. 2 - UL Recognized10000 ±2% 615-1056-ND 7.32 4.10 2.31 1.56 USUG1000-103GRB10000 ±5% 615-1057-ND 2.73 1.78 1.14 .92 USUG1000-103JRB100000 ±2% 615-1058-ND 7.32 4.10 2.31 1.56 USUG1000-104GRB100000 ±5% 615-1059-ND 2.73 1.78 1.14 .92 USUG1000-104JRBPlatinum RTDs0.075 (1.91)0.160 (4.06)Specifications: Thermal time constant: 15 seconds maximum (moving air) Dissipationconstant: 2mW/°C (moving air) Maximum applied current: 1mA.300(7.62) LRes. (Ω) Dimensions - Inch (mm) Digi-KeyPrice EachU.S. Sensor@ 0°C W L Part No. 1 10 25 100 Part No.100 0.067 (1.70) 0.095 (2.41) 615-1037-ND 18.50 13.69 11.10 4.07 PPG101A1RD100 0.067 (1.70) 0.095 (2.41) 615-1038-ND 15.35 11.36 9.21 3.37 PPG101B1RD100 0.067 (1.70) 0.095 (2.41) 615-1039-ND 13.82 10.23 8.29 3.07 PPG101C1RD500 0.079 (2.01) 0.118 (3.00) 615-1040-ND 18.50 13.69 11.10 4.07 PPG501A1RD500 0.079 (2.01) 0.118 (3.00) 615-1041-ND 15.35 11.36 9.21 3.37 PPG501B1RD500 0.079 (2.01) 0.118 (3.00) 615-1042-ND 13.82 10.23 8.29 3.07 PPG501C1RD1000 0.079 (2.01) 0.118 (3.00) 615-1043-ND 18.50 13.69 11.10 4.07 PPG102A1RD1000 0.079 (2.01) 0.118 (3.00) 615-1044-ND 15.35 11.36 9.21 3.37 PPG102B1RD1000 0.079 (2.01) 0.118 (3.00) 615-1045-ND 13.82 10.23 8.29 3.07 PPG102C1RDLaboratory Grade Temperature ProbesLaboratory Grade NTC ThermistorTemperature Standards are manufacturedwith ultra high stability thermistorelements. Features: NIST traceability High accuracy ±0.01°C Durable9.50 (241.3)W.250(6.35)Nominal Resistance Temperature Range Digi-KeyPrice U.S. SensorOmega @ 25°C(°C) Part No.Each Part No.10000 -20 ~ 70 615-1066-ND 500.00 USP3021RAThermistor ProbesFig. 2Fig. 1 .595 .531 Fig. 2 Fig. 3(15.11) (13.48)1.30 (33.02).400.400(10.16)(10.16)Ø.150 (3.81).160 (4.06) Max..075 (1.91) Max.0.787 (20.0)0.164(4.17)Resistance Tolerance Digi-KeyPrice EachU.S. SensorFig. Type (Ω) @ 25°C @ 25°C Part No. 1 10 25 100 Part No.1 TO-220 10000 ±10% 615-1055-ND 5.30 2.85 1.79 .98 TO103J2KRA2 Probe 10000 ±1% 615-1064-ND 26.94 16.20 10.53 5.16 USP77653 Pipe Clamp 10000 ±1% 615-1065-ND 37.20 18.79 11.43 5.51 USP7766RA®Ametherm’s NT Series Thermistors are rugged and reliable over a wide temperature range, and are builtusing high temperature material for long life and durability. The PANE and PANR series Thermistor Probesare designed for use in environments that are not as harsh as those that require a housing.Lead Specifications: Wire AWG: 28AWG tinned copper (Cu)Electrical Specifications: Resistance @ 25°C: 10000Ω ±10% Beta: 3950°K ±2% Curve: L DissipationConstant: 3.0mW/°C Time Constant: 6 seconds Operating Temperature: -50°C ~ 150°CNDigi-KeyPrice EachAmethermFig.DescriptionPart No.1 10 100 Part No.NT Series NTC Thermistor, 1.5KΩ 570-1089-ND .70 .43 .33 NT05 152911 NT Series NTC Thermistor, 500Ω 570-1090-ND .70 .43 .33 NT03 50169NT Series NTC Thermistor, 10Ω 570-1091-ND .70 .43 .33 NT03 100522PANE NTC Thermistor Bead Probe 570-1065-ND 2.56 2.28 1.23 PANE 103395-410PANR NTC Thermistor Ring Probe 570-1066-ND 3.11 1.92 1.45 PANR 103395-408—SM Series NTC Thermistor, 0805, 10KΩ 570-1092-1-ND§ .81 .50 .38 SM08 103370SM Series NTC Thermistor, 0805, 10KΩ 570-1092-2-ND‡ 1540.00/5,000 SM08 103370§ Cut Tape ‡ Tape and ReelFig. 1 LFig. 2SDigi-Key Dimensions – mmPart No.L D S570-1089-ND 40 5.0 5.0570-1090-ND 40 2.92 3.0570-1091-ND 38 3.2 3.55DØ 3.619.5118.423.22.5®For Digi-Reel ® information, please see page 73.188 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

BeyschlagPTS Series Platinum SMDFlat Chip Temperature SensorsPTS SMD Flat Chip Temperature Sensors are the perfect choice for temperature control of electronics operating under varying environmental conditions. Thehighly controlled platinum thin film manufacturing process guarantees an outstanding stability of temperature characteristics which ensures reliable operation evenunder harsh conditions. Applications: Specifications: °C ~100°°C ~ 155°>10MΩ SizeDimensions - mmMassCodeH L W WT T1 T2(mg)0603 0.45 +0.1/-0.05 1.55 ±0.05 0.85 ±0.1 >75% of W 0.3 +0.15/-0.2 0.3 +0.15/-0.2 1.90805 0.45 +0.1/-0.05 2.0 ±0.1 1.25 ±0.15 >75% of W 0.4 +0.1/-0.2 0.4 +0.1/-0.2 4.61206 0.55 ±0.1 3.2 +0.1/-0.2 1.6 ±0.15 >75% of W 0.4 +0.1/-0.2 0.4 +0.1/-0.2 9.2T1WT®T2LWHNominal Resistance Value vs. Temperature1.801.601.40R (0) /R 01.201.000.800.60-60 -40 -20 0 20 40 60 80100120140 160Temperature °CSizeResistance ValueR0 at 0°CThermal Response Time†(s)Measurement CurrentImeas. (DC) Digi-KeyCut TapePrice EachDigi-KeyTape and ReelPricing VishayCode (Ω)t0.5 t0.9 (mA)Part No.1 10 100 Part No.1,000 Part No.0603 100 ≤1.0 ≤2.0 0.1 ~ 0.25 PTS0603100CT-ND 2.22 1.94 1.53 PTS0603100TR-ND 831.00 PTS060301B100RP1000805100 ≤1.5 ≤3.0 0.1 ~ 1.0 PTS0805100CT-ND 2.78 2.44 1.92 PTS0805100TR-ND 1042.50 PTS080501B100RP100500 ≤1.5 ≤3.0 0.1 ~ 0.25 PTS0805500CT-ND 2.78 2.44 1.92 PTS0805500TR-ND 1042.50 PTS080501B500RP100100 ≤2.0 ≤5.0 0.1 ~ 1.0 PTS1206100CT-ND 3.66 3.21 2.52 PTS1206100TR-ND 1372.50 PTS120601B100RP1001206 500 ≤2.0 ≤5.0 0.1 ~ 0.25 PTS1206500CT-ND 3.66 3.21 2.52 — — PTS120601B500RP1001000 ≤2.0 ≤5.0 0.1 ~ 0.25 PTS12061.0KCT-ND 3.66 3.21 2.52 PTS12061.0KTR-ND 1372.50 PTS120601B1K00P100†BCcomponentsLeaded NTCThermistors — Accuracy LineThese thermistors have a negative temperature coefficient. Fig. 1 – The device consists of a chip with two tinned Ni-leads andis color coded. Fig. 2 – The device consists of a chip with two tinned solid copper-plated leads, is gray lacquered and colorcoded, but not insulated. Applications: Temperature sensing and control.Dimensions - mmFig. B (max.) d H1 (max.) H2 (max.) L M P T (max.)1 3.4 0.4 2.0 ±1.0 — — 40.0 ±1.5 2.54 3.02 3.3 ±0.5 0.6 ±0.06 2.0 ±1.0 6.0 24.0 ±1.5 — 2.54 3.0Fig.12Resistance Tolerance B Value/B ToleranceColor CodeDigi-KeyPrice EachVishay@ 25°C (Ω) @ 25°C @ B25/85 1 2 3 4 Part No.1 10 50 Part No.10k ±1% 3977K ±0.75% Blue Blue — — BC2299-ND 1.02 .70 .66 NTCLE203E3103FB0100k ±1% 4190K ±1.5% Brown Brown — — BC2300-ND 1.07 .73 .69 NTCLE203E3104FB010k ±2% 3977K ±0.75% Blue Blue — — BC2298-ND .61 .42 .40 NTCLE203E3103GB06.8k ±2% 3977K ±0.75% Blue Gray Red Red BC2550-ND NEW! .65 .45 .42 NTCLE100E3682GB02.7k ±3% 3977K ±0.75% Red Violet Red Orange BC2312-ND .48 .33 .31 NTCLE100E3272HB04.7k ±3% 3977K ±0.75% Yellow Violet Red Orange BC2313-ND .38 .26 .25 NTCLE100E3472HB010k ±3% 3977K ±0.75% Brown Black Orange Orange BC2311-ND .38 .26 .25 NTCLE100E3103HB047k ±3% 4090K ±1.5% Yellow Violet Orange Orange BC2314-ND .38 .26 .25 NTCLE100E3473HB02.2k ±5% 3977K ±0.75% Red Red Red Gold BC2304-ND .32 .22 .21 NTCLE100E3222JB03.3k ±5% 3977K ±0.75% Orange Orange Red Gold BC2307-ND .32 .22 .21 NTCLE100E3332JB06.8k ±5% 3977K ±0.75% Blue Gray Red Gold BC2310-ND .32 .22 .21 NTCLE100E3682JB010k ±5% 3977K ±0.75% Brown Black Orange Gold BC2301-ND .32 .22 .21 NTCLE100E3103JB015k ±5% 3740K ±2% Brown Green Orange Gold BC2303-ND .32 .22 .21 NTCLE100E3153JB022k ±5% 3740K ±2% Red Red Orange Gold BC2305-ND .32 .22 .21 NTCLE100E3223JB033k ±5% 4090K ±1.5% Orange Orange Orange Gold BC2308-ND .32 .22 .21 NTCLE100E3333JB047k ±5% 4090K ±1.5% Yellow Violet Orange Gold BC2309-ND .32 .22 .21 NTCLE100E3473JB068 ±5% 3390K ±3% Blue Gray Black Gold BC2554-ND NEW! .32 .22 .21 NTCLE100E3689JB0100k ±5% 4190K ±1.5% Brown Black Yellow Gold BC2302-ND .32 .22 .21 NTCLE100E3104JB0220k ±5% 4370K ±2.5% Red Red Yellow Gold BC2306-ND .32 .22 .21 NTCLE100E3224JB0Fig. 1MFig. 2LBPBPColorCode T43H121H2dTColorCode 1H1 2dSurface Mount NTC Chip ThermistorsSurface Mount NTC Chip Thermistors have a negative temperature coefficient. The device has no marking.Terminations: Applications: in: battery chargers, consumer equipment, and office equipment Features: ®SizeDimensions - mmL2 and L3 L4Code L1 W T Minimum Minimum0402 1.0 ±0.15 0.5 ±0.15 0.5 ±0.15 0.1 0.30603 1.6 ±0.15 0.8 ±0.15 0.8 ±0.15 0.2 0.40805 2.0 ±0.2 1.25 ±0.15 0.8 ±0.15 0.2 0.55L2L4L3L1WTSize Resistance @ 25°C Tolerance B Value/ B Tolerance Digi-KeyCut Tape Price Each Tape and Reel† VishayCode(kΩ)@ 25°C@ B25/85 Part No.1 10 50 Qty. Pricing Part No.4.7 ±3% 3595K ±3% BC2326CT-ND◆ .26 .18 .17 10,000 124.95/M NTCS0402E3472HMT10 ±3% 3490K ±3% BC2328CT-ND◆ .26 .18 .17 10,000 124.95/M NTCS0402E3103HLT15 ±3% 3600K ±3% BC2330CT-ND◆ .26 .18 .17 10,000 124.95/M NTCS0402E3153HHT22 ±3% 3590K ±3% BC2332CT-ND◆ .26 .18 .17 10,000 124.95/M NTCS0402E3223HMT33 ±3% 3670K ±3% BC2334CT-ND◆ .26 .18 .17 10,000 124.95/M NTCS0402E3333HMT47 ±3% 4075K ±3% BC2336CT-ND◆ .26 .18 .17 10,000 124.95/M NTCS0402E3473HXT68 ±3% 3910K ±3% BC2338CT-ND◆ .26 .18 .17 10,000 124.95/M NTCS0402E3683HHT0402100 ±3% 3950K ±3% BC2340CT-ND◆ .26 .18 .17 10,000 124.95/M NTCS0402E3104HHT4.7 ±5% 3595K ±3% BC2327CT-ND◆ .21 .15 .14 10,000 104.13/M NTCS0402E3472JMT10 ±5% 3490K ±3% BC2329CT-ND◆ .21 .15 .14 10,000 104.13/M NTCS0402E3103JLT15 ±5% 3600K ±3% BC2331CT-ND◆ .21 .15 .14 — — NTCS0402E3153JHT22 ±5% 3590K ±3% BC2333CT-ND◆ .21 .15 .14 10,000 104.13/M NTCS0402E3223JMT33 ±5% 3670K ±3% BC2335CT-ND◆ .21 .15 .14 10,000 104.13/M NTCS0402E3333JMT47 ±5% 4075K ±3% BC2337CT-ND◆ .21 .15 .14 10,000 104.13/M NTCS0402E3473JXT68 ±5% 3910K ±3% BC2339CT-ND◆ .21 .15 .14 10,000 104.13/M NTCS0402E3683JHT100 ±5% 3950K ±3% BC2341CT-ND◆ .21 .15 .14 10,000 104.13/M NTCS0402E3104JHT10 ±3% 3610K ±1% BC2290CT-ND◆ .36 .25 .23 4,000 177.50/M NTCS0603E3103HMT68 ±3% 3985K ±1% BC1547CT-ND .39 .27 .25 4,000 193.50/M NTCS0603E3683JHT100 ±3% 4100K ±1% BC2291CT-ND◆ .36 .25 .23 4,000 177.50/M NTCS0603E3104HXT06034.7 ±5% 3830K ±1% BC1538CT-ND .28 .19 .18 — — NTCS0603E3472JHT10 ±5% 3610K ±1% BC2289CT-ND◆ .28 .19 .18 4,000 137.50/M NTCS0603E3103JMT15 ±5% 3600K ±1% BC1540CT-ND .37 .25 .24 4,000 220.50/M NTCS0603E3153JMT100 ±5% 4100K ±1% BC1542CT-ND .37 .25 .24 — — NTCS0603E3104JXT22 ±1% 3800K ±1% BC2571CT-ND◆ NEW! .81 .56 .52 4,000 405.75/M NTCS0805E3223FHT100 ±1% 4100K ±1% BC2562CT-ND◆ NEW! .81 .56 .52 4,000 405.75/M NTCS0805E3104FXT15 ±2% 3700K ±1% BC2568CT-ND◆ NEW! .38 .26 .25 4,000 188.75/M NTCS0805E3153GMT33 ±2% 3920K ±1% BC2572CT-ND◆ NEW! .38 .26 .25 8,000 184.98/M NTCS0805E3333GHT2.2 ±5% 3600K ±1% BC2294CT-ND◆ .26 .18 .17 4,000 127.50/M NTCS0805E3222JMT4.7 ±5% 3500K ±1% BC2296CT-ND◆ .26 .18 .17 4,000 127.50/M NTCS0805E3472JMT080510 ±5% 3570K ±3% BC2292CT-ND◆ .26 .18 .17 4,000 127.50/M NTCS0805E3103JMT10 ±5% 3940K ±1% BC2561CT-ND◆ NEW! .26 .18 .17 4,000 127.50/M NTCS0805E3103JHT15 ±5% 3700K ±1% BC2293CT-ND◆ .26 .18 .17 4,000 127.50/M NTCS0805E3153JMT22 ±5% 3800K ±1% BC2295CT-ND◆ .26 .18 .17 4,000 127.50/M NTCS0805E3223JHT47 ±5% 3960K ±1% BC2297CT-ND◆ .26 .18 .17 4,000 127.50/M NTCS0805E3473JHT330 ±5% 3930K ±1% BC2575CT-ND◆ NEW! .26 .18 .17 4,000 127.50/M NTCS0805E3334JHT470 ±5% 4025K ±1% BC2581CT-ND◆ NEW! .26 .18 .17 4,000 127.50/M NTCS0805E3474JXT◆ RoHS Compliant † For Tape and Reel part number change CT-ND to TR-ND.N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)189189

NTHS Series Surface MountNTC Chip ThermistorsFeatures:sitymonolithic constructionSizeCode0402060308051206Dale®SizeDimensions – mmCode L W BW0402 1.016 ±0.102 0.5 ±0.051 0.25 ±0.1020603 1.6 ±0.2 0.8 ±0.2 0.25 ±0.150805 2.0 ±0.2 1.25 ±0.2 0.3 ±0.151206 3.2 ±0.2 1.6 ±0.2 0.46 ±0.2Resistance Resistance R-T Beta Digi-KeyCut Tape Price Each Digi-KeyTape and Reel Pricing Vishay(KΩ) Tolerance Curve +25°C/+75°C Part No.1 10 100 Part No.2,000Part No.10 ±5% 2 3477 541-1096-1-ND 1.00 .88 .69 541-1096-2-ND 363.00/M NTHS0402N02N1002JE12 ±5% 2 3477 541-1097-1-ND 1.00 .88 .69 — — NTHS0402N02N1202JE47 ±5% 5 3890 541-1099-1-ND 1.00 .88 .69 — — NTHS0402N05N4702JE50 ±3% 5 3890 541-1100-1-ND 1.08 .95 .75 — — NTHS0402N05N5002HE50 ±5% 5 3890 541-1101-1-ND 1.00 .88 .69 541-1101-2-ND 363.00/M NTHS0402N05N5002JE68 ±5% 1 3964 541-1095-1-ND 1.00 .88 .69 — — NTHS0402N01N6802JE100 ±5% 1 3964 541-1094-1-ND 1.00 .88 .69 541-1094-2-ND 363.00/M NTHS0402N01N1003JE250 ±5% 17 4064 541-1102-1-ND 1.00 .88 .69 — — NTHS0402N17N2503JE350 ±5% 4 4247 541-1098-1-ND 1.00 .88 .69 — — NTHS0402N04N3503JE1 ±5% 3 3181 541-1109-1-ND 1.00 .88 .69 541-1109-2-ND 363.00/M NTHS0603N03N1001JE1.5 ±5% 3 3181 541-1110-1-ND 1.00 .88 .69 — — NTHS0603N03N1501JE2 ±5% 3 3181 541-1111-1-ND 1.00 .88 .69 541-1111-2-ND 363.00/M NTHS0603N03N2001JE10 ±5% 2 3477 541-1107-1-ND 1.00 .88 .69 541-1107-2-ND 363.00/M NTHS0603N02N1002JE10 ±10% 2 3477 541-1108-1-ND .96 .84 .66 541-1108-2-ND 348.00/M NTHS0603N02N1002KE15 ±5% 10 3500 541-1114-1-ND 1.00 .88 .69 541-1114-2-ND 363.00/M NTHS0603N10N1502JE15.8 ±5% 10 3500 541-1115-1-ND 1.00 .88 .69 — — NTHS0603N10N1582JE20 ±5% 10 3500 541-1116-1-ND 1.00 .88 .69 541-1116-2-ND 363.00/M NTHS0603N10N2002JE22 ±5% 11 3700 541-1117-1-ND 1.00 .88 .69 — — NTHS0603N11N2202JE30 ±5% 11 3700 541-1118-1-ND 1.00 .88 .69 541-1118-2-ND 363.00/M NTHS0603N11N3002JE68 ±5% 1 3964 541-1104-1-ND 1.00 .88 .69 — — NTHS0603N01N6802JE70 ±5% 1 3964 541-1105-1-ND 1.00 .88 .69 — — NTHS0603N01N7002JE80 ±5% 1 3964 541-1106-1-ND 1.00 .88 .69 — — NTHS0603N01N8002JE100 ±5% 1 3964 541-1103-1-ND 1.00 .88 .69 541-1103-2-ND 363.00/M NTHS0603N01N1003JE150 ±5% 17 4064 541-1119-1-ND 1.00 .88 .69 541-1119-2-ND 363.00/M NTHS0603N17N1503JE200 ±5% 17 4064 541-1120-1-ND 1.00 .88 .69 541-1120-2-ND 363.00/M NTHS0603N17N2003JE330 ±5% 4 4247 541-1112-1-ND 1.00 .88 .69 541-1112-2-ND 363.00/M NTHS0603N04N3303JE350 ±5% 4 4247 541-1113-1-ND 1.00 .88 .69 541-1113-2-ND 363.00/M NTHS0603N04N3503JE1 ±5% 3 3181 541-1132-1-ND 1.00 .88 .69 541-1132-2-ND 363.00/M NTHS0805N03N1001JE1.5 ±5% 3 3181 541-1133-1-ND 1.00 .88 .69 — — NTHS0805N03N1501JE2.8 ±5% 6 3254 541-1138-1-ND 1.00 .88 .69 — — NTHS0805N06N2801JE5 ±5% 2 3477 541-1128-1-ND 1.00 .88 .69 541-1128-2-ND 363.00/M NTHS0805N02N5001JE6.8 ±3% 2 3477 541-1129-1-ND 1.00 .88 .69 541-1129-2-ND 363.00/M NTHS0805N02N6801HE6.8 ±5% 2 3477 541-1130-1-ND 1.00 .88 .69 541-1130-2-ND 363.00/M NTHS0805N02N6801JE8 ±5% 2 3477 541-1131-1-ND 1.00 .88 .69 — — NTHS0805N02N8001JE10 ±5% 2 3477 541-1127-1-ND 1.00 .88 .69 541-1127-2-ND 363.00/M NTHS0805N02N1002JE22 ±5% 11 3700 541-1139-1-ND 1.00 .88 .69 — — NTHS0805N11N2202JE33 ±5% 1 3964 541-1121-1-ND 1.00 .88 .69 541-1121-2-ND 363.00/M NTHS0805N01N3302JE35 ±5% 5 3890 541-1136-1-ND 1.00 .88 .69 — — NTHS0805N05N3502JE47 ±5% 1 3964 541-1122-1-ND 1.00 .88 .69 541-1122-2-ND 363.00/M NTHS0805N01N4702JE50 ±5% 1 3964 541-1123-1-ND 1.00 .88 .69 541-1123-2-ND 363.00/M NTHS0805N01N5002JE50 ±5% 5 3890 541-1137-1-ND 1.00 .88 .69 — — NTHS0805N05N5002JE50 ±10% 1 3964 541-1124-1-ND .96 .84 .66 — — NTHS0805N01N5002KE56 ±5% 1 3964 541-1125-1-ND 1.00 .88 .69 — — NTHS0805N01N5602JE68 ±5% 1 3964 541-1126-1-ND 1.00 .88 .69 — — NTHS0805N01N6802JE100 ±5% 17 4064 541-1140-1-ND 1.00 .88 .69 541-1140-2-ND 363.00/M NTHS0805N17N1003JE150 ±5% 17 4064 541-1141-1-ND 1.00 .88 .69 541-1141-2-ND 363.00/M NTHS0805N17N1503JE200 ±5% 17 4064 541-1142-1-ND 1.00 .88 .69 541-1142-2-ND 363.00/M NTHS0805N17N2003JE200 ±5% 4 4247 541-1134-1-ND 1.00 .88 .69 — — NTHS0805N04N2003JE220 ±5% 4 4247 541-1135-1-ND 1.00 .88 .69 541-1135-2-ND 363.00/M NTHS0805N04N2203JE10 ±5% 2 3477 541-1150-1-ND 1.12 .98 .77 541-1150-2-ND 406.00/M NTHS1206N02N1002JE10 ±10% 2 3477 541-1151-1-ND 1.08 .95 .75 541-1151-2-ND 392.00/M NTHS1206N02N1002KE15 ±5% 10 3500 541-1156-1-ND 1.12 .98 .77 541-1156-2-ND 406.00/M NTHS1206N10N1502JE20 ±5% 10 3500 541-1157-1-ND 1.12 .98 .77 541-1157-2-ND 406.00/M NTHS1206N10N2002JE22 ±5% 11 3700 541-1158-1-ND 1.12 .98 .77 — — NTHS1206N11N2202JE30 ±5% 5 3890 541-1155-1-ND 1.12 .98 .77 — — NTHS1206N05N3002JE47 ±5% 1 3964 541-1146-1-ND 1.12 .98 .77 541-1146-2-ND 406.00/M NTHS1206N01N4702JE50 ±5% 1 3964 541-1147-1-ND 1.12 .98 .77 541-1147-2-ND 406.00/M NTHS1206N01N5002JE68 ±5% 1 3964 541-1148-1-ND 1.12 .98 .77 — — NTHS1206N01N6802JE80 ±5% 1 3964 541-1149-1-ND 1.12 .98 .77 — — NTHS1206N01N8002JE100 ±1% 1 3964 541-1143-1-ND 1.28 1.12 .88 541-1143-2-ND 464.00/M NTHS1206N01N1003FE100 ±5% 1 3964 541-1144-1-ND 1.12 .98 .77 541-1144-2-ND 406.00/M NTHS1206N01N1003JE100 ±5% 17 4064 541-1159-1-ND 1.12 .98 .77 541-1159-2-ND 406.00/M NTHS1206N17N1003JE100 ±10% 1 3964 541-1145-1-ND 1.08 .95 .75 541-1145-2-ND 392.00/M NTHS1206N01N1003KE100 ±10% 17 4064 541-1160-1-ND 1.08 .95 .75 — — NTHS1206N17N1003KE150 ±5% 17 4064 541-1161-1-ND 1.12 .98 .77 — — NTHS1206N17N1503JE200 ±5% 17 4064 541-1162-1-ND 1.12 .98 .77 541-1162-2-ND 406.00/M NTHS1206N17N2003JE200 ±5% 4 4247 541-1152-1-ND 1.12 .98 .77 541-1152-2-ND 406.00/M NTHS1206N04N2003JE220 ±5% 17 4064 541-1163-1-ND 1.12 .98 .77 541-1163-2-ND 406.00/M NTHS1206N17N2203JE220 ±5% 4 4247 541-1153-1-ND 1.12 .98 .77 — — NTHS1206N04N2203JE330 ±5% 4 4247 541-1154-1-ND 1.12 .98 .77 — — NTHS1206N04N3303JEBWLWNM, C, T Series Leaded Conformally CoatedNTC ThermistorsM, C and T series are conformally coated, leaded thermistors for standard PC board mounting or assembly in probes. The coatingis baked-on phenolic for durability and long-term stability. M and C series have tinned solid copper leads. The T series hassolid nickel wires with Teflon® insulation to provide isolation when assembled in metal probes or housings. Features:Specifications:Fig.12Fig. 1 Fig. 2Tinned Copper WireTeflon Insulated Nickel WireAA36.1 Min.Clean Lead Length76.2Resistance Resistance R-T Dimension A Wire Diameter Digi-KeyPrice EachVishay(Ω)Tolerance Curve (mm) AWG mm Part No.1 10 100 Part No.50 ±5% 2 6.93 28 0.32 541-1209-ND 1.60 1.44 1.14 02C0500JF5K ±5% 1 2.4 30 0.254 541-1076-ND 1.60 1.44 1.14 01M5001JF10K ±1% 1 2.4 28 0.32 541-1206-ND 1.78 1.60 1.26 01C1002FF10K ±1% 9 2.8 30 0.254 541-1080-ND 1.78 1.60 1.26 09M1002FF10K ±5% 1 2.4 28 0.32 541-1207-ND 1.60 1.44 1.14 01C1002JF10K ±5% 1 2.4 30 0.254 541-1074-ND 1.60 1.44 1.14 01M1002JF10K ±5% 9 2.8 30 0.254 541-1081-ND 1.60 1.44 1.14 09M1002JF30K ±5% 1 2.4 30 0.254 541-1075-ND 1.60 1.44 1.14 01M3002JF33K ±5% 4 2.4 30 0.254 541-1077-ND 1.60 1.44 1.14 04M3302JF47K ±5% 4 2.4 30 0.254 541-1078-ND 1.60 1.44 1.14 04M4702JF50K ±5% 7 2.8 28 0.32 541-1208-ND 1.78 1.60 1.26 07C5002JF150K ±5% 7 2.4 30 0.254 541-1079-ND 1.60 1.44 1.14 07M1503JF10K ±1% 1 2.4 30 0.254 541-1203-ND 3.03 2.72 2.15 01T1002FF10K ±5% 1 2.4 30 0.254 541-1204-ND 2.76 2.48 1.96 01T1002JF33K ±5% 4 2.4 30 0.254 541-1205-ND 1.60 1.44 1.14 04T3302JF1/4Nom.®For Digi-Reel ® information, please see page 73.190 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Features:Applications:Specifications:Fig.Res. @25°C(kΩ)‡ Uni-Curve SensorNTC Thermistorswith Wire LeadsResistanceToleranceFig. 1 Fig. 2Ø2.41B25/100(K)506.56Digi-KeyPart No.Ø.25(AWG 30)Price Each1 10 100EpcosPart No.2 ±1% 3560 495-2144-ND 2.45 2.15 1.69 B57861S0202F0403 ±1% 3988 495-2145-ND 2.45 2.15 1.69 B57861S0302F0403 ±1% 3988 495-2150-ND‡ 3.20 2.80 2.20 B57863S0302F0405 ±1% 3988 495-2147-ND 2.45 2.15 1.69 B57861S0502F040110 ±1% 3988 495-2142-ND 2.45 2.15 1.69 B57861S0103F04010 ±1% 3988 495-2149-ND‡ 3.20 2.80 2.20 B57863S0103F04030 ±1% 3964 495-2146-ND 2.45 2.15 1.69 B57861S0303F04030 ±1% 3964 495-2151-ND‡ 3.20 2.80 2.20 B57863S0303F04050 ±1% 3760 495-2148-ND 2.45 2.15 1.69 B57861S0503F040100 ±1% 4540 495-2143-ND 2.45 2.15 1.69 B57861S0104F0402 10 ±1% 3988 495-2166-ND 3.70 3.24 2.55 B57862S0103F040NTC Thermistorsfor Temperature MeasurementInsulatedFeatures: insulationApplications:Specifications: (B57551); 50mW (B57561)Fig.Leaded NTC Thermistors GlassEncapsulated for TemperatureMeasurementFeatures:temperatures up to 300° wires (copper clad FeNi)Applications: Specifications: series); 55/300/56 (B57550 and B57560series); 32mW (B57550 series); 50mW(B57560 series)Fig.1Res. @ Resistance25°C (kΩ) ToleranceResist ance@25°C(kΩ)ResistanceToleranceB25/85(K)Digi-KeyPart No.Fig. 1 Fig. 21.465Fig. 1507.56Dimensions in mmØ2.8Ø.25(AWG 30)Dimensions in mmB25/85 Digi-KeyPrice Each Epcos(K) Part No.1 10 100 Part No.5 ±1% 3480 495-2128-ND 4.10 3.59 2.82 B57540G0502F00010 ±1% 3480 495-2124-ND 4.10 3.59 2.82 B57540G0103F00030 ±1% 3992 495-2127-ND 4.10 3.59 2.82 B57540G0303F000Ø0.8Ø0.152.2714566.5Ø 1.451.5Ø1.3Ø0.2Ø 0.15Fig. 2 Fig. 3Ø 1.84573.362.3Ø 0.2Price Each1 10 1004571.2Dimensions in mmØ 3.07EpcosPart No.Fig. 34.1674.2Ø 0.31 10 ±1% 3480 495-2623-ND 4.73 4.15 3.26 B57541G0103F0002 10 ±1% 3480 495-2624-ND 4.15 3.64 2.86 B57551G0103F0003 10 ±1% 3480 495-2625-ND 4.80 4.20 3.30 B57561G0103F000Ø2.3Ø0.3Fig.123Resist ance@25°C(kΩ)Leaded NTC Thermistorsfor Temperature MeasurementB57164K Series:Features: Lacquer-coated thermistor diskTinned copper leadsApplications: emperature measurement and compensationSpecifications: 21450mWB57871S Series:Features: Applications: Specifications: B57885S Series:Features: Applications: and compensationSpecifications: 100mWB57891M Series:Features: copper-clad Fe wireApplications: Specifications: B57891S Series:Features: copper-clad Fe wireApplications: Specifications: Dimensions in mmFig. 1Fig. 2 Fig. 3Fig. 42.52.55 max.3.5 3.54.54.52.0 5.55.5max. max.73Ø0.63Ø0.436Ø0.5Ø0.5363836Resist ance@25°C(kΩ)ResistanceToleranceB25/85 Digi-KeyPrice Each Epcos(K) Part No.1 10 100 Part No.50 ±1% 3992 495-2129-ND 4.10 3.59 2.82 B57540G0503F000100 ±1% 4066 495-2125-ND 5.10 4.46 3.51 B57540G0104F0005 ±1% 3480 495-2133-ND 3.60 3.15 2.48 B57550G0502F00010 ±1% 3480 495-2130-ND 3.79 3.32 2.61 B57550G0103F00030 ±1% 3992 495-2132-ND 3.60 3.15 2.48 B57550G0303F00050 ±1% 3992 495-2134-ND 3.60 3.15 2.48 B57550G0503F0005 ±1% 3480 495-2137-ND 3.70 3.24 2.55 B57560G0502F00010 ±1% 3480 495-2135-ND 3.70 3.24 2.55 B57560G0103F000100 ±1% 4066 495-2136-ND 3.70 3.24 2.55 B57560G0104F0005.02.5ResistanceB25/100 Digi-KeyTolerance (K) Part No.Price Each EpcosFig.1 10 100 Part No.B57164K Series4.7 ±5% 3950 495-2082-ND .58 .51 .41 B57164K472J110 ±5% 4300 495-2080-ND .58 .51 .41 B57164K103JB57871S Series10 ±1% 3460 495-3036-ND 2.18 1.92 1.51 B57871S0103F0022 10 ±1% 3988 495-2153-ND 2.18 1.92 1.51 B57871S0103F00112 ±1% 3760 495-3037-ND 2.18 1.92 1.51 B57871S0123F000B57885S Series3 10 ±1% 3980 495-2155-ND 1.82 1.60 1.26 B57885S103F1B57891M Series1.0 ±5% 3930 495-2156-ND .70 .62 .49 B57891M0102J0001.5 ±5% 3560 495-3064-ND .70 .62 .49 B57891M0152J0002.2 ±5% 3900 495-3067-ND .70 .62 .49 B57891M0222J0004.7 ±5% 3980 495-2161-ND .70 .62 .49 B57891M0472J0003 6.8 ±5% 3980 495-3071-ND .70 .62 .49 B57891M0682J00010 ±5% 3950 495-2157-ND .70 .62 .49 B57891M0103J00033 ±5% 4300 495-2159-ND .70 .62 .49 B57891M0333J000100 ±5% 4450 495-2158-ND .70 .62 .49 B57891M0104J000470 ±5% 5000 495-2162-ND .70 .62 .49 B57891M0474J000B57891S Series5 ±1% 3980 495-2165-ND 1.75 1.54 1.21 B57891S0502F0084 10 ±1% 3950 495-2163-ND 1.75 1.54 1.21 B57891S0103F008100 ±1% 4450 495-2164-ND 1.75 1.54 1.21 B57891S0104F0082.52.5NMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)191191

NSurface Mount NTC ThermistorsFor Temperature MeasurementFeatures:≤1%)Applications: Specifications: ±5%LWTSizeRes. @25°C B25/85 Digi-KeyCut TapePricing Tape and Reel† EpcosCode (Ω) (K) Part No.1 10 100 Qty. Pricing Part No.0402 10K 3980 495-2086-1-ND .34 2.39 14.08 10,000 84.00/M B57221V2103J600603 10K 3980 495-2104-1-ND .44 3.14 18.45 4,000 118.00/M B57321V2103J600805 10K 3980 495-2116-1-ND .59 4.20 24.70 4,000 158.00/M B57421V2103J62† For Tape and Reel part number, change 1-ND to 2-ND.NTC Thermistor ProbesDimensions - mmSizeL W T0402 1.0 0.5 0.60603 1.6 0.8 0.90805 2.0 1.25 1.3B57020Features: (E252167)Applications: Specifications: B57045Features: Electricallyisolated aluminum case Tinned copper leadsApplications: Temperature compensation, measurement and control (chassis mounting)Specifications: 42500VACB57500KFeatures: °CApplications: Evaporator sensor for air conditioning systems Heating systemsSpecifications: 30/10061.5kVACB57500MFeatures: PVC insulated black wire with tinned ends 26AWGApplications: Specifications: secondsB57703Features: Applications: Specifications: Dimensions in mmFig. 13090084.5Fig. 2 Fig. 36305M38714500306Fig. 4 Fig. 5Resist ance@ 25°C B25/100ResistanceDigi-KeyPrice Each EpcosFig. (kΩ) (K) Tolerance Part No.1 10 100 Part No.1 5 3980 ±2% 495-2075-ND 4.44 3.89 3.06 B57020M2502A0172 10 4300 ±10% 495-2138-ND 1.64 1.44 1.14 B57045K103K3 10 3988 ±3% 495-2171-ND 9.46 8.29 6.51 B57500K103A14 10 3988 ±3% 495-2172-ND 4.00 3.50 2.75 B57500M0103A00555 3988 ±2% 495-2170-ND 4.08 3.57 2.81 B57703M0502G04010 3988 ±2% 495-2169-ND 4.08 3.57 2.81 B57703M0103G040650051566.517.50.510453.78.56NTC Bead ThermistorsThermometric Type C100 Thermochip’s are low cost, epoxy coated chip thermistors which represent thehighest level of thermistor technology. Thermometric’s exclusive “state of the art” materials processingtechniques have been proven through extensive field use and long term testing to provide stable, rugged,easy handling thermistors suitable for applications in the temperature range of -80°C ~ 150°C. Best stabilityis achieved at temperatures not exceeding 105°C. Type EC95 and Type DC95 Thermistors may be usedat temperatures as low as -80°C and as high as 150°C, however, best overall stability is achieved withexposure or storage temperatures lower than 105°C.THERMAL AND ELECTRICAL PROPERTIES: (Still Air) 1mW°C, (Stirred Oil)8mW°C (Still Air) 10 Seconds, (Stirred Oil) 1 Second Rating: .075 Watts (De-rated from 100% at 25°C ~ 0% at 100°C)Type C1001.5 (38.10)Ø.100(2.54)Ø.012 (0.30)-Tinned copper leadsEpoxy coated thermochipType DC95 Thermistors arede signed to be interchangeableover 0°C ~ 70° and 0°C ~ 100°C.1.5 (38.10)Ø.095(2.41)Ø.012 (0.30)-Tinned copper leadsEpoxy coated thermochipResistance Resistance Digi KeyPrice EachGE Sensing@ 25°C (Ω) Ratio§ Part No.1 10 100 250 Part No.10K 9.06 235-1001-ND 7.52 5.92 4.70 3.48 C100F103G10K 9.06 235-1002-ND 5.20 4.10 3.25 2.41 C100F103J10K 7.60 235-1003-ND 5.20 4.10 3.25 2.41 C100Y103J10K 9.06 235-1004-ND 8.56 6.75 5.35 3.96 DC95F103W2K 9.06 235-1005-ND 8.56 6.75 5.35 3.96 DC95F202W2252 9.06 235-1006-ND 8.56 6.75 5.35 3.96 DC95F232W5K 9.06 235-1007-ND 8.56 6.75 5.35 3.96 DC95F502W100K 10.45 235-1008-ND 8.56 6.75 5.35 3.96 DC95G104W50K 10.45 235-1009-ND 8.56 6.75 5.35 3.96 DC95G503W10K 9.06 235-1010-ND 8.56 6.75 5.35 3.96 EC95F103W3K 9.06 235-1012-ND 8.56 6.75 5.35 3.96 EC95F302W100K 10.45 235-1013-ND 8.56 6.75 5.35 3.96 EC95G104W50K 10.45 235-1014-ND 8.56 6.75 5.35 3.96 EC95G503W30K 8.69 235-1015-ND 6.82 5.37 4.26 3.16 EC95H303W§ 0°C/50°C RatioNTC Disc ThermistorsNTC (Negative Temperature Coefficient) Disc Thermistorsdecrease in resistance as temperature increases. -3.4%/°C ~ -5%/°C@ 25°C 150°CTolerance: ±20% 100 ~ 5Ω; ±10% 1K ~ 100KΩResistanceType EC95 Thermistors are designedto be interchangeable over -20°C~ 50°C and 0°C ~ 70°C.2.5 (63.50)Ø.095(2.41)Ø.008 (0.20)-Tinned copper alloy leadsEpoxy coated thermochipTemperatureRes. @ Res. Dim. A Digi-KeyPrice Each GE Sensing25°C (Ω) Ratio▲ D.C.◊ (mm) Part No. 1 10 100 250 Part No.100 5.53 2.5 2.79 KC001N-ND◆ 2.92 2.63 2.07 1.65 RL1004-65.6-59-D150 5.53 6.5 5.59 KC012N-ND 2.29 1.93 1.33 1.14 RL2007-32.8-59-D125 5.53 6.5 5.59 KC011N-ND◆ 2.29 1.93 1.33 1.14 RL2004-16.4-59-D15 5.53 10.0 12.19 KC024N-ND◆ 2.43 2.19 1.73 1.37 RL4504-3.28-59-D11K 6.85 2.8 2.79 KC003N-ND◆ 2.86 2.58 2.03 1.61 RL1007-624-73-D1500 6.85 2.5 2.79 KC002N-ND◆ 2.86 2.58 2.03 1.61 RL1003-312-73-D1300 6.85 6.5 5.59 KC015N-ND◆ 2.08 1.87 1.48 1.17 RL2008-187-73-D1200 6.85 6.5 5.59 KC014N-ND◆ 2.08 1.87 1.48 1.17 RL2006-125-73-D1100 6.85 6.5 5.59 KC013N-ND◆ 2.08 1.87 1.48 1.17 RL2003-62.4-73-D150 6.85 7.5 9.40 KC022N-ND 2.15 1.94 1.53 1.21 RL3504-31.2-73-D110K 9.60 2.5 2.79 KC025N-ND◆ 2.86 2.58 2.03 1.61 RL1005-5744-103-D15K 9.10 2.5 2.79 KC005N-ND◆ 2.86 2.58 2.03 1.61 RL1004-2910-97-D13K 9.10 2.5 2.79 KC004N-ND◆ 2.86 2.58 2.03 1.61 RL1003-1746-97-D12K 9.10 6.5 5.59 KC017N-ND◆ 2.08 1.88 1.48 1.17 RL2007-1164-97-D11K 9.10 6.5 5.59 KC016N-ND 2.08 1.88 1.48 1.17 RL2004-582-97-D110K 11.41 7.2 5.59 KC018N-ND◆ 5.15 4.64 3.65 2.90 RL2012-5506-120-D1100K 12.90 2.7 2.79 KC009N-ND 3.09 2.78 2.19 1.74 RL1006-53.4K-140-D150K 12.90 2.5 2.79 KC008N-ND◆ 3.09 2.78 2.19 1.74 RL1003-26.7K-140-D1100K 13.82 6.5 5.59 KC020N-ND◆ 2.38 2.14 1.69 1.34 RL2008-52.3K-155-D1◆ RoHS Compliant ▲ Resistance Ratio – ratio of zero power resistance @ 0°C to zero power resistance@ 50°C; AWG ◊ D.C. – Dissipation Constant (MW/°C)NTC ThermistorsMA100 Series38.10These biomedical thermistor chips and subassemblies are designed to beinterchangeable over a 0°C ~ 50°C range (see table). Best overall stabilityis maintained when exposure and storage temperatures remain below 70°C.Tolerance Code (°C)Temperature 235-1060/ 235-1061/ 235-1062/Range 235-1064-ND 235-1065-ND 235-1063-ND0°C ~ 20°C ±.15 ±.2 ±.2520°C ~ 35°C ±.1 ±.15 ±.235°C ~ 39°C ±.05 ±.1 ±.1539°C ~ 42°C ±.075 ±.15 ±.242°C ~ 45°C ±.1 ±.15 ±.245°C ~ 50°C ±.15 ±.2 ±.25Resistance@ 25°C (Ω)Digi-KeyPart No.9.53Price Each1 10 1002252 : 1.7810 k : 0.7760.9AGE SensingPart No.10K 235-1060-ND 15.90 12.53 9.94 MA100GG103A10K 235-1064-ND 15.90 12.53 9.94 MA100BF103A10K 235-1061-ND 8.61 6.79 5.39 MA100GG103B10K 235-1065-ND 8.61 6.79 5.39 MA100BF103B10K 235-1062-ND 7.77 6.12 4.86 MA100GG103C2252 235-1063-ND◆ 7.77 6.12 4.86 MA100GG232C◆ RoHS Compliant(Continued)192 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

MC65 SeriesNTC Thermistors (Cont.)These thermistors are epoxy-coated for stability and have a maximumdiameter of .065” (1.65mm). Standard leads are 3” (76.20mm) of 38 gauge,nickel alloy, bifilar, heavy isomid insulated wire. Each unit tracks a specifiedcurve over the temperature range of 0°C ~ 50°C (see table).TemperatureTolerance Code (°C)Range 235-1057-ND 235-1058-ND 235-1059-ND0°C ~ 20°C ±.15 ±.2 ±.2520°C ~ 35°C ±.1 ±.15 ±.235°C ~ 39°C ±.05 ±.1 ±.1539°C ~ 42°C ±.075 ±.15 ±.242°C ~ 45°C ±.1 ±.15 ±.245°C ~ 50°C ±.15 ±.2 ±.25Ø.106.3576.2Resistance Digi-KeyPrice EachGE Sensing@ 25°C (Ω) Part No.1 10 100 Part No.10K 235-1057-ND 11.08 9.96 7.85 MC65F103A10K 235-1058-ND 7.90 7.10 5.60 MC65F103B10K 235-1059-ND 8.33 7.50 5.90 MC65F103CNHQ SeriesSMT Chip 1206These devices are ceramic chip thermistors with a negativetemperature coefficient of resistance intended for surfacemount applications. The electrode material is palladium silver,nickel-plated with a solder-plated covering. The ceramicbetween the electrodes is glass covered.Ø1.65ResistanceCut TapeTape & Reel†@ 25°C Digi-KeyPrice EachPricing GE Sensing(Ω) Part No.1 10 100 3,000 Part No.3K 235-1108-1-ND 2.64 2.31 1.82 990.00/M NHQ302B410T1010K 235-1109-1-ND◆ 2.86 2.50 1.97 1460.00/M NHQ103B375T1015K 235-1110-1-ND 2.64 2.31 1.82 990.00/M NHQ153B400T1050K 235-1111-1-ND◆ 2.64 2.31 1.82 990.00/M NHQ503B400T10150K 235-1113-1-ND 2.64 2.31 1.82 — NHQ154B425T10500K 235-1114-1-ND◆ 3.31 2.90 2.28 1241.10/M NHQ504B435T10◆ RoHS Compliant † For Tape and Reel part number, change 1-ND to 2-ND.NHQM SeriesSMT Chip 0805These devices are ceramic chip thermistors with a negativetemperature coefficient of resistance intended for surfacemount applications. The electrode material is palladiumsilver, nickel-plated with solder-plated covering. The ceramicbetween the electrodes is glass covered.Resistance@ 25°C(Ω)Digi-KeyPart No.1Cut TapePrice Each10 100Tape & Reel†Pricing3,000GE SensingPart No.3K 235-1115-1-ND 2.57 2.25 1.77 1284.00/M NHQM302B410T1010K 235-1116-1-ND◆ 2.57 2.25 1.77 1284.00/M NHQM103B375T1015K 235-1117-1-ND 2.57 2.25 1.77 1284.00/M NHQM153B400T1050K 235-1118-1-ND 2.57 2.25 1.77 1284.00/M NHQM503B415T10100K 235-1119-1-ND◆ 2.57 2.25 1.77 1284.00/M NHQM104B425T10◆ RoHS Compliant † For Tape and Reel part number, change 1-ND to 2-ND.DK SeriesThe DK range of DO-35 packaged NTC thermistors is designed fortemperature measurement and control in applications which demandcost effective reliability. The hermetically-sealed construction combinesthe advantages of high temperature operation and high reliability of glassbead types with the closer tolerances associated with chip devices. Theglass encapsulation offers the additional benefit of high voltage insulation.Applications: Resistance@ 25°C (Ω)Digi-KeyPart No.®®1.21.31.61.25Ø0.5Price Each1 10 100113.22.0Ø2.027.0 27.04.2GE SensingPart No.5K 235-1103-ND 4.36 3.76 2.58 DKA502N510K 235-1104-ND 4.36 3.76 2.58 DKF103N520K 235-1105-ND 4.36 3.76 2.58 DKF203N530K 235-1106-ND 4.36 3.76 2.58 DKF303N550K 235-1107-ND 4.36 3.76 2.58 DKF503N5Standard Thermistorsfor Temperature MeasurementAccuracy ±1°C (0°C ~ 120°C)Specifications:Resist ance@ 25°C(Ω)Dim. AMax.(mm)D.C. T.C. Digi-KeymW/°C Sec. Part No.Price Each1 10 10038.10AGE SensingPart No.1K 8.13 3.5 30 KC001E-ND 2.94 2.65 2.09 RL3005-574.0-103-SA2K 5.59 2.5 20 KC002E-ND 2.83 2.55 2.01 RL2005-1148-103-SA2.786K 5.59 2.5 20 KC003E-ND 2.83 2.55 2.01 RL2006-1600-103-SA3K 5.59 2.5 20 KC004E-ND 2.83 2.55 2.01 RL2007-1723-103-SA5K 2.79 1.0 10 KC005E-ND 3.65 3.28 2.59 RL1003-2871-103-SA10K 2.79 1.0 10 KC006E-ND 3.65 3.28 2.59 RL1005-5744-103-SAMiniature Sensors1°C Accuracy 28.70Specifications:ResistancatureTemper-@ 25°C Coef.(Ω) %/°C @25°CMaterialDigi-KeyPart No.6.35 5.082.41EPOXY AWG # 30, NICKELINSULATED TEFLON INSULATEDPrice Each1 10 100 250GE SensingPart No.2K -3.83 MS73 KC001T-ND 3.23 2.91 2.29 1.82 RL0503-1248-73-MS5K -4.43 MS95 KC002T-ND 3.23 2.91 2.29 1.82 RL0503-2890-95-MS10K -4.40 MS97 KC003T-ND 3.23 2.91 2.29 1.82 RL0503-5820-97-MS30K -4.32 MS96 KC004T-ND 3.23 2.91 2.29 1.82 RL0503-17.56K-96-MS50K -4.84 MS120 KC005T-ND 3.23 2.91 2.29 1.82 RL0503-27.53K-120-MS100K -4.78 MS122 KC006T-ND 3.23 2.91 2.29 1.82 RL0503-55.36K-122-MSGlass Encapsulated NTC ThermistorsGlass encapsulated NTC thermistors are tiny pellets ofthermistor material hermetically sealed in glass bodies witha controlled amount of selected atmosphere.The hermetic seal makes these parts extre mely stable inapplications up to 204°C (400°F)Specifications:Tinned24 AWG29.21 29.213.94 Ø1.91TemperatureRo @25°C Coef.Digi-KeyPrice EachGE Sensing(Ω) %/°C @25°C Material Part No. 1 10 100 250 Part No.250 -3.34 GE55‡ KC001G-ND 3.25 2.93 2.31 1.83 AL03006-165.9-55-G1500 -3.34 GE55‡ KC002G-ND 3.25 2.93 2.31 1.83 AL03006-331.8-55-G11K -3.83 GE73 KC003G-ND 3.25 2.93 2.31 1.83 AL03006-624-73-G12K -3.83 GE73 KC004G-ND 3.25 2.93 2.31 1.83 AL03006-1248-73-G12.786K -4.68 GE101 KC005G-ND 3.25 2.93 2.31 1.83 AL03006-1576-101-G13K -3.85 GE76 KC006G-ND 3.25 2.93 2.31 1.83 AL03006-1847-76-G14K -3.85 GE76 KC007G-ND 3.25 2.93 2.31 1.83 AL03006-2463-76-G15K -3.85 GE76 KC008G-ND 3.25 2.93 2.31 1.83 AL03006-3079-76-G110K -4.41 GE97A KC009G-ND 3.25 2.93 2.31 1.83 AL03006-5818-97-K-R20K -4.34 GE98 KC010G-ND 3.25 2.93 2.31 1.83 AL03006-11.7K-98-G130K -4.34 GE98 KC011G-ND 3.25 2.93 2.31 1.83 AL03006-17.53K-98-G150K -4.32 GE97B KC012G-ND 3.25 2.93 2.31 1.83 AL03006-29.1K-97-G1100K -4.32 GE97B KC013G-ND 3.25 2.93 2.31 1.83 AL03006-58.2K-97-G1200K -4.71 GE123 KC014G-ND 3.25 2.93 2.31 1.83 AL03006-111.3K-123-G1500K -4.99 GE138 KC015G-ND 3.25 2.93 2.31 1.83 AL03006-269.8K-138-G11M -5.07 GE145 KC016G-ND 3.25 2.93 2.31 1.83 AL03006-535K-145-G1‡ Maximum Operating Temperature: 150°CNEW! High Frequency NTC Chip Thermistor — HFT SeriesApplications: Ideal for compensating temperature drift in high frequency amplifier applications. Specifications: Tolerance: ±5% @ 25% OperatingFrequency: DC ~ 10GHz Operating Power (Max.): 500mW Operating Temperature Range: -40°C ~ 125°C®SizeCode0805Resist ance@ 25°CB Constant(DC R25 ~ Digi-KeyCut Tape Price Each Digi-KeyTape & ReelPricing Susumu(Ω)R50°C) Part No.1 10 100 Part No.250 Part No.15 1950 ±5% 408-1374-1-ND 20.25 13.77 11.55 408-1374-2-ND 2835.00 HFT1220-15R0-J30 2150 ±5% 408-1375-1-ND 20.25 13.77 11.55 408-1375-2-ND 2835.00 HFT1220-30R0-J40 2150 ±5% 408-1376-1-ND 20.25 13.77 11.55 408-1376-2-ND 2835.00 HFT1220-40R0-J50 2150 ±5% 408-1377-1-ND 20.25 13.77 11.55 408-1377-2-ND 2835.00 HFT1220-50R0-J60 2150 ±5% 408-1378-1-ND 20.25 13.77 11.55 408-1378-2-ND 2835.00 HFT1220-60R0-JNote: For more information, please see Digi-Key web site.1.25 ±0.22.0 ±0.230R0.9 max.0.4 ±0.2 0.4 ±0.2N®For Digi-Reel ® information, please see page 73.More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)193193

Multilayer Chip NTCThermistors (ERTJ)The Multilayer Chip NTC Thermistors are especially designed for surface mountings featuring theminiature sizes of “0201”, “0402” and “0603” type (EIA) with highly reliable multilayer and monolithicstructure. FEATURES:reflow soldering and excellent solder ability thanks to the unique external electrodes of three metallic 0201 Se ries: ap proximately1mw/°C, 0402 Series: approximately 2mw/°C and 0603 Se ries:Maximum Power Dissipation: 0201 Series: 33 mW, 0402 Series: 66 mW and 0603 Series: 100 mW®SMTTWL 1LL 2Size Code Dimensions (mm)(EIA) L W T L1 L20201 0.60 0.30 0.30 0.150402 1.00 0.50 0.50 0.250603 1.60 0.80 0.80 0.30NTC Thermistors1 and 2: Significant digit; 3: MultiplierødT øD lNZero-PowerResist.ResistanceB Value Digi-KeyCut TapePricing Tape and Reel† Panasonic(at 25°C) Tol. B25/50 B25/85 Part No.1 10 100 Qty. Pricing Part No.02012KΩ ±5% 4500K ±2% (4450K) P12020CT-ND .53 3.00 19.46 15,000 115.00/M ERT-JZET202J3KΩ ±5% 4500K ±2% (4450K) P12021CT-ND .53 3.00 19.46 15,000 115.00/M ERT-JZET302J4.7KΩ ±5% 4500K ±2% — P12805CT-ND .27 1.47 9.08 15,000 50.00/M ERT-JZET472J10KΩ ±5% — 3435K ±2% P12358CT-ND .25 1.37 8.47 15,000 47.00/M ERT-JZEG103JA47KΩ ±5% 4050K ±3% — P12359CT-ND .25 1.37 8.47 15,000 47.00/M ERT-JZEP473J100KΩ ±3% 4500K ±3% (4750K) P13700CT-ND .34 1.93 12.52 15,000 74.00/M ERT-JZEV104H100KΩ ±5% 4700K ±2% — P12360CT-ND .25 1.37 8.47 15,000 47.00/M ERT-JZEV104J040222Ω ±5% 2750K ±3% (2700K) P10557CT-ND .38 2.07 12.80 10,000 71.00/M ERT-J0EA220J33Ω ±5% 2750K ±3% (2700K) P10558CT-ND .38 2.07 12.80 10,000 71.00/M ERT-J0EA330J40Ω ±5% 2750K ±3% (2700K) P10559CT-ND .38 2.07 12.80 10,000 71.00/M ERT-J0EA400J47Ω ±5% 2750K ±3% (2700K) P10560CT-ND .38 2.07 12.80 10,000 71.00/M ERT-J0EA470J68Ω ±5% 2800K ±3% (2700K) P10561CT-ND .38 2.07 12.80 10,000 71.00/M ERT-J0EA680J100Ω ±5% 2800K ±3% (2750K) P10562CT-ND .38 2.07 12.80 10,000 71.00/M ERT-J0EA101J150Ω ±5% 2800K ±3% (2750K) P10563CT-ND .38 2.07 12.80 10,000 71.00/M ERT-J0EA151J1.0KΩ ±5% 4500K ±3% (4450K) P10564CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ET102J1.5KΩ ±5% 4500K ±3% (4450K) P10565CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ET152J2.0KΩ ±5% 4500K ±3% (4450K) P10566CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ET202J2.2KΩ ±5% 4500K ±3% (4450K) P10567CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ET222J3.0KΩ ±5% 4500K ±3% (4450K) P10568CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ET302J3.3KΩ ±5% 4500K ±3% (4450K) P10569CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ET332J4.7KΩ ±5% 4500K ±3% (4450K) P10570CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ET472J3.3KΩ ±5% 4250K ±3% (4300K) P10571CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ER332J4.7KΩ ±5% 4250K ±3% (4300K) P10572CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ER472J6.8KΩ ±5% 4250K ±3% (4300K) P10573CT-ND .33 1.81 11.19 10,000 62.00/M ERT-J0ER682J10KΩ ±5% 4250K ±3% (4300K) P10574CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0ER103J10KΩ ±1% (3375K) 3435K ±1% P12007CT-ND .59 3.42 23.42 10,000 146.00/M ERT-J0EG103FA10KΩ ±2% (3375K) 3435K ±1% P12008CT-ND .58 3.31 21.47 10,000 126.00/M ERT-J0EG103GA10KΩ ±3% 3900K ±2% (3970K) P13701CT-ND .39 2.20 14.31 10,000 84.00/M ERT-J0EM103H10KΩ ±3% 4250K ±2% (4300K) P13702CT-ND .39 2.20 14.31 10,000 84.00/M ERT-J0ER103H10KΩ ±3% (3375K) 3435K ±1% P12009CT-ND .49 2.76 17.89 10,000 105.00/M ERT-J0EG103HA10KΩ ±5% (3375K) 3435K ±1% P12010CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0EG103JA10KΩ ±5% 3900K ±2% — P12985CT-ND .26 1.43 8.80 10,000 49.00/M ERT-J0EM103J15KΩ ±5% 4250K ±3% (4300K) P10575CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0ER153J22KΩ ±5% 4250K ±3% (4300K) P10576CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0ER223J33KΩ ±5% 4050K ±2% — P13579CT-ND .59 3.45 23.62 10,000 147.00/M ERT-J0EP333J33KΩ ±5% 4250K ±3% (4300K) P10577CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0ER333J47KΩ ±5% 4700K ±3% (4750K) P10578CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0EV473J68KΩ ±5% 4700K ±3% (4750K) P10579CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0EV683J47KΩ ±5% 4050K ±2% (4100K) P11441CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0EP473J100KΩ ±2% 4700K ±2% (4750K) P13705CT-ND .54 3.03 19.68 10,000 116.00/M ERT-J0EV104G100KΩ ±3% 4500K ±2% (4580K) P13704CT-ND .39 2.20 14.31 10,000 84.00/M ERT-J0ET104H100KΩ ±3% 4700K ±2% (4750K) P13706CT-ND .39 2.20 14.31 10,000 84.00/M ERT-J0EV104H100KΩ ±5% 4250K ±2% (4300K) P13703CT-ND .49 2.74 17.82 10,000 105.00/M ERT-J0ER104J100KΩ ±5% 4330K ±2% — P13580CT-ND .59 3.45 23.62 10,000 147.00/M ERT-J0ES104J100KΩ ±5% 4500K ±2% — P12986CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0ET104J100KΩ ±5% 4700K ±2% (4750K) P11442CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0EV104J150KΩ ±5% 4500K ±2% — P13581CT-ND .59 3.45 23.62 10,000 147.00/M ERT-J0ET154J150KΩ ±5% 4700K ±2% (4750K) P11443CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0EV154J220KΩ ±5% 4700K ±2% (4750K) P11444CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0EV224J330KΩ ±5% 4700K ±2% (4750K) P11445CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0EV334J470KΩ ±5% 4700K ±2% (4750K) P11446CT-ND .35 1.94 12.00 10,000 66.00/M ERT-J0EV474J060322Ω ±5% 2750K ±3% (2700K) P10531CT-ND .44 2.48 16.10 4,000 106.00/M ERT-J1VA220J33Ω ±5% 2750K ±3% (2700K) P10532CT-ND .44 2.48 16.10 4,000 106.00/M ERT-J1VA330J40Ω ±5% 2800K ±3% (2750K) P10533CT-ND .44 2.48 16.10 4,000 106.00/M ERT-J1VA400J47Ω ±5% 2800K ±3% (2750K) P10534CT-ND .44 2.48 16.10 4,000 106.00/M ERT-J1VA470J68Ω ±5% 2800K ±3% (2750K) P10535CT-ND .44 2.48 16.10 4,000 106.00/M ERT-J1VA680J100Ω ±5% 2800K ±3% (2750K) P10536CT-ND .44 2.48 16.10 4,000 106.00/M ERT-J1VA101J1.0KΩ ±5% 4500K ±3% (4450K) P10537CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VT102J1.5KΩ ±5% 4500K ±3% (4450K) P10538CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VT152J2.0KΩ ±5% 4500K ±3% (4450K) P10539CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VT202J2.2KΩ ±5% 4500K ±3% (4450K) P10540CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VT222J3.0KΩ ±5% 4500K ±3% (4450K) P10541CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VT302J3.3KΩ ±5% 4250K ±3% (4300K) P10544CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VR332J3.3KΩ ±5% 4500K ±3% (4450K) P10542CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VT332J4.7KΩ ±5% 4500K ±3% (4450K) P10543CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VT472J4.7KΩ ±5% 4250K ±3% (4300K) P10545CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VR472J6.8KΩ ±5% 4250K ±3% (4300K) P10546CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VR682J10KΩ ±1% (3375K) 3435K ±1% P12011CT-ND .66 3.74 24.28 4,000 160.00/M ERT-J1VG103FA10KΩ ±2% (3375K) 3435K ±1% P12012CT-ND .61 3.46 22.44 4,000 147.00/M ERT-J1VG103GA10KΩ ±3% (3375K) 3435K ±1% P12013CT-ND .49 2.76 17.89 4,000 118.00/M ERT-J1VG103HA10KΩ ±3% 4250K ±2% (4300K) P13707CT-ND .47 2.64 17.17 4,000 96.00/M ERT-J1VR103H10KΩ ±5% (3375K) 3435K ±1% P12014CT-ND .40 2.25 14.59 4,000 96.00/M ERT-J1VG103JA10KΩ ±5% 4250K ±3% (4300K) P10547CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VR103J15KΩ ±5% 4250K ±3% (4300K) P10548CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VR153J22KΩ ±5% 4250K ±3% (4300K) P10549CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VR223J33KΩ ±5% 4250K ±3% (4300K) P10550CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VR333J47KΩ ±5% 4250K ±3% (4300K) P10551CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VR473J47KΩ ±5% 4050K ±2% (4100K) P12015CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VP473J47KΩ ±5% 4700K ±3% (4750K) P10553CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VV473J68KΩ ±5% 4250K ±3% (4300K) P10552CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VR683J68KΩ ±5% 4700K ±3% (4750K) P10554CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VV683J100KΩ ±1% (4330K) 4390K ±1% P12016CT-ND .64 3.76 25.72 4,000 174.00/M ERT-J1VS104FA100KΩ ±2% (4330K) 4390K ±1% P12017CT-ND .59 3.47 23.78 4,000 161.00/M ERT-J1VS104GA100KΩ ±3% (4330K) 4390K ±1% P12018CT-ND .49 2.76 17.89 4,000 118.00/M ERT-J1VS104HA100KΩ ±5% (4330K) 4390K ±1% P12019CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VS104JA100KΩ ±5% 4700K ±3% (4750K) P10555CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VV104J150KΩ ±5% 4700K ±3% (4750K) P10556CT-ND .39 2.20 14.31 4,000 94.00/M ERT-J1VV154J† For Tape and Reel part number, change CT-ND to TR-ND.®For Digi-Reel ® information, please see page 73.FEATURES:SPECIFICATIONS:Maximum Watt Rating: (W): PNT101-121 – 0.4; PNT128-138 – 0.6. Nominal TimeConstant (second): PNT101-121 – 20; PNT128-138 – 27.APPLICATIONS: a ture controllermunication equipment, AGC, time lagF Type Dimensions(mm) øD T I W ødPNT101 ~ PNT121 (D2) 5.0 ±0.5 1.3 ±0.5 30 min. 2.5 ±1 0.4PNT128 ~ PNT138 (D3) 7.5 ±0.5 1.4 ±0.5 30 min. 5 ±1 0.5Res.at25°C(Ω)Temp.Coef.(25°C)%/°CUses standard resistance color codes.321Res.RatioR25/ Digi-KeyR50 Part No.Price Each1 10 100PanasonicPart No.40 -3.9 2.48 PNT101-ND◆ .78 .46 .32 ERT-D2FFL400S250 -4.2 2.62 PNT108-ND◆ .78 .46 .32 ERT-D2FGL251S300 -4.2 2.62 PNT109-ND .78 .46 .31 ERT-D2FGL301S1,400 -4.4 2.76 PNT114-ND◆ .78 .46 .31 ERT-D2FGL142S33,000 -5.1 3.22 PNT121-ND◆ .78 .46 .31 ERT-D2FHL333S30 -3.7 2.30 PNT128-ND 1.63 1.40 .93 ERT-D3FFL300S40 -3.2 2.30 PNT130-ND 1.63 1.40 .93 ERT-D3FFL400S75 -4.2 2.62 PNT131-ND 1.63 1.40 .93 ERT-D3FGL750S80 -4.2 2.62 PNT132-ND 1.63 1.40 .93 ERT-D3FGL800S130 -4.5 2.62 PNT134-ND 1.63 1.40 .93 ERT-D3FGL131S500 -4.6 2.83 PNT135-ND 1.63 1.40 .93 ERT-D3FGL501S4,000 -4.6 2.90 PNT136-ND 1.63 1.40 .93 ERT-D3FHL402S80,000 -5.6 3.70 PNT138-ND◆ 1.63 1.40 .93 ERT-D3FIL803S◆ RoHS CompliantW194 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

NVE CORPORATIONGT Sensors for Gear Tooth ApplicationsNVE’s GT Sensor products are designed for industrial speed sensing where magnetic detectionof gear teeth and magnetic encoder wheels with large air gaps are required. GT Sensors withboth analog and digital outputs are available. All parts operate down to zero speed. The analogparts feature varied spacing of the sensor elements on the IC to provide usable output signals for even thesmallest gear teeth. Single bridges provide speed information, and dual bridges provide speed and direction.The digital sensors take advantage of the GMR sensor element’s superior magnetic performance to providea 50% duty cycle output over variations in voltage and temperature.Features:Single or ElementDual SpacingDigi-KeyPrice Each NVEBridge (mm) Output Part No.1 10 25 Part No.Single 1 Analog 391-1055-5-ND† 4.11 3.09 2.74 ABL004-00ESingle 0.5 Analog 391-1056-5-ND† 4.11 3.09 2.74 ABL005-00EDual 1 Analog 391-1057-5-ND† 4.95 3.72 3.30 ABL014-00EDual 0.5 Analog 391-1058-5-ND† 4.95 3.72 3.30 ABL015-00ESingle 1 Digital 391-1064-1-ND‡▲ 6.13 5.25 4.38 AKL001-12ESingle 1 Digital 391-1064-2-ND‡§ 6562.50/2,500 AKL001-12E† 8-MSOP ‡ TDFN8-SO8 § Tape and Reel ▲ Cut TapeAFL Series - Low Power Digital Switch PartsFeaturing low magnetic field operate points and very low power consumption, the AFL seriesdigital switch sensors are the first high precision digital magnetic sensors suitable for continuousoperation in battery powered applications. Precise magnetic operate points of 10 Gauss aremaintained, along with operating voltages down to 0.9V. Current sinking and current sourcing outputs areavailable.Features:OperatingTemperatureDigi-KeyPrice Each NVEVolt. Range Output Bridge Part No.1 10 25 Part No.Digital Switches1.3 -20°C ~ 85°C Xistor Single 391-1039-5-ND◊ 9.72 7.29 6.48 AFL000-00E◊ 8-MSOPGMR Digital Magnetic SensorsFeatures: Absolute Maximum Ratings Field: Unlimited OerstedsDirection of OutputDigi-KeyPrice Each NVESensitivity Sensitivity Type Package Part No. 1 10 25 Part No.20 Gauss Cross Axis Source and Sink 8-TSSOP 391-1013-ND 3.81 2.86 2.54 AD221-00GMR Analog Magnetic Field SensorsNVE's Giant Magnetoresistive Field Sensors offer unique and unparalleled magnetic sensing cap abilities.The high sensitivity and ability to sense static magnetic fields provide superior performance which sets themapart from other sensors on the market today. NVE's sensors provide high sensitivity, temp erature stability,low power consumption, and small size.Features: typical for AA006, 2K typical for AAHSaturationField (Oe)SpecifiedLinearRange OeSensitivity(mV/V/Oe) Digi-KeyPrice EachMin. Max. Min. Max. Part No.1 10 25GMR Sensor Evaluation KitsNVEPart No.15 1.5 10.5 3 4.2 391-1045-5-ND◆‡ 14.58 10.94 9.72 AA002-02E20 2 14 2 3.2 391-1048-5-ND◆‡ 8.34 6.26 5.56 AA003-02E50 5 35 0.9 1.3 391-1049-5-ND◆◊ 8.10 6.08 5.40 AA004-00E50 5 35 0.9 1.3 391-1050-5-ND◆‡ 8.10 6.08 5.40 AA004-02E100 10 70 0.45 0.65 391-1002-ND‡ 8.10 6.08 5.40 AA005-02100 10 70 0.45 0.65 391-1052-5-ND◆‡ 8.10 6.08 5.40 AA005-02E50 5 35 0.9 1.3 391-1054-5-ND◆‡ 13.71 10.29 9.14 AA006-02E6 0.6 3.0 11 18 391-1046-5-ND◆‡ 14.58 10.94 9.72 AAH002-02E15 1.5 7.5 3.2 4.8 391-1051-5-ND◆◊ 8.10 6.08 5.40 AAH004-00E15 1.5 10.5 3 4.2 391-1047-5-ND◆‡ 14.58 10.94 9.72 AAL002-02E◆ RoHS Compliant ‡ 8-SOIC ◊ 8-MSOPAG001-01: This kit features several types of NVE’s AA and AB Series parts, a selection of permanentmagnets for activation or bias purposes, and circuit boards to mount the parts for testing purposes. Alsoincluded is a copy of NVE’s catalog and applications notes on CD ROM.AG003-01: Facilitates laboratory experimentation and development using GMR current sensors. The kitconsists of (4) NVE current sensors (PN AA003-02) assembled to printed circuit board (PN AG002-01). ThePCB has (4) trace geometries to simulate various PCB current sensor configurations.AG910-07: Includes over 15 different GMR switch digital magnetic sensors with different operating pointsand different output configurations (current sink and current source). Magnets, circuit boards, a ZIF socketfor easy testing, and NVE’s catalog and application notes on CD ROM are included.AG920-07: Kit includes analog and digital versions of the GT Sensor products, for gear tooth sensingapplications. A large variety of circuit boards and magnets are included for bench testing purposes, alongwith NVE’s catalog and application notes on CD ROM.DescriptionDigi-KeyPart No.PriceEachNVEPart No.Analog Sensor Evaluation Kit 391-1059-ND◆ 120.00 AG001-01ECurrent Sensor Evaluation Kit 391-1060-ND◆ 86.00 AG003-01EGMR Switch Evaluation Kit 391-1044-ND 180.00 AG910-07GT Sensor Evaluation Kit 391-1063-ND◆ 130.00 AG920-07E◆ RoHS CompliantFloat SensorsLiquid level sensors are cost effective sensors for detecting the presence or absence of liquids. Perfect for vending machines, commercial washingmachines, evaporator units and any upper and lower liquid level sensing applications. Horizontal sensors can be turned 180 degrees for oppositedetection. UL approved E171218.Dimensions in Inch (mm)Fig. 1 NEW! Fig. 2 NEW! Fig. 3 NEW! Fig. 4Fig. 5 NEW!Fig. 60.2 (6) max.Tank WallNylon NutGasket SealAdjustableCounterweight/PivotMust closelevel1.7Must open2.9(44)0.5 (12.5)level(74.0)Float TravelTop or Bottom MountTank Level SensorFig. Description MaterialContactRatingDigi-KeyPart No.NEW! Liquid Flow Switch NEW!Price Each1 10 50Cynergy3Part No.Flow Switch, .53GPM Trip, Std. Flow SPST-N/O 15mm Diameter Acetal Resin 1.0A 725-1069-ND 17.73 16.88 16.03 FS15A1 Flow Switch, .24GPM Trip, Low Flow SPST-N/O 15mm Diameter Acetal Resin 1.0A 725-1070-ND 19.08 18.16 17.25 FS15LFFlow Switch, .99GPM Trip, High Flow SPST-N/O 22mm Diameter Acetal Resin 1.0A 725-1071-ND 18.61 17.72 16.83 FS22ANEW! Horizontal Mount Sensors NEW!Float Switch, Horizontal Mount, Hot Liquid Type, 47mm Stainless Steel 0.5A 725-1077-ND 62.44 59.45 56.46 SSF212X100Float Switch N/O 100VA, 94mm Black Nylon 5A 725-1059-ND 17.38 16.54 15.72 RSF33W100RCFloat Switch Horizontal SPST, 94mm Poly Prop 5A 725-1060-ND 18.41 17.53 16.64 RSF34W100RF2 Float Switch PPS N/O 50CM LEAD, 88mm Grey PPS 0.6A 725-1061-ND 17.04 16.22 15.40 RSF46Y050TGFloat Switch External Mount N/O, 90mm Grey PPS 0.6A 725-1064-ND 16.32 15.53 14.75 RSF86Y050TFloat Switch Horizontal .6A NO/NC SPDT, 90mm Grey PPS 0.6A 725-1010-ND 14.83 14.12 13.41 RSF86Y100RFloat Switch N/O 50CM, 88mm Poly Sulphide 0.6A 725-1063-ND 17.83 16.97 16.12 RSF76Y050TVFloat Switch, Horizontal Mount, Hot Liquid Type, 39” Leads, 102.5mm Poly Prop 0.6A CC1561-ND 16.42 15.63 14.84 RSF14Y100RF3 Float Switch, Horizontal Mount, Hot Liquid Type, 39” Leads, 102.5mm Grey PPS 0.6A CC1562-ND 18.61 17.73 16.83 RSF16Y100RFFloat Switch Horizontal Mount, Hot Liquid Type, 102.5mm Grey PPS 0.6A 725-1058-ND 20.48 19.50 18.51 RSF16Y050TGVertical Mount SensorsFloat Switch, Single Switch Type, 1/8” NPT Black Nylon 0.6A 725-1016-ND 13.73 13.07 12.41 RSF53Y100R1/84 Float Switch, Single Switch Type, 1/8” NPT Grey PPS 0.6A 725-1018-ND 16.38 15.59 14.81 RSF56Y100R1/8Float Switch PPS N/O 50cm Grey PPS 0.6A 725-1062-ND NEW! 18.04 17.17 16.30 RSF56Y050TBFloat Switch, Dual Switch, 127mm Grey PPS 0.6A 725-1072-ND NEW! 35.64 33.94 32.23 RSF66A25B100Float Switch, Dual Switch, 152mm Grey PPS 0.6A 725-1073-ND NEW! 35.64 33.94 32.23 RSF66A25B125Float Switch, Dual Switch, 177mm Grey PPS 0.6A 725-1074-ND NEW! 35.64 33.94 32.23 RSF66A25B1505Float Switch, Dual Switch, 202mm Grey PPS 0.6A 725-1075-ND NEW! 35.64 33.94 32.23 RSF66A25B175Float Switch, Dual Switch, 120mm Grey PPS 0.6A 725-1076-ND NEW! 35.64 33.94 32.23 RSF66A25B75Float Switch, Dual 134mm Grey PPS 0.6A 725-1065-ND NEW! 39.78 37.87 35.97 RSF66A50A100Float Switch, Dual 184mm Grey PPS 0.6A 725-1066-ND NEW! 39.78 37.87 35.97 RSF66A50A150Float Switch, Dual Vertical 177mm Grey PPS 0.6A 725-1068-ND NEW! 39.78 37.87 35.97 RSF66B50B150Cable Mount Tank Sensors6 Turbulant Liquids, SPST-NC, with 5m Cable, WRAS Approved Poly 10A 725-1025-ND 74.02 70.47 66.93 FFSMC10BNMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)195195

MicroTouch Capacitive Touch Screens and AccessoriesClearTek II Capacitive Touch ScreensFeatures: ±1.5%) provides vibrant optical characteristics withoptimal anti-glare properties scratch resistance Note: For detailed specifications, please see our website.Size Flex Tail Digi-KeyPrice Each3M(Inch) Length (Inch) Part No.1 10 50 Part No.6.714 3M5519-ND 98.60 84.10 77.14 17-8091-2038 3M5747-ND 98.60 84.10 77.14 17-8091-2058.75 4 3M5520-ND 102.00 87.00 79.80 17-8921-20310.834 3M5521-ND 103.70 88.45 81.13 17-8021-2038 3M5744-ND 103.70 88.45 81.13 17-8021-20512.314 3M5522-ND 125.80 107.30 98.42 17-8581-2038 3M5754-ND 125.80 107.30 98.42 17-8581-20515.684 3M5523-ND 168.30 143.55 131.67 17-8031-2038 3M5745-ND 156.09 133.14 122.13 17-8031-20517.544 3M5524-ND 174.40 152.60 141.70 17-8421-2038 3M5748-ND 176.80 150.80 138.32 17-8421-20519.754 3M5525-ND 184.00 161.00 149.50 17-8511-2038 3M5752-ND 183.60 156.60 143.64 17-8511-20520.654 3M5526-ND 192.00 168.00 156.00 17-8441-2038 3M5750-ND 198.90 169.65 155.61 17-8441-20531.80 8 3M5527-ND 332.32 290.78 270.01 17-8951-205ControllersInterfaceSensorSupportDigi-KeyPart No.1Price Each10 50EX II Capacitive Controllers3MPart No.USB ClearTek II 3M9138-ND 66.71 56.90 52.19 EXII-7760UCUSB 1x2 ClearTek II 3M9137-ND 66.71 56.90 52.19 EXII-7769UCSerial ClearTek II 3M5540-ND 66.71 56.90 52.19 EXII-7720SCMicroTouch SC Resistive ControllersUSB 4-Wire 3M5541-ND 36.00 32.40 23.40 SC401USerial 4-Wire 3M5542-ND 36.00 32.40 23.40 SC402SUSB 5-Wire 3M5543-ND 36.00 32.40 23.40 SC501USerial 5-Wire 3M5544-ND 36.00 32.40 23.40 SC502SUSB 8-Wire 3M5545-ND 36.00 32.40 23.40 SC801USerial 8-Wire 3M5546-ND 36.00 32.40 23.40 SC802SMicroTouch SC Series Resistive Chip Set— — 3M5547-ND 20.00 18.00 13.00 SCX-ASICUSB and Serial CablesDescriptionDigi-KeyPart No.Price Each1 10 50SC Series CablesClearTek II CapacitiveTouch Systems (with USB Controllers)Size Flex Tail Digi-KeyPrice Each3M(Inch) Length (Inch) Part No.1 10 50 Part No.15.68 8 3M9127-ND 230.64 196.73 180.45 17-8031-22617.54 8 3M9128-ND 248.20 211.70 194.18 17-8421-22620.65 8 3M9129-ND 268.82 229.29 210.32 17-8441-22619.75 8 3M9130-ND 255.37 217.82 199.80 17-8511-22626.28 8 3M9131-ND 521.90 445.15 408.31 17-8931-226Wide Aspect Ratio ClearTek IICapacitive Touch Systems (with USB Controllers)3MPart No.USB, 5 pin, 96” (Pearl) 3M5548-ND 18.00 16.20 11.70 7319420Serial, 8 pin, 96” (Teal) 3M5549-ND 18.00 16.20 11.70 7319630EX II Series CablesRS-232, 7 pin, 96” (Pearl) 3M5551-ND 14.00 12.60 9.10 7310101USB, 5 pin, 96” (Pearl) 3M5552-ND 14.00 12.60 9.10 7312256USB, 5 pin, 23” (Black) 3M5554-ND 16.00 14.40 10.40 7315050Mounting TapeVHB, 3/8” x 36 yards 3M5550-ND 61.20 52.20 47.88 24736NEW! Command Adhesive Strip NEW!.312” x 7.875” 3M9582-ND 11.25/8 101.25/80 180.00/160 98-0003-3222-5Size Flex Tail Digi-KeyPrice Each3M(Inch) Length (Inch) Part No.1 10 50 Part No.17.80 8 3M9133-ND 248.20 211.70 194.18 17-9241-22619.34 8 3M9134-ND 255.37 217.82 199.80 17-9251-22620.65 8 3M9135-ND 268.82 229.29 210.32 17-9261-22622.37 8 3M9136-ND 295.70 252.22 231.35 17-9311-22631.80 8 3M9132-ND 458.32 390.92 358.57 17-8951-226Infrared Touch ScreensE and K Series Infrared Touch Screens:Infrared technology uses infrared emitter-collector pairs to project an invisible grid of light a small distanceover the surface of the screen. When a beam is interrupted, the absence of the signal at the collector isdetected and converted to an X/Y touch coordinate.Features: Super Transparency High Resolution (Interpolated 4096 x 4096) Fast response time Ver satile TouchObject No Drift Scratch Resistant Water/Dust Resistant (IP65) Sunlight Operable IntegratedController Wide Temperature Range (-40°C ~ 70°C) Robust Design Long Life ExpectancyNOutsideDimensionsW x H x D (mm)Active AreaW x H(mm)SizeDigi-KeyPrice Each(Inch)PortPart No.1 10 50 100E Series6.4165.6 x 133 x 8.7 RS-232 130.6 x 98 653-1008-ND 91.80 86.40 81.00 75.60 E-64-C165.6 x 133 x 8.7 USB 130.6 x 98 653-1009-ND 91.80 86.40 81.00 75.60 E-64-U6.5169 x 136 x 9.1 RS-232 134 x 101 653-1010-ND 91.80 86.40 81.00 75.60 E-65-C169 x 136 x 9.1 USB 134 x 101 653-1011-ND 91.80 86.40 81.00 75.60 E-65-U8.4210.6 x 161.6 x 6.8 RS-232 171.6 x 128.6 653-1012-ND 117.50 110.60 103.68 96.77 E-84-C210.6 x 161.6 x 6.8 USB 171.6 x 128.6 653-1013-ND 117.50 110.60 103.68 96.77 E-84-U10.4244.2 x 191.4 x 6.8 RS-232 211.2 x 158.4 653-1014-ND 145.04 136.52 127.98 119.45 E-104-C244.2 x 191.4 x 6.8 USB 211.2 x 158.4 653-1015-ND 145.04 136.52 127.98 119.45 E-104-U12.1281.9 x 220.7 x 6.8 RS-232 246.4 x 185.2 653-1000-ND 163.40 153.80 144.18 134.57 E-12-C281.9 x 220.7 x 6.8 USB 246.4 x 185.2 653-1001-ND 163.40 153.80 144.18 134.57 E-12-U15.1342 x 266 x 6.8 RS-232 306 x 230 653-1002-ND 189.11 177.99 166.86 155.74 E-15-C342 x 266 x 6.8 USB 306 x 230 653-1003-ND 189.11 177.99 166.86 155.74 E-15-U17376 x 308 x 6.8 RS-232 340 x 272 653-1004-ND 212.98 200.45 187.92 175.40 E-17-C376 x 308 x 6.8 USB 340 x 272 653-1005-ND 212.98 200.45 187.92 175.40 E-17-U19414 x 339 x 6.8 RS-232 378 x 303 653-1006-ND 251.53 236.74 221.94 207.15 E-19-C414 x 339 x 6.8 USB 378 x 303 653-1007-ND 251.53 236.74 221.94 207.15 E-19-UK Series - Side Mount12327. 2 x 237.2 x 10.3 RS-232 246 x 185 653-1016-ND 189.11 177.99 166.86 155.74 K-12-C327. 2 x 237.2 x 10.3 USB 246 x 185 653-1017-ND 189.11 177.99 166.86 155.74 K-12-U15395 x 283.2 x 10.3 RS-232 307 x 231 653-1018-ND 218.48 205.64 192.78 179.93 K-15-C395 x 283.2 x 10.3 USB 307 x 231 653-1019-ND 218.48 205.64 192.78 179.93 K-15-U17429.2 x 331.2 x 11.0 RS-232 338.5 x 271 653-1020-ND 244.19 229.83 215.46 201.10 K-17-C429.2 x 331.2 x 11.0 USB 338.5 x 271 653-1021-ND 244.19 229.83 215.46 201.10 K-17-U19 460.2 x 352.1 x 11.0 RS-232 376.1 x 301.1 653-1022-ND 290.09 273.03 255.96 238.90 K-19-CIRTOUCH SystemsPart No.196 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

Infrared Photosensors and EmittersFig. 1 Fig. 2Fig. 3 Fig. 4 Fig. 5Orange(A)2 3Green(K)Blue(E)White(C)1 4142 3Reflective PhotosensorsFig.OutputTypeMin/MaxOutputIc @ IfOptimumSensingDistanceDigi-KeyPart No.Price Each1 10 100 5001 Transistor .6/3 @ 40mA 3.81mm Wires QRB1134-ND 1.81 1.61 1.04 .832 Transistor 1/5 @ 20mA 1.27mm Leads QRD1114-ND 1.48 1.32 1.04 .81Semiconductor Infrared Emitters (IRED LEDs)Fig.3TerminationForwardForwardMax.Volt. Current(V) (mA)MinimumPowerOutputBeamAngle+/-PeakWave-Length(nm)PackageTypeDigi-KeyPart No.Price Each1 10 100 5001.7 50 14mW/sr 8 940 T-1 QEC113-ND .48 .35 .23 .171.7 50 27mW/sr 8 880 T-1 QEC122-ND .51 .40 .29 .22Fig.45ForwardForwardMax.Volt. Current(V) (mA)MinimumPowerOutputBeamAngle+/-PeakWave-Length(nm)PackageTypeDigi-KeyPart No.Price Each1 10 100 5001.5 100 80mW/sr 9 880 T-1 3/4 QED123-ND .68 .49 .32 .231.7 100 16mW/sr 20 880 T-1 3/4 QED222-ND .68 .49 .32 .231.7 100 25mW/sr 20 880 T-1 3/4 QED223-ND .68 .49 .32 .231.5 100 10mW/sr 20 940 T-1 3/4 QED233-ND .49 .35 .23 .171.5 100 27mW/sr 20 940 T-1 3/4 QED234-ND .49 .35 .23 .171.5 50 3mW/sr 25 940 SIDELOOK QEE113-ND .54 .43 .31 .241.7 50 8mW/sr 25 880 SIDELOOK QEE123-ND .71 .56 .40 .31Remote Control Receivers®Fig. 1 Fig. 2 Fig. 3 Fig. 4Fig. 5Features: These remote control receiver modules are small sized, light-weightand low consumption. These modules have been achieved by using resin mold.Applications: All household electric appliances such as TV, DVD, air conditionerand audio equipment.Specifications: Output Current: 2.0mA Storage Temperature: -30°C ~ 100°C Operating Temperature: -10°C ~ 75°CFrequencyViewingOperatingSupply Digi-KeyPrice EachT&R†Pricing RohmFig. (kHz) Type Voltage Part No.1 25 100 2,500 Part No.5300 Series136.7 Side 3.0 RPM5337-H14E2ACT-ND‡ 2.10 1.60 1.26 1190.00/M RPM5337-H14E2A37.9 Side 3.0 RPM5338-H14E2ACT-ND‡ 2.10 1.60 1.26 1395.00/M RPM5338-H14E2A237.9 Top 3.0 RPM5338-H12E4ACT-ND‡ 2.10 1.60 1.26 1190.00/M RPM5338-H12E4A40.0 Top 3.0 RPM5340-H12E4ACT-ND‡ 2.10 1.60 1.26 1190.00/M RPM5340-H12E4A5500 Series136.7 Side 5.0 RPM5537-H14E2ACT-ND‡ 2.10 1.60 1.26 1135.00/M RPM5537-H14E2A37.9 Side 5.0 RPM5538-H14E2ACT-ND‡ 2.10 1.60 1.26 1190.00/M RPM5538-H14E2A36.7 Top 5.0 RPM5537-H12E4ACT-ND‡ 2.10 1.60 1.26 1135.00/M RPM5537-H12E4A2 37.9 Top 5.0 RPM5538-H12E4ACT-ND‡ 2.10 1.60 1.26 1190.00/M RPM5538-H12E4A40.0 Top 5.0 RPM5540-H12E4ACT-ND‡ 2.10 1.60 1.26 1395.00/M RPM5540-H12E4A7136 Series3 36.0 Top 5.0 RPM7136-H8R-ND 1.56 .89 .73 — RPM7136-H8R4 36.0 Top 5.0 RPM7136-H9R-ND 1.56 .89 .73 — RPM7136-H9R5 36.0 Top 5.0 RPM7136-H4R-ND 1.56 .89 .73 — RPM7136-H4R7137 Series3 36.7 Top 5.0 RPM7137-H8R-ND 1.56 .89 .73 — RPM7137-H8R5 36.7 Top 5.0 RPM7137-H4R-ND 1.56 .89 .73 — RPM7137-H4R7138 Series3 37.9 Top 5.0 RPM7138-H8R-ND 1.56 .89 .73 — RPM7138-H8R4 37.9 Top 5.0 RPM7138-H9R-ND 1.56 .89 .73 — RPM7138-H9R5 37.9 Top 5.0 RPM7138-H4R-ND 1.56 .89 .73 — RPM7138-H4RFrequencyViewingOperatingSupply Digi-KeyPrice EachT&R†Pricing RohmFig. (kHz) Type Voltage Part No.1 25 100 2,500 Part No.7140 Series3 40.0 Top 5.0 RPM7140-H8R-ND 1.56 .89 .73 — RPM7140-H8R4 40.0 Top 5.0 RPM7140-H9R-ND 1.56 .89 .73 — RPM7140-H9R5 40.0 Top 5.0 RPM7140-H4R-ND 1.56 .89 .73 — RPM7140-H4R7236 Series3 36.0 Top 3.0 RPM7236-H8-ND 1.21 .69 .56 — RPM7236-H8R5 36.0 Top 3.0 RPM7236-H4R-ND 1.62 .92 .75 — RPM7236-H4R7237 Series3 36.7 Top 3.0 RPM7237-H8R-ND 1.62 .92 .75 — RPM7237-H8R4 36.7 Top 3.0 RPM7237-H9R-ND 1.62 .92 .75 — RPM7237-H9R5 36.7 Top 3.0 RPM7237-H4R-ND 1.62 .92 .75 — RPM7237-H4R7238 Series3 37.9 Top 3.0 RPM7238-H8R-ND 1.89 1.07 .88 — RPM7238-H8R4 37.9 Top 3.0 RPM7238-H9R-ND 1.62 .92 .75 — RPM7238-H9R5 37.9 Top 3.0 RPM7238-H4R-ND 1.62 .92 .75 — RPM7238-H4R7240 Series3 40.0 Top 3.0 RPM7240-H8R-ND 1.62 .92 .75 — RPM7240-H8R4 40.0 Top 3.0 RPM7240-H9R-ND 1.62 .92 .75 — RPM7240-H9R5 40.0 Top 3.0 RPM7240-H4R-ND 1.62 .92 .75 — RPM7240-H4R† For Tape and Reel part number, change CT-ND to TR-ND. ‡ Cut TapeSemiconductorIrDA ® TransceiversSizeL x W x H(mm)6.8 x 2.8 x 1.66.8 x 2.8 x 1.6®OperatingVoltage(V)LinkDistance Digi-Key(m) Part No.Cut TapePrice Each Tape and Reel† Vishay1 10 100 Qty. Pricing Part No.Fig. 1 — IrDA 1.152 Mbit/s2.4 ~ 3.6 0 ~ ≥0.3 751-1064-1-ND 3.21 2.90 2.36 1,000 1499.00 TFBS4652-TR12.4 ~ 3.6 0 ~ ≥0.3 751-1065-1-ND 3.21 2.90 2.36 — — TFBS4652-TR3Fig. 1 — IrDA 115.2 Kbit/s2.4 ~ 3.6 0 ~ ≥0.3 751-1062-1-ND 3.21 2.90 2.36 1,000 1499.00 TFBS4650-TR12.4 ~ 3.6 0 ~ ≥0.3 751-1063-1-ND 3.21 2.90 2.36 — — TFBS4650-TR3For Digi-Reel ® information, please see page 73.®Fig. 1Fig. 2Size Operating LinkCut TapeL x W x H Voltage Distance Digi-KeyPrice Each Tape and Reel† Vishay(mm) (V) (m) Part No.1 10 100 Qty. Pricing Part No.2.4 ~ 5.5 0 ~ ≥0.5 751-1066-1-ND 3.39 2.91 2.38 1,000 1405.00 TFBS4711-TR16.0 x 3.1 x 1.9 2.4 ~ 5.5 0 ~ ≥0.5 751-1067-1-ND 3.06 2.76 2.25 2,500 1357.00/M TFBS4711-TR32.4 ~ 5.5 0 ~ ≥0.5 751-1068-1-ND 3.39 2.91 2.38 1,000 1405.00 TFBS4711-TT19.7 x 4.7 x 4.02.4 ~ 5.5 0 ~ ≥1.0 751-1070-1-ND 5.66 5.10 4.16 1,000 2642.00 TFDU4101-TR32.4 ~ 5.5 0 ~ ≥1.0 751-1071-1-ND 5.66 5.10 4.16 1,000 2642.00 TFDU4101-TT3Fig. 1 — IrDA 4 Mbit/s8.5 x 3.1 x 2.52.4 ~ 3.6 0 ~ ≥0.7 751-1082-1-ND 4.74 4.27 3.48 2,500 2103.00/M TFDU6300-TR32.4 ~ 3.6 0 ~ ≥0.7 751-1083-1-ND 4.74 4.27 3.48 2,500 2103.00/M TFDU6300-TT3Fig. 2 — IC SIR Endec IrDA 2.4 Kbit/s ~ 115.2 Kbit/s4.0 x 4.0 x 0.75 2.7 ~ 3.6 — 751-1491-1-ND NEW! 7.29 6.60 5.50 6,000 3438.00/M TOIM5232-TR310.4 x 10.3 x 2.4 2.7 ~ 3.6 — 751-1200-1-ND 7.29 6.60 5.50 1,500 3713.00/M TOIM4232-TR3† For Tape and Reel part number, change 1-ND to 2-ND.OMore Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)197197

OIrDA ® Receiver ModulesFeatures:Fig. 1 Fig. 2 Fig. 3 Fig. 4Supply Carrier Cut TapeVoltage Frequency Digi-KeyPrice Each Tape and Reel† VishayFig. (V) (kHz) Part No.1 10 100 Qty. Pricing Part No.12.7 ~ 5.5 38 751-1392-1-ND‡ 2.63 2.25 1.84 1,000 1088.00 TSOP853382.7 ~ 5.5 38 751-1391-1-ND‡ 2.52 2.16 1.77 2,500 972.00/M TSOP852382 2.7 ~ 5.5 38 751-1446-1-ND‡ 2.00 1.72 1.40 1,120 828.00/M TSOP36238TR2.5 ~ 5.5 38 751-1384-5-ND∆ 1.23 1.09 .86 — — TSOP323383 2.5 ~ 5.5 38 751-1385-5-ND∆ 1.23 1.09 .86 — — TSOP343382.5 ~ 5.5 38 751-1386-5-ND∆ 1.68 1.49 1.18 — — TSOP348382.5 ~ 5.5 38 751-1388-ND .91 .81 .64 — — TSOP383384 2.5 ~ 5.5 38 751-1390-5-ND∆ .91 .81 .64 — — TSOP393382.7 ~ 5.5 38 751-1389-ND .78 .69 .53 — — TSOP39238CZ1† For Tape and Reel part number, change 1-ND to 2-ND. ∆ Tube ‡ Cut TapeFig. 1Fig.1DetectingWindowSemiconductorB.P.F.fo(kHz) Typ.LRemote Control ReceiversSupply Voltage 2.4V ~ 5.5VFig. 2CurrentDissipationDim.L Digi-KeyIcc (mA) Max. (mm) Part No.Price Each Sharp1 10 100 Part No.Top 36.0 0.4 8.6 425-2511-ND◆ 1.08 .90 .72 GP1UE260RKVFTop 36.0 0.4 13.8 425-2654-ND◆ 1.08 .90 .72 GP1UE270RKVFTop 36.7 0.2 14.0 425-1121-ND 1.15 .97 .69 GP1UD272XKTop 36.7 0.2 18.0 425-1126-ND 1.15 .97 .69 GP1UD282XKTop 36.7 0.6 13.8 425-2520-ND◆ 1.13 .95 .68 GP1UM272RKVFTop 36.7 1.5 8.8 425-2008-ND◆ 1.35 1.13 .90 GP1UM262XK0FTop 36.7 1.5 13.8 425-2015-ND◆§◊ 1.35 1.13 .90 GP1UM272RK0FTop 36.7 1.5 13.8 425-2016-ND◆ 1.35 1.13 .90 GP1UM272XK0FTop 36.7 1.5 13.8 425-1141-ND§ 1.35 1.13 .90 GP1UM272RKTop 36.7 1.5 13.8 425-1142-ND 1.13 .95 .68 GP1UM272XKTop 36.7 1.5 17.8 425-1150-ND§ 1.13 .95 .68 GP1UM282RKTop 36.7 1.5 17.8 425-2024-ND◆§◊ 1.35 1.13 .90 GP1UM282RK0FTop 36.7 1.5 17.8 425-2025-ND◆ 1.35 1.13 .90 GP1UM282XK0FTop 38.0 0.4 8.6 425-2512-ND◆ 1.08 .90 .72 GP1UE261RKVFTop 38.0 0.4 13.8 425-2515-ND◆ .90 .76 .54 GP1UE271RKVFTop 38.0 0.4 17.8 425-2517-ND◆ .90 .76 .54 GP1UE281RKVFTop 38.0 0.4 17.8 425-2518-ND◆ 1.08 .90 .72 GP1UE281XKVFTop 38.0 0.4 17.8 425-2522-ND◆ 1.13 .95 .68 GP1UM281XKVFTop 38.0 0.6 8.6 425-1994-ND◆◊ 1.13 .95 .76 GP1UE261XK0FTop 38.0 0.6 13.8 425-1997-ND◆◊ 1.08 .90 .72 GP1UE271XK0FTop 38.0 0.6 13.8 425-2610-ND◆ 1.35 1.13 .90 GP1UM271RKVFTop 38.0 0.6 13.8 425-2611-ND◆ 1.35 1.13 .90 GP1UM271XKVFTop 38.0 0.6 17.8 425-2000-ND◆◊ 1.14 .95 .76 GP1UE281XK0FTop 38.0 1.5 8.8 425-2007-ND◆ 1.35 1.13 .90 GP1UM261XK0FTop 38.0 1.5 8.8 425-2006-ND◆§◊ 1.35 1.13 .90 GP1UM261RK0FTop 38.0 1.5 13.8 425-2013-ND◆§◊ 1.35 1.13 .90 GP1UM271RK0FTop 38.0 1.5 13.8 425-2014-ND◆◊ 1.35 1.13 .90 GP1UM271XK0FTop 40.0 0.2 14.0 425-1985-ND◆◊ 1.15 .97 .69 GP1UD27XK00FTop 40.0 0.2 18 425-1992-ND◆◊ 1.15 .97 .69 GP1UD28XK00FTop 40.0 0.4 8.6 425-2513-ND◆ 1.08 .90 .72 GP1UE26RK0VFTop 40.0 0.4 8.6 425-2514-ND◆ 1.08 .90 .72 GP1UE26XKOVFTop 40.0 0.4 15.8 425-2521-ND◆ 1.13 .95 .68 GP1UM27XK0VFTop 40.0 0.4 17.8 425-2526-ND◆ 1.13 .95 .68 GP1UM28XK0VFTop 40.0 0.6 8.6 425-1996-ND◆◊ 1.08 .90 .72 GP1UE26XK00FTop 40.0 0.6 13.8 425-1999-ND◆◊ 1.13 .95 .76 GP1UE27XK00FTop 40.0 0.6 14.0 425-1904-ND .90 .76 .54 GP1UE27XKTop 40.0 1.5 8.8 425-2012-ND◆◊ 1.35 1.13 .90 GP1UM26XK00FTop 40.0 1.5 8.8 425-2011-ND◆§◊ 1.35 1.13 .90 GP1UM26RK00FTop 40.0 1.5 13.8 425-2019-ND◆§◊ 1.35 1.13 .90 GP1UM27RK00FTop 40.0 1.5 13.8 425-2020-ND◆◊ 1.35 1.13 .90 GP1UM27XK00FTop 40.0 1.5 13.8 425-1145-ND§ 1.13 .95 .68 GP1UM27RKTop 40.0 1.5 13.8 425-1146-ND 1.13 .95 .68 GP1UM27XK®For Digi-Reel ® information, please see page 73.LFig. 3L®®Fig.123DetectingWindow◆ RoHS Compliant ◊ Tray § With meshIrDA ® Transceiver ModulesSharp’s opto-wireless transceiver module is compatible with IrDA standard.Applications:Data TransferCut Tape Tape and Reel†Vcc Rate Digi-KeyPrice EachPricing Sharp(V) SIR (kbps) Part No.1 10 100 2,000 Part No.IrDA 115 Kbit/s, 20cm1.7 ~ 2.52.4 ~ 115.2 425-1173-1-ND 3.20 2.56 2.12 1600.00/M GP2W0112YP2.4 ~ 115.2 425-2057-1-ND◆ 3.20 2.56 2.12 — GP2W0112YP0F2.7 ~ 5.5 2.4 ~ 115.2 425-2060-1-ND◆ 2.50 2.00 1.65 — GP2W0118YP0F◆ RoHS Compliant † For Tape and Reel part number, change 1-ND to 2-ND.IrDA ® TransceiverModulesZilog’s opto-wireless transceiver module is compatible with IrDA standard.Applications:DataVccTransferRate Digi-KeyCut TapePrice EachZilog(V) (kbps) Part No.1 25 100 Part No.2.4 ~ 3.6115.2 269-3862-1-ND 4.44 3.33 2.96 ZHX1223TB115THTR115.2 269-3821-1-ND 4.86 3.65 3.24 ZHX1423TA115THTR2.4 ~ 5.5 115.2 269-3244-1-ND 4.02 3.02 2.68 ZHX1820TV115XHTRSupplyVoltageB.P.F.fo(kHz) Typ.Data RateMaximumCurrentDissipationIcc (mA) Max.Digi-KeyPart No.Dim.L Digi-Key(mm) Part No.Price Each Sharp1 10 100 Part No.Top 40.0 1.5 17.8 425-2032-ND◆§◊ 1.35 1.13 .90 GP1UM28RK00FTop 40.0 1.5 17.8 425-2033-ND◆◊ 1.35 1.13 .90 GP1UM28XK00FTop 56.8 0.2 8.8 425-1980-ND◆◊ 1.15 .97 .69 GP1UD267XK0FTop 56.8 0.2 14.0 425-1122-ND 1.15 .97 .69 GP1UD277XKTop 56.8 0.2 18.0 425-1128-ND 1.15 .97 .69 GP1UD287XKTop 56.8 0.6 8.8 425-1900-ND .90 .76 .54 GP1UE267XKTop 56.8 0.6 14.0 425-1903-ND .90 .76 .54 GP1UE277XKTop 56.8 0.6 17.8 425-2525-ND◆ 1.13 .95 .68 GP1UM287RKVFTop 56.8 0.6 18.0 425-1907-ND .90 .76 .54 GP1UE287XKTop 56.8 1.5 8.8 425-2009-ND◆§◊ 1.35 1.13 .90 GP1UM267RK0FTop 56.8 1.5 8.8 425-2010-ND◆◊ 1.35 1.13 .90 GP1UM267XK0FTop 56.8 1.5 13.8 425-2017-ND◆§◊ 1.35 1.13 .90 GP1UM277RK0FTop 56.8 1.5 13.8 425-1143-ND§ 1.13 .95 .68 GP1UM277RKTop 56.8 1.5 13.8 425-1144-ND 1.13 .95 .68 GP1UM277XKTop 56.8 1.5 17.8 425-1154-ND§ 1.13 .95 .68 GP1UM287RKTop 56.8 1.5 17.8 425-1155-ND 1.13 .95 .68 GP1UM287XKSide 36.7 0.2 16.6 425-1127-ND 1.15 .97 .69 GP1UD282YKSide 36.7 0.2 16.6 425-1989-ND◆◊ 1.15 .97 .69 GP1UD282YK0FSide 36.7 0.4 22.6 425-2609-ND◆ .90 .76 .54 GP1UE292QKVFSide 36.7 0.6 17.8 425-2524-ND◆ 1.13 .95 .68 GP1UM282QKVFSide 36.7 1.5 16.1 425-2023-ND◆§◊ 1.35 1.13 .90 GP1UM282QK0FSide 36.7 1.5 16.1 425-2026-ND◆◊ 1.35 1.13 .90 GP1UM282YK0FSide 38.0 0.4 17.8 425-2523-ND◆ 1.13 .95 .68 GP1UM281YKVFSide 38.0 0.5 16.1 425-2612-ND◆ 1.13 .95 .68 GP1UM281QKVFSide 38.0 0.6 16.1 425-2001-ND◆◊ 1.08 .90 .72 GP1UE281YK0FSide 38.0 1.5 16.1 425-1147-ND§ 1.35 1.13 .90 GP1UM281QKSide 38.0 1.5 16.1 425-1148-ND 1.13 .95 .68 GP1UM281YKSide 38.0 1.5 16.1 425-2021-ND◆§◊ 1.35 1.13 .90 GP1UM281QK0FSide 38.0 1.5 16.1 425-2022-ND◆◊ 1.35 1.13 .90 GP1UM281YK0FSide 40.0 0.6 16.1 425-2005-ND◆◊ 1.14 .95 .76 GP1UE28YK00FSide 40.0 1.5 16.1 425-2034-ND◆◊ 1.35 1.13 .90 GP1UM28YK00FSide 56.8 0.2 16.6 425-1991-ND◆◊ 1.15 .97 .69 GP1UD287YK0FSide 56.8 0.6 16.6 425-1908-ND .90 .76 .54 GP1UE287YKSide 56.8 1.5 16.1 425-1153-ND§ 1.13 .95 .68 GP1UM287QKSide 56.8 1.5 16.1 425-1156-ND 1.13 .95 .68 GP1UM287YKSide 36.0 1.5 28.0 425-2035-ND◆ 1.28 1.08 .77 GP1UV700QS0FSide 36.7 0.6 28.0 425-2040-ND◆ 1.28 1.08 .77 GP1UW702QS0FSide 38.0 0.4 28.0 425-2528-ND◆ .96 .80 .64 GP1UX311QSSide 38.0 0.6 28.0 425-2501-ND◆§ .96 .80 .64 GP1UX511QSSide 40.0 1.5 16.1 425-2655-ND◆ 1.35 1.13 .90 GP1UM28YK0VFIrDA ® Transceiver®ModulesCut Tape Price Each Tape and Reel† Lite-On1 10 100 Qty. Pricing Part No.2.7 ~ 3.6V 115.2 kb/s 516-1272-1-ND 5.61 4.68 3.40 500 1232.50 HSDL-3201#0012.7 ~ 3.6V 4.0 Mb/s 516-1274-1-ND 3.50 3.07 2.63 400 916.30 HSDL-3602-007IrDA 3/16 Encoder/Decoder 516-1702-1-ND NEW! 3.45 3.17 2.88 2,500 1529.50/M HSDL-7002† For Tape and Reel part number, change 1-ND to 2-ND.®®198 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

®SENSOR/SIGNAL CONDITIONINGDigi-KeyPrice Each★Part No. Description Pkg. 1 25 100Energy MeasurementAD71056ARZ-ND Energy Metering IC* 16-SOIC 2.63 2.11 1.64ADE5169ASTZF62-ND Single Phase Energy Meter* 64-LQFP 7.48 5.99 5.05ADE5566ASTZF62-ND Single Phase Energy Meter* NEW! 64-LQFP 6.82 5.46 4.61ADE7169ASTZF16-ND Single Phase Energy Meter* 64-LQFP 6.90 5.52 4.66ADE7518ASTZF16-ND Single Phase Energy Meter* 64-LQFP 6.10 4.88 4.12ADE7518ASTZF8-ND Single Phase Energy Meter* 64-LQFP 5.76 4.61 3.89ADE7753ARSZ-ND Single Phase Multifunction Metering IC* 20-SSOP 4.61 3.69 2.87EVAL-ADE7753ZEB-ND Evaluation Board for ADE7753* — 189.75 — —ADE7754ARZ-ND Energy Meter with Serial* 24-SOIC 9.53 8.58 7.61ADE7757ARNZ-ND Energy Metering* 16-SOIC 2.84 2.27 1.77ADE7758ARWZ-ND Energy Metering* 24-SOIC 11.95 10.76 9.54ADE7759ARSZ-ND Energy Meter with Sensor Interface* 20-SSOP 4.50 3.60 2.80ADE7763ARSZ-ND Energy Meter Single Phase Active and Apparent* 20-SSOP 3.62 2.90 2.26ADE7763ARSZRLCT-ND Energy Meter Single Phase Active and Apparent* 20-SSOP 3.62 2.90 2.26ADE7763ARSZRLTR-ND Energy Meter Single Phase Active and Apparent* 20-SSOP 3079.13/1,500TemperatureAD590JF-ND Temperature Transducer 2-Terminal* 2-CQFP 15.45 14.42 13.39AD590JH-ND Temperature Transducer 2-Terminal* TO-52-3 8.48 6.79 5.73AD590JRZ-ND Temperature Transducer 2-Terminal* 8-SOIC 5.46 4.37 3.69AD590KF-ND Temperature Transducer 2-Terminal* 2-CQFP 16.89 15.77 14.64AD590KH-ND Temperature Transducer 2-Terminal* TO-52-3 10.66 9.60 8.52AD590KRZ-ND Temperature Transducer 2-Terminal* 8-SOIC 9.04 7.24 6.11AD590LF-ND Temperature Transducer 2-Terminal* 2-CQFP 42.02 39.22 36.42AD590LH-ND Temperature Transducer 2-Terminal TO-52-3 21.39 19.97 18.54AD590MF-ND Temperature Transducer 2-Terminal* 2-CQFP 77.18 72.03 66.89AD590MH-ND Temperature Transducer 2-Terminal* TO-52-3 50.93 47.53 44.14AD592ANZ-ND Temperature Transducer 2-Terminal* TO-92 4.82 3.86 3.00AD592BNZ-ND Temperature Transducer 2-Terminal* TO-92 11.10 9.99 8.86AD592CNZ-ND Temperature Transducer 2-Terminal* TO-92 14.78 13.31 11.80AD594AQ-ND Thermocouple Amp with Compensator 14-Dip 12.35 11.12 9.86AD594CQ-ND Thermocouple Amp with Compensator 14-Dip 20.07 18.74 17.40AD595AQ-ND Thermocouple Amp with Compensator 14-Dip 12.35 11.12 9.86AD595CQ-ND Thermocouple Amp with Compensator 14-Dip 20.07 18.74 17.40AD596AHZ-ND Thermocouple Conditioning* TO-100 13.33 12.00 10.64AD597AHZ-ND Thermocouple Conditioning* TO-100 14.36 12.93 11.47AD597ARZ-ND Thermocouple Conditioning* 8-SOIC 5.94 4.76 4.01AD22100ARZ-ND Temperature Sensor Voltage Out* 8-SOIC 5.60 4.48 3.78AD22100ATZ-ND Temperature Sensor Voltage Out* TO-92-3 5.08 4.07 3.43AD22100KTZ-ND Temperature Sensor Voltage Out* TO-92-3 3.40 2.72 2.12AD22100SRZ-ND Temperature Sensor Voltage Out* 8-SOIC 6.16 4.93 4.16AD22100STZ-ND Temperature Sensor Voltage Out* TO-92-3 5.60 4.48 3.78AD22103KRZ-ND Temperature Sensor Voltage Out* 8-SOIC 3.40 2.72 2.12AD22105ARZ-ND Thermostatic Switch Solid State* 8-SOIC 2.99 2.40 1.87AD7314ARMZ-ND Temperature Sensor 10-Bit Digital* 8-MSOP 1.65 1.32 .99AD7414ARM0REEL7CT-ND Temperature Sensor 10-Bit Digital 8-MSOP 2.99 2.40 1.87AD7414ARMZ-0-ND Temperature Sensor 10-Bit Digital* 8-MSOP 2.52 2.02 1.57AD7414ARTZ0500RCT-ND Temperature Sensor 10-Bit* SOT-23-6 2.34 1.88 1.46AD7414ARTZ0500RTR-ND Temperature Sensor 10-Bit* SOT-23-6 676.00/500AD7414ARTZ-1REEL7CT-ND Temperature Sensor 10-Bit* SOT-23-6 2.60 2.08 1.56AD7414ARTZ-1REEL7TR-ND Temperature Sensor 10-Bit* SOT-23-6 3931.20/3,000AD7415ARTZ-0500RL7CT-ND Temperature Sensor 10-Bit* SOT-23-5 2.34 1.88 1.46AD7415ARTZ-0500RL7TR-ND Temperature Sensor 10-Bit* SOT-23-5 676.00/500AD7415ARTZ-1500RL7CT-ND Temperature Sensor 10-Bit* SOT-23-5 2.34 1.88 1.46AD7415ARTZ-1500RL7TR-ND Temperature Sensor 10-Bit* SOT-23-5 676.00/500AD7416ARMZ-ND Temperature Sensor 10-Bit* 8-MSOP 2.50 2.00 1.50AD7417ARZ-ND Temperature Sensor 10-Bit/Four 1-Channel ADCs* 16-SOIC 6.10 4.88 4.12AD7417ARUZ-ND Temperature Sensor 10-Bit/Four 1-Ch. ADCs* 16-TSSOP 6.10 4.88 4.12AD7418ARMZ-ND Temperature Sensor 10-Bit/Four 1-Channel ADCs* 8-MSOP 5.16 4.13 3.49AD7418ARZ-ND Temperature Sensor 10-Bit/Four 1-Channel ADCs* 8-SOIC 5.16 4.13 3.49AD7814ARMZ-ND Digital Temperature Sensor 10-Bit* 8-MSOP 2.48 1.98 1.54AD7814ARTZ-REEL7CT-ND Digital Temperature Sensor 10-Bit* SOT-23-6 2.50 2.00 1.50AD7814ARTZ-REEL7TR-ND Digital Temperature Sensor 10-Bit* SOT-23-6 3840.00/3,000AD22103KTZ-ND Temperature Sensor 3.3V Signal Condition* TO-92 3.24 2.60 2.02AD22151YRZ-ND Magnetic Field Sensor Linear* 8-SOIC 5.51 4.41 3.43ADT7310TRZ-ND Digital SPI Temperature Sensor 16-Bit* NEW! 8-SOIC 3.15 2.52 1.96ADT7410TRZ-ND I 2 C Temperature Sensor* NEW! 8-SOIC 3.15 2.52 1.96EVAL-ADT7X10EBZ-ND Evaluation Board for ADT7410* NEW! — 150.00 — —ADT75ARMZ-ND Digital Temperature Sensor 12-Bit* 8-MSOP 1.73 1.38 1.04ADT75ARZ-ND Digital Temperature Sensor 12-Bit* 8-SOIC 1.73 1.38 1.04ADT75BRMZ-ND Digital Temperature Sensor 12-Bit* 8-MSOP 2.43 1.94 1.46ADT6401SRJZ-RL7CT-ND Temperature Switch 2.7V~5.5V* SOT-23-6 1.50 1.20 .90ADT6401SRJZ-RL7TR-ND Temperature Switch 2.7V~5.5V* SOT-23-6 2304.00/3,000ADT6402SRJZ-RL7CT-ND Temperature Switch 2.7V~5.5V* SOT-23-6 1.50 1.20 .90ADT6402SRJZ-RL7TR-ND Temperature Switch 2.7V~5.5V* SOT-23-6 2304.00/3,000ADT6501SRJZP065RL7CT-ND Temperature Switch 2.7V~5.5V* SOT-23-5 1.50 1.25 1.00ADT6501SRJZP075RL7CT-ND Temperature Switch 2.7V~5.5V* SOT-23-5 1.50 1.25 1.00ADT6501SRJZP105RL7CT-ND Temperature Switch 2.7V~5.5V* SOT-23-5 1.50 1.25 1.00ADT6503SRJZN025RL7CT-ND Temperature Switch 2.7V~5.5V* SOT-23-5 1.50 1.25 1.00ADT6504SRJZN015RL7CT-ND Temperature Switch 2.7V~5.5V* SOT-23-5 1.50 1.25 1.00ADT7301ARMZ-ND Digital Temperature Sensor 13-Bit* 8-MSOP 2.75 2.20 1.71ADT7301ARTZ-REEL7CT-ND Digital Temperature Sensor 13-Bit* SOT-23-6 2.72 2.18 1.70ADT7301ARTZ-REEL7TR-ND Digital Temperature Sensor 13-Bit* SOT-23-6 4573.80/3,000ADT7302ARMZ-ND Micropower Digital Temperature Sensor 13-Bit* 8-MSOP 1.95 1.56 1.17ADT7302ARTZ-REEL7CT-ND Micropower Digital Temperature Sensor 13-Bit* SOT-23-6 1.95 1.56 1.17ADT7302ARTZ-REEL7TR-ND Micropower Digital Temperature Sensor 13-Bit* SOT-23-6 2995.20/3,000ADT7408CCPZ-REEL7CT-ND Digital Temperature Sensor 12-Bit* 8-LFCSP 2.18 1.74 1.31EVAL-ADT7411EB-ND Evaluation Board for ADT7411 — 164.06 — —ADT7470ARQZ-ND Temperature Sensor Hub/Fan Controller* 16-QSOP 4.91 3.93 3.06ADT7517ARQZ-NDSPI/I 2 C Compatible, Temp. Sensor, 4-Channel 16-QSOP 7.74 6.20 5.23ADC and Quad Voltage DAC*ADT7518ARQZ-NDSPI/I 2 C Compatible, Temp. Sensor, 4-Channel 16-QSOP 8.22 6.58 5.55ADC and Quad Voltage DAC*TMP01ESZ-ND Temperature Sensor/Controller* 8-SOIC 9.44 7.56 6.38TMP01FPZ-ND Temperature Sensor/Controller* 8-Dip 5.76 4.61 3.89TMP01FSZ-ND Temperature Sensor/Controller* 8-SOIC 5.81 4.65 3.62TMP03FT9Z-ND Thermometer Serial Digital Out* TO-92 6.30 5.04 4.26TMP04FSZ-ND Temperature Sensor/Serial* 8-SOIC 6.30 5.04 4.26TMP04FS-REELCT-ND Temperature Sensor/Serial 8-SOIC 6.90 5.52 4.66TMP04FT9Z-ND Temperature Sensor/Serial* TO-92 6.30 5.04 4.26TMP05AKSZ-500RL7CT-ND Temperature Sensor PWM* SC70-5 1.75 1.40 1.05TMP05AKSZ-500RL7TR-ND Temperature Sensor PWM* SC70-5 472.50/500TMP05ARTZ-500RL7CT-ND Temperature Sensor PWM* SOT-23-5 1.75 1.40 1.05TMP05ARTZ-500RL7TR-ND Temperature Sensor PWM* SOT-23-5 472.50/500TMP05BKSZ-500RL7CT-ND Temperature Sensor PWM* SC70-5 2.43 1.94 1.46®SENSOR/SIGNAL CONDITIONINGDigi-KeyPrice Each★Part No. Description Pkg. 1 25 100TMP05BKSZ-500RL7TR-ND Temperature Sensor PWM* SC70-5 654.75/500TMP05BRTZ-500RL7CT-ND Temperature Sensor PWM* SOT-23-5 2.43 1.94 1.46TMP05BRTZ-500RL7TR-ND Temperature Sensor PWM* SOT-23-5 654.75/500TMP06AKSZ-500RL7CT-ND Temperature Sensor PWM* SC70-5 1.73 1.38 1.04TMP06AKSZ-500RL7TR-ND Temperature Sensor PWM* SC70-5 465.75/500TMP06ARTZ-500RL7CT-ND Temperature Sensor PWM* SOT-23-5 1.73 1.38 1.04TMP06ARTZ-500RL7TR-ND Temperature Sensor PWM* SOT-23-5 465.75/500TMP06BRTZ-500RL7CT-ND Temperature Sensor PWM* SOT-23-5 2.18 1.75 1.36TMP17GSZ-ND Temperature Transducer 4V to 30V* 8-SOIC 3.35 2.69 2.09TMP35GRTZ-REEL7CT-ND Temperature Sensor 2.7V to 5V* SOT-23-5 1.35 1.13 .90TMP35GRTZ-REEL7TR-ND Temperature Sensor 2.7V to 5V* SOT-23-5 1755.00/3,000TMP35GT9Z-ND Temperature Sensor 2.7V to 5.5V* TO-92 1.35 1.13 .90TMP36FSZ-ND Temperature Sensor 2.7V to 5.5V* 8-SOIC 1.65 1.32 .99TMP36GRTZ-REEL7CT-ND Temperature Sensor 2.7V to 5.5V* SOT-23-5 1.35 1.13 .90TMP36GRTZ-REEL7TR-ND Temperature Sensor 2.7V to 5.5V* SOT-23-5 1755.00/3,000TMP36GSZ-ND Temperature Sensor 2.7V to 5.5V* 8-SOIC 1.35 1.13 .90TMP36GT9Z-ND Temperature Sensor 2.7V to 5.5V* TO-92 1.35 1.13 .90TMP37FT9Z-ND Temperature Sensor 2.7V to 5.5V* TO-92 1.35 1.13 .90NEW! MAGNETICENCODERS®RoHS CompliantDigi-KeyPrice Each★Part No. Description Pkg. 1 25 100Rotary EncodersAS5030-ATSTCT-ND 8-Bit Programmable High Speed Magnetic Rotary Encoder 16-TSSOP 6.93 5.66 5.09AS5030-ATSTTR-ND 8-Bit Programmable High Speed Magnetic Rotary Encoder 16-TSSOP 13824.00/4,500AS5035-TCT-ND 8-Bit Programmable Magnetic Rotary Encoder 16-SSOP 7.79 6.47 5.88AS5035-TTR-ND 8-Bit Programmable Magnetic Rotary Encoder 16-SSOP 7644.00/2,000AS5040-ASSTCT-ND 10-Bit Programmable Magnetic Rotary Encoder 16-SSOP 11.13 9.24 8.40AS5040-ASSTTR-ND 10-Bit Programmable Magnetic Rotary Encoder 16-SSOP 10920.00/2,000AS5043-ASSTCT-ND 10-Bit Programmable Magnetic Angle Encoder 16-SSOP 10.46 8.69 7.90AS5043-ASSTTR-ND 10-Bit Programmable Magnetic Angle Encoder 16-SSOP 10264.00/2,000AS5045-ASSTCT-ND 12-Bit Programmable Magnetic Rotary Encoder 16-SSOP 12.43 10.32 9.38AS5045-ASSTTR-ND 12-Bit Programmable Magnetic Rotary Encoder 16-SSOP 12194.00/2,000AS5046-ASSTCT-ND 12-Bit Programmable Magnetic Angle Encoder 16-SSOP 12.43 10.32 9.38AS5046-ASSTTR-ND 12-Bit Programmable Magnetic Angle Encoder 16-SSOP 12194.00/2,000AS5130-ASSTCT-ND 8-Bit Programmable Magnetic Rotary Encoder 16-SSOP 7.14 5.84 5.24AS5130-ASSTTR-ND 8-Bit Programmable Magnetic Rotary Encoder 16-SSOP 6330.00/2,000AS5134-ZSSTCT-ND 8.5-Bit High Speed Magnetic Rotary Encoder 20-SSOP 7.31 5.97 5.36AS5134-ZSSTTR-ND 8.5-Bit High Speed Magnetic Rotary Encoder 20-SSOP 6480.00/2,000AS5140H-ASSU-ND 10-Bit Programmable Magnetic Rotary Encoder 16-SSOP 10.78 8.84 7.98AS5163-HTSU-ND 12-Bit Programmable Angle Position Sensor 14-TSSOP 7.14 5.86 5.29Linear EncodersAS5304A-ATSU-ND Linear and Off-Axis Rotary Motion Detector 20-TSSOP 9.63 7.90 7.13AS5304B-ATSU-ND Linear and Off-Axis Rotary Motion Detector 20-TSSOP 9.63 7.90 7.13AS5306A-ATSU-ND Linear and Off-Axis Rotary Motion Detector 20-TSSOP 9.63 7.90 7.13AS5306B-ATSU-ND Linear and Off-Axis Rotary Motion Detector 20-TSSOP 9.63 7.90 7.13Magnetic Encoder Evaluation Boards / Demo BoardsAS5000 PROGRAMMER-ND AS5000 Programmer for Encoders — 437.50 — —AS5030 AB-ND Adapter Board for AS5030 — 46.55 — —AS5030 DB-ND Demo Board for AS5030 — 175.00 — —AS5040 AB-ND Adapter Board for AS5040 — 46.55 — —AS5040 DB V2-ND Demo Board V.2. for AS5040 — 175.00 — —AS5040 PB-ND Programming Board for AS5040 — 137.50 — —AS5045 AB-ND Adapter Board for AS5045 — 46.55 — —AS5045 DB V2-ND Demo Board V.2. for AS5045 — 175.00 — —AS5134 DB-ND Demo Board for AS5134 — 175.00 — —AS5134 PB-ND Programming Board for AS5134 — 137.50 — —AS5140 AB-ND Adapter Board for AS5140 — 46.55 — —AS5140 DB-ND Demo Board for AS5140 — 175.00 — —AS5145 AB-ND Adapter Board for AS5145 — 46.55 — —AS5145 DB-ND Demo Board for AS5145 — 175.00 — —AS5163 AB-ND Adapter Board for AS5163 — 46.55 — —AS5163 CB-ND Connecting Board for AS5163 — 137.50 — —AS5163 DB-ND Demo Board for AS5163 — 175.00 — —AS5304/B DB-ND Demo Board for AS5304 — 262.50 — —AS5306/B DB-ND Demo Board for AS5306 — 262.50 — —INTEGRATED®CIRCUITSDigi-KeyPrice Each★Part No. Description Pkg. 1 10 100SensorsKT230INCT-ND Silicon Temperature Sensor SOT-23 .70 .53 .47KTY135INCT-ND Silicon Temperature Sensor* SOT-23 .56 .48 .38TLE4905GINCT-ND Unipolar Hall IC Switch for Magnetic Field Applications SOT-89 1.16 1.04 .83TLE4905GINTR-ND Unipolar Hall IC Switch for Magnetic Field Applications SOT-89 458.00/1,000TLE4905LE6433INCT-ND Unipolar Hall IC Switch for Magnetic Field Applications* SSO-3-2 1.16 1.04 .83TLE4905LE6433INTB-ND Unipolar Hall IC Switch for Magnetic Field Applications* SSO-3-2 3235.62/8,000TLE4906LINCT-ND High Precision Hall-Effect Switch* PG-SSO-3-2 1.15 1.04 .82TLE4906LINTB-ND High Precision Hall-Effect Switch* PG-SSO-3-2 850.08/2,000TLE4913INCT-ND Low Power Hall Switch* SC-59-3-1 .93 .81 .64TLE4913INTR-ND Low Power Hall Switch* SC-59-3-1 918.00/3,000TLE4925INCT-ND Dynamic Differential Hall-Effect Sensor* SSO-3-6 4.64 4.18 3.41TLE4942-1CINCT-ND Differential 2-Wire Hall-Effect Sensor* SSO-2-2 6.36 5.73 4.67TLE4942-1CINTB-ND Differential 2-Wire Hall-Effect Sensor* SSO-2-2 4451.37/1,500TLE4945LINCT-ND Bipolar Hall IC Switch for Magnetic Field Applications* SSO-3-2 1.22 1.10 .87TLE4945LINTB-ND Bipolar Hall IC Switch for Magnetic Field Applications* SSO-3-2 901.04/2,000TLE4945-2GINCT-ND Bipolar Hall IC Switch for Magnetic Field Applications* SOT-89 1.20 1.07 .85TLE4945-2GINTR-ND Bipolar Hall IC Switch for Magnetic Field Applications* SOT-89 472.00/1,000TLE4945-2LINCT-ND Bipolar Hall IC Switch for Magnetic Field Applications P-SSO-3-2 1.38 1.07 .94C* RoHS Compliant ★ CALL FOR LOWER PRICING ON LARGER QUANTITIES! ★ (Continued)More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)199199

CINTEGRATED®CIRCUITSDigi-KeyPrice Each★Part No. Description Pkg. 1 10 100TLE4990INCT-ND Programmable Linear Ratiometric Hall IC PG-SSO-4-1 5.72 4.55 3.97TLE4990INTB-ND Programmable Linear Ratiometric Hall IC PG-SSO-4-1 14961.36/8,000TEMPERATURE SENSORS®RoHS CompliantNXPDigi-KeyPrice Each★Part No. Part No. Description Pkg. 1 25 100KTY81/110,112 568-1003-ND Silicon Temperature Sensor SOD-70 .93 .75 .65KTY81/121,112 568-3249-ND Silicon Temperature Sensor SOD-70 .93 .75 .65KTY81/210,112 568-3250-ND Silicon Temperature Sensor SOD-70 .93 .75 .65KTY81/220,112 568-3251-ND Silicon Temperature Sensor SOD-70 .90 .70 .61KTY81/222,112 568-3252-ND Silicon Temperature Sensor SOD-70 .93 .75 .65KTY83/110,113 568-3253-1-ND Silicon Temperature Sensor DO-34 1.01 .79 .69KTY83/110,113 568-3253-2-ND Silicon Temperature Sensor DO-34 3366.00/10,000KTY83/122,113 568-3248-1-ND Silicon Temperature Sensor DO-34 1.01 .79 .69KTY83/122,113 568-3248-2-ND Silicon Temperature Sensor DO-34 3366.00/10,000KTY84/130,113 568-3254-1-ND Silicon Temperature Sensor DO-34 1.21 .96 .87KTY84/130,113 568-3254-2-ND Silicon Temperature Sensor DO-34 4628.25/10,000LM75AD,112 568-4226-5-ND Digital Temp. Sensor/Thermal WD 8-SOIC .98 .79 .69LM75ADP,118 568-4227-1-ND Digital Temp. Sensor/Thermal WD 8-TSSOP 1.06 .84 .76LM75ADP,118 568-4227-2-ND Digital Temp. Sensor/Thermal WD 8-TSSOP 980.00/2,500LM75BD,118 568-4688-1-ND Digital Temp. Sensor/Thermal WD 8-SOIC 1.03 .81 .73LM75BD,118 568-4688-2-ND Digital Temp. Sensor/Thermal WD 8-SOIC 2025.00/2,500LM75BDP,118 568-4768-1-ND Digital Temp. Sensor/Thermal WD NEW! 8-TSSOP 1.03 .81 .73LM75BDP,118 568-4768-2-ND Digital Temp. Sensor/Thermal WD NEW! 8-TSSOP 870.00/2,500LM75BGD,125 568-4769-1-ND Digital Temp. Sensor/Thermal WD NEW! 8-UXSON .96 .75 .65LM75BGD,125 568-4769-2-ND Digital Temp. Sensor/Thermal WD NEW! 8-UXSON 1044.00/3,000NE1617ADS,118 568-4512-1-ND Temp. Monitor for MPU Systems 16-SSOP 2.10 1.62 1.47NE1617ADS,118 568-4512-2-ND Temp. Monitor for MPU Systems 16-SSOP 2025.00/2,500NE1619DS,112 568-4228-5-ND HECETA4 Temp./Voltage Monitor 16-SSOP 2.48 2.00 1.80SA56004AD,112 568-3329-5-ND Digital Temperature Sensor 8-SOIC 1.05 .84 .74SA56004ADP,118 568-3330-1-ND Digital Temperature Sensor 8-TSSOP 1.14 .90 .81SA56004ADP,118 568-3330-2-ND Digital Temperature Sensor 8-TSSOP 1050.00/2,500SA56004BDP,118 568-3332-1-ND Digital Temperature Sensor 8-TSSOP 1.14 .90 .81SA56004BDP,118 568-3332-2-ND Digital Temperature Sensor 8-TSSOP 1050.00/2,500SA56004DDP,118 568-3336-1-ND Digital Temperature Sensor 8-TSSOP .93 .74 .66SA56004ED,112 568-3337-5-ND Digital Temperature Sensor 8-SOIC .85 .69 .60SA56004EDP,118 568-3338-1-ND Digital Temperature Sensor 8-TSSOP 1.14 .90 .81SA56004EDP,118 568-3338-2-ND Digital Temperature Sensor 8-TSSOP 1050.00/2,500SA56004FDP,118 568-3340-1-ND Digital Temperature Sensor 8-TSSOP 1.14 .90 .81SA56004FDP,118 568-3340-2-ND Digital Temperature Sensor 8-TSSOP 1050.00/2,500SA56004GDP,118 568-3342-1-ND Digital Temperature Sensor 8-TSSOP .93 .74 .66SE95DP,118 568-2051-1-ND Ultra High Accuracy Digital Temp. Sensor 8-TSSOP 1.23 .98 .88and Thermal WatchdogSE95DP,118 568-2051-2-ND Ultra High Accuracy Digital Temp. Sensor 8-TSSOP 1132.50/2,500and Thermal WatchdogSE97BTP,547 568-5055-1-ND Memory Module Temp. Sensor with 8-HWSON 1.33 1.07 .94Integrated SPD NEW!SE97BTP,547 568-5055-2-ND Memory Module Temp. Sensor with 8-HWSON 2128.00/4,000Integrated SPD NEW!SE97PW,118 568-4291-1-ND Memory Module Temp. Sensor with 8-TSSOP 1.44 1.14 1.03Integrated SPDSE97PW,118 568-4291-2-ND Memory Module Temp. Sensor with 8-TSSOP 1330.00/2,500Integrated SPDSE97TK,118 568-4292-1-ND Memory Module Temp. Sensor with 8-HVSON 1.44 1.14 1.03Integrated SPDSE97TK,118 568-4292-2-ND Memory Module Temp. Sensor with 8-HVSON 3030.00/6,000Integrated SPDSE97TL,147 568-4779-1-ND Memory Module Temp. Sensor with 8-HXSON 1.54 1.24 1.08Integrated SPD NEW!SE97TP,147 568-4730-1-ND Memory Module Temp. Sensor with 8-HWSON 1.44 1.14 1.03Integrated SPD NEW!SE97TP,147 568-4730-2-ND Memory Module Temp. Sensor with 8-HWSON 2128.00/4,000Integrated SPD NEW!SE98APW,118 568-4732-1-ND Memory Module Temp. Sensor NEW! 8-TSSOP 1.44 1.14 1.03SE98APW,118 568-4732-2-ND Memory Module Temp. Sensor NEW! 8-TSSOP 1330.00/2,500SE98ATL,147 568-4780-1-ND Memory Module Temp. Sensor NEW! 8-HXSON 1.33 1.07 .94SE98ATP,547 568-4731-1-ND Memory Module Temp. Sensor NEW! 8-HWSON 1.44 1.14 1.03SE98ATP,547 568-4731-2-ND Memory Module Temp. Sensor NEW! 8-HWSON 2128.00/4,000TEMPERATURE SENSORS®RoHS Compliant Parts AvailableT.I.Digi-KeyPrice Each★Part No.Part No. Description Pkg. 1 25 100AMC6821SDBQ 296-22738-5-ND Intelligent Temp. Monitor and PWM 16-QSOP 3.36 2.70 2.46Fan ControllerAMC6821SQDBQRQ1 296-24899-1-ND Intelligent Temp. Monitor and PWM 16-QSOP 3.60 2.94 2.64Fan Controller* NEW!AMC6821SQDBQRQ1 296-24899-2-ND Intelligent Temp. Monitor and PWM 16-QSOP 3990.00/2,500Fan Controller* NEW!SENSOREMULATOREVM 296-20990-ND Emulator Sensor — 203.00 — —TMP20AIDCKR 296-25569-1-ND Analog Output Temp. Sensor* NEW! SC70-5 .96 .76 .69TMP20AIDCKR 296-25569-2-ND Analog Output Temp. Sensor* NEW! SC70-5 1059.00/3,000TMP20AIDCKT 296-25602-1-ND Analog Output Temp. Sensor* NEW! SC70-5 1.10 .87 .79TMP20AIDCKT 296-25602-2-ND Analog Output Temp. Sensor* NEW! SC70-5 156.00/250TMP20AIDRLT 296-25570-1-ND Analog Output Temp. Sensor* NEW! SOT-6 1.10 .87 .79TMP20AIDRLT 296-25570-2-ND Analog Output Temp. Sensor* NEW! SOT-6 156.00/250TMP75AIDGKR 296-26837-1-ND Digital Temp. Sensor 2-Wire8-MSOP 1.34 1.06 .96Interface* NEW!TMP75AIDGKR 296-26837-2-ND Digital Temp. Sensor 2-Wire8-MSOP 1235.00/2,500Interface* NEW!TMP75AIDGKT 296-18637-1-ND Digital Temp. Sensor 2-Wire Interface 8-MSOP 1.54 1.22 1.10TMP75AIDR 296-17838-1-ND Digital Temp. Sensor 2-Wire Interface 8-SOIC 1.34 1.06 .96TMP75AIDR 296-17838-2-ND Digital Temp. Sensor 2-Wire Interface 8-SOIC 1235.00/2,500TMP100EVM 296-21135-ND Evaluation Module for TMP100 — 50.00 — —TMP100MDBVREP 296-19524-1-ND Digital Temperature Sensor SOT-23-6 6.51 5.32 4.78TMP100MDBVREP 296-19524-2-ND Digital Temperature Sensor SOT-23-6 8658.00/3,000TMP100NA/3K 296-26833-1-ND Digital Temperature Sensor* NEW! SOT-23-6 2.63 2.03 1.84TMP100NA/3K 296-26833-2-ND Digital Temperature Sensor* NEW! SOT-23-6 3039.00/3,000TMP100NA/250 296-12749-1-ND Digital Temperature Sensor SOT-23-6 3.15 2.43 2.21TMP100NA/250 296-12749-2-ND Digital Temperature Sensor SOT-23-6 450.00/250TMP101NA/250 296-12750-1-ND Digital Temperature Sensor w/Alert SOT-23-6 3.33 2.57 2.33TEMPERATURE SENSORS®RoHS Compliant Parts AvailableT.I.Digi-KeyPrice Each★Part No.Part No. Description Pkg. 1 25 100TMP101NA/250 296-12750-2-ND Digital Temperature Sensor w/Alert SOT-23-6 475.00/250TMP102AIDRLT 296-22055-1-ND LP Digital Temperature Sensor SOT-6 3.15 2.43 2.21TMP102AIDRLT 296-22055-2-ND LP Digital Temperature Sensor SOT-6 450.00/250TMP105YZCT 296-19636-1-ND Digital Temperature Sensor 6-DSBGA 3.00 2.45 2.20TMP106YZCT 296-19637-1-ND Digital Temperature Sensor 6-DSBGA 3.00 2.45 2.20TMP112AIDRLT 296-24621-1-ND Digital Temperature Sensor* NEW! SOT-6 3.00 2.45 2.20TMP112AIDRLT 296-24621-2-ND Digital Temperature Sensor* NEW! SOT-6 462.50/250TMP121AIDBVT 296-15177-1-ND Digital Temperature Sensor SOT-23-6 3.15 2.58 2.31TMP121AIDBVT 296-15177-2-ND Digital Temperature Sensor SOT-23-6 485.75/250TMP122AIDBVT 296-15178-1-ND Prog. Digital Temperature Sensor SOT-23-6 3.45 2.82 2.53TMP122AIDBVT 296-15178-2-ND Prog. Digital Temperature Sensor SOT-23-6 532.00/250TMP122EVM 296-21136-ND Evaluation Module for TMP122 — 50.00 — —TMP123AIDBVT 296-15832-1-ND Digital Temperature Sensor with SPI SOT-23-6 3.15 2.58 2.31TMP123AIDBVT 296-15832-2-ND Digital Temperature Sensor with SPI SOT-23-6 485.75/250TMP124AID 296-16977-ND Digital Temperature Sensor with SPI 8-SOIC 3.08 2.48 2.26TMP125AIDBVT 296-17690-1-ND Digital Temperature Sensor w/SPI SOT-23-6 3.33 2.57 2.33TMP125AIDBVT 296-17690-2-ND Digital Temperature Sensor w/SPI SOT-23-6 475.00/250TMP175AIDGKT 296-19882-1-ND Digital Temp. Sensor 2-Wire Interface 8-MSOP 3.00 2.45 2.20TMP175AIDGKT 296-19882-2-ND Digital Temp. Sensor 2-Wire Interface 8-MSOP 462.50/250TMP175AIDR 296-17837-1-ND Digital Temp. Sensor 2-Wire Interface 8-SOIC 2.98 2.30 2.09TMP175AIDR 296-17837-2-ND Digital Temp. Sensor 2-Wire Interface 8-SOIC 2870.00/2,500TMP275AID 296-21416-5-ND 0.5°C Digital Out Temp. Sensor 8-SOIC 4.20 3.38 3.08TMP275AIDGKT 296-19883-1-ND 0.5°C Digital Out Temp. Sensor 8-MSOP 4.35 3.56 3.19TMP275AIDGKT 296-19883-2-ND 0.5°C Digital Out Temp. Sensor 8-MSOP 670.75/250TMP300AIDBVT 296-24010-1-ND 1.8V, Resistor Prog. Temp. Switch SOT-23-6 2.10 1.62 1.47TMP300AIDBVT 296-24010-2-ND 1.8V, Resistor Prog. Temp. Switch SOT-23-6 300.00/250TMP302ADRLT 296-25144-1-ND 1.4V, Temperature Switch* NEW! SOT563-6 1.31 1.04 .94TMP302ADRLT 296-25144-2-ND 1.4V, Temperature Switch* NEW! SOT563-6 518.00/1,000TMP302BDRLT 296-25145-1-ND 1.4V, Temperature Switch* NEW! SOT563-6 1.31 1.04 .94TMP302BDRLT 296-25145-2-ND 1.4V, Temperature Switch* NEW! SOT563-6 518.00/1,000TMP302CDRLT 296-25146-1-ND 1.4V, Temperature Switch* NEW! SOT563-6 1.31 1.04 .94TMP302CDRLT 296-25146-2-ND 1.4V, Temperature Switch* NEW! SOT563-6 518.00/1,000TMP302DDRLT 296-25147-1-ND 1.4V, Temperature Switch* NEW! SOT563-6 1.31 1.04 .94TMP302DDRLT 296-25147-2-ND 1.4V, Temperature Switch* NEW! SOT563-6 518.00/1,000TMP303ADRLT 296-25120-1-ND 1.4V, Temp. Range Monitor* NEW! SOT563-6 1.31 1.04 .94TMP303ADRLT 296-25120-2-ND 1.4V, Temp. Range Monitor* NEW! SOT563-6 185.50/250TMP401AIDGKR 296-20710-1-ND Remote Digital Temperature Sensor 8-MSOP 2.98 2.30 2.09TMP401AIDGKR 296-20710-2-ND Remote Digital Temperature Sensor 8-MSOP 2870.00/2,500TMP411AD 296-22886-5-ND ±1°C Remote/Local Temp. Sensor 8-SOIC 1.62 1.30 1.14TMP411ADGKR 296-21417-1-ND ±1°C Remote/Local Temp. Sensor 8-MSOP 1.44 1.14 1.03TMP411ADGKR 296-21417-2-ND ±1°C Remote/Local Temp. Sensor 8-MSOP 1322.50/2,500TMP411BD 296-22887-5-ND ±1°C Remote/Local Temp. Sensor 8-SOIC 1.62 1.30 1.14TMP411BDGKR 296-21418-1-ND ±1°C Remote/Local Temp. Sensor 8-MSOP 1.44 1.14 1.03TMP411CDR 296-23546-1-ND ±1°C Remote/Local Temp. Sensor 8-SOIC 1.44 1.14 1.03TMP411CDR 296-23546-2-ND ±1°C Remote/Local Temp. Sensor 8-SOIC 1322.50/2,500TMP421AIDCNT 296-21990-1-ND Remote Temperature Sensor SOT-23-8 2.28 1.76 1.60TMP421AIDCNT 296-21990-2-ND Remote Temperature Sensor SOT-23-8 325.00/250TMP423AIDCNT 296-23323-1-ND ±1°C Remote/Local Temp. Sensor SOT-23-8 3.15 2.43 2.21TMP423BIDCNT 296-23324-1-ND ±1°C Remote/Local Temp. Sensor SOT-23-8 3.15 2.43 2.21TMP431ADGKT 296-25148-1-ND ±1°C Remote/Local Temp.8-MSOP 1.76 1.39 1.25Sensor* NEW!TMP431ADGKT 296-25148-2-ND ±1°C Remote/Local Temp.8-MSOP 248.25250Sensor* NEW!TMP431BDGKT 296-25149-1-ND ±1°C Remote/Local Temp.8-MSOP 1.76 1.39 1.25Sensor* NEW!TMP431BDGKT 296-25149-2-ND ±1°C Remote/Local Temp.8-MSOP 248.25/250Sensor* NEW!TMP432ADGST 296-25474-1-ND ±1°C Remote/Local Temp.10-MSOP 1.93 1.49 1.35Sensor* NEW!TMP432ADGST 296-25474-2-ND ±1°C Remote/Local Temp.10-MSOP 275.00/250Sensor* NEW!TMP432BDGST 296-25475-1-ND ±1°C Remote/Local Temp.10-MSOP 1.93 1.49 1.35Sensor* NEW!TMP432BDGST 296-25475-2-ND ±1°C Remote/Local Temp.10-MSOP 275.00/250Sensor* NEW!TMP441AIDCNT 296-24282-1-ND ±1°C Remote/Local Temp.SOT-23-8 2.28 1.76 1.60Sensor* NEW!TMP441AIDCNT 296-24282-2-ND ±1°C Remote/Local Temp.SOT-23-8 325.00/250Sensor* NEW!TMP442ADCNT 296-24283-1-ND ±1°C Remote/Local Temp.SOT-23-8 2.63 2.03 1.84Sensor* NEW!TMP442ADCNT 296-24283-2-ND ±1°C Remote/Local Temp.SOT-23-8 375.00/250Sensor* NEW!TMP442BDCNT 296-24284-1-ND ±1°C Remote/Local Temp.SOT-23-8 2.63 2.03 1.84Sensor* NEW!TMP442BDCNT 296-24284-2-ND ±1°C Remote/Local Temp.Sensor* NEW!SOT-23-8 375.00/250HALL-EFFECT®RoHS CompliantDigi-KeyPrice Each★Part No. Description Pkg. 1 10 100AH173-PL-A-ADICT-ND Internal Pull-Up Latch for High Temperature SIP-3 .81 .71 .56AH173-WL-ADICT-ND Internal Pull-Up Latch for High Temperature SC-59 1.37 1.23 .98AH173-WL-ADITR-ND Internal Pull-Up Latch for High Temperature SC-59 918.00/3,000AH173-WL-BDICT-ND Internal Pull-Up Latch for High Temperature SC-59 1.29 1.16 .92AH173-WL-BDITR-ND Internal Pull-Up Latch for High Temperature SC-59 1428.00/3,000AH175-PL-A-ADICT-ND Latch for High Temperature SIP-3 1.37 1.23 .98AH175-PL-A-ADITB-ND Latch for High Temperature SIP-3 2016.00/4,000AH175-WL-BDICT-ND Latch for High Temperature SC-59 1.29 1.16 .92AH175-WL-BDITR-ND Latch for High Temperature SC-59 1428.00/3,000AH180-PL-ADICT-ND Micropower Omnipolar Sensor Switch SIP-3 1.37 1.23 .98AH180-PL-ADITB-ND Micropower Omnipolar Sensor Switch SIP-3 2016.00/4,000AH180-WGDICT-ND Micropower Omnipolar Sensor Switch SC-59 1.48 1.33 1.06AH180-WGDITR-ND Micropower Omnipolar Sensor Switch SC-59 1638.00/3,000AH182-WLDICT-ND Low Power Switch SOT-23 1.37 1.23 .98AH182-WLDITR-ND Low Power Switch SOT-23 1512.00/3,000AH183-WLDICT-ND Low Power Switch SOT-23 1.50 1.35 1.07AH183-WLDITR-ND Low Power Switch SOT-23 1659.00/3,000AH337-PL-ADICT-ND Single Phase Switch SIP-3 1.48 1.33 1.06AH337-PL-ADITB-ND Single Phase Switch SIP-3 2184.00/4,000AH337-PL-BDI-ND Single Phase Switch SIP-3 1.37 1.21 .96AH337-WGCT-ND Single Phase Switch NEW! SC-59-3 .99 .89 .71AH337-WGTR-ND Single Phase Switch NEW! SC-59-3 1092.00/3,000* RoHS Compliant ★ CALL FOR LOWER PRICING ON LARGER QUANTITIES! ★ (Continued)200 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

HALL-EFFECT®RoHS CompliantDigi-KeyPrice Each★Part No. Description Pkg. 1 10 100AH337-WLDICT-ND Single Phase Switch SC-59 .99 .89 .71AH373-PL-ADICT-ND Internal Pull-Up Latch SIP-3 1.37 1.23 .98AH373-PL-ADITB-ND Internal Pull-Up Latch SIP-3 1636.32/4,000AH373-PL-BDI-ND Internal Pull-Up Latch SIP-3 1.26 1.12 .89AH373-WLDICT-ND Internal Pull-Up Latch SC-59 1.28 1.15 .92AH373-WLDITR-ND Internal Pull-Up Latch SC-59 1419.00/3,000AH375-WLDICT-ND Single Phase Latch SC-59 1.28 1.15 .92AH375-WLDITR-ND Single Phase Latch SC-59 1419.00/3,000AH1751-PG-A-ADICT-ND Hall Effect Latch SIP-3 1.11 1.00 .79AH1751-PG-A-ADITB-ND Hall Effect Latch SIP-3 1638.00/4,000AH1751-RG-7-ADICT-ND Hall Effect Latch NEW! SC59R .54 .44 .33AH1751-RG-7-ADITR-ND Hall Effect Latch NEW! SC59R 459.00/3,000AH1751-WG-7-ADICT-ND Hall Effect Latch NEW! SC59 .54 .44 .33AH1751-WG-7-ADITR-ND Hall Effect Latch NEW! SC59 459.00/3,000AH1802-FY4GDICT-ND Micropower Omnipolar Sensor Switch NEW! 3-DFN 1.12 1.01 .80AH1802-FY4GDITR-ND Micropower Omnipolar Sensor Switch NEW! 3-DFN 1236.00/3,000AH2984-PG-BDI-ND Hall Effect 2-Phase Fan Motor Controller NEW! SIP-4 1.51 1.34 1.06AH3761-PG-ADICT-ND Hall Effect Latched Sensor NEW! SIP-3 .86 .75 .59AH3761-PG-ADITB-ND Hall Effect Latched Sensor NEW! SIP-3 1136.80/4,000AH3761-PG-BDI-ND Hall Effect Latched Sensor NEW! SIP-3 .78 .69 .53AH3761-WG-7DICT-ND Hall Effect Latched Sensor NEW! SC59-3 .78 .68 .54AH3761-WG-7DITR-ND Hall Effect Latched Sensor NEW! SC59-3 771.00/3,000AH5771-PG-BDI-ND Hall Effect 1-Phase Fan Motor Controller NEW! SIP-4 1.67 1.52 1.22AH5792-YG-13DICT-ND Hall Effect 1-Phase Fan Motor Controller NEW! SOT89-5 1.29 1.16 .92AH5792-YG-13DITR-ND Hall Effect 1-Phase Fan Motor Controller NEW! SOT89-5 1190.00/2,500AH5792-ZG-7DICT-ND Hall Effect 1-Phase Fan Motor Controller NEW! SOT-553 1.17 1.05 .84AH5792-ZG-7DITR-ND Hall Effect 1-Phase Fan Motor Controller NEW! SOT-553 1293.00/3,000AH5798-YG-13DICT-ND Hall Effect 1-Phase Fan Motor Controller NEW! SOT89-5L 1.01 .88 .69AH5798-YG-13DITR-ND Hall Effect 1-Phase Fan Motor Controller NEW! SOT89-5L 835.00/2,500ATS137-PL-B-ADI-ND Single 3.5V to 20V Switch SIP-3 1.16 1.03 .81ATS137-PL-B-BDI-ND Single 3.5V to 20V Switch SIP-3 1.16 1.03 .81ATS137-WG-ACT-ND Single Hall Effect Switch NEW! SC-59-3 1.65 1.48 1.18ATS137-WG-ATR-ND Single Hall Effect Switch NEW! SC-59-3 1827.00/3,000ATS137-WL-ADICT-ND Single 3.5V to 20V Switch SC-59 1.75 1.57 1.25ATS137-WL-ADITR-ND Single 3.5V to 20V Switch SC-59 1932.00/3,000ATS177-PL-A-BDICT-ND Single Output 3.5V to 20V Latch SIP-3 .69 .60 .48ATS177-PL-A-BDITB-ND Single Output 3.5V to 20V Latch SIP-3 913.50/4,000ATS177-PL-B-ADI-ND Single Output 3.5V to 20V Latch SIP-3 .96 .84 .65ATS177-PL-B-BDI-ND Single Output 3.5V to 20V Latch SIP-3 .64 .56 .44HALL-EFFECT SENSOR ICs®RoHS CompliantAllegroDigi-KeyPrice Each★Part No.Part No. Description Pkg. 1 25 100A1101LLHLT-T 620-1000-1-ND Continuous-Time Switch SOT-23W 2.02 1.80 1.57A1101LLHLT-T 620-1000-2-ND Continuous-Time Switch SOT-23W 2184.00/3,000A1101LUA-T 620-1001-ND Continuous-Time Switch 3-SIP 1.68 1.46 1.29A1102LLHLT-T 620-1002-1-ND Continuous-Time Switch SOT-23W 2.02 1.80 1.57A1102LLHLT-T 620-1002-2-ND Continuous-Time Switch SOT-23W 2184.00/3,000A1120ELHLT-T 620-1275-1-ND Precision Hall Effect Switch SOT-23W 1.35 1.19 1.05A1120ELHLT-T 620-1275-2-ND Precision Hall Effect Switch SOT-23W 1458.00/3,000A1120LLHLT-T 620-1276-1-ND Precision Hall Effect Switch SOT-23W 1.58 1.39 1.22A1120LLHLT-T 620-1276-2-ND Precision Hall Effect Switch SOT-23W 1701.00/3,000A1120LUA-T 620-1330-ND Precision Hall Effect Switch NEW! 3-SIP 1.37 1.22 1.05A1125LLHLT-T 620-1333-1-ND Precision Hall Effect Switch NEW! SOT-23 1.43 1.26 1.11A1125LLHLT-T 620-1333-2-ND Precision Hall Effect Switch NEW! SOT-23 1539.00/3,000A1171EEWLT-P 620-1232-1-ND Ultra-Sensitive Hall Effect Switch 6-DFN/MLP 1.01 .90 .79A1171EEWLT-P 620-1232-2-ND Ultra-Sensitive Hall Effect Switch 6-DFN/MLP 1095.00/3,000A1172ECGLT 620-1244-1-ND Ultra-Sensitive Hall Effect Switch 4-WLCSP 1.09 .96 .85A1172ECGLT 620-1244-2-ND Ultra-Sensitive Hall Effect Switch 4-WLCSP 1568.00/4,000A1174EEWLT-P 620-1251-1-ND Ultra-Sensitive Hall Effect Latch 6-MLP/DFN 1.20 1.06 .93A1174EEWLT-P 620-1251-2-ND Ultra-Sensitive Hall Effect Latch 6-MLP/DFN 1296.00/3,000A1203LLHLT-T 620-1011-1-ND Continuous-Time Bipolar Switch SOT-23 1.80 1.59 1.40A1203LLHLT-T 620-1011-2-ND Continuous-Time Bipolar Switch SOT-23 1944.00/3,000A1203LUA-T 620-1012-ND Continuous-Time Bipolar Switch 3-SIP 1.56 1.40 1.20A1211LUA-T 620-1016-ND Continuous-Time Latch 3-SIP 1.46 1.31 1.13A1212LLHLT-T 620-1017-2-ND Continuous-Time Latch SOT-23W 2301.00/3,000A1220ELHLT-T 620-1277-1-ND Chopper Stabilized Precision Hall SOT-23W 1.35 1.19 1.05Effect SensorA1220ELHLT-T 620-1277-2-ND Chopper Stabilized Precision Hall SOT-23W 1458.00/3,000Effect SensorA1220LLHLT-T 620-1278-1-ND Chopper Stabilized Precision Hall SOT-23W 1.58 1.39 1.22Effect SensorA1220LLHLT-T 620-1278-2-ND Chopper Stabilized Precision Hall SOT-23W 1701.00/3,000Effect SensorA1221ELHLT-T 620-1279-1-ND Chopper Stabilized Precision Hall SOT-23W 1.35 1.19 1.05Effect SensorA1221ELHLT-T 620-1279-2-ND Chopper Stabilized Precision Hall SOT-23W 1458.00/3,000Effect SensorA1221LLHLT-T 620-1280-1-ND Chopper Stabilized Precision Hall SOT-23W 1.58 1.39 1.22Effect SensorA1221LLHLT-T 620-1280-2-ND Chopper Stabilized Precision Hall SOT-23W 1701.00/3,000Effect SensorA1222LLHLT-T 620-1332-1-ND Chopper Stabilized Precision Hall Effect SOT-23W 1.35 1.19 1.05Sensor NEW!A1222LLHLT-T 620-1332-2-ND Chopper Stabilized Precision Hall Effect SOT-23W 1458.00/3,000Sensor NEW!A1302KLHLT-T 620-1021-1-ND Continuous-Time Ratiometric Linear SOT-23W 1.58 1.39 1.22Hall Effect SensorsA1302KLHLT-T 620-1021-2-ND Continuous-Time Ratiometric Linear SOT-23W 1701.00/3,000Hall Effect SensorsA1302KUA-T 620-1022-ND Continuous-Time Ratiometric Linear 3-SIP 1.37 1.22 1.05Hall Effect SensorsA1321LLHLT-T 620-1023-1-ND Ratiometric Linear Hall Effect Sensor for SOT-23W 2.09 1.86 1.63High Temperature OperationA1321LUA-T 620-1024-ND Ratiometric Linear Hall Effect Sensor for 3-SIP 1.74 1.51 1.34High Temperature OperationA1351LKTTN-T 620-1228-1-ND High Prec. Linear Hall Effect Sensor 4-SIP 4.31 3.33 2.96HALL-EFFECT SENSOR ICs®RoHS CompliantAllegroDigi-KeyPrice Each★Part No.Part No. Description Pkg. 1 25 100A1351LKTTN-T 620-1228-2-ND High Prec. Linear Hall Effect Sensor 4-SIP 6296.00/4,000A1354KKT-T 620-1317-ND High Precision Linear Hall Effect4-SIP 3.02 2.60 2.27Sensor NEW!A1360LKTTN-T 620-1233-1-ND Low Noise Hall Effect Sensor 4-SIP 3.99 3.08 2.74A1360LKTTN-T 620-1233-2-ND Low Noise Hall Effect Sensor 4-SIP 5836.00/4,000A1361LKTTN-T 620-1234-1-ND Low Noise Hall Effect Sensor 4-SIP 3.99 3.08 2.74A1361LKTTN-T 620-1234-2-ND Low Noise Hall Effect Sensor 4-SIP 5836.00/4,000A1362LKTTN-T 620-1235-1-ND Low Noise Hall Effect Sensor 4-SIP 3.99 3.08 2.74A1362LKTTN-T 620-1235-2-ND Low Noise Hall Effect Sensor 4-SIP 5836.00/4,000A1374LKB-T 620-1030-ND High Prec., Output Pin Programmable 3-SIP 2.58 2.24 1.98Linear Hall Effect SensorsA1381LLHLT-T 620-1196-1-ND Programmable Linear Hall Effect Sensor SOT-23W 3.56 3.17 2.78with Analog OutputA1381LLHLT-T 620-1196-2-ND Programmable Linear Hall Effect Sensor SOT-23W 3861.00/3,000with Analog OutputA1382LLHLT-T 620-1197-1-ND Programmable Linear Hall Effect Sensor SOT-23W 3.56 3.17 2.78with Analog OutputA1382LLHLT-T 620-1197-2-ND Programmable Linear Hall Effect Sensor SOT-23W 3861.00/3,000with Analog OutputA1383LLHLT-T 620-1198-1-ND Programmable Linear Hall Effect Sensor SOT-23W 3.56 3.17 2.78with Analog OutputA1383LLHLT-T 620-1198-2-ND Programmable Linear Hall Effect Sensor SOT-23W 3861.00/3,000with Analog OutputA1384LLHLT-T 620-1199-1-ND Programmable Linear Hall Effect Sensor SOT-23W 3.56 3.17 2.78with Analog OutputA1384LLHLT-T 620-1199-2-ND Programmable Linear Hall Effect Sensor SOT-23W 3861.00/3,000with Analog OutputA1386LLHLT-T 620-1272-1-ND Field-Programmable 5V Linear Hall SOT-23W 3.13 2.79 2.44Effect SensorA1386LLHLT-T 620-1272-2-ND Field-Programmable 5V Linear Hall SOT-23W 3393.00/3,000Effect SensorA1391SEHLT-T 620-1031-1-ND Micro Power 3V Linear Hall Effect 6-MLP 1.87 1.67 1.46Sensor with Tri-State OutputA1391SEHLT-T 620-1031-2-ND Micro Power 3V Linear Hall Effect 6-MLP 2028.00/3,000Sensor with Tri-State OutputA1392SEHLT-T 620-1032-1-ND Micro Power 3V Linear Hall Effect 6-MLP 1.87 1.67 1.46Sensor with Tri-State OutputA1392SEHLT-T 620-1032-2-ND Micro Power 3V Linear Hall Effect 6-MLP 2028.00/3,000Sensor with Tri-State OutputA1393SEHLT-T 620-1172-1-ND Micro Power 3V Linear Hall Effect 6-MLP 1.87 1.67 1.46Sensor with Tri-State OutputA1393SEHLT-T 620-1172-2-ND Micro Power 3V Linear Hall Effect 6-MLP 2028.00/3,000Sensor with Tri-State OutputA1395SEHLT-T 620-1173-1-ND Micro Power 3V Linear Hall Effect 6-MLP 1.87 1.67 1.46Sensor with Tri-State OutputA1395SEHLT-T 620-1173-2-ND Micro Power 3V Linear Hall Effect 6-MLP 2028.00/3,000Sensor with Tri-State OutputA3211EEHLT-T 620-1034-1-ND Micropower, Ultra-Sensitive Hall Effect 2x2-MLPD 1.16 1.03 .90SwitchA3211EEHLT-T 620-1034-2-ND Micropower, Ultra-Sensitive Hall Effect 2x2-MLPD 1257.00/3,000SwitchA3211EELLT-T 620-1035-1-ND Micropower, Ultra-Sensitive Hall Effect 2x2-MLPD 1.09 .96 .85SwitchA3211EELLT-T 620-1035-2-ND Micropower, Ultra-Sensitive Hall Effect 2x2-MLPD 1176.00/3,000SwitchA3211ELHLT-T 620-1036-1-ND Micropower, Ultra-Sensitive Hall Effect SOT-23W 1.20 1.06 .93SwitchA3211ELHLT-T 620-1036-2-ND Micropower, Ultra-Sensitive Hall Effect SOT-23W 1296.00/3,000SwitchA3212EEHLT-T 620-1037-1-ND Micropower, Ultra-Sensitive Hall Effect 2x2-MLPD .85 .68 .61SwitchA3212EELLT-T 620-1038-1-ND Micropower, Ultra-Sensitive Hall Effect 2x2-MLPD .96 .82 .72SwitchA3212EELLT-T 620-1038-2-ND Micropower, Ultra-Sensitive Hall Effect 2x2-MLPD 1008.00/3,000SwitchA3212ELHLT-T 620-1039-1-ND Micropower, Ultra-Sensitive Hall Effect SOT-23W .98 .86 .76SwitchA3212ELHLT-T 620-1039-2-ND Micropower, Ultra-Sensitive Hall Effect SOT-23W 1053.00/3,000SwitchA3212EUA-T 620-1040-ND Micropower, Ultra-Sensitive Hall Effect 3-SIP 1.01 .90 .78SwitchA3213ELHLT-T 620-1041-1-ND Micropower, Ultra-Sensitive Hall Effect SOT-23W 1.31 1.16 1.02SwitchA3213ELHLT-T 620-1041-2-ND Micropower, Ultra-Sensitive Hall Effect SOT-23W 1419.00/3,000SwitchA3213LLHLT-T 620-1042-1-ND Micropower, Ultra-Sensitive Hall Effect SOT-23W 1.80 1.60 1.40SwitchA3213LLHLT-T 620-1042-2-ND Micropower, Ultra-Sensitive Hall Effect SOT-23W 1950.00/3,000SwitchA3213LUA-T 620-1043-ND Micropower, Ultra-Sensitive Hall Effect 3-SIP 1.50 1.30 1.15SwitchA3230LLHLT-T 620-1044-1-ND Chopper Stabilized Hall Effect Biploar SOT-23W 1.54 1.36 1.19SwitchA3230LLHLT-T 620-1044-2-ND Chopper Stabilized Hall Effect Biploar SOT-23W 1662.00/3,000SwitchA3230LUA-T 620-1045-ND Chopper Stabilized Hall Effect Biploar 3-SIP 1.33 1.19 1.03SwitchA3290KLHLT-T 620-1240-1-ND Chopper Stabilized Hall Effect Latch SOT-23 1.05 .83 .75A3291KLHLT-T 620-1241-1-ND Chopper Stabilized Hall Effect Latch SOT-23 1.05 .83 .75ACS710KLATR-12CB-T 620-1335-1-ND High Voltage Isolation Current16-SOIC 4.48 3.46 3.08Sensor NEW!ACS710KLATR-12CB-T 620-1335-2-ND High Voltage Isolation Current16-SOIC 1728.00/1,000Sensor NEW!ACS710KLATR-25CB-T 620-1334-1-ND High Voltage Isolation Current16-SOIC 4.48 3.46 3.08Sensor NEW!ACS710KLATR-25CB-T 620-1334-2-ND High Voltage Isolation Current16-SOIC 1728.00/1,000Sensor NEW!ACS712ELCTR-05B-T 620-1189-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.52 3.49 3.10ACS712ELCTR-05B-T 620-1189-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4953.00/3,000ACS712ELCTR-20A-T 620-1190-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.52 3.49 3.10ACS712ELCTR-20A-T 620-1190-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4953.00/3,000ACS712ELCTR-30A-T 620-1191-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.52 3.49 3.10ACS712ELCTR-30A-T 620-1191-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4953.00/3,000C* RoHS Compliant ★ CALL FOR LOWER PRICING ON LARGER QUANTITIES! ★ (Continued)More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)201201

CHALL-EFFECT SENSOR ICs®RoHS CompliantAllegroDigi-KeyPrice Each★Part No.Part No. Description Pkg. 1 25 100ACS713ELCTR-20A-T 620-1192-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.52 3.49 3.10ACS713ELCTR-20A-T 620-1192-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4953.00/3,000ACS713ELCTR-30A-T 620-1193-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.52 3.49 3.10ACS713ELCTR-30A-T 620-1193-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4953.00/3,000ACS714LLCTR-05B-T 620-1225-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.73 3.65 3.24ACS714LLCTR-05B-T 620-1225-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 5184.00/3,000ACS714LLCTR-20A-T 620-1226-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.73 3.65 3.24ACS714LLCTR-20A-T 620-1226-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 5184.00/3,000ACS714LLCTR-30A-T 620-1229-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.73 3.65 3.24ACS714LLCTR-30A-T 620-1229-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 5184.00/3,000ACS715LLCTR-20A-T 620-1230-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.73 3.65 3.24ACS715LLCTR-20A-T 620-1230-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 5184.00/3,000ACS715LLCTR-30A-T 620-1231-1-ND Hall Effect-Based Linear Current Sensor 8-SOIC 4.73 3.65 3.24ACS715LLCTR-30A-T 620-1231-2-ND Hall Effect-Based Linear Current Sensor 8-SOIC 5184.00/3,000ACS756SCA-050B-PFF-T 620-1237-ND Hall Effect-Based Linear Current Sensor 5-PIN 6.44 5.52 4.83ACS756SCA-100B-PFF-T 620-1238-ND Hall Effect-Based Linear Current Sensor 5-PIN 6.44 5.52 4.83ACS756KCA-050B-PFF-T 620-1239-ND Hall Effect-Based Linear Current Sensor 5-PIN 6.35 5.59 4.83ACS758LCB-050B-PFF-T 620-1320-ND Hall Effect-Based Linear Current5-CB 7.00 6.16 5.32Sensor NEW!ACS758LCB-100B-PFF-T 620-1321-ND Hall Effect-Based Linear Current5-CB 7.00 6.16 5.32Sensor NEW!ACS758KCB-150B-PFF-T 620-1322-ND Hall Effect-Based Linear Current5-CB 7.00 6.16 5.32Sensor NEW!ACS758ECB-200B-PFF-T 620-1323-ND Hall Effect-Based Linear Current5-CB 7.00 6.16 5.32Sensor NEW!ACS758KCB-150B-PSS-T 620-1324-ND Hall Effect-Based Linear Current5-CB 7.00 6.16 5.32Sensor NEW!ACS758ECB-200B-PSS-T 620-1325-ND Hall Effect-Based Linear Current5-CB 7.00 6.16 5.32Sensor NEW!SENSORS®RoHS Compliant Parts AvailableSTMicroelectronics Digi-KeyPrice Each★Part No.Part No. Description Pkg. 1 10 100LM135Z 497-6985-ND Precision Temp. Sensor* TO-92 9.10 8.75 6.65LM234DT 497-1549-1-ND 3-Terminal Adj. Current Source 8-SOIC 1.72 1.54 1.23LM234DT 497-1549-2-ND 3-Terminal Adj. Current Source 8-SOIC 1582.50/2,500LM235DT 497-6453-1-ND Precision Temp. Sensor* 8-SOIC 1.80 1.61 1.28LM235DT 497-6453-2-ND Precision Temp. Sensor* 8-SOIC 1655.00/2,500LM235Z 497-7324-5-ND Precision Temp. Sensor* TO-92 2.28 2.06 1.66LM334DT 497-7820-1-ND 3-Term. Adj. Current Source* 8-SOIC 1.33 1.20 .95LM334DT 497-7820-2-ND 3-Term. Adj. Current Source* 8-SOIC 1227.50/2,500LM335ADT 497-4047-1-ND Precision Temperature Sensor 8-SOIC 1.74 1.57 1.24LM335AZ 497-2977-5-ND Precision Temperature Sensor TO-92 1.40 1.24 .98LM335DT 497-1583-1-ND Precision Temperature Sensor 8-SOIC 1.51 1.35 1.08LM335DT 497-1583-2-ND Precision Temperature Sensor 8-SOIC 1390.00/2,500LM335Z 497-1584-ND Precision Temperature Sensor TO-92 1.18 1.05 .83STCN75DS2F 497-6317-1-ND Digital Temperature Sensor and 8-MSOP 2.15 1.85 1.51Thermal Watchdog*STCN75DS2F 497-6317-2-ND Digital Temperature Sensor and 8-MSOP 892.00/1,000Thermal Watchdog*STCN75M2F 497-6176-1-ND Digital Temperature Sensor and 8-SOIC 1.98 1.71 1.39Thermal Watchdog*STDS75DS2F 497-6318-1-ND Digital Temperature Sensor and 8-MSOP 2.29 1.96 1.60Thermal Watchdog*STDS75DS2F 497-6318-2-ND Digital Temperature Sensor and 8-MSOP 947.00/1,000Thermal Watchdog*STDS75M2F 497-6177-1-ND Digital Temperature Sensor and 8-SOIC 2.10 1.80 1.47Thermal Watchdog*STDS75M2F 497-6177-2-ND Digital Temperature Sensor and 8-SOIC 2022.50/2,500Thermal Watchdog*STDVE003ABTR 497-6838-1-ND 3:1 TMDS/HDMI Signal Equalizer* 80-TQFP 4.73 4.26 3.47STDVE003ABTR 497-6838-2-ND 3:1 TMDS/HDMI Signal Equalizer* 80-TQFP 2205.00/1,000STDVE103ABTR 497-8384-1-ND Adaptive 3.4Gbps 3:1 TMDS/HDMI 64-TQFP 4.10 3.69 3.01Signal Equalizer*STDVE103ABTR 497-8384-2-ND Adaptive 3.4Gbps 3:1 TMDS/HDMI 64-TQFP 1911.00/1,000Signal Equalizer*STMPE16M31QTR 497-10381-1-ND 16-Ch. S-Touch Sensor* NEW! 40-QFN 4.73 4.26 3.47STMPE16M31QTR 497-10381-2-ND 16-Ch. S-Touch Sensor* NEW! 40-QFN 10040.00/5,000STMPE24M31QTR 497-10380-1-ND 24-Ch. S-Touch Sensor* NEW! 16-QFN 6.30 5.67 4.62STMPE24M31QTR 497-10380-2-ND 24-Ch. S-Touch Sensor* NEW! 16-QFN 8379.00/3,000STMPE321QTR 497-8985-1-ND 3-Ch. Touch Key Controller* NEW! 12-QFN 2.02 1.74 1.42STMPE321QTR 497-8985-2-ND 3-Ch. Touch Key Controller* NEW! 12-QFN 2340.00/3,000STMPE610QTR 497-8825-1-ND Touchscreen Controller with 6-Bit 16-QFN 2.21 1.89 1.55Expander* NEW!STMPE610QTR 497-8825-2-ND Touchscreen Controller with 6-Bit 16-QFN 3404.00/4,000Expander* NEW!STMPE821QTR 497-8826-1-ND 8 Ch. Touch Key Controller* NEW! 16-QFN 2.68 2.31 1.88STMPE821QTR 497-8826-2-ND 8 Ch. Touch Key Controller* NEW! 16-QFN 3105.00/3,000STMPE1208SQTR 497-8282-1-ND Xpander Logic with 12-Ch. Touchkey* 40-QFN 3.78 3.41 2.78STMPE1208SQTR 497-8282-2-ND Xpander Logic with 12-Ch. Touchkey* 40-QFN 5028.00/3,000STLM20DD9F 497-5814-1-ND Ultra Low Current 2.4V Precision 4-UDFN 1.32 1.18 .94Analog Temperature Sensor*STLM20DD9F 497-5814-2-ND Ultra Low Current 2.4V Precision 4-UDFN 1458.00/3,000Analog Temperature Sensor*STLM20W87F 497-5970-1-ND Ultra Low Current 2.4V Precision SOT-23-5 1.24 1.11 .89Analog Temperature Sensor*STLM20W87F 497-5970-2-ND Ultra Low Current 2.4V Precision SOT-23-5 1368.00/3,000Analog Temperature Sensor*STLM75DS2F 497-6326-1-ND Digital Temperature Sensor andThermal Watchdog*8-MSOP 1.84 1.65 1.31SENSORS®RoHS Compliant Parts AvailableSTMicroelectronics Digi-KeyPrice Each★Part No.Part No. Description Pkg. 1 10 100STLM75DS2F 497-6326-2-ND Digital Temperature Sensor and 8-MSOP 725.00/1,000Thermal Watchdog*STLM75M2F 497-6926-1-ND Digital Temperature Sensor and 8-SOIC 1.84 1.58 1.29Thermal Watchdog*STLM75M2F 497-6926-2-ND Digital Temperature Sensor and 8-SOIC 1772.50/2,500Thermal Watchdog*STPMS1BPQR 497-10475-1-ND 2-Ch. Smart Sensor with PGA* NEW! 16-QFN 6.46 5.82 4.74STPMS1BPQR 497-10475-2-ND 2-Ch. Smart Sensor with PGA* NEW! 16-QFN 8589.00/3,000STTS75DS2F 497-6331-1-ND Digital Temperature Sensor and 8-MSOP 2.72 2.34 1.91Thermal Watchdog*STTS75DS2F 497-6331-2-ND Digital Temperature Sensor and 8-MSOP 1127.00/1,000Thermal Watchdog*STTS75M2F 497-6178-1-ND Digital Temperature Sensor and 8-SOIC 2.50 2.15 1.75Thermal Watchdog*STTS75M2F 497-6178-2-ND Digital Temperature Sensor and 8-SOIC 2410.00/2,500Thermal Watchdog*TDA0161DP 497-2158-5-ND Proximity Detector 8-Mini Dip 2.77 2.50 2.01TDA0161FP 497-2159-5-ND Proximity Detector 8-SOIC 2.77 2.50 2.01TDA0161FPT 497-6598-1-ND Proximity Detector* 8-SOIC 3.13 2.68 2.19TDA0161FPT 497-6598-2-ND Proximity Detector* 8-SOIC 3015.00/2,500TDE0160FPT 497-5417-1-ND Proximity Detectors* 14-SOIC 5.14 4.63 3.77TDE0160FPT 497-5417-2-ND Proximity Detectors* 14-SOIC 5692.50/2,500®THERMAL MANAGEMENTDigi-KeyPrice Each★Part No. Description Pkg. 1 25 100LM19CIZ-ND 2.4V, 10µA Temperature Sensor, -55° to 130°C* TO-92-3 .92 .72 .63LM20BIM7/NOPBCT-ND Micro SMD Temperature Sensor, ±2.5°C SC70-5 1.25 .99 .90LM20BIM7/NOPBTR-ND Micro SMD Temperature Sensor, ±2.5°C SC70-5 495.00/1,000LM20CIM7CT-ND Micro SMD Temperature Sensor, ±5°C* SC70-5 1.06 .84 .76LM20CIM7TR-ND Micro SMD Temperature Sensor, ±5°C* SC70-5 420.00/1,000LM34AH-ND Precision Fahrenheit Temp. Sensor, -50°F ~ 300°F* TO-46-3 17.42 14.66 13.47LM34CAH-ND Precision Fahrenheit Temp. Sensor, -40°F ~ 230°F* TO-46-3 14.52 12.21 11.22LM34CAZ-ND Precision Fahrenheit Temp. Sensor, -40°F ~ 230°F* TO-92-3 8.50 6.97 6.29LM34CZ-ND Precision Fahrenheit Temp. Sensor, -40°F ~ 230°F* TO-92-3 6.60 5.42 4.89LM34DM-ND Precision Fahrenheit Temp. Sensor, +32°F ~ 212°F* 8-SOIC 2.45 1.98 1.78LM34DZ-ND Precision Fahrenheit Temp. Sensor, +32°F ~ 212°F* TO-92-3 2.51 2.03 1.83LM35AH-ND Precision Celsius Temp. Sensor, -55°C ~ 150°C* TO-46-3 22.40 19.04 17.64LM35CAH-ND Precision Celsius Temp. Sensor, -40°C ~ 110°C* TO-46-3 14.52 12.21 11.22LM35CAZ-ND Precision Celsius Temp. Sensor, -40°C ~ 110°C* TO-92-3 6.55 5.38 4.85LM35CH-ND Precision Celsius Temp. Sensor, -40°C ~ 110°C* TO-46-3 11.35 9.55 8.78LM35CZ-ND Precision Celsius Temp. Sensor, -40°C ~ 110°C* TO-92-3 6.24 5.02 4.58LM35DH-ND Precision Celsius Temperature Sensor, 0°C ~ 100°C* TO-46-3 10.73 8.80 7.94LM35DM-ND Precision Celsius Temperature Sensor, 0°C ~ 100°C* 8-SOIC 1.83 1.48 1.33LM35DMXCT-ND Precision Celsius Temp. Sensor, 0°C ~ 100°C* 8-SOIC 2.07 1.60 1.45LM35DMXTR-ND Precision Celsius Temp. Sensor, 0°C ~ 100°C* 8-SOIC 1992.50/2,500LM35DT-ND Precision Celsius Temperature Sensor* TO-220-3 3.04 2.45 2.21LM35DZ-ND Precision Celsius Temperature Sensor, 0°C ~ 100°C* TO-92-3 1.71 1.38 1.24LM45BIM3CT-ND Precision Celsius Temperature Sensor* SOT-23-3 1.93 1.49 1.35LM45BIM3TR-ND Precision Celsius Temperature Sensor* SOT-23-3 798.00/1,000LM45CIM3CT-ND Precision Celsius Temperature Sensor* SOT-23-3 1.10 .87 .79LM45CIM3TR-ND Precision Celsius Temperature Sensor* SOT-23-3 435.00/1,000LM50BIM3/NOPBCT-ND Single Supply Centigrade Temperature Sensor* SOT-23-3 1.79 1.38 1.25LM50BIM3/NOPBTR-ND Single Supply Centigrade Temperature Sensor* SOT-23-3 740.00/1,000LM50CIM3CT-ND Single Supply Centigrade Temperature Sensor* SOT-23-3 1.06 .84 .76LM50CIM3TR-ND Single Supply Centigrade Temperature Sensor* SOT-23-3 420.00/1,000LM60BIM3CT-ND 2.7V, Temperature Sensor, -40°C ~ 125°C* SOT-23-3 1.33 1.05 .95LM60BIM3TR-ND 2.7V, Temperature Sensor, -40°C ~ 125°C* SOT-23-3 524.00/1,000LM60BIZ-ND 2.7V, Temperature Sensor, -40°C ~ 125°C* TO-92 1.19 .96 .84LM60CIM3CT-ND 2.7V, Temperature Sensor, -40°C ~ 125°C* SOT-23-3 1.03 .81 .73LM60CIM3TR-ND 2.7V, Temperature Sensor, -40°C ~ 125°C* SOT-23-3 405.00/1,000LM60CIZ-ND 2.7V, Temperature Sensor, -40°C ~ 125°C* TO-92-3 .92 .72 .63LM61BIZ-ND 2.7V, Temperature Sensor, -30°C ~ 100°C* NEW! TO-92-3 1.19 .96 .84LM61CIM3CT-ND 2.7V, Temperature Sensor, -30°C ~ 100°C* SOT-23-3 .99 .78 .71LM61CIM3TR-ND 2.7V, Temperature Sensor, -30°C ~ 100°C* SOT-23-3 390.00/1,000LM61CIZ-ND 2.7V, Temperature Sensor, -30°C ~ 100°C* TO-92-3 .84 .66 .57LM62BIM3CT-ND 2.7V, Temperature Sensor, 0°C ~ 100°C* SOT-23-3 1.29 1.02 .92LM62BIM3TR-ND 2.7V, Temperature Sensor, 0°C ~ 100°C* SOT-23-3 510.00/1,000LM62CIM3/NOPBCT-ND 2.7V, Temperature Sensor, 0°C ~ 100°C* SOT-23-3 1.03 .81 .73LM62CIM3/NOPBTR-ND 2.7V, Temperature Sensor, 0°C ~ 100°C* SOT-23-3 405.00/1,000LM74CIM-3/NOPB-ND 3V, 12-Bit Digital Temperature Sensor* 8-SOIC 1.86 1.50 1.35LM74CIM-5-ND 5V, 12-Bit Digital Temperature Sensor* 8-SOIC 1.86 1.50 1.35LM75AIM-ND 2.7V~5.5V Digital Temp. Sensor/Thermal Watchdog* 8-SOP 1.56 1.26 1.14LM75BIM-3-ND 3V~5.5V Digital Temperature Sensor* NEW! 8-SOIC 1.86 1.50 1.35LM75CIMM-5CT-ND 5V, Digital Temperature Sensor/Thermal Watchdog* 8-MSOP 2.45 1.89 1.72LM76CHM-5-ND 5V, Digital Temperature Sensor/Thermal Window* 8-SOIC 2.80 2.25 2.05LM77CIM-3-ND 3V, Digital Temperature Sensor/Thermal Window* 8-SOIC 2.26 1.83 1.65LM77CIM-5-ND 5V, Digital Temperature Sensor/Thermal Window* 8-SOIC 2.26 1.83 1.65LM77CIMM-3CT-ND 3V, Digital Temperature Sensor/Thermal Window 8-MSOP 2.56 1.98 1.79LM77CIMM-3TR-ND 3V, Digital Temperature Sensor/Thermal Window 8-MSOP 1059.00/1,000LM77CIMM-5CT-ND 5V, Digital Temperature Sensor/Thermal Window 8-MSOP 2.56 1.98 1.79LM77CIMM-5TR-ND 5V, Digital Temperature Sensor/Thermal Window 8-MSOP 1059.00/1,000LM81BIMT-3-ND Serial Interface ACPI-Compatible Microprocessor 24-TSSOP 4.06 3.27 2.98System Hardware Monitor, 2.8V-3.8V*LM81CIMT-3-ND Serial Interface ACPI-Compatible Microprocessor 24-TSSOP 4.06 3.27 2.98System Hardware Monitor, 2.8V-3.8V*LM82CIMQA-ND Triple-Diode Input and Local Digital Temp. Sensor* 16-SSOP 4.62 3.72 3.39LM83CIMQA-ND Triple-Diode Input and Local Digital Temp. Sensor* 16-SSOP 6.66 5.36 4.88LM90CIMMCT-ND Remote Diode/Digital Temp. Sensor 8-MSOP 2.38 1.84 1.67LM90CIMMTR-ND Remote Diode/Digital Temp. Sensor 8-MSOP 986.00/1,000LM93CIMT-ND Hardware Monitor with Integrated Fan Control* 56-TSSOP 11.88 9.74 8.79LM135AH-ND Precision Temperature Sensor TO-46-3 20.86 17.54 16.12LM135H-ND Precision Temperature Sensor* TO-46-3 12.00 9.84 8.88LM234Z-3-ND Adjustable Current Source/Temperature Sensor* TO-92-3 3.05 2.46 2.24* RoHS Compliant ★ CALL FOR LOWER PRICING ON LARGER QUANTITIES! ★ (Continued)202 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

®THERMAL MANAGEMENTDigi-KeyPrice Each★Part No. Description Pkg. 1 25 100LM234Z-6-ND Adjustable Current Source/Temperature Sensor* TO-92-3 1.62 1.30 1.14LM235AH-ND Precision Temperature Sensor* TO-46-3 13.20 11.10 10.20LM235H-ND Precision Temperature Sensor* TO-46-3 9.75 8.00 7.22LM335AH-ND Precision Temperature Sensor* TO-46-3 8.75 7.18 6.48LM335AM-ND Precision Temperature Sensor* 8-SOIC 1.68 1.35 1.18LM335AZNS-ND Precision Temperature Sensor* TO-92-3 1.64 1.33 1.20LM335M-ND Precision Temperature Sensor* 8-SOIC 1.16 .93 .81LM335ZNS-ND Voltage Mode Temperature Sensor* TO-92-3 1.19 .96 .84LM95221CIMMCT-ND Dual Remote Diode Digital Temp. Sensor* 8-MSOP 3.15 2.43 2.21LM95221CIMMTR-ND Dual Remote Diode Digital Temp. Sensor* 8-MSOP 1305.00/1,000LM95231BIMM-1CT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 3.33 2.72 2.45LM95231BIMM-1TR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1554.00/1,000LM95231BIMM-2CT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 3.33 2.72 2.45LM95231BIMM-2TR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1554.00/1,000LM95231BIMMCT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 3.33 2.72 2.45LM95231BIMMTR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1554.00/1,000LM95231CIMM-1CT-ND Precision Dual Remote Diode Temperature Sensor 8-MSOP 3.33 2.57 2.33LM95231CIMM-1TR-ND Precision Dual Remote Diode Temperature Sensor 8-MSOP 1378.00/1,000LM95231CIMM-2CT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 3.33 2.57 2.33LM95231CIMM-2TR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1378.00/1,000LM95231CIMMCT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 3.33 2.57 2.33LM95231CIMMTR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1378.00/1,000LM95245CIM-ND Precision Dual Remote Diode Temp. Sensor* 8-SOIC 2.36 1.90 1.71LM95245CIMMCT-ND Precision Dual Remote Diode Temp. Sensor* 8-MSOP 2.87 2.22 2.01LM95245CIMMTR-ND Precision Dual Remote Diode Temp. Sensor* 8-MSOP 1189.00/1,000USBN9603-28M-ND Universal Serial Bus Node Controller, Enhanced DMA* 28-SOIC 6.89 5.54 5.05USBN9604-28M-ND Universal Serial Bus Node Controller, Enhanced 28-SOIC 6.33 5.19 4.69DMA* NEW!USBN9604SLBXCT-ND Universal Serial Bus Node Controller, Enhanced DMA 28-CSP 5.80 4.59 3.68USBN9604SLBXTR-ND Universal Serial Bus Node Controller, Enhanced DMA 28-CSP 8547.50/2,500PowerWise®LM26CIM5-DPB/NOPBCT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-DPB/NOPBTR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-HHDCT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-HHDTR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-NPACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-NPATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-PHACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-PHATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-RPACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-RPATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-SHACT-ND ±3°C Accurate, Factory Preset Thermostat SOT-23-5 1.66 1.32 1.18LM26CIM5-SHATR-ND ±3°C Accurate, Factory Preset Thermostat SOT-23-5 656.00/1,000LM26CIM5-SPACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-SPATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-TPACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-TPATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-VHACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-VHATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-VPACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-VPATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-XHACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-XHATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-XPACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-XPATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26CIM5-YHACT-ND ±3°C Accurate, Factory Preset Thermostat SOT-23-5 1.66 1.32 1.18LM26CIM5-YHATR-ND ±3°C Accurate, Factory Preset Thermostat SOT-23-5 656.00/1,000LM26CIM5-YPACT-ND ±3°C Accurate, Factory Preset Thermostat SOT-23-5 1.66 1.32 1.18LM26CIM5-YPATR-ND ±3°C Accurate, Factory Preset Thermostat SOT-23-5 656.00/1,000LM26CIM5-YPECT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.60 1.26 1.14LM26CIM5-YPETR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 630.00/1,000LM26CIM5-ZHACT-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 1.66 1.32 1.18LM26CIM5-ZHATR-ND ±3°C Accurate, Factory Preset Thermostat* SOT-23-5 656.00/1,000LM26LVCISD-050CT-ND 1.6V, 50°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-050TR-ND 1.6V, 50°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-060CT-ND 1.6V, 60°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-060TR-ND 1.6V, 60°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-065CT-ND 1.6V, 65°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-065TR-ND 1.6V, 65°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-070CT-ND 1.6V, 70°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-070TR-ND 1.6V, 70°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-075CT-ND 1.6V, 75°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-075TR-ND 1.6V, 75°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-080CT-ND 1.6V, 80°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-080TR-ND 1.6V, 80°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-085CT-ND 1.6V, 85°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-085TR-ND 1.6V, 85°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-090CT-ND 1.6V, 90°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-090TR-ND 1.6V, 90°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-095CT-ND 1.6V, 95°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-095TR-ND 1.6V, 95°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-100CT-ND 1.6V, 100°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-100TR-ND 1.6V, 100°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-105CT-ND 1.6V, 105°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-105TR-ND 1.6V, 105°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-110CT-ND 1.6V, 110°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-110TR-ND 1.6V, 110°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-115CT-ND 1.6V, 115°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-115TR-ND 1.6V, 115°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-120CT-ND 1.6V, 120°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-120TR-ND 1.6V, 120°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-125CT-ND 1.6V, 125°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-125TR-ND 1.6V, 125°C Preset. Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-130CT-ND 1.6V, 130°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-130TR-ND 1.6V, 130°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000®THERMAL MANAGEMENTDigi-KeyPrice Each★Part No. Description Pkg. 1 25 100LM26LVCISD-135CT-ND 1.6V, 135°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-135TR-ND 1.6V, 135°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-140CT-ND 1.6V, 140°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-140TR-ND 1.6V, 140°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-145CT-ND 1.6V, 145°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-145TR-ND 1.6V, 145°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-150CT-ND 1.6V, 150°C Preset Switch/Temp. Sensor* 6-LLP 1.73 1.37 1.24LM26LVCISD-150TR-ND 1.6V, 150°C Preset Switch/Temp. Sensor* 6-LLP 684.00/1,000LM26LVCISD-XPECT-ND 1.6V, 150°C Preset Switch/Temp. Sensor* 6-LLP 1.93 1.49 1.35LM27CIM5-1HJCT-ND ±3°C Acc., 120°C-150°C Factory Preset Thermostat SOT-23-5 2.10 1.62 1.47LM27CIM5-1HJTR-ND ±3°C Acc., 120°C-150°C Factory Preset Thermostat SOT-23-5 870.00/1,000LM27CIM5-2HJCT-ND ±3°C Acc., 120°C-150°C Factory Preset Thermostat SOT-23-5 2.10 1.62 1.47LM27CIM5-2HJTR-ND ±3°C Acc., 120°C-150°C Factory Preset Thermostat SOT-23-5 870.00/1,000LM27CIM5-ZHJCT-ND ±3°C Acc., 120°C-150°C Factory Preset Thermostat* SOT-23-5 2.63 2.03 1.84LM27CIM5-ZHJTR-ND ±3°C Acc., 120°C-150°C Factory Preset Thermostat* SOT-23-5 870.00/1,000LM56BIM-ND Dual Output Low Power Thermostat* 8-SOIC 2.50 2.02 1.82LM56BIMMCT-ND Dual Output Low Power Thermostat* 8-MSOP 3.33 2.57 2.33LM56BIMMTR-ND Dual Output Low Power Thermostat* 8-MSOP 1378.00/1,000LM56CIM-ND Dual Output Low Power Thermostat* 8-SOIC 2.03 1.64 1.48LM56CIMMCT-ND Dual Output Low Power Thermostat 8-MSOP 2.53 1.95 1.77LM56CIMMTR-ND Dual Output Low Power Thermostat 8-MSOP 1047.00/1,000LM57BISD-5CT-ND Programmable Temp. Switch with Analog8-LLP 3.57 2.92 2.62Sensor* NEW!LM57BISD-5TR-ND Programmable Temp. Switch with Analog8-LLP 1666.00/1,000Sensor* NEW!LM57BISD-10CT-ND Programmable Temp. Switch with Analog8-LLP 3.57 2.92 2.62Sensor* NEW!LM57BISD-10TR-ND Programmable Temp. Switch with Analog8-LLP 1666.00/1,000Sensor* NEW!LM57CISD-5CT-ND Programmable Temp. Switch with Analog8-LLP 2.96 2.29 2.08Sensor* NEW!LM57CISD-5TR-ND Programmable Temp. Switch with Analog8-LLP 1227.00/1,000Sensor* NEW!LM57CISD-10CT-ND Programmable Temp. Switch with Analog8-LLP 2.96 2.29 2.08Sensor* NEW!LM57CISD-10TR-ND Programmable Temp. Switch with Analog8-LLP 1227.00/1,000Sensor* NEW!LM63CIMA-ND Digital Temp. Sensor with Integrated Fan Control* 8-SOIC 3.09 2.50 2.25LM63DIMA-ND Digital Temp. Sensor with Integrated Fan Control* 8-SOIC 2.95 2.38 2.14LM70CILD-3CT-ND 10-Bit plus Sign Digital Temperature Sensor 8-LLP 2.49 1.93 1.75LM70CILD-3TR-ND 10-Bit plus Sign Digital Temperature Sensor 8-LLP 1032.00/1,000LM70CIMM-3CT-ND 10-Bit plus Sign Digital Temperature Sensor* 8-MSOP 2.49 1.93 1.75LM70CIMM-3TR-ND 10-Bit plus Sign Digital Temperature Sensor* 8-MSOP 1032.00/1,000LM70CIMM-5CT-ND SPI/Microwire 10-Bit plus Digital Temp. Sensor* 8-MSOP 2.49 1.93 1.75LM70CIMM-5TR-ND SPI/Microwire 10-Bit plus Digital Temp. Sensor* 8-MSOP 1032.00/1,000LM70CIMMX-3CT-ND 10-Bit plus Sign Digital Temperature Sensor* 8-MSOP 2.49 1.93 1.75LM70CIMMX-3TR-ND 10-Bit plus Sign Digital Temperature Sensor* 8-MSOP 3363.50/3,500LM71CIMFCT-ND SPI/Microwire 13-Bit plus Sign Temp. Sensor SOT-23-5 2.49 1.92 1.74LM71CIMFTR-ND SPI/Microwire 13-Bit plus Sign Temp. Sensor SOT-23-5 1030.00/1,000LM71CISDCT-ND SPI/Microwire 13-Bit plus Sign Temp. Sensor 6-LLP 2.49 1.92 1.74LM71CISDTR-ND SPI/Microwire 13-Bit plus Sign Temp. Sensor 6-LLP 1030.00/1,000LM73CIMK-0CT-ND 2.7V, 11-to-14 Bit Digital Temperature Sensor* 6-TSOT 1.76 1.37 1.24LM73CIMK-0TR-ND 2.7V, 11-to-14 Bit Digital Temperature Sensor* 6-TSOT 731.00/1,000LM73CIMK-1CT-ND 2.7V, 11-to-14 Bit Digital Temperature Sensor* TSOT-23-6 1.76 1.37 1.24LM73CIMK-1TR-ND 2.7V, 11-to-14 Bit Digital Temperature Sensor* TSOT-23-6 731.00/1,000LM87CIMT-ND Serial Interface System Hardware Monitor* 24-TSSOP 6.64 5.34 4.86LM92CIM-ND Temp. Sensor and Thermal Window Comparator* 8-SOIC 4.51 3.63 3.31LM94CIMT-ND Hardware Monitor with PI Loop Fan Control* 56-TSSOP 12.96 10.90 10.02LM94021BIMGCT-ND 1.5V, Multi-Gain Analog Temperature Sensor* SC70-5 1.56 1.23 1.11LM94021BIMGTR-ND 1.5V, Multi-Gain Analog Temperature Sensor* SC70-5 615.00/1,000LM94022BIMGCT-ND 1.5V, Multi-Gain Analog Temp. Sensor, Class-AB* SC70-5 1.27 1.00 .90LM94022BIMGTR-ND 1.5V, Multi-Gain Analog Temp. Sensor, Class-AB* SC70-5 500.00/1,000LM94022QBIMGCT-ND 1.5V, Multi-Gain Analog Temp. Sensor, Class-AB* SC70-5 1.81 1.43 1.29LM94022QBIMGTR-ND 1.5V, Multi-Gain Analog Temp. Sensor, Class-AB* SC70-5 713.00/1,000LM94023BITMECT-ND 1.5V, Dual-Gain Analog Temp. Sensor* 4-µSMD 1.27 1.00 .90LM94023BITMETR-ND 1.5V, Dual-Gain Analog Temp. Sensor* 4-µSMD 179.00/250LM95071CIMFCT-ND SPI/Microwire 13-Bit Plus Sign Temperature Sensor* SOT-23-5 2.33 1.80 1.63LM95071CIMFTR-ND SPI/Microwire 13-Bit Plus Sign Temperature Sensor* SOT-23-5 964.00/1,000LM95213CISDCT-ND 2-Diode Input and Local Digital Temp. Sensor* 14-LLP 3.03 2.34 2.12LM95213CISDTR-ND 2-Diode Input and Local Digital Temp. Sensor* 14-LLP 1254.00/1,000LM95214CISDCT-ND Quad Remote Diode and Local Temp. Sensor* 14-LLP 2.99 2.31 2.10LM95214CISDTR-ND Quad Remote Diode and Local Temp. Sensor* 14-LLP 1240.00/1,000LM95233CISDCT-ND Dual Remote Diode Temperature Sensor* 14-LLP 3.33 2.57 2.33LM95233CISDTR-ND Dual Remote Diode Temperature Sensor* 14-LLP 1378.00/1,000LM95234CISDCT-ND Quad Remote Diode Temperature Sensor* 14-LLP 3.09 2.53 2.27LM95234CISDTR-ND Quad Remote Diode Temperature Sensor* 14-LLP 1442.00/1,000LM95235CIMMCT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 2.59 2.01 1.82LM95235CIMMTR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1074.00/1,000LM95235DIMMCT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 3.84 3.14 2.82LM95235DIMMTR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1792.00/1,000LM95235EIMMCT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 3.57 2.92 2.62LM95235EIMMTR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1666.00/1,000LM95235QEIMMCT-ND Precision Dual Remote Diode Temp. Sensor* 8-MSOP 4.29 3.51 3.15LM95235QEIMMTR-ND Precision Dual Remote Diode Temp. Sensor* 8-MSOP 2002.00/1,000LM95241CIMM-1CT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 2.59 2.01 1.82LM95241CIMM-1TR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1074.00/1,000LM95241CIMM-2CT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 2.59 2.01 1.82LM95241CIMM-2TR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1074.00/1,000LM95241CIMMCT-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 2.59 2.01 1.82LM95241CIMMTR-ND Precision Dual Remote Diode Temperature Sensor* 8-MSOP 1074.00/1,000LM96000CIMT-ND Hardware Monitor with Integrated Fan Control* 24-TSSOP 5.18 4.17 3.80LM96080CIM-ND Hardware Monitor with 2-Wire Serial24-TSSOP 6.90 5.66 5.11Interface* NEW!LM96163CISDCT-ND Remote/Local Digital Temperature Sensor* 10-LLP 3.99 3.26 2.93LM96163CISDTR-ND Remote/Local Digital Temperature Sensor* 10-LLP 1862.00/1,000LM96194CISQCT-ND TruTherm Hardware Monitor w/PI Fan Control* 48-LLP 10.07 8.36 7.60LM96194CISQTR-ND TruTherm Hardware Monitor w/PI Fan Control* 48-LLP 1615.00/250C* RoHS Compliant ★ CALL FOR LOWER PRICING ON LARGER QUANTITIES! ★ (Continued)More Product Available Online: www.digikey.comwww.digikey.com/sensorsToll-Free: 1-800-344-45 (US2011)(TZS111.US)203203

CTHERMAL MANAGEMENT®RoHS CompliantDigi-KeyPrice Each★Part No. Description Pkg. 1 25 100MAX1617AMEE+-ND Remote/Local Temp Sensor w/ SMBus Serial Interface 16-QSOP 11.46 7.64 5.53MAX1617MEE+-ND Remote/Local Temp Sensor w/ SMBus Serial Interface 16-QSOP 11.46 7.64 5.53MAX1668MEE+-ND Multi Channel Remote/Local Temperature Sensor 16-QSOP 11.16 7.44 5.39MAX6501UKP095+TCT-ND 2.7V ~ 5.5V, Micropower Temperature Switch SOT-23-5 5.19 3.92 3.43MAX6501UKP095+TTR-ND 2.7V ~ 5.5V, Micropower Temperature Switch SOT-23-5 6125.00/2,500MAX6501UKP105+TCT-ND 2.7V ~ 5.5V, Micropower Temperature Switch SOT-23-5 5.19 3.92 3.43MAX6501UKP105+TTR-ND 2.7V ~ 5.5V, Micropower Temperature Switch SOT-23-5 6125.00/2,500MAX6502UKP085+TCT-ND 2.7V ~ 5.5V, Micropower Temperature Switch SOT-23-5 5.19 3.92 3.43MAX6502UKP085+TTR-ND 2.7V ~ 5.5V, Micropower Temperature Switch SOT-23-5 6125.00/2,500MAX6502UKP115+TCT-ND 2.7V ~ 5.5V, Micropower Temperature Switch SOT-23-5 5.19 3.92 3.43MAX6502UKP115+TTR-ND 2.7V ~ 5.5V, Micropower Temperature Switch SOT-23-5 6125.00/2,500MAX6504UKP005+TCT-ND 2.7V ~ 5.5V, Micropower Temperature Switch NEW! SOT-23-5 2.25 1.70 1.49MAX6504UKP005+TTR-ND 2.7V ~ 5.5V, Micropower Temperature Switch NEW! SOT-23-5 2656.25/2,500MAX6505UTP085+TCT-ND Dual Trip Temperature Switch NEW! SOT-23-6 2.73 2.06 1.81MAX6505UTP085+TTR-ND Dual Trip Temperature Switch NEW! SOT-23-6 3218.75/2,500MAX6509CAUK+TCT-ND Resistor Programmable Temperature Switch NEW! SOT-23-5 1.96 1.48 1.30MAX6509CAUK+TTR-ND Resistor Programmable Temperature Switch NEW! SOT-23-5 2312.50/2,500MAX6510CAUT+TCT-ND Resistor Programmable Temperature Switch SOT-23-6 2.49 1.88 1.65MAX6510CAUT+TTR-ND Resistor Programmable Temperature Switch SOT-23-6 2937.50/2,500MAX6510HAUT+TCT-ND Resistor Programmable Temperature Switch SOT-23-6 2.49 1.88 1.65MAX6510HAUT+TTR-ND Resistor Programmable Temperature Switch SOT-23-6 2937.50/2,500MAX6513TT075+TCT-ND Remote Temperature Switch NEW! 6-TDFN 2.94 2.22 1.95MAX6513TT075+TTR-ND Remote Temperature Switch NEW! 6-TDFN 3468.75/2,500MAX6514UKP105+TCT-ND 2.7V~5.5V Temperature Switch SOT-23-5 2.04 1.54 1.35MAX6514UKP105+TTR-ND 2.7V~5.5V Temperature Switch SOT-23-5 2406.25/2,500MAX6518UKP095+TCT-ND 2.7V~5.5V Analog Temperature Sensor Switch NEW! SOT-23-5 2.04 1.54 1.35MAX6518UKP095+TTR-ND 2.7V~5.5V Analog Temperature Sensor Switch NEW! SOT-23-5 2406.25/2,500MAX6519UKP105+TCT-ND 2.7V~5.5V Analog Temperature Sensor Switch NEW! SOT-23-5 2.04 1.54 1.35MAX6519UKP105+TTR-ND 2.7V~5.5V Analog Temperature Sensor Switch NEW! SOT-23-5 2406.25/2,500MAX6575HZUT+TCT-ND Temp. Sensor with Single Wire Digital Interface NEW! SOT-23-6 2.84 2.14 1.88MAX6575HZUT+TTR-ND Temp. Sensor with Single Wire Digital Interface NEW! SOT-23-6 3343.75/2,500MAX6575LZUT+TCT-ND Temp. Sensor with Single Wire Digital Interface SOT-23-6 2.84 2.14 1.88MAX6575LZUT+TTR-ND Temp. Sensor with Single Wire Digital Interface SOT-23-6 3343.75/2,500MAX6576ZUT+TCT-ND Temperature Sensor with Period/Frequency Output SOT-23-6 2.73 2.06 1.81MAX6576ZUT+TTR-ND Temperature Sensor with Period/Frequency Output SOT-23-6 3218.75/2,500MAX6577ZUT+TCT-ND Temperature Sensor with Period/Frequency Output SOT-23-6 2.73 2.06 1.81MAX6577ZUT+TTR-ND Temperature Sensor with Period/Frequency Output SOT-23-6 3218.75/2,500MAX6605MXK+TCT-ND Low Power Analog Temperature Sensor SC70-5 5.17 3.90 3.42MAX6605MXK+TTR-ND Low Power Analog Temperature Sensor SC70-5 6093.75/2,500MAX6612MXK+TCT-ND High-Slope, Low Power, Analog Temperature Sensor SC70-5 5.75 4.34 3.80MAX6612MXK+TTR-ND High-Slope, Low Power, Analog Temperature Sensor SC70-5 6781.25/2,500MAX6613MXK+TCT-ND Low Voltage Analog Temperature Sensor SC70-5 5.75 4.34 3.80MAX6613MXK+TTR-ND Low Voltage Analog Temperature Sensor SC70-5 6781.25/2,500MAX6625PMTT+TCT-ND 9-Bit Temp. Sensor with I 2 C-Compatible Serial Interface 6-TDFN 3.10 2.34 2.05MAX6625PMTT+TTR-ND 9-Bit Temp. Sensor with I 2 C-Compatible Serial Interface 6-TDFN 3656.25/2,500MAX6625RMTT+TCT-ND 9-Bit Temp. Sensor with I 2 C-Compatible Serial Interface 6-TDFN 3.10 2.34 2.05MAX6625RMTT+TTR-ND 9-Bit Temp. Sensor with I 2 C-Compatible Serial Interface 6-TDFN 3656.25/2,500MAX6626PMTT+TCT-ND 12-Bit Temp. Sensor w/ I 2 C-Compatible Serial Interface 6-TDFN 3.45 2.60 2.28MAX6626PMTT+TTR-ND 12-Bit Temp. Sensor w/ I 2 C-Compatible Serial Interface 6-TDFN 4062.50/2,500MAX6627MTA+TCT-ND Remote ±1°C Accurate Digital Temperature Sensor 8-TDFN 6.36 4.80 4.20MAX6627MTA+TTR-ND Remote ±1°C Accurate Digital Temperature Sensor 8-TDFN 7500.00/2,500MAX6628MTA+TCT-ND Remote ±1°C Accurate Digital Temperature Sensor 8-TDFN 6.49 4.90 4.29MAX6628MTA+TTR-ND Remote ±1°C Accurate Digital Temperature Sensor 8-TDFN 7656.25/2,500MAX6629MTT+TCT-ND 12-Bit +Sign Digital Temperature Sensor 6-TDFN 4.96 3.74 3.28MAX6629MTT+TTR-ND 12-Bit +Sign Digital Temperature Sensor 6-TDFN 5843.75/2,500MAX6630MTT+TCT-ND 12-Bit +Sign Digital Temperature Sensor 6-TDFN 4.96 3.74 3.28MAX6630MTT+TTR-ND 12-Bit +Sign Digital Temperature Sensor 6-TDFN 5843.75/2,500MAX6631MTT+TCT-ND 12-Bit +Sign Digital Temperature Sensor 6-TDFN 5.33 4.02 3.52MAX6631MTT+TTR-ND 12-Bit +Sign Digital Temperature Sensor 6-TDFN 6281.25/2,500MAX6633MSA+-ND 12-Bit +Sign Digital Temperature Sensor 8-SOIC 5.19 3.46 2.50MAX6639AEE+TCT-ND 2-Ch. Temp. Monitor w/Dual Auto PWM Fan Speed Ctrlr 16-QSOP 5.75 4.34 3.80MAX6639AEE+TTR-ND 2-Ch. Temp. Monitor w/Dual Auto PWM Fan Speed Ctrlr 16-QSOP 6781.25/2,500MAX6642ATT90+TCT-ND SMBus-Compatible Remote/Local Temp. Sensor 6-TDFN 3.13 2.36 2.07MAX6642ATT90+TTR-ND SMBus-Compatible Remote/Local Temp. Sensor 6-TDFN 3687.50/2,500MAX6642ATT92+TCT-ND SMBus-Compatible Remote/Local Temp. Sensor NEW! 6-TDFN 3.13 2.36 2.07MAX6642ATT92+TTR-ND SMBus-Compatible Remote/Local Temp. Sensor NEW! 6-TDFN 3687.50/2,500MAX6646MUA+-ND +145°C Prec. SMBus Compatible Remote/ Local Sensor 8-µMAX 4.62 3.08 2.23MAX6646MUA+TCT-ND +145°C Prec. SMBus Compatible Remote/Local Sensor 8-µMAX 4.27 3.22 2.82MAX6646MUA+TTR-ND +145°C Prec. SMBus Compatible Remote/Local Sensor 8-µMAX 5031.25/2,500MAX6652AUB+-ND Temperature Sensor and System Monitor 10-µMAX 7.17 4.78 3.46MAX6652AUB+TCT-ND Temperature Sensor and System Monitor 10-µMAX 6.52 4.92 4.31MAX6652AUB+TTR-ND Temperature Sensor and System Monitor 10-µMAX 7687.50/2,500MAX6654MEE+TCT-ND 1°C Accurate Remote/Local Temperature Sensor with 16-QSOP 8.14 6.14 5.38SMBus Serial InterfaceMAX6654MEE+TTR-ND 1°C Accurate Remote/Local Temperature Sensor with 16-QSOP 9593.75/2,500SMBus Serial InterfaceMAX6656MEE+TCT-ND Dual Remote/Local Temp Sensor/4-Ch. Voltage Monitor 16-QSOP 9.96 7.52 6.58MAX6656MEE+TTR-ND Dual Remote/Local Temp Sensor/4-Ch. Voltage Monitor 16-QSOP 11750.00/2,500MAX6657MSA+TCT-ND ±1°C, SMBus-Compatible Remote/Local Temp. Sensor 8-SOIC 6.94 5.24 4.59MAX6657MSA+TTR-ND ±1°C, SMBus-Compatible Remote/Local Temp. Sensor 8-SOIC 8187.50/2,500MAX6665ASA45+TCT-ND Fan Controller/Driver with Factory-Programmed 8-SOIC 4.29 3.24 2.84Temperature ThresholdsMAX6665ASA45+TTR-ND Fan Cont./Driver with Factory-Prog. Temp. Thresholds 8-SOIC 5062.50/2,500THERMAL MANAGEMENT®RoHS CompliantDigi-KeyPrice Each★Part No. Description Pkg. 1 25 100MAX6682MUA+-ND Thermistor-to-Digital Converter 8-µMAX 7.35 4.90 3.55MAX6690MEE+TCT-ND 2°C Accurate Remote/Local Temperature Sensor with 16-QSOP 6.52 4.92 4.31SMBus Serial InterfaceMAX6690MEE+TTR-ND 2°C Accurate Remote/Local Temperature Sensor with 16-QSOP 7687.50/2,500SMBus Serial InterfaceMAX6692MUA+TCT-ND Prec. SMBus-Compatible Remote/Local Temp. Sensor 8-µMAX 4.27 3.22 2.82MAX6692MUA+TTR-ND Prec. SMBus-Compatible Remote/Local Temp. Sensor 8-µMAX 5031.25/2,500MAX6696AEE+TCT-ND Dual Remote/Local Temperature Sensor with SMBus 16-QSOP 6.60 4.98 4.36Serial InterfaceMAX6696AEE+TTR-ND Dual Remote/Local Temperature Sensor with SMBus 16-QSOP 7781.25/2,500Serial InterfaceMAX6697UP34+TCT-ND 7-Channel Precision Temperature Monitor 20-TSSOP 10.41 7.86 6.88MAX6697UP34+TTR-ND 7-Channel Precision Temperature Monitor 20-TSSOP 12281.25/2,500MAX7500MSA+TCT-ND Digital Temperature Sensor and Thermal Watchdog 8-SOIC 1.96 1.48 1.30MAX7500MSA+TTR-ND Digital Temperature Sensor and Thermal Watchdog 8-SOIC 2312.50/2,500MAX7500MUA+TCT-ND Digital Temperature Sensor and Thermal Watchdog 8-µMAX 1.96 1.48 1.30MAX7500MUA+TTR-ND Digital Temperature Sensor and Thermal Watchdog 8-µMAX 2312.50/2,500THERMAL MANAGEMENTRoHS CompliantDigi-KeyPrice Each★Part No. Description Pkg. 1 25DS1731U+-ND High-Precision Digital Thermometer/Thermostat 8-MSOP 4.38 2.92DS18B20+-ND Programmable Resolution 1-Wire® Digital Thermometer TO-92 5.70 3.80DS18B20+PAR-ND Prog. Resolution 1-Wire® Digital Thermometer TO-92 5.70 3.80DS18B20U+-ND Programmable Resolution 1-Wire® Digital Thermometer 8-µSOP 5.70 3.80DS18B20Z+-ND Programmable Resolution 1-Wire® Digital Thermometer 8-SOIC 5.70 3.80DS18S20+-ND High Precision 1-Wire® Digital Thermometer TO-92 5.70 3.80DS18S20+CT-ND High Precision 1-Wire® Digital Thermometer TO-92 5.04 3.80DS18S20+TR-ND High Precision 1-Wire® Digital Thermometer TO-92 4750.00/2,000DS18S20Z+-ND High Precision 1-Wire® Digital Thermometer 8-SOIC 5.70 3.80DS28EA00U+-ND 1-Wire Digital Thermometer with Sequence Detect NEW! 8-µSOP 7.02 4.68DS75LVS+-ND 1.7V to 3.7V Digital Thermometer/Thermostat 8-SOIC 2.28 1.52DS75LVU+-ND 1.7V to 3.7V Digital Thermometer/Thermostat 8-MSOP 2.28 1.52DS75LXS+-ND 1.7V to 3.7V Digital Thermometer/Thermostat 8-SOIC 2.10 1.40DS75LXU+-ND 1.7V to 3.7V Digital Thermometer/Thermostat 8-µMAX 2.10 1.40DS75S+-ND Digital Thermometer/Thermostat, LM75-Compatible 8-SOIC 2.28 1.52DS75U+-ND Digital Thermometer/Thermostat, LM75-Compatible 8-MSOP 2.28 1.52DS600U+-ND ±5°C Accurate Analog-Output Temperature Sensor 8-µSOP 5.70 3.80DS620U+-ND Low Volt. ±0.5°C Digital Thermometer/Thermostat 8-MSOP 5.70 3.80DS1620+-ND Digital Thermometer/Thermostat, 300mil. 8-Dip 7.89 5.26DS1620S+-ND Digital Thermometer/Thermostat, 208mil. 8-SOIC 7.89 5.26DS1621+-ND Digital Thermometer/Thermostat, 300mil. 8-Dip 5.22 3.48DS1621S+-ND Digital Thermometer/Thermostat, 150mil. 8-SOIC 5.22 3.48DS1624+-ND Digital Thermometer and Memory, 300mil. 8-Dip 10.23 6.82DS1624S+-ND Digital Thermometer and Memory, 208mil. 8-SOIC 10.23 6.82DS1626U+-ND High Prec. 3-Wire Digital Thermometer/Thermostat 8-µSOP 4.53 3.02DS1629S+-ND 2-Wire Digital Thermometer and Real-Time Clock, 150mil. 8-SOIC 8.79 5.86DS1631AU+-ND High Precision Digital Thermometer/Thermostat 8-µSOP 4.53 3.02DS1631S+-ND High Precision Digital Thermometer/Thermostat NEW! 8-SOIC 4.53 3.02DS1631U+-ND High Precision Digital Thermometer/Thermostat 8-MSOP 4.53 3.02DS1631Z+-ND High Precision Digital Thermometer/Thermostat 8-SOIC 4.53 3.02DS1721S+CT-ND 2-Wire Digital Thermometer/Thermostat 8-SOIC 3.87 2.92DS1721S+TR-ND 2-Wire Digital Thermometer/Thermostat 8-SOIC 4562.50/2,500DS1721U+-ND 2-Wire Digital Thermometer/Thermostat 8-MSOP 4.38 2.92DS1722S+-ND 3-Wire Digital Thermometer/Thermostat 8-SOIC 2.94 1.96DS1722S+CT-ND 3-Wire Digital Thermometer/Thermostat 8-SOIC 2.60 1.96DS1722S+TR-ND 3-Wire Digital Thermometer/Thermostat 8-SOIC 3062.50/2,500DS1722U+-ND 3-Wire Digital Thermometer/Thermostat 8-MSOP 3.00 2.00DS1821+-ND Programmable Digital Thermostat/Thermometer 3-PR35 7.14 4.76DS1821S+-ND Programmable Digital Thermostat/Thermometer 8-SOIC 7.14 4.76DS1822+-ND Econo 1-Wire® Digital Thermometer TO-92 4.38 2.92DS1822Z+-ND Econo 1-Wire® Digital Thermometer 8-SOIC 4.38 2.92DS1825U+-ND Prog. Resolution 1-Wire® Digital Thermometer 8-µSOP 4.77 3.18DS1856B-050+-ND Dual, Temp. Controlled Nonvolatile Resistor 16-CSBGA 7.02 4.68DS1859E-050+-ND Dual, Temp. Controlled Nonvolatile Resistor 16-TSSOP 6.66 4.44STATIC PROTECTIONProtection of static sensitive parts is a MUST in today's semiconductor market.To ensure the quality that Digi-Key customers have come to expect,the Digi-Key static control program includes proper static safety protection in the followingareas:Shielded metallized bags are used in order picking, and 100% recyclable paper packaging isused in packaging and shipping.As our program is continuously updated with the latest static control technology, you can bereassured that Digi-Key's static sensitive parts are quality safe, all the way to your door step!® Most SMT cutdown parts are available on a Digi-Reel ® . For Digi-Reel partnum ber, change 1-ND to 6-ND or CT-ND to DKR-ND. See Digi-Key ® Services onpage 2 for additional information.* RoHS Compliant ★ CALL FOR LOWER PRICING ON LARGER QUANTITIES! ★204 (US2011)(TZS111.US)More Product Available Online: www.digikey.comToll-Free: 1-800-344-45

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Sensor Solutions TechZone Magazine, May 2011 - Digikey

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