SENSORS

SENSORS Solutions Guide – Edition 3SENSORSSolutions GuideEdition 3Sense the Possibilitieswww.FutureElectronics.com

SENSORSSolutions GuideEdition 3Sense the PossibilitiesSensors Table of ContentsSupplier Index. . . . . . . . . . . . . . . . . . . . . . . . .2Phone Numbers. . . . . . . . . . . . . . . . . . . . . . . .4Accelerometer. . . . . . . . . . . . . . . . . . . . . . . . .5Acoustic. . . . . . . . . . . . . . . . . . . . . . . . . . . . 21Gyroscope / Angular Rate. . . . . . . . . . . . . . 25Humidity. . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Image. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Light & Optical. . . . . . . . . . . . . . . . . . . . . . . 45Magnetic / Hall. . . . . . . . . . . . . . . . . . . . . . 55Motion. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63Position / Speed. . . . . . . . . . . . . . . . . . . . . 69Pressure. . . . . . . . . . . . . . . . . . . . . . . . . . . . 85Proximity. . . . . . . . . . . . . . . . . . . . . . . . . . . 95Temperature.. . . . . . . . . . . . . . . . . . . . . . . 10309/2012

SUPPLIER INDEXamsLight & Optical.......... 46, 47, 49, 51-52Position / Speed............... 71-75,79Proximity......................96, 101Ad ............... Inside Front Cover, 76MicrochipTemperature. ................. 104-105SemtechProximity. ...................... 97-99Temperature. .................107, 116BoschAccelerometer..................... 7,8Pressure..........................86Ad...............................27MurataAccelerometer. ......................7Acoustic ..........................22Gyro / Angular Rate. .................26Magnetic / Hall ..................57, 58Motion. . . . . . . . . . . . . . . . . . . . . . . . . . . 64Position / Speed. ....................72STMicroelectronicsAccelerometer. .............. 6-8, 18-20Acoustic ....................... 22-23Gyro / Angular Rate. ........... 26, 28-29Pressure. .........................86Ad. ...........7, 22, 26, Inside Back CoverSUPPLIER INDEXCissoidAd...............................87DiodesMagnetic / Hall .................. 56,57GE Measurement & ControlHumidity / Dew ..................32, 33Pressure................. 86, 87, 90-92Temperature.......... 106-108, 110,111Ad..............................120®NXPPosition / Speed . .............71, 72, 78Proximity. ........................100Temperature. ......... 105, 107, 108, 115ON SemiconductorImage. ..................... 36, 38-41Light & Optical. .....................48Temperature. .................106, 107TT Electronics / Optek TechnologyPosition / Speed. ....................70VishayLight & Optical. ............... 46, 53-54Position / Speed. ........ 70, 72, 73, 80-82Proximity. .........................96Temperature. ......... 108, 109, 118, 119Wolfson MicroelectronicsAcoustic .......................21, 24Image. ........................42, 432MelexisImage............................37Light & Optical......................47Magnetic / Hall .................. 57-61Position / Speed............... 70, 76-77Temperature.............. 106, 112-114PanasonicLight & Optical. .....................46Motion. . . . . . . . . . . . . . . . . . . . . . . . 64-67Pressure. .........................93Measurement SpecialtiesAccelerometer.......................7Humidity / Dew .....................32Position / Speed.....................71Pressure.......................86, 87Temperature.......... 104-106, 108, 109RohmLight & Optical. ..................46, 47Magnetic / Hall .....................57Motion. . . . . . . . . . . . . . . . . . . . . . . . . . . 64Temperature. .....................104Ad...............................62www.FutureElectronics.com/Sensors

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PHONE NUMBERSFor the latest branch information, go towww.FutureElectronics.com/ContactUsPHONE NUMBERS4UNITED STATES CITY TELEPHONE NUMBERAlabama Huntsville 256-532-2200Arizona Phoenix 602-629-3000Irvine 949-453-1515Los Angeles 818-665-3957CaliforniaSacramento 916-783-7877San Diego 858-625-2800San Jose 408-434-1122Colorado Denver 303-277-0023Connecticut Cheshire 203-250-0083Clearwater 727-531-3062FloridaFt Lauderdale 800-444-0050Orlando 407-444-6302Georgia Atlanta 678-407-8060Idaho Boise 800-444-0050Illinois Chicago 847-273-0067Indiana Indianapolis 317-913-1355Kansas Kansas City 913-498-1531Maryland Baltimore 410-859-1720Massachusetts Bolton 978-779-3000MichiganDetroit 248-277-4041Grand Rapids 616-698-6800Minnesota Minneapolis 952-852-0032Missouri St. Louis 314-317-8751Nevada Reno 916-783-7877New JerseyFairfield 973-299-0400Mt. Laurel 856-985-2841Long Island 631-361-4890New YorkRochester 585-387-9550Syracuse 315-451-2371North CarolinaCharlotte 704-987-1897Raleigh 919-571-9942OhioCleveland 216-642-4800Dayton 937-426-0090Oklahoma Tulsa 800-444-0050Oregon Portland 503-603-0956PennsylvaniaHarrisburg 717-652-3910Pittsburgh 724-935-9600Puerto Rico Barceloneta 787-360-5501Austin 512-502-0991TexasDallas 469-467-0080El Paso 800-444-0050Houston 800-444-0050Utah Salt Lake City 801-467-4448Washington Seattle 425-489-3400Wisconsin Milwaukee 262-879-0244CANADA CITY TELEPHONE NUMBERAlberta Calgary 800-388-8731British Columbia Vancouver 604-294-1166OntarioOttawa 613-727-1800Toronto 905-593-2201QuebecMontreal 514-694-7710Quebec City 418-877-6666MEXICO CITY TELEPHONE NUMBER CITY TELEPHONE NUMBERGuadalajara +52 33 31 22 0043 Monterrey +52 81 1234 2887Mexico City +52 55 5077 5391BRAZIL CITY TELEPHONE NUMBER CITY TELEPHONE NUMBERCampinas +55 19 3737 4100 Porto Alegre +55 51 4009 4900ASIA / PACIFIC CITY TELEPHONE NUMBER CITY TELEPHONE NUMBERAustraliaChinaAdelaide +61 8 8280 7440 Perth +61 8 9355 1181Melbourne +61 3 9558 6312 Sydney +61 2 8064 0000Beijing +86 10 6418 2335 Nanjing +86 25 8689 0006Guangzhou +86 20 3887 8766 Shanghai +86 21 2412 2222Qingdao +86 53 2555 79938 Suzhou +86 512 8618 1699Shenzhen +86 755 8366 9286 Xiamen +86 592 239 8230Shenzhen (FAI) +86 755 8304 0500Tianjin +86 22 8395 7884Hong Kong Hong Kong +852 2420 6238IndiaBangalore +91 80 4331 8100 Mumbai +91 22 4233 4300New Delhi +91 11 4788 1111 Pune +91 20 4148 3939Japan Osaka +81 6 6221 2201 Yokohama +81 45 224 2155Korea Daegu +82 53 756 5522 Seoul +82 31 786 8800Malaysia Kuala Lumpur +60 3 7651 6888 Penang +60 4 227 7213New Zealand Christchurch +64 3 982 3256Philippines Manila +632 550 3500Singapore Singapore +65 6808 3888Taiwan Hsinchu +8863 574 4646 Taipei +8862 2171 1999Thailand Bangkok +66 2 743 9800Vietnam Ho Chi Minh +84 8 6291 0692EUROPE CITY TELEPHONE NUMBER CITY TELEPHONE NUMBERAustria Vienna +43 (1) 577 3300Belgium Zwijnaarde +32 9 340 5270Bulgaria Sofia +359 2 974 5952 or 5966Czech Republic Prague +42 02 25 340 811Denmark Vejle +45 764 08 764Estonia Tallinn +372 614 3201Finland Helsinki +358 9 525 9950FranceGermanyLyon +33 472 15 8601 Paris +33 139 45 1562Rennes +33 223 45 6085 Toulouse +33 562 74 7260Dortmund +49 231 975 0480 Erfurt +49 361 420 870Frankfurt +49 612 253 4290 Hamburg +49 405 472 770Munich +49 899 572 70 Stuttgart +49 715 091 970Hungary Budapest +36 1 224 0510Ireland Ennis +353 65 6841 330Israel Tel Aviv +97 29 970 1423ItalyBologna +39 051 613 6711 Milan +39 02 6609 4209Padova +39 049 899 2012 Rome +39 02 6609 4219Lithuania Kaunas +370 37 408 482Netherlands Breda +31 076 5 444 888Norway Oslo +47 22 90 58 00Poland Warsaw +48 22 618 9202Romania Cluj-Napoca +40 264 457 774Slovenia Ljubljana +38 61 548 42 00South Africa Cape Town +27 (0) 21 421 8292Spain Barcelona +34 93 582 43 43 Madrid +34 91 721 4276SwedenGothenburg +46 31 338 2730 Malmo +46 40 688 0090Stockholm +46 8 624 8840Switzerland Volketswil +41 44 922 00 22Turkey Istanbul +90 216 445 8700United Kingdom Egham +44 17 84 27 5000 Manchester +44 161 876 0000www.FutureElectronics.com/Sensors

ACCELEROMETERWhat is an accelerometer?An accelerometer is a device that measures accelerationor ‘G’ force. This force may be static, such as gravity, or itcan be dynamic, i.e. produced by changes in velocity (ordirection) of an object in motion. Accelerometers are mostcommonly produced in a Microelectromechanical systems(MEMS) based manufacturing process with integrated signalprocessing & conditioning circuits in the same IC.Recently, with the growing popularity of consumer portabledevices like smart phones and tablets, accelerometersexperienced significant growth and improvements whichinclude increased functionality, higher accuracy andsensitivity. The latest development is a higher level ofintegration with multiple dimensional detection circuitry,MCU, DSP or ASIC to form a multi-axis sensing platform.E-Compass and the intelligent sensing platform productsfrom STMicroelectronics are some of the examples.ApplicationCasesFreefall detectionGaming ControlsSports / HealthcareUser interfaceImage stabilizationBalance controlGPS navigationAutomobilesReal Life ExamplesLaptop and hard disk drivesNintendo Wii remotesSport watches with footpod fromNike and Polar Nike + iPod Sports kitSmartphones & related appsCamcorders, DSCsSegways, roboticsGPS receiversAirbag restraint systemsESP (Electronic Stability Programs)ABS (Anti-lock Braking Systems)Tilt measurement for alarm systemsActive suspension systemsImportant selection parametersOutput Types (Analog vs. Digital)Analog output accelerometers produce a linearly proportionalvoltage output signal. Digital accelerometers incorporatesignal conditioning and an ADC (analog-digital converter) withoutput via either I 2 C or SPI interface directly with processoror microcontrollers.Sensing AxisAccelerometers are available in single axis (X), dual axis (XY)and tri axis (XYZ axis for three dimensional detection).Sensing RangeSensing range defines the maximum level of acceleration thatcan be measured.SensitivitySensitivity is defined as the output change per unit of inputacceleration at normal operating voltage and temperature.The more sensitivity the more accurate readings can beacquired.Typical applicationsAccelerometers are found today in a wide range of industrial,automotive, aircraft, military, and increasingly consumerapplications. They are an essential part of car airbag safetysystems, hard-drives for impact protection, and aircraft forinstrument navigation.The rapid evolution of silicon-based MEMS (Micro-ElectroMechanical Systems) technology, which bringssignificant advantage in cost, performance and size, haspermitted the widespread adoption of accelerometers inconsumer products such as cell phones, video games,camcorders and digital cameras, to name a few.ACCELEROMETER5www.FutureElectronics.com/Sensors

ACCELEROMETERAnalog Output AccelerometerThe analog output (i.e. Voltage) of an accelerometer is proportional to the acceleration. With world leading accelerometersuppliers like Bosch, Measurement Specialties and STMicroelectronics, Future Electronics offers the most extensive solutionsfor acceleration measurement.Part NumberSensingRange (g)SensingAxisSensitivity@ 5VdcExc (mV/g)Zero gOutput(V)Bandwidth(Hz)SupplyVoltage(V)SupplyCurrent(mA)OperatingTemp. (°C)Package3022/3028-002-P 2 Z 20 ±.025 0 to 250 2 to 10 2.5 -40 to +121 Epoxy/Flange Mount3022/3028-005-P 5 Z 12 ±.025 0 to 300 2 to 10 2.5 -40 to +121 Epoxy/Flange Mount3022/3028-010-P 10 Z 6 ±.025 0 to 400 2 to 10 2.5 -40 to +121 Epoxy/Flange Mount3022/3028-020-P 20 Z 3 ±.025 0 to 600 2 to 10 2.5 -40 to +121 Epoxy/Flange Mount3022/3028-050-P 50 Z 1.2 ±.025 0 to 1000 2 to 10 2.5 -40 to +121 Epoxy/Flange Mount3022/3028-100-P 100 Z 0.6 ±.025 0 to 1500 2 to 10 2.5 -40 to +121 Epoxy/Flange MountACCELEROMETERMeasurement SpecialtiesST Micro3022/3028-200-P 200 Z 0.3 ±.025 0 to 2000 2 to 10 2.5 -40 to +121 Epoxy/Flange Mount3031-050 50 Z 1.2 ±.025 0 to 1000 2 to 10 2.5 -40 to +121 Solder Mount3031-100 100 Z 0.6 ±.025 0 to 1500 2 to 10 2.5 -40 to +121 Solder Mount3052/3058-002-P 2 Z 7.5 ±.002 0 to 250 2 to 10 1.5 -40 to +121 Epoxy/Flange Mount3052/3058-005-P 5 Z 3 ±.002 0 to 300 2 to 10 1.5 -40 to +121 Epoxy/Flange Mount3052/3058-010-P 10 Z 1.5 ±.002 0 to 400 2 to 10 1.5 -40 to +121 Epoxy/Flange Mount3052/3058-020-P 20 Z 0.75 ±.002 0 to 600 2 to 10 1.5 -40 to +121 Epoxy/Flange Mount3052/3058-050-P 50 Z 0.3 ±.002 0 to 1000 2 to 10 1.5 -40 to +121 Epoxy/Flange Mount3052/3058-100-P 100 Z 0.15 ±.002 0 to 1500 2 to 10 1.5 -40 to +121 Epoxy/Flange Mount3255-025 25 Z 80 ±.100 0 to 1000 5.0 ±0.5 10 -20 to +85 Solder Mount3255-050 50 Z 40 ±.100 0 to 1000 5.0 ±0.5 10 -20 to +85 Solder Mount3255-100 100 Z 20 ±.100 0 to 1500 5.0 ±0.5 10 -20 to +85 Solder MountLIS332AR ±2 X, Y, Z 600 1.5 2000 3 0.3 -40 to +85 LLGA 16 3x3x1.0 mmLIS344ALH ±2; ±6 X, Y, Z 660 1.65 1800 3.3 0.68 -40 to +85 LLGA 16 4x4x1.5 mmLIS352AR ±2 X, Y, Z 478 1.65 2000 3.3 0.3 -40 to +85 LGA 14 3x5x0.9 mmLIS352AX ±2 X, Y, Z 363 1.25 2000 3.3 0.3 -40 to +85 LGA 14 3x5x0.9 mm6www.FutureElectronics.com/Sensors

ST op-ampsACCELEROMETERShock SensorShock sensors detect impact or vibration. Murata’s shock sensor is based on piezoelectric ceramics technology. Thepiezoelectric element produces a voltage which is proportional to the acceleration of an impact or a vibration to which thesensor is exposed.MurataPart NumberPrimary AxisInclined AngleSensitivityCapacitanceInsulationResistance (min)ResonantFrequency (Typ.)Non-linearity(Typ.)ShockResistanceOperatingTemp. (°C)PKGS-00GXP1-R 0° 0.350pC/G 390pF 500M ohm 31kHz 1% 3000G -40 to 85PKGS-00LDP1-R 0° 0.840pC/G 770pF 500M ohm 20kHz 1% 1500G -40 to 85PKGS-00MFP1-R 0° 0.325pC/G 570pF 500M ohm 27kHz 1% 1500G -40 to 85PKGS-25NBP1-R 25° 0.168pC/G 520pF 500M ohm 44kHz 1% 1500G -40 to 85PKGS-25SXAP1-R 25° 0.350pC/G 740pF 100M ohm 27kHz 1% 3000G -40 to 85PKGS-25WXP1-R 25° 0.168pC/G 550pF 100M ohm 42kHz 1% 3000G -40 to 85PKGS-90LDP1-R 90° 0.840pC/G 770pF 500M ohm 20kHz 1% 1500G -40 to 85Digital CompassDigital compasses integrate a 3-axis digital accelerometer with a 3-axis digital magnetic sensor in a single package toenhance advanced navigation features and smart location-based services.PartNumberSensingAxisSensitivityRange (g)MagneticField RangeOutputTypeSupplyVoltage(VDD)min (V)SupplyVoltage(VDD)max (V)CurrentConsumptiontyp (mA)CurrentConsumption(Power DownMode)typ (mA)OperatingTemp. (°C)PackageBoschSensortecBMC-050X, Y, Z±2, ±4,±8, ±16±1000 μTI²C SPI(3/4wire)1.62 3.6 0.54 0.19 -40 to 85LGA 163x3x0.95ST MicroLSM303DLHCX, Y, Z±2, ±4,±8, ±16LSM303DLM X, Y, Z ±2, ±4, ±8+/- 1.3 -8.1 Gauss+/- 1.3 -8.1 GaussDigital 2.16 3.6 0.11 0.001 -40 to 85Digital 2.16 3.6 0.36 0.002 -40 to 85LGA 143x5x1.0LGA 285x5x1.0MicrocontrollersSTMicroelectronicsEnhance your Signal ChainLow Power • Micro Power • Precision7Sensorswww.FutureElectronics.com/Sensors

Future Electronicsoffers the bestsensor solutionsand servicein the industry.Our Advanced Engineering Groupteamed with ourGlobal System Design Centerare committed to assisting youwith all your sensor design needs.Looking for a quick way tonarrow down to the rightsensor for your application?Not sure which sensor orpart to use or how to use it?Looking for designengineering support?Whether analog or digital, nanotechnologybased or more traditional, Future Electronics’Sensors Solutions Guide will help you fi nd thesensor you need in minimal time.Our factory certifi ed Advanced Engineers canhelp you to determine which sensor is bestsuitable for your application and also help inselecting the surrounding parts.For deeper engineering involvement ormore tailored designs, Future Electronics’Global SDC can help eligible customers fromconcept through production.Our System Design Center is with you each step of the way, offeringtechnical advice and in-depth knowledge to assist with all your designneeds, including (but not limited to):• Quick paper designs or technical concept development• CAD – Schematics and layouts• Proof of concept prototype designs• Production ready prototypes• Assistance through certifi cation or manufacturingWe have specialists and certified engineers to cover every technology,including (but not limited to):• Embedded processors/platforms (hardware and software)• Analog and digital power• Lighting• User interfaceLCD and touch screen solutionsCapacitive and inductive touch sensingContact your Future Electronics representative to find out moreabout how we can help you with all your sensor solutions!

ACCELEROMETERDigital Output – Key FeaturesMEMS sensor and interface chip in one package3-axis linear-acceleration detectionMultiple user selectable full-scale rangesOrientation and direction detectionClick and double-click recognition to replace buttonsEmbedded high-pass filterDigital I 2 C/SPI output interfaceProgrammable bandwidth and sampling rateHigh resolution: better than 1mgLow power consumption, Power-down mode andSleep modeEmbedded self-test feature for all 3 axes32 levels of embedded FIFO per axis3 auxiliary ADC channelsEmbedded temperature sensorTwo independent programmable state machines2 independent and programmable interrupt enginesWake-up/freefall interrupt signal with programmablethresholds and timingTemperature range -40 to +85 ºCFactory-trimmed parametersHigh shock survivability: 10,000g for 0.1msHigh thermal stabilityHigh lifetime stabilitySmall packageLead-free compliantST Electronic Compass ModulesThe LSM303DLHC is one of ST’s latest system-in-packageelectronic compass modules and it features a 3-axis digitallinear acceleration sensor and a 3-axis digital magneticsensor.It is particularly suited for applications such as location-basedservices, pedestrian dead reckoning, map/display orientation,and direction finding.ST’s ability to integrate different sensors in the same packageoffers customers more compact, robust and easy toimplement solutions.The LSM303DLHC has linear acceleration full-scales of±2g /±4g/ ±8g/±16g and magnetic field full-scales of±1.3/±1.9/±2.5 /±4.0/±4.7/±5.6/±8.1 gauss. All full-scalesare fully selectable by the user.The LSM303DLHC includes an I 2 C serial-bus interface thatsupports standard and fast-mode 100kHz and 400kHz. Thesystem can be configured to generate interrupt signals byinertial wakeup/freefall events as well as by the position of thedevice itself. Thresholds and timing of interrupt generatorsare fully programmable by the end user on the fly. Magneticand accelerometer parts can be enabled or put into powerdownmode separately.Typical ApplicationsCompensated compassMap rotation and matching servicesPosition detection and Location Based ServicesPedometerDisplay orientationImpact recognition and loggingACCELEROMETERFeatures & Benefits3 magnetic-axis and 3 acceleration-axisFrom ±1.3 to ±8.1 Gauss magnetic field full scaleMagnetic sensing resolution 2m Gauss ±2g/±4g/±8g/±16g selectable full-scale16-bit data outputI 2 C serial interfaceAnalog supply voltage 2.16V to 3.6VPower saving with < 100µA operating currentPower-down mode/ low-power mode2 independent programmable interruptsEmbedded temperature sensorEmbedded FIFO6D/4D orientation and direction detectionSuperior stability over time and temperatureSpace-saving with LGA 3x5x1 mm11www.FutureElectronics.com/Sensors

ACCELEROMETERST Sensor Fusion Solution(iNemo Engine)iNEMO Sensor Fusion is a new advanced filtering and predictive software suitethat uses sophisticated algorithms to integrate outputs from multiple MEMSsensors.ACCELEROMETERProduct OverviewBased on the Kalman filter theory, ST’s iNEMO engine SensorFusion Software suite employs a set of adaptive predictionand filtering algorithms that make sense of all of the complexinformation coming from multiple sensing devices, includingaccelerometers, gyroscopes, compasses and pressuresensors.The software eliminates or minimizes the impact of intrinsicand external noise and the dynamic distortion of eachdevice. It also compensates for the magnetic distortion of themagnetic sensor and the inherent drift of the gyroscope.The family of ST sensor-fusion product lines includes iNEMOEngine Lite which is a free source-code software library formotion-detection system evaluation, and iNEMO Engine Prowhich consists of compiled software libraries with data-fusionalgorithms for multiple sensor output processing.The iNEMO engine is compatible with all MEMS sensors.WHATdigital filtering algorithms to compensatethe disadvantages of each individualsensor and then output accurate dynamicattitude information pitch/roll/heading12Documentation and Software AvailableMEMS product catalog and datasheetsTechnical documentation•§Application notes•§Technical notes on package surface mountingEvaluation boardsLow-level drivers (platform independent)HOWtake each sensor measurement dataas input and then apply digital filteringalgorithms to compensate each otherand output accurate and responsivedynamic attitude resultséHeading or Orientation is immune to environmentalmagnetic disturbance as to the bias drift of the gyroscopewww.FutureElectronics.com/Sensors

ACOUSTICWhat is an acoustic sensor?Acoustic sensors detect sound, or mechanical vibration,producing an electrical signal representing the sound orvibration detected. Some types of acoustic sensors candetect frequencies beyond the range of human hearing, forexample ultrasonic sensors, and shock sensors. In somecases, and often with ultrasonic sensors, the sensor elementcan also serve as a transducer, which can emit sound givenan electrical stimulus.Ultrasonic sensors (also known as transducers when bothsend and receive) work on a principle similar to radar orsonar which evaluates attributes of a target by interpretingthe echoes from radio or sound waves respectively.Ultrasonic sensors generate high frequency sound wavesand evaluate the echo which is received back by the sensor.For distance sensing, the sensors calculate the time intervalbetween sending the signal and receiving the echo todetermine the distance to an object.Another example of acoustic sensor is silicon microphone,also known as MEMS (MicroElectrical-Mechanical System)microphone as the pressure sensitive diaphragm is etcheddirectly into silicon through MEMS processing technology.With the help of advanced MEMS processing technologies,silicon microphone offers advantages of smaller size andhigher overall performance compared to the popular electretcondenser microphone.ApplicationCasesDistanceNDTLevel sensingReal Life ExamplesFish finderMobile robots & autonomousmobile systemsIndustrial or undergroundpipeline inspectionConcrete structure inspectionOil Tank level detectionImportant selection parametersSensitivity is a measure of the weakest detectable soundfield strength, in decibels. For silicon microphones, sensitivityis a measure of the microphone output response to theacoustic pressure of a 1kHz 94dB SPL (1Pa RMS) sinewave. It is referenced to the output Full Scale Range (FSR) ofthe microphone.Sound Pressure Level (SPL) is defined as the level of thepressure deviation from the local ambient pressure causedby sound waves. It indicates the loudness of sound, indecibels (dBSPL).Signal-to-Noise Ratio (SNR) is a measure of the differencein level between the output response of a 1kHz 94dB SPL(1Pa) sine wave and the idle noise output, in decibels (dB).Typical applicationsSilicon microphones are gaining popularity due to the smallsize and overall performance compared to other typesof traditional microphone technologies, especially in highdensity and high performance applications like cell phones,cameras, audio players and accessories.Ultrasonic sensors are widely used in two-dimensionalpositioning, object/motion detection, and distancemeasurement. The latest applications include liquid levelsensing, Nondestructive Testing (NDT) and high performanceultrasonic sensing systems for mobile robots or autonomousmobile systems. In Nondestructive Testing, ultrasonicsensors are used for non-contact inspection of compositematerials, aluminum, and plastics for defects, cracks, ordelamination. Because contact is unnecessary, the sensorscan also be used to inspect material or products on a movingassembly line or in applications in which contamination is aconcern.ACOUSTIC13www.FutureElectronics.com/Sensors

ACOUSTICUltrasonic SensorsMurata’s ultrasonic sensors are based on piezoelectric ceramics technology. With high sensitivity and reliability, light weight,and compact package, ultrasonic sensors are ideal for burglar alarms, range finders and remote control applications.MurataPart NumberResonanceFrequency (KHz)Directivity(deg)Sound Pressure Level(dB)Capacitance(pF)Max Supply Voltage(Volt)Operating Temperature(°C)MA40S4R/S 40 80 120 +/-3 2550+/-20% 20Vp-p -40 to +85MA40MF14-5B 40 110x50 103 4400+/-20% 160Vp-p -40 to +85MA48MF14-5B 48 100x40 101 4200+/-20% 160Vp-p -40 to +85MA58AF14-0N 58 75x35 2.0dB Vop +/- 30% 1400 +/-20% 120Vp-p -40 to +85MA58MF14-0N 58 80x35 0.3 to 1.2 vop 2000 160Vp-p -40 to +85High Frequency Ultrasonic SensorsWith high resonance frequency, MA300 ultrasonic sensors are ideal for double feed detection applications.Part Number Resonance Frequency (KHz) Detectable Range Capacitance (pF) Max Supply Voltage (V) Operating Temperature (°C)MurataMA300D1-1 300 .1m to .3m 1300pF 50Vp-p -20 to +70Silicon MicrophoneWolfsonST MicroPart Number Output SNR (dB) Sensitivity (dB)FrequencyResponseSupply (V)Supply Current(µA)PackageWM7120A Analog 57 -42 62Hz-9.3Khz 1.5 to 3.7 140 3.76 x 2.95 x 1.10mm TopWM7210 Digital 58 -26 35Hz-10Khz 1.64 to 3.7 650 4.0 x 3.0 x 1.0 mm TopWM7220 Digital 58 -26 35Hz-9Khz 1.64 to 3.7 650 4.72 x 3.76 x 1.22 mm TopPortLocationMP34DB01 Digital 62.6 -26 20Hz-20Khz 1.64 to 3.6 650 RHLGA 3 x 4 x 1 4LD BottomMP34DT01 Digital 63 -26 20Hz-20Khz 1.64 to 2.86 600 HCLGA 4 x 3 x 1 4LD TopMP45DT02 Digital 58 -26 20Hz-15Khz 1.64 to 3.6 650 HLGA 4.72 x 3.76 6LD TopSTMicroelectronics14THE WORLD’S SMALLEST SERIAL REAL-TIME CLOCKOur serial RTC with embedded crystal makes the ideal clock for your portable applicationsLCC8 1.5 mm x 3.2 mmwww.FutureElectronics.com/Sensors• Ultra-small package, less than 5 mm2• Low power consumption: 350 nA• Timekeeping down to 1 V for longer battery life• 4.4 V Operation• Oscillator fail detect ensures safe operation• Provides a 32 kHz on start-up suitable for driving a microcontroller in low-power mode• Programmable alarm ideal for wake-up functions• Can adjust timekeeping to within ±2 ppm (±5s per month)• Part number: M41T62

ACOUSTICMP34DT01High Performance Top-port Digital MEMS MicrophoneProduct OverviewThe MP34DT01 is a compact, low-power, omnidirectionaldigital MEMS microphone with a top port. The MP34DT01uses a capacitive acoustic sensor and a CMOS interfaceIC to capture acoustic signals. The acoustic sensor ismanufactured using a specialized silicon micromachiningprocess and the interface IC is manufactured using a CMOSprocess. The output of the MP34DT01 is a single-bit pulsedensitymodulation (PDM) digital audio stream with dualchannel capability.High PerformanceHighest signal-to-noise ratio on the market: 63dBWidest bandwidth: full 20Hz – 20kHz audio rangeHigh RF immunityHigh PSRR: 70dBCompetitive PricingThe MP34DT01 is extremely cost competitiveThe MP34DT01 has best-in-class 63dB signal-to-noiseratio, with flat response over the full audio bandwidth. It alsohas an acoustic overload point of 120dB SPL and -26dBFSsensitivity. The MP34DT01 is available in a compact 3mmx 4mm x 1mm ECOPACK ® SMD package that is RoHSand “Green” compliant. It is guaranteed to operate over anextended temperature range from -30°C to +85°C.ApplicationsMobile phonesNotebook computersTablet computersSecurity camerasACOUSTICFeatures & Benefits63dB signal-to-noise ratio20Hz to 20kHz bandwidth70dB PSRR-26dB sensitivity120dB acoustic overload pointWide operating voltage range: 1.64V – 3.6VLow power consumptionOmnidirectional sensitivityPulse density modulation (PDM) digital audio outputDual channel output capabilityHCLGA ECOPACK ® SMD package – RoHS and “Green”compliant15www.FutureElectronics.com/Sensors

ACOUSTICInterfacing WM72xxDigital MicrophonesProduct OverviewWolfson’s WM72xx DMIC (Digital Microphone) offers bestin-class,low noise performance with PDM (Pulse DensityModulation) output. As the digital interface provides directconnection to the CODECs digital domain, the DMIC requiresless external components and PCB area. This provides asimplified interface connection and gives a higher robustnessto system noise interference compared to an analogmicrophone interface.Stereo Digital Microphone InterfaceThe output characteristic of the DMIC enables the outputof two microphones to be connected together in a stereoconfiguration (as shown below). The data from onemicrophone is interleaved with the data from the other.ACOUSTICWolfson provides a wide range of audio CODECs with singleor multiple DMIC input interfaces. Connectivity is achievedusing a simple 2 wire CLK and DATA interface. As eachDMIC interface supports up to 2 microphones, the DMICinterface is more flexible and makes it easier to implementadditional microphones to support stereo recording, ambientnoise cancellation, microphone array or beam formingfeatures into single DMIC voice recording applications.Further information on system solutions with Wolfson’sCODECs and Microphones is available in WAN_0225.16Mono Digital Microphone InterfaceMono Digital Microphone Interface shows the mono DMICinterface connection to the CODEC. The PDM DAT (Data)outputs data on the rising or falling edges of the incomingCLK (Clock) signal based on the LRSEL pin. The DAT outputis high impedance when not outputting data at the otheredges. Therefore it is recommended to turn on the selectedADC channel according to LRSEL pin to avoid the CODECsampling at the high impedance output.The left channel is transmitted following the rising CLKedge when LRSEL = 1. Therefore the left channel should besampled by the CODEC on the falling edge. Similarly whenLRSEL = 0, the DMIC is set as right channel. In this case, theright channel DMIC is sampled by the CODEC on the risingCLK edge. The output data on the stereo DMIC configurationis summarized in the above figure on Output Data on StereoDMIC Configuration.The DMIC interface offers seamless integration with WolfsonCODECs. With the design consideration as discussedhere, the system designer can take full advantage of theWolfson DMIC to meet the most demanding acoustic designchallenges in the system application.www.FutureElectronics.com/Sensors

GYRO / ANGULAR RATEWhat is an angular rate sensor?Angular rate sensors, which are also commonly known asgyros, measure an object’s rotation rate or speed of rotation.Although many types of rotation sensors exist, angular ratesensors are unique in that they require no frame of referenceto function; for example, an angular rate sensor installed inan airplane will tell you how quickly the aircraft is turning. Incontrast, a car’s wheel speed sensor must be mounted inthe frame of reference, in this case the car body, to be ableto measure the speed of the wheel rotating next to it. Notdepending on a frame of reference has some drawbackshowever, as most angular rate sensors will suffer someamount of drift over time as a result. For this reason, theyare often used in conjunction with other types of sensors toensure accuracy over prolonged periods.ApplicationCasesNavigationSporting / medicalReal Life ExamplesGPS Dead reckoningGolf practice devices, gaitrecordersImage stabilization Camcorders, DSCsUser interface Wireless mouseVirtual reality headsetsMotion control Robotics, industrial machinecontrolsBalance control / Segways, roboticsinertial stabilization Mass storage devicesRoll over detection AutomobilesVehicle stability(ESP: ElectronicStability Program)Important selection parametersOutput Types (Analog vs. Digital)Analog sensors output a continuous voltage that isproportional to angular velocity. Digital ones feature a built-insignal condition circuitry with integrated ADC (analog-digitalconverter) and output signals via I 2 C/SPI interface.Sensing RangeExpressed in degree/second, the sensing range indicates themaximum angular velocity which can be measured.SensitivitySensitivity is a rating of the ratio of output change per unit ofangular rate at normal operating voltage and temperature.Higher sensitivity devices can detect and measure smallerchanges in angular rate.Zero Rate OutputThe Zero Rate Output is defined as the output voltage(analog) or code (digital) produced when angular velocity iszero, i.e. when the device is not rotating at all.GYRO / ANGULAR RATE17www.FutureElectronics.com/Sensors

GYRO / ANGULAR RATEGyro - Angular RateUsing proprietary MEMS technology, STMicroelectroincs offers robost angular rate sensors (gyroscope) for a variety ofindustrial, medical and consumer applications. Murata’s Gyrostar®, on the other hand, is based on piezoelectric vibration(Coriolis force), which is generated when a rotational angular velocity is applied to the vibrator.ST MicroMurataPartNumberSensing Range(deg)OutputInterfaceZero RateOutput (V)SupplyVoltage (V)Supply Current(mA)OperatingTemp. (°C)PackageSensing AxisA3G4250D 245 Digital +/- 25 dps 3 6.1 -40 to 85 LGA 16 4x4x1.1 yaw, pitch, rollL3G4200D 250, 500, 2000 Digital +/- 10 dps 3 6.1 -40 to 85 LGA 16 4x4x1.1 yaw, pitch, rollL3GD20 250, 500, 2000 Digital +/- 10 dps 3 6.1 -40 to 85 LGA 16 4x4x1.1 yaw, pitch, rollLPR410AL 100 Analog 1.5 3 6.8 -40 to 85 LGA 28 4x5x1.1 pitch, rollLPR4150AL 1500 Analog 1.5 3 6.8 -40 to 85 LGA 28 4x5x1.1 pitch, rollLPR430AL 300 Analog 1.5 3 6.8 -40 to 85 LGA 28 4x5x1.1 pitch, rollLPR450AL 500 Analog 1.5 3 6.8 -40 to 85 LGA 28 4x5x1.1 pitch, rollLPY410AL 100 Analog 1.5 3 6.8 -40 to 85 LGA 28 4x5x1.1 pitch, yawLPY4150AL 1500 Analog 1.5 3 6.8 -40 to 85 LGA 28 4x5x1.1 pitch, yawLPY430AL 300 Analog 1.5 3 6.8 -40 to 85 LGA 28 4x5x1.1 pitch, yawLPY450AL 500 Analog 1.5 3 6.8 -40 to 85 LGA 28 4x5x1.1 pitch, yawLY3100ALH 1000 Analog 1.5 3 4.2 -40 to 85 LGA 10 3x5x1.1 yawLY3200ALH 2000 Analog 1.5 3 4.2 -40 to 85 LGA 10 3x5x1.1 yawLY330ALH 300 Analog 1.5 3 4.2 -40 to 85 LGA 10 3x5x1.1 yawENC-03RC-R +/-300 Analog 1.35 2.7 to 5.25 1.6 -5 to 75 – –ENC-03RD-R +/-300 Analog 1.35 2.7 to 5.25 1.6 -5 to 75 – –MEV-50C-R +/-70 Analog 2.5 +/- 0.3 5 +/-0.25 8 -40 to 85 – –iNEMOsystem-on-board18Cortex M3 32-bit MCU. This 9-DoF inertial systemrepresents a fully integrated solution that can be used innumerous applications such as virtual reality, augmentedreality, image stabilization, human machine interfaces,robotics and inertial body tracking.A complete set of communication interfaces in a very small size form factor(13x13x2 mm) makes the INEMO-M1 system-on-board a fl exible solution foreffortless orientation estimation in embedded applications.www.FutureElectronics.com/Sensors

GYRO / ANGULAR RATEST MEMS GyroscopeTechnologyGYRO / ANGULAR RATE20Product OverviewThe L3GD20 is one of ST’s low-power 3-axis angular ratesensors. It includes a sensing element and an IC interfacecapable of providing the measured angular rate to theexternal world through a digital interface (I 2 C/SPI).The sensing element is manufactured using a dedicatedmicromachining process developed by STMicroelectronicsto produce inertial sensors and actuators on silicon wafers.The IC interface is manufactured using a CMOS processthat allows a high level of integration to design a dedicatedcircuit that is trimmed to better match the sensing elementcharacteristics. With a higher driving frequency, the newgyroscope is immune to audio and mechanical noise.The L3GD20 has a set of full-scale ranges of ±250/±500/±2000 dps and is capable of measuring rates with a userselectablebandwidth.The L3GD20 is available in a plastic land grid array (LGA)package and can operate within a temperature range of-40°C to +85°C.Features & BenefitsThree selectable full-scale ranges (250/500/2000 dps)I 2 C/SPI digital output interface16 bit-rate value data output8-bit temperature data outputTwo digital output lines (programmable interrupts and dataready)Integrated low- and high-pass filters with user selectablebandwidthWide supply voltage range: 2.4V to 3.6VLow voltage-compatible IOs (1.8V)Embedded power-down and sleep modesEmbedded temperature sensorEmbedded FIFOHigh shock survivabilityExtended operating temperature range (-40°C to +85°C)LGA Package 4x4x1mmApplicationsGaming and virtual-reality input devicesEnhanced user interfaces and motion control with MMI(man-machine interface)Dead reckoning and personal navigation supporting GPSnavigation systemsAppliances and roboticsHealth care and wellnesswww.FutureElectronics.com/Sensors

GYRO / ANGULAR RATEST Inertial MeasurementUnits (IMUs)Product OverviewThe LSM330DLC is a system-in-package IMU. It features a3-axis digital accelerometer and a 3-axis digital gyroscope.ST’s family of MEMS sensor modules leverage the robustand mature manufacturing processes already used by ST forthe production of micromachined accelerometers.While the various sensing elements are manufactured usingproprietary ST’s micromachining processes, the IC interfacesare developed using a CMOS technology that allows thedesign of a dedicated circuit that is trimmed to better matchthe sensing element characteristics.The LSM330DLC has full-scale acceleration ranges of±2g/±4g/±8g/±16g and angular rate full-scale ranges of±250/±500/±2000 deg/sec that can be selected dynamicallyduring operation.Both the accelerometer and gyroscope offer independentlower power modes for power consumption management tofurther reduce the power consumption of these devices.Features & BenefitsAnalog supply voltage: 2.4V to 3.6VDigital supply voltage IOs: 1.8VLow power modePower-down mode3 independent acceleration channels and 3 angularrate channels ±2g/±4g/±8g/±16g dynamically selectable full scale ±250/±500/±2000 dps dynamically selectable full scaleDigital output SPI/I2C serial interface (16-bit data output)Programmable interrupt generator for free-falland motion detectionModule package 4x5x1 mm LGAIntelligent power saving for handheld devicesVibration monitoring and compensation6D orientation and direction detectionMotion-activated functions and gesture recognitionHealth care and wellnessApplicationsDead reckoning and personal navigation supporting GPSnavigation systemsImpact recognition and loggingGaming and virtual-reality input devicesGYRO / ANGULAR RATE21www.FutureElectronics.com/Sensors

More inventoryMore personalized serviceMore security of supplyFAI Electronics - more than you thought possibleFor more information,please visit www.FAIelectronics.comA division of Future Electronics

HUMIDITYWhat is a humidity sensor?A humidity sensor detects the relative humidity of theambient air. This is defined as the ratio of the partialpressure of water vapor of the air, divided by the partialpressure it would have when saturated with water vaporat the temperature and pressure, usually expressed as apercentage.Common humidity sensors function by employing specialmaterials that change electrical properties such ascapacitance as they absorb moisture from, and come toequilibrium with, the surrounding air.ApplicationCasesHumidity SensingReal Life ExamplesHVACs (air conditioning units)Automotive climate controlsAppliancesImportant selection parametersHumidity RangeHumidity range is the span of relative humidity, in percent,that the device can reliably measure.SensitivitySensitivity defines the rate of change or transfer ratio ofthe output of the sensor, for a given change of humidity.Depending on the type of sensor and its output property,this can be expressed in several ways, such as pF/%RH,Hz/%RF, or mV/%RH.Typical applicationsHumidity sensors are commonly used in environmentalcontrols and monitoring devices such as home airconditioners and humidifiers, commercial HVAC systems,automotive and other vehicle cabin controls, as well asindustrial process control systems.HUMIDITY23www.FutureElectronics.com/Sensors

HUMIDITYCapacitive Humidity SensorGE Measurement & Control and Measurement Specialties offers a wide range of capacitive humidity sensor components,probes and modules, which are ideal for industrial and commercial applications.Part Number Humidity Range (%) Sensitivity /%RH Supply Voltage (Volt) Supply Current (mA) OperatingTemperature (°C)PackageGEChipCap 0-100 NA* 3 - 5.5 0.55 -40 to 85 SOP-14HS1101LF 0-100 0.31 pF 10 max N/A -40 to 140 TO39HTS2030SMD 0-100 0.31 pF 10 max N/A -40 to 140 SMTHTF3000LF 0-100 -12 Hz 3.30-16.00 0.18 -40 to 105 Through-holeHTF3226LF 0-100 -14 Hz 5.00 0.10 -40 to 85 PCBHTM1735 0-100 26 mV 5.00 2.80 -40 to 105 Through-holeMeasurement SpecialtiesHM1500LF 0-100 26 mV 5.00 2.80 -30 to 70 ProbeHM1520LF 0-100 26 mV 5.00 0.40 -30 to 60 ProbeHTM2500 0-100 25 mV 5.00 1.40 -40 to 85 ProbeHTG3513CH 0-100 18 mV 3.30 3.00 -40 to 110 ModuleHTG3515CH 0-100 26 mV 5.00 3.20 -40 to 110 ModuleHTG3533CH 0-100 18 mV 3.30 3.00 -40 to 110 ModuleHTG3535CH 0-100 26 mV 5.00 3.20 -40 to 110 ModuleHTG3413CH 0-100 36 Hz 3.30 1.50 -40 to 110 ModuleHTG3415CH 0-100 43 Hz 5.00 2.80 -40 to 110 ModuleHTU10(F) 0-100 NA* 3.3 0.25 -40 to 105 SMDHTU11(F) 0-100 NA* 3.3 0.25 -40 to 105 SMD*note: digital output24www.FutureElectronics.com/Sensors

HUMIDITYChipCapThe Fully Calibrated Humidity andTemperature SolutionProduct OverviewThe ChipCap series humidity sensor by GE offers anew standard in the field of accurate relative humiditymeasurement. Based on a capacitive polymer sensingtechnology, this device offers signal conditioning andtemperature compensation for a single SoC (System-on-Chip) solution. The device is very simple to use, fully testedand calibrated for accuracy on delivery—no further calibrationis needed. ChipCap can be incorporated into an assemblyor finished sensor to meet customer specifications. Themeasurement is accurate to ±2% from 20% to 80% RH and±3% across the entire humidity range. Long term stabilityis excellent. The temperature accuracy is ±1°C from 0°C to+70°C. Dual outputs provide humidity and temperature as0V to 1V, or 0.5V to 4.5V ratiometric or available with digitaloutput (the ZACwire one-wire interface).ApplicationsHVAC Controls•§Humidistats•§Enthalpy control•§Indoor air quality (IAQ)•§Humidifiers•§DehumidifiersInstrumentation•§Portable instruments•§Data loggers andrecorders•§Weather stationsMedical•§Nebulizers•§Oxygen air•§CPAP/Sleep apneadevicesAutomotive•§Cabin climate control•§Defrost controlAppliances and whitegoodsOEM assemblies availableSpecificationsSimultaneous relative humidity and temperature outputsAccuracy ±2% RH from 20% to 80%Range 0 - 100% RHTemperature accuracy ±0.6ºC at +25ºCResolution 0.4% RHOutput configurations available:•§- Voltage 0V to 1V•§- 10% to 90% of VDD•§- ZACwire digital output (8-bit humidity)Factory calibrated, ready-to-useDesigned for automated assemblySupply voltage: 3.0V to 5.5VLow quiescent current: 0.5mA at 5V, +25°CSOP 14 packageFeatures & BenefitsFully integrated solutionFast responseLong-term stabilityPrecision accuracyHUMIDITY25Part NumberCHIPCAP-L-50-TUBECHIPCAP-R-50-TUBECHIPCAP-D-50-TUBEDescription50 X ChipCap RH and TemperatureSensor, 0-1VDC, Linear Output50 X Ratiometric Output (5VDC Nominal)50 X ChipCap RH and TemperatureSensor, Digital, Outputwww.FutureElectronics.com/Sensors

Energy HarvestingWireless Sensor NetworksLimitless power generationMechanicalHarvest energy from motionThermo-electricHarvest energy fromtemperature differentialsSolarHarvest energy fromindoor lightwww.FutureEnergySolutions.com

IMAGEWhat is an image sensor?An image sensor is a device that converts an optical imageinto an electronic signal. CMOS image sensors are builtin advanced CMOS processing technology, which makesit possible to produce image sensors with lower costcompare to CCD imagers. With the help of low cost andhigh performance CMOS image sensors, digital imagingtechnology can be widely used in many applications fromconsumer digital still camera (DSC), smart phone andwebcams to industrial or commercial application like barcodescanning, machine vision, security surveillance camera andintelligent traffic systems.ApplicationCasesAerospace &astronomyAutomotiveimagingConsumerIndustrial imagingMedical imagingProfessionalphotographySecurity &surveillanceReal Life ExamplesSpace cameras, environmentalobservation, earth observation,astronomical imagingRear view and night visioncameras, rain detection, blindspot detectionWebcams, toys, notebook, tabletsWafer inspection, PCB inspection,machine vision, intelligenttraffic systems, postal and parcelsorting; barcode readingDiagnostic cameras, prostheticeyes; X-ray imagingHigh end professional camerasIP cameras, CCTV cameras,fingerprint module, iris & facialrecognitionImportant selection parametersMegapixelsA megapixel is one million pixels, which is the term used todescribe the number of sensor elements in an image sensor.Frame RateFrame rate is the frequency at which an image sensorproduces a frame of image, usually measured in frame persecond (FPS).Optical FormatOptical format is a measure of the maximum diagonal size ofan imaged object in the focal plane of an optical system. It isapproximately the diagonal length of the sensor multiplied by3/2. The result is expressed in inches and is usually (but notalways) rounded to a convenient fraction.IMAGE27www.FutureElectronics.com/Sensors

IMAGECMOS Image SensorsON Semiconductor offers high resolution and high speed active pixel image sensors that are ideal for digital photography,machine vision, barcode imaging and medical imaging applications.IMAGEON SemiconductorProduct Part Number MegapixelsFrame Rate(fps)OpticalFormatShutter TypePixel Size(µm)ColorPackage TypeIBIS4-6600 NOII4SM6600A-QDC 6.6 5 1 inch Rolling 3.5 x 3.5 Mono LCC-68LUPA1300-2LUPA300LUPA3000LUPA4000STAR1000STAR250VITA1300VITA2000VITA25KVITA5000NOIL2SC1300A-GDCNOIL2SM1300A-GDCNOIL2SM1300A-GWCNOIL1SE0300A-QDCNOIL1SM0300A-QDCNOIL1SM0300A-WWCNOIL1SE3000A-GDCNOIL1SN3000A-GDCNOIL1SC4000A-GDCNOIL1SM4000A-GDCNOIS1SM1000A-HHCNOIS1SM1000A-HWCNOIS1SM1000S-HHCNOIS1SM0250A-HHCNOIS1SM0250A-HWCNOIS1SM0250A-WWCNOIS1SM0250S-HHCNOIV1SE1300A-QDCNOIV1SN1300A-QDCNOIV1SN1300A-XXCNOIV2SE1300A-QDCNOIV2SN1300A-QDCNOIV1SE2000A-QDCNOIV1SN2000A-QDCNOIV2SE2000A-QDCNOIV2SN2000A-QDCNOIV1SE025KA-GDCNOIV1SN025KA-GDCNOIV1SE5000A-QDCNOIV1SN5000A-QDC1.3 500 1 inch Pipelined and Triggered Global 14 x 140.3 250 1/2 inch Pipelined and Triggered Global 9.9 x 9.93 485 1 inch Pipelined and Triggered Global 8.0 x 8.04 15 35 mm Pipelined Global 12 x 12ColorMonoColorMonoColorMonoColorMonoCPGA-168LCC-48NA-WaferCPGA-369CPGA-1271 11 1 inch Rolling 15 x 15 Mono JLDCC-840.25 29 1 inch Rolling 25 x 25 Mono1.3 150 1/2 inch2 92 2/3 inch25 53 35 mm5 75 1 inchPipelined Global, Rolling withCDS, LVDS, 10-bit outputsPipelined Global, Rolling withCDS, LVDS, 10-bit outputsPipelined Global, Rolling withCDS, LVDS, 10-bit outputsPipelined Global, Rolling withCDS, LVDS, 10-bit outputs4.8 x 4.84.8 x 4.84.5 x 4.54.8 x 4.8ColorMonoColorMonoColorMonoColorMonoJLDCC-84NA-WaferLCC-48NA-Bare DieLCC-52CPGA-355LCC-6828www.FutureElectronics.com/Sensors

IMAGEImage Sensors atAutomotive Quality and PriceFull dynamic exposure and HDR control included -for when (light) conditions get toughProduct OverviewThe “Avocet” series of CMOS image sensors feature1024x512 pixels in a 1/3” optical format (full resolution) or1/4” optical format (VGA subwindow) with a parallel 8, 10 or12 bit output and frame speeds of up to 74fps (full frame) orhigher (with less rows).We designed these image sensors for providing crisp imagesat extreme (light) conditions:Night time, starting from 0.1 lux conditionsNight time, with very bright lights present in the nightscene (154 dB extended HDR)Day time, with direct sunlight shining onto the imagesensor (HDR)Extra sensitivity for NIR lightOperational temperature up to 125°CAutomotive qualified for robust environmentsThe MLX75412-M version is perfect for fully automaticmonochrome cameras. On-chip features include automaticexposure (AE), automatic frame-by-frame HDR control(“Autobrite”) and optimized screen viewing (histogramequalization, “Autoview”).The MLX75413-G version is perfect for fully automatic colorcameras. The Melexis HDR color processing algorithm isincluded in this offer (requires an external FPGA).The MLX75413-I version is perfect for fully automatic colorcameras where also NIR light should be detected (color nightvision). The camera’s sensitivity will greatly benefit when NIRlight is present. The Melexis HDR color processing algorithm(“Nightbrite”) is included in this offer (requires an externalFPGA).ApplicationsAll vehicle mounted cameras:trucks, heavy vehicles, etc.Traffic monitoring camerasNight vision camerasHDR camerasSecurity/surveillance camerasFleet safety / black box camerasOutdoor, all-weather, day/nightcamerasIMAGE29www.FutureElectronics.com/Sensors

IMAGEMANO High Performance Rolling ShutterCMOS Image Sensor for Biometric andMedical Device ApplicationsRolling shutter MANO 9600 combines high-speed operation, 9.6 MP resolutionand 41 dB SNR performance in an integrated package that simplifiesimplementation in new designsIMAGE30Product OverviewThe MANO 9600 CMOS image sensor has a 9.6 MPresolution and runs at 20 fps at full resolution. The image’score is read out through gain and offset amplifiers before thedata goes to the 10-bit on-chip analog-to-digital converter(ADC). The digital data is transferred over industry standardLVDS channels. The on-board sequencer, programmableover an SPI interface, generates all internal timing forexposure control and supports all readout modes. Higherframe rates are achieved with multiple ROI or sub-sampledreadout modes. The sensor has built-in features for biascontrol, power supply regulation and automatic exposurecontrol.Features & BenefitsHigh resolution – 9.6MP (3840 x 2500)High frame rates (up to 20 fps full frame)On-board CDS and FPN correctionOn-chip sequencer – easy design-inLVDS outputs for high frame rateCMOS outputs for DSP compatibilityHigh configurabilityApplicationsFingerprint biometricsFace recognitionIris recognitionMedicalMachine visionInspectionParameter MANO 9600Active Pixels 3840 x 2500Pixel Size 2.4 µm x 2.4 µmShutter SpeedRolling shutterPixel RateLVDS: 4 x 620 MbpsCMOS: 62 MHzDynamic Range54 db (Rolling shutter)Conversion Gain0.07 DN/e-Saturation Charge 12000 e-Peak QE * FF 45%Power Dissipation500 mWPackage Type52-pin LCCDark Current (@ 21˚C)- DN/sNoise Electronics1 DN (Rolling shutter)Frame Rate20 fpsResponsivity @ 550 nm4.64 DN/mJ/cm 20.88 V/lux.secFPN0.5% RMSwww.FutureElectronics.com/Sensors

IMAGEVITA High Performance Global ShutterCMOS Image SensorsEasy-to-use, configurable and versatile CMOS image sensors with globalshutter capability for fast, reliable machine vision and industrial applicationsProduct OverviewThe VITA family includes image sensors ranging from 1.3 to25 megapixels with global and rolling shutter capability andframe rates up to 150 fps at full resolution. In rolling shuttermode the sensors support Correlated Double Sampling(CDS) to reduce noise and increase dynamic range. Thesensors offer multiple slopes for extended optical dynamicrange (HDR mode), which maintains good contrast inshadowed regions of an image without saturating brightareas in scenes. The sensors also feature a 10-bit on-chipADC for digital output and on-chip timing control for easyapplication development.Features & BenefitsOn-chip fixed pattern noisecorrectionHigh optical dynamic rangeHighly sensitive pixel with microlensesProgrammable Region of Interest(ROI)Integrated fixed pattern noise (FPN)correctionAutomatic Exposure Control (AEC)620 Mbps LVDS outputsMonochrome or color digital outputApplicationsMachine vision & industrial imagingMotion monitoringMedical imaging & microscopySecurity & surveillanceBarcode readersIntelligent Traffic Systems (ITS)PoE Security Block Diagram featuring Image SensorsIMAGE31Part Number Active Pixels Package TypeVITA 1300 1280 (H) x 1024 (V) 48-pin LCCVITA 2000 1920 (H) x 1200 (V) 52-pin LCCVITA 5000 2592 (H) x 2048 (V) 68-pin LCCVITA 25K 5120 x 5120 355-pin uPGAwww.FutureElectronics.com/Sensors

IMAGEAdvanced CMOS imaging takesIntelligent TransportationSystems (ITS) to the next levelIMAGE32What is ITS?Intelligent transportation systems (ITS) is a broad termthat describes numerous applications aimed at improvingtransportation safety, efficiency and cost effectiveness.Advanced CMOS imagers play an important role insupporting monitoring, control and safety in suchapplications.Advanced Traffic Management Systems (ATMS)Advanced traffic management systems include hardwareand software for controlling, monitoring, and managing roadtraffic. Cameras are at the core of the hardware. Analysis ofthe camera images enables the improvement of traffic signaltimings and in turn, traffic flow. A further benefit is that ATMSalso help improve communications for emergency vehicleoperations. The systems are capable of automated vehicleidentification, automated vehicle location (position, speedand direction) and Automated Number Plate Recognition(ANPR).Electronic Toll Collection SystemsElectronic toll collection (ETC) systems enable drivers to payroad tolls without stopping at the pay booths. Most of thesesystems are based on RFID readers but combine or switchto ANPR as an input for toll collection handling. Deploymentof ETC systems results in reductions in traffic congestion,shorter queues at toll stations, and even savings in fuelconsumption.ITS Vision Systems Applications in DetailEffective image capture is at the core of ETC systems. Thesesystems have a dual purpose: Firstly, they have an analysisfunction; the captured image is analyzed for ANPR. Secondly,the scene or context is captured in an image to provide abackup and proof of the vehicle’s presence in a particularplace and time.Both elements have a slightly different approach butalso some similarities. ANPR resembles machine visionapplications; the camera ‘grabs’ images for analysis andoutputs only the result. Advanced image sensors are utilizedto improve the efficiency, reliability and quality of the system.Global shutter is by far the most important requirement if theElectronic toll collection (ETC) system including smart cameraapplication involves taking images of a moving vehicle. A crispimage is required in order to perform the analysis successfully.Reading out multiple Regions of Interest (ROI) in the pixelarray allows the tracking of multiple license plates at the sametime. Each frame - a new region of interest - can be selectedto track the license plate or vehicles in general. Also, a ‘crop’from the total field of view reduces the processing powerrequired to analyze the data. Furthermore, the averaging offrames can increase the fidelity of the system.Different variants of imagers are used for such systems.Traditionally, monochrome image sensors have been usedand achieve a superior quality. Nowadays, color imagesensors are used as they create a better image for context.Additional improvements in sensitivity performance can beachieved by enhanced Near Infrared (NIR) sensitivity. ETCsystems typically employ NIR LED lighting at night; thissignificantly improves image quality without hindering thedriver.Advanced Traffic Management Systems are visuallyoriented with a clean image being the ultimate goal. Manualinterference is required to analyze and interpret the data buta good image quality under all circumstances will ease theprocess.Wide dynamic range is a key enabler to produce an image ineither low light or over illuminated conditions. Wide dynamicrange can be obtained by a number of different techniques.ON Semiconductor’s VITA family features an on-chip widedynamic range setting to achieve enough detail in dark andbright images. As an alternative, one can output multipleimages with changing integration time and select the mostfavorable image, or utilize a combination of images thatare reconstructed to create a final image. ‘Blooming’ - aproblem that can occur when using CCDs where image datagets corrupted by overexposed images - can be avoidedin CMOS imagers by utilizing ‘overflow’ schemes to drainaway excessive charges in the pixels, thereby avoiding imagecorruption.www.FutureElectronics.com/Sensors

IMAGEAlthough primarily vision oriented, increased automation isexpected in the future. Such systems will include automatedtraffic optimization to help the avoidance of accidents,collision warning systems, and crossing optimization.VITA Family as a Key Image SensorVITA CMOS image sensors offer an ideal solution to meetthe requirements of traffic systems. When translating systemrequirements into sensor specifications, it is clear that globalshuttering, high speed readout, high sensitivity (including NIRwavelengths), excellent anti-blooming performance and widedynamic range performance (up to 90 dB) are needed.The VITA image sensor family incorporates all of thesenecessary requirements and is therefore well suited to targetITS applications. Four members of this image sensor familywere introduced in 2010; they are the VITA-1300, VITA-2000,VITA-5000 and the VITA-25K. Later this year two furtherdevices will be added (the VITA-12K and VITA-16K). Thiswill provide a family that addresses the complete range ofresolution requirements.Because of its resolution, performance and size, the VITA-5000 is widely chosen for traffic applications. It has aresolution of 2592 (H) x 2048 (V) with 4.8 µm high-sensitivitypixels resulting in a one inch optical format. The pixelarchitecture provides electronic rolling shutter as well aspipelined global shuttering, a key requirement to captureinformation from fast moving objects. Its five megapixelresolution is very well suited to multiple lane License PlateNumber Recognition as it can cover up to three traffic laneswith one camera.Data output is provided over eight industry-standard LVDSdata channels each running at 620Mbit/s resulting in a fullframe rate of 70 frame/s. This high frame rate allows the userto take successive frames with different exposure settings inorder to create High Dynamic Range (HDR) pictures. HDRis needed to ensure pictures of the inside of the car thatprovide proof of identity of drivers, can be achieved underlow-light conditions. HDR also supports effective licenseplate reading under bright daylight conditions, at night, andin all weather conditions. An on-chip HDR mode is availablein which the sensor outputs a piece-wise linear responseto light (called a ‘multiple slope’ response) effectivelycompressing high exposure parts of the image resulting in anoptical dynamic range of up to 90 dB.The VITA image sensor family integrates a programmableoffset and gain amplifier for each channel of the industrystandardLVDS outputs. Higher frame rates are achievedwith multiple ROI or sub-sampled (preview) readout modes,programmable over a Serial Peripheral Interface (SPI).Multiple ROI readout allows multiple object tracking overdifferent frames resulting in higher frame readout as well asdecreased data throughput of the system.Vision systems play versatile roles in today traffic monitoring systemsThe on-board sequencer generates all internal timing forexposure and readouts. The VITA sensors also feature a10-bit on-chip analog-to-digital converter (ADC) to provide adigital output and on-chip timing control for easy applicationdevelopment.While the VITA-5000 serves typically multi-lane ANPRapplications, the VITA-2000 is widely used for trafficsurveillance cameras which are installed at importantcrossroads in order to assess traffic flow as well as foranalysis of collisions and road accidents. Global shutteringand the HDR function are key in providing optimal imagesunder all conditions.High resolution sensors such as the VITA-12K, VITA-16K andthe VITA-25K are often chosen to provide a complete visionsolution with one camera that can serve as a surveillancecamera as well as tracking multiple traffic lanes in oneshot. Such high-end solutions can replace multiple existingsystems, significantly lowering maintenance costs as well aspotential failure rates; extremely important aspects in trafficsystems given the expensive and difficult maintenance ofcamera systems in the field.All VITA sensors are offered in monochrome and RGBbayerversions. The monochrome version is available in twovariants of which one has an optimized response in the NIRregion (700-900 nm). This allows customers to add additionallight sources outside the visual range to avoid interferencewith human sight for safety reasons and boosting sensitivityboth during the day and night.SummaryTraffic monitoring in all its forms is playing a more andmore important role in our daily life. Consequently, theindustry around it is expanding and using data processingand imaging solutions originally developed for machinevision applications. The VITA image sensor family from ONSemiconductor offers an image sensor solution that meetsmost traffic vision system requirements.IMAGE33www.FutureElectronics.com/Sensors

IMAGEImage-sensor analog front-end ICsdeliver extra integration and flexibilityProduct OverviewThe WM8232, WM8233, WM8234 and WM8235 fromWolfson Microelectronics are 16-bit Analog Front-End (AFE)digitizer ICs capable of processing and digitizing the analogoutput signals from Charged Coupled Device (CCD) sensorsor Contact Image Sensors (CIS) at effective pixel samplerates of up to 210M Sample/s.The WM8234 has six channels with two ADCs and achievespixel sample rates up to 23M Sample/s per channel at a totaleffective conversion rate of 140M Sample/s.The WM8235 has nine channels with three ADCs andachieves pixel sample rates up to 23M Sample/s per channelat a total effective conversion rate of 210M Sample/s.IMAGE34Each device integrates multiple signal-processing channels,and implements functions including reset-level clamping,Correlated Double Sampling (CDS) and sample/hold,programmable gain, Automatic Gain Control (AGC) andoffset adjustment for each channel. The channel outputs aretime multiplexed, into an on-chip array of 16-bit high-speedADCs.Other integrated features include a 4-bit DAC for internalreference-level generation, automatic black-level calibrationto adjust the DC offset of the output data, and a sensortimingclock generator for CCD and CIS sensors. Thedevices also have a flexible output port that enablesdesigners to arrange digital output data in a variety offormats, and permit selection of either LVDS or CMOS outputarchitecture.The key difference between devices in the family lies inthe number of signal-processing channels provided. TheWM8232 and WM8233 have three and six channelsrespectively, with three ADCs, and achieve pixel sample ratesup to 35M Sample/s per channel.The variety of configurations available translates into higherscanning speeds at higher resolutions, for end-users, whileengineers can take advantage of the common flexiblearchitecture to simplify design-in and speed up time-tomarket.Features & Benefits3.3V single-supply operationSupply current: 320mA for WM8232/34, 380mA forWM8233and 400mA for WM8235Internally generated voltage referencesCompliant for spread-spectrum clock56-lead QFN package 7mm x 7mm for WM8234/35 and8mm x 8mm for WM8232/33ApplicationsDigital copiersUSB2.0-compatible scannersMulti-function printersHigh-speed CCD/CIS interfaceswww.FutureElectronics.com/Sensors

IMAGEImage analog front-endPartNumberTypicalApplicationDescriptionResolution(bits)Speed(MSPS)InputPGAOffset(bits)Output format Supply Power PackageWM8152 MFP & Scanner Single channel CCD/CIS ADC 16 12 8 8 4x4 4.8 to 5.2 225 SSOP-20WM8196 MFP & Scanner 3-channel CCD/CIS ADC 16 12 8 8 8+8, 4x4 4.8 to 5.2 300 SSOP-28WM8199 MFP & Scanner 3-channel high speed CCD/CIS ADC 16 20 8 8 8+8, 4x4 4.8 to 5.2 360 SSOP-28WM8213 MFP & Scanner 3-channel CCD/CIS ADC 16 24 9 8 8+8, 4x4 3.0 to 3.6 350 SSOP-28WM8214 MFP & Scanner 3-channel high speed CCD/CIS ADC 16 40 9 8 8+8, 4x4 3.0 to 3.6 390 SSOP-28WM8215 MFP & Scanner 3-channel high speed CCD/CIS ADC 10 60 9 8 10 3.0 to 3.6 360 QFN-32WM8216 MFP & Scanner 2-channel high speed CCD/CIS ADC 10 60 9 8 10 3.0 to 3.6 330 QFN-32WM8224 MFP & Scanner 3-channel high speed CCD/CIS ADC 10 & 16 40 & 60 9 8 10 (10-bit), 8+8 (16-bit) 3.0 to 3.6 360 QFN-32WM8232 MFP & Scanner 3-channel high speed CCD/CIS ADC 16 70 12-bit 8 LVDS 10/16-bit or CMOS 10-bit 3.3V 320mA QFN- 56, 8mm x 8mmWM8233 MFP & Scanner 6-channel high speed CCD/CIS ADC 16 70 12-bit 8 LVDS 10/16-bit or CMOS 10-bit 3.3V 380mA QFN- 56, 8mm x 8mmWM8234 MFP & Scanner 6-channel high speed CCD/CIS ADC 16 70 12-bit 8 LVDS 10/16-bit or CMOS 10-bit 3.3V 320mA QFN- 56, 7mm x 7mmWM8235 MFP & Scanner 9-channel high speed CCD/CIS ADC 16 70 12-bit 8 LVDS 10/16-bit or CMOS 10-bit 3.3V 400mA QFN- 56, 7mm x 7mmWM8253 MFP & Scanner Single channel CCD/CIS ADC 16 6 8 8 4x4 3.0 to 3.6 132 SSOP-20Low power CODECs with integrated video bufferPartNumberWM8944WM8945WM8946WM8948TypicalApplicationSmartphones andMobile Phones,Handheld and ConsoleGaming Products,eBook Readers, DigitalCamera (still andvideo), Home AV, HighPerformance Audioand Set Top Box,Portable Media Players,Personal NavigationDevicesDescriptionMono CODEC withvideo bufferMono CODEC withvideo buffer andtouchpanel controllerStereo CODEC withvideo bufferStereo CODEC withvideo buffer andtouchpanel controllerDACs /ADCs1/1 Yes1/1 Yes2/2 Yes2/2 YesH’phonedriverBTL speakeroutputYes, 400mW,monoYes, 400mW,monoYes, 400mW,monoYes, 400mW,monoDACSNR/THD+N(dB)ADCSNR/THD+N(dB)VideobufferAnalogsupply (V)Digitalsupply (V)Package98 / -80 94 / -83 Yes 2.4 to 3.6 1.7 to 3.6 W-CSP-3698 / -80 94 / -83 Yes 2.4 to 3.6 1.7 to 3.6 W-CSP-3698 / -80 94 / -83 Yes 2.4 to 3.6 1.7 to 3.6 W-CSP-3698 / -80 94 / -83 Yes 2.4 to 3.6 1.7 to 3.6 W-CSP-36IMAGEHDA CODECsPartnumberTypicalApplicationDescriptionChannelsDACSNR/THD+N(dB)ADCSNR/THD+N(dB)Other featuresAnalogsupply (V)Digitalsupply (V)PackageWM8850PC and NotebooksMulti-Channel HDA CODECwith S/PDIF Transceiver4 in 6 out 108 / -96 105/-95S/PDIFtransceiver4.5 to 5.5 1.62 to 3.63 QFN-48WM8860PC and NotebooksMulti-Channel HDA CODECwith S/PDIF Transmitter4 in 4 out 108 / -96 105/-95S/PDIFtransmitter4.5 to 5.5 1.62 to 3.63 QFN-48Stereo low power CODECsPartNumberTypicalApplicationDescriptionDACs /adcsH’phone driverBTL speakeroutputDACSNR/THD+N(dB)ADCSNR/THD+N(dB)AdvancedDSP featuresOther featuresPackageWM8904WM8903WM8960WM8961WM8962Smartphones andMobile Phones,Handheld andConsole GamingProducts, PCsand Notebooks,Portable MediaPlayers, PersonalNavigationDevicesUltra low power CODECwith headphone driverUltra low power CODEC forportable audio applicationsCODEC with Class Dspeaker driverCODEC with Class DSpeaker DriverCODEC with Class DSpeaker Driver2/2 Yes,Class W No 96 / -86 92 / -802/2 Yes, Class W2/22/2Yes, 40mW into16 ohmsYes, Class W 22mWinto 16 ohmsYes, Class W 22mWinto 16 ohmsNo, 2x differentialline outUp to 1.4W perchannelYes, 1W 8Ω BTLClass DYes, 1W 8Ω BTLClass D96 / -86 93 / -80High passfilters, EQDynamic rangecontrol, digitalsidetoneDigital microphoneinterfaceDigital microphoneinterfaceQFN-32WLCSP-36QFN-4098 / -84 95 / -82 3D MIC interface ALC QFN-3298 / -83 88 / -75 Digital sidetone MIC interface ALC QFN-3298 /-79 94 /-86VSS, HDBASS,ReTune TM , 3D,EQ, DRCProgrammable ALCand Noise GateCSP-4935www.FutureElectronics.com/Sensors

The Advanced Engineering Group (AEG) along with its System Design Centers (SDCs) can help speed upyour product development by leveraging factory engineers of industry leading suppliers and banks of referencedesigns of all kinds. With our broad expertise and our group of resident specialists, we can help you in manyways: from simple technical support to prototype design, from paper concept to production and certification.Whether your market is local or global, Future Electronics is available to serve you. With over 300 certifiedengineers around the world and 3 SDC locations (Montreal, London and Shenzen), we offer the samebest in class service wherever your product is designed or manufactured.Please contact your local Future Electronics branch to find outhow we can help you to reduce your time to market.www.FutureElectronics.com

LIGHT & OPTICALWhat is a light sensor?A light or photo sensor simply detects the amount orintensity of light on its surface and produces a proportionalanalog or digital signal from it. Light sensors can take theform of a simple photodiode, phototransistor, or CdS cell.More sophisticated light sensor integrated photodiodes withsignal amplification and conversion circuitry to provide analog(i.e. frequency and voltage) or digital (via I 2 C or SMBUS)output signals.A color sensor is designed to accurately derive the colorchromaticity and illuminance (intensity) of ambient light. Itintegrates photodiodes with red, blue, green filters and signalconversion and control circuitry to provide analog or digitaloutput signals.Important selection parametersPhoto Current is the current produced in a semiconductordevice resulting from its illumination.Dark Current is the minimum electric current though aphotodiode when in total darkness.Output Channel(s) defines the nature and count of outputsignals: ex: Red, Green, Blue, etc.Typical applicationsLight sensors are most often used in lighting control toconserve energy or for a more natural visual effect. Forexample, ambient light sensors are used to automaticallyswitch street lights and parking lot lighting ON and OFF.It is also used to control the brightness of display backlighting based on ambient light conditions to make it morecomfortable for human eye.LIGHT & OPTICALApplicationCasesAutomotiveIndustrialConsumerReal Life ExamplesCompartment lighting controlAlarmsSLR CamerasOutdoor lightingSolar panels controlStreet lights control37www.FutureElectronics.com/Sensors

LIGHT & OPTICALPhoto DetectorPhoto detector, the simplest form of analog ambient light sensor, usually consists of a high sensitive photo diode orphototransistor. Its spectral sensitivity is closely matched to the human eye.PanasonicPart NumberPhoto Current(µA)Dark Current(µA)Rise Time (ms) Fall Time (ms) Supply Voltage(Volt)Operating Temp.(°C)PackageAMS104Y 260uA* 0.3 8.5ms 8.5ms 1.5 to 6 -30 to 85 SMD - T&RAMS302(T) 260uA* 0.3 8.5ms 8.5ms 1.5 to 6 -30 to 85 Through-hole - Bulk or T&RAMS402Y 20uA* 0.05 1.2ms 1.2ms 1.5 to 5.5 -30 to 85 Chip - T&RRohmVishayBH1600FVC-TR 60 0.1 – – 3 -30 to 85 WS06FBH1603FVC-TR 60 0.2 – – 2.4 to 5.5 -40 to 85 WSOF6TEPT4400 200 3 N/A N/A 0.5 to 5 -40 to 85 ø 3mmTEPT5600 350 3 N/A N/A 0.5 to 5 -40 to 85 ø 5mmTEPT5700 75 3 N/A N/A 0.5 to 5 -40 to 85 ø 5mm, flatTEMT6000X01 50 3 N/A N/A 0.5 to 5 -40 to 100 2 x 4 x 1HTEMT6200FX01 12 3 N/A N/A 0.5 to 5 -40 to 100 1.2 x 2 x 0.85HTEMD6010FX01 0.04 2 N/A N/A N/A -40 to 100 2 x 4 x 1HBPW21R 9 3 3μs 3μs N/A -40 to 125 TO5 SealedTEMD5510FX01 1 2 N/A N/A N/A -40 to 100 4.2 x 5 x 1H*note: Ev = 100 lux (Ev Brightness, Fluorescent lamp is used as light source)LIGHT & OPTICAL38Digital Ambient Light SensorDigital output ambient light sensors integrate analog-to-digital conversion and serial communication circuitry, which makes thesignal processing and interfacing to the processors much easier compared to analog output ambient light sensors.amsRohmPartNumberOutput InterfacePeak Wave Length(nm)Power Down Current(mA)Supply Current(mA)Supply Voltage(Volt)Operating Temp.(°C)PackageTSL2580 16-bit SMBus 626 / 850 0.003 0.175 2.7 - 3.6 -30 to 70 CSP - 6TSL2581 16-bit I 2 C 626 / 850 0.003 0.175 2.7 - 3.6 -30 to 70 DFN-6 / CSP-6TSL2583 16-bit I 2 C 626 / 850 0.003 0.175 2.7 - 3.6 -30 to 70 DFN-6 / CSP-6TSL25711 16-bit I 2 C 626 / 850 0.003 0.175 2.6 - 3.6 -30 to 70 DFN-6TSL25713 16-bit I 2 C 626 / 850 0.003 0.175 2.6 - 3.6 -30 to 70 DFN-6TSL45317 16-bit I 2 C 880 / 940 0.002 0.175 2.6 - 3.6 -30 to 70 DFN-6BH1710FVC 16-bit I 2 C 560 0.01 120 2.4 to 3.6 -30 to 85 WSOF6BH1715FVC 16-bit I 2 C 560 0.01 120 2.4 to 3.6 -40 to 85 WSOF6BH1721FVC 16-bit I 2 C 560 0.01 140 2.4 to 3.6 -40 to 85 WSOF5BH1750FVI 16-bit I 2 C 560 0.01 120 2.4 to 3.6 -40 to 85 WSOF6IBH1751FVI 16-bit I 2 C 560 0.85 120 2.4 to 3.6 -40 to 85 WSOF6IBH1780GLI 16-bit I 2 C – 0.7 120 2.3 to 3.0 -40 to 85 WLGA04IW02BH1730FVC16-bit I 2 C600 Visible Light840 Infrared0.85 150 2.4 to 3.6 -40 to 70 WSOF6www.FutureElectronics.com/Sensors

LIGHT & OPTICALAnalog Ambient Light SensorAnalog ambient light sensors integrate photodiode array, signal amplification and conversion into one chip. With Schmitttrigger, frequency and voltage output options, this type of products offer flexibility for various light sensing applications.PartNumberOutput TypeOutput RangeSupply Voltage(Volt)Supply Current(mA)Operating Temp.(°C)PackageamsMelexisRohmTSL12 Voltage up to 4.9V 2.7 - 5.5 1.1 0 to 70TSL13 Voltage up to 4.9V 2.7 - 5.5 1.1 0 to 70TSL14 Voltage up to 4.9V 2.7 - 5.5 1.1 0 to 703 Pin TH Sidelooker,3/4 Pin SMT Sidelooker3 Pin TH Sidelooker,3/4 Pin SMT Sidelooker3 Pin TH Sidelooker,3/4 Pin SMT SidelookerTSL250/60 Voltage 0 - 3.3 2.7 - 5.5 1.1 0 to 70 SOIC−8, 3 Pin TH, 3 Pin SMTTSL251/61 Voltage 0 - 3.3 2.7 - 5.5 1.1 0 to 70 SOIC−8, 3 Pin TH, 3 Pin SMTTSL252/62 Voltage 0 - 3.3 2.7 - 5.5 1.1 0 to 70 SOIC−8, 3 Pin TH, 3 Pin SMTTSL253/63 Voltage 0 - 3.3 2.7 - 5.5 1.1 0 to 70 SOIC−8, 3 Pin TH, 3 Pin SMTTSL254 Voltage 0 - 3.3 2.7 - 5.5 1.1 0 to 70 SOIC−8, 3 Pin TH, 3 Pin SMTTSL257/67 Voltage 0 - 4.5 2.7 - 5.5 1.1 0 to 70 SOIC−8, 3 Pin TH, 3 Pin SMTTSL230 Frequency 1 MHz 2.7 - 5.5 2 -25 to 70 SOIC−8TSL235 Frequency 0.5 MHz 2.7 - 5.5 2 -25 to 70 SOIC−8, 4 Pin SMTTSL245 Frequency 0.5 MHz 2.7 - 5.5 2 -25 to 70 SOIC−8TSL237 Frequency 0.6 MHz 2.7 - 5.5 2 -40 to 85 3 Pin TH, 3 Pin SMTTSL238 Frequency 0.6 MHz 2.7 - 5.5 2 -40 to 70 SOIC−8, 4 Pin SMTMLX75303E Schmitt Trigger 0 or VDD 3..5.5V 2.5 -40 to 85 SO8 / DFN3x3MLX75303K Schmitt Trigger 0 or VDD 3..5.5V 2.5 -40 to 125 SO8 / DFN3x3MKX75304E Frequency 1Hz..1.6Mhz 3..5.5V 7 -40 to 85 SO8 / DFN3x3MKX75304K Frequency 1Hz..1.6Mhz 3..5.5V 7 -40 to 125 SO8 / DFN3x3MLX75305E Voltage 0..VDD 3..5.5V 2 -40 to 85 SO8 / DFN3x3MLX75305K Voltage 0..VDD 3..5.5V 2 -40 to 125 SO8 / DFN3x3MLX75308R SPI 0.2 - 0.8Vdd 3.3V 6 -40 to 105 QFN24 4x4BH1600FVC Current(Source) 0-50000 2.4 to 3.6 0.064 -30 to 85 WSOF6BH1603FVC Current(Source) 0-100000 2.4 to 5.5 0.074 -40 to 85 WSOF6BH1620FVC Current(Source) 0-100000 2.4 to 5.5 0.071 -40 to 85 WSOF5*BH1680FVC Current(Source) 0-50000 2.4 to 5.5 0.075 -40 to 85 WSOF5BH1621FVC Current(Source) 0-50000 2.4 to 5.5 0.074 -40 to 85 WSOF5*note: in developmentLIGHT & OPTICALColor SensorColor sensors consist of light sensors and color filters. They convert RGB light to analog (i.e. voltage or frequency) or digitalsignal to indicate the light density.amsPart Number Output Channel Output Type Output RangeSupply Voltage(Volt)Supply Current(mA)Operating Temp.(°C)PackageTCS3103/4 RGB Voltage 0 - 4.8V 4.5 - 5.5 0.27 -30 to 70 DFN-6TCS3200 RGB+clear Frequency 10kHz - 600kHz 2.7 - 5.5 1.4 −40 to 85 SOIC-8TCS3210 RGB+clear Frequency 10kHz - 600kHz 2.7 - 5.5 2.4 −40 to 85 SOIC-8TCS3404 RGB+clear I 2 C 16 bit 2.7 - 3.6 8.7 −40 to 85 DFN-6, CSP-6TCS3414 RGB+clear I 2 C 16 bit 2.7 - 3.6 9.7 −40 to 85 DFN-6, CSP-7TCS34715 RGB+clear I 2 C 16 bit 2.7 - 3.3 0.235 -30 to 70 DFN-6TCS34717 RGB+clear I 2 C 16 bit 2.7 - 3.3 0.235 -30 to 70 DFN-639www.FutureElectronics.com/Sensors

LIGHT & OPTICALAmbient Light and Proximity SensorsHighly sensitive analog and digital ambient light sensors (ALS) and digitalproximity sensors (PS) for mobile, lighting and other applicationsLIGHT & OPTICALProduct OverviewLight sensors are widely deployed in display applications tosave energy and reduce eyestrain. In addition to optimizingbattery life for mobile applications, light-based proximitysensors are driving new gesture detection features. Highlysensitive Ambient Light Sensors (ALS) precisely matchhuman eye light response characteristics while ProximitySensors (PS) reflect infrared (IR) light off the target todetermine motion, distance and position. Light sensorscombine low-power CMOS image sensing technologywith advanced optical filter techniques and miniaturizedpackaging to create a wide range of standard andcustomized light sensor products.Features & BenefitsDynamic dark current compensation0.01 lux sensitivity for tinted glass applicationsEffective for measuring distances up to 100 mmMultiple threshold interrupt strategiesand filtersIR filter rejects sunlight and fluorescentlight interferenceRequires only one external IR LEDI 2 C digital communications, compatible withON Semiconductor’s LED driversApplicationsMobile phones, tabletsLaptops, cameras, GPSLCD TVs, monitorsIndoor/outdoor lighting, street lightsPartNumberTypePackage(mm)NOA1212 Analog ALS CUDFN-6 (1.6 x 1.6)NOA1305 Digital ALS CUDFN-6 (2 x 2)NOA1306 Digital ALS CUDFN-6 (2 x 2)NOA1312 Precision Digital ALS CUDFN-6 (2 x 2)NOA2301* PS CUDFN-8 (2 x 2)NOA3301 PS + ALS CUDFN-8 (2 x 2)* Availability PendingSmartphone Block Diagram featuring Ambient Light Sensors40www.FutureElectronics.com/Sensors

LIGHT & OPTICALColor SensorsAvailable in Every Output: Digital, Frequency, and VoltageWhen TAOS, who was acquired by ams in 2011, first introduced the TCS3414 digitalcolor sensor, it was the smallest digital color sensor in a chipscale package; ams hasbeen a leader in color sensing ever since and is your best partner for providing opticalsensors for color discrimination, determination, and measurement.Product OverviewExcellent Accurate Reading for light variations with fouranalog to digital converters that simultaneously read the red,green, blue & clear channels.Greater Accuracy with digital sync pin to PWM signal, suchas in LED solid state lighting, enabling color reading to beperfectly synchronized with the illumination of the LEDs.Cost Savings with built-in IR filter to accurately measurevisible light for color measurement; the IR filter is absolutelynecessary to subtract outdoor sunlight and artificial lightsources.Features & Benefits for the TCS3414Programmable interrupt function with user-defined upper and lower threshold settingApplicationsCOLOR DETERMINATION –A production line color sensing solution determines whethera product’s painted finish meets specification.COLOR DISCRIMINATION – To control the automatedsorting of products, such as by bottle cap color.COLOR MEASUREMENT – A TV or display uses a colorsensor to determine the color components of the roomlighting (or color temperature) to adjust the display’scolor balance to one that’s appropriate for the lightingenvironment.In-package trim provides an easy and accurate means to achieve system-to-system repeatability16-bit digital output with 12C at 400kHzProgrammable analog gain and integration time supporting 1,000,000 to -1 dynamic rangeLIGHT & OPTICALPartNumberTypeOperatingVoltageSensorArraySizeIR FilterAlt. AddressOptionSync1 2 CBUSSMB FN CS SOICTCS3103/4 Light to Voltage 4.5 - 5.5 RGB 3 x 3 No – – – – x – –TCS3200 Light to Frequency 2.7 - 5.5 RGBC 8 x 8 No – – – – x – xTCS3210 Light to Frequency 2.7 - 5.5 RGBC 4 x 6 No – – – – – – xTCS3404 Light to Digital 2.7 - 3.6 RGBC 2 x 8 CS Package Yes Yes – x – x –TCS3414 Light to Digital 2.7 - 3.6 RGBC 2 x 8 CS Package Yes Yes Vdd – x x –TCS34717 Light to Digital 2.7 - 3.3 RGBC 4 x 3 No Yes Yes 1.8V – x – –TCS37717 Light to Digital 2.7 - 3.3 RGBC 4 x 4 No Yes No Vdd – x – –INTERFACEPACKAGE41www.FutureElectronics.com/Sensors

Your Touch Solution PartnerFuture Display Solutions is a world-class leader and innovator in the distribution,marketing and technical support of Liquid Crystal Display (LCD) solutions for customers ofall sizes worldwide. We provide a full product offering which includes:• Touchscreen solutions covering differenttechnologies (Resistive, ProjectedCapacitive, Surface Capacitive, Infrared,Surface Acoustic Wave, Acoustic PulseRecognition)• LCD Displays (Monochrome/Color,STN/TFT/OLED)• Touchscreen Controllers• Video Scalar Controller Boards(Custom/Standard)• LCD Controller ICs• Single Board Computers• Inverters/LED Driver Boards• CablesFor the best touchscreen and LCD solutionsand support, visit www.FutureElectronics.com

LIGHT & OPTICALLight-to-Frequency, Light-to-Voltage and Light-to-DigitalOptical sensors in every output, allowing maximum designflexibility for a broad range of applications.Product OverviewLight-to-Frequency Sensors: Convert light intensity to adigital format for a direct interface to a microcontroller. Theoutput of this device is a square wave or pulse train whosefrequency is linearly proportional to light intensity (see chartbelow).Light-to-Voltage: Combine a photodiode andtransimpedance amplifier on a single monolithic IC andoffer the speed, temperature stability, and linearity of thephotodiode, but include a more usable voltage output signal(see chart below).Light-to-Frequency SensorsPartNumberResponsivity(Hz / uW / cm 2 )Light-to-Digital: Combine abroadband photodiode (350 nm to 1100 nm) with a visiblelight blocking photodiode in a single CMOS integrated circuit.Light-to-Digital sensors are commonly used in ambient lightsensing applications (for our Light-to-Digital Sensor portfolio,please refer to our ad on Ambient Light Sensors).Fout Max IR Only Pin Selectable Sidelooker SOIC T CLTSL230 790 @ 640nm 1MHz n/a 10 x 10 ArrayPACKAGE– x – –TSL235 625 @ 635nm 500K n/a n/a x – – –TSL245 500 @ 940nm 500K Yes n/a x – – –TSL237 1200 @ 640nm 500K n/a n/a x – x xTSL238 3400 @ 640nm 500K n/a n/a – x x –LIGHT & OPTICALLight-to-Voltage SensorsPartNumberTSL12RESPONSIVITYLow Med. High UltraFastResponse– – x – Yes – n/aLow Noise IR Only Sidelooker SOIC TMDPACKAGEx – xTSL13 – x – – Yes – n/a x – xTSL14 x – – – Yes – n/a x – –TSL250/60 – x – – No Yes TSL260 x x –TSL251/61 – x – – No – TSL261 x x –TSL252/62 x – – – Yes Yes TSL262 x – –TSL253/63 – x – – Yes – TSL263 x – –TSL254 x – – – Yes – n/a x – –TSL257/67 – – – x No – TSL267 x – x43www.FutureElectronics.com/Sensors

LIGHT & OPTICALDigital Ambient Light Sensorsams is the resident expert in ambient light sensing,releasing the first digital ambient light sensor to themarket in 2002.LIGHT & OPTICALProduct OverviewBased on a patented dual-diode approach, ams ambientlight sensors control brightness with sensitivity to suit thehuman eye, dimming the brightness or increasing illuminationdepending on the lighting environment. Typically designed indisplay-based applications and solid state lighting, ambientlight sensors offer up to 30% in energy savings by reducingtotal system power consumption, extending battery life inmobile devices, and producing improved picture quality.The ams TSL4531 digital ambient light sensor is ableto operate in the widest dynamic range, sensing up to220KLux–twice as bright as sunlight!Saves Processing Time: Simple direct Lux outputcalculates Lux value on chipVery High Sensitivity Levels: Reaches over 220K Lumenswithout saturating the device; very compatible with LEDSCost Savings: 4 pin device with a small footprintFeatures & Benefits for the TSL4531Wide Dynamic Range: 3 Lux to 220KLuxThree User-Selectable Integration Times (400ms, 200ms,and 100ms)16-bit Digital output with 12C compatibilityUltra Small 2mm X 2mm ChipLED package44PartNumberOperatingVolts 2.4 - 3.0OperatingVolts 2.4 - 3.0TSL2580 No YesSENSITIVITY1x 4x 30x12CBUSSMBUSAlt.AddressOptionFlexibleTimingx x x VDD Yes No YesPACKAGECL FN CS– x xTSL2581 No Yes x x x VDD No No Yes – x xTSL2583 No Yes x x x 1.8V No No Yes – x xTSL25711 Yes Yes x x x VDD No Yes Yes – x –TSL25713 Yes Yes x x x 1.8V No Yes Yes – x –TSL45317 2.3 - 3.3V Auto. Gain Control 1.8V No Yes Yes x – –www.FutureElectronics.com/Sensors

LIGHT & OPTICALFully Integrated Proximity andAmbient Light SensorsInfrared emitter, proximity-sensing photodiode, and ambient light sensor with I 2 Cinterface and signal processing IC with interruptProduct OverviewTo simplify the design process, Vishay has integrated theinfrared emitter, proximity photodiode, ambient light sensorand signal processing IC in one package. Window designand sensor placement are no longer geometric puzzles andthe need for mechanical cross-talk barriers is eliminated.Each sensor is a leadless surface mount package withstandard I 2 C communication and features an interruptfunction, which reduces power consumption by eliminatingpolling traffic between the sensor and microcontroller.Ambient LightSensorProximitySensorVCNL4020VCNL4010Features & BenefitsLow profile; height less than 0.83 mm16-bit dynamic rangeProgrammable emitter drive current•§10 mA to 200 mA (in 10 mA steps)Detection range up to 200 mmLight sensing from 0.25 lux to 16 kluxI 2 C InterfaceApplicationsTouchscreen locking and unlockingAuto-brightness control of displays•§Smartphones and tablets•§Digital cameras and recordersIndustrial proximity applicationsVCNL3020LIGHT & OPTICALInfraredEmitterPartNumberL x W(mm)Height(mm)InfraredEmitterProximityDetectorLightSensorInterruptFunctionLight SensorResolution(lux/count)Emitter PulseCurrent(mA)VCNL4000 3.9 x 3.9 0.7x x x – 0.25 10 to 200VCNL4010 3.9 x 3.9 0.7 x x x x 0.25 10 to 200VCNL4020 4.9 x 2.4 0.8 x x x x 0.25 10 to 200VCNL3020 4.9 x 2.4 0.8 x x – x – 10 to 200PACKAGEIINTEGRATEDCOMPONENTS45www.FutureElectronics.com/Sensors

LIGHT & OPTICALLIGHT & OPTICALAmbient Light Sensorswith Analog OutputPortfolio of ambient light sensors with phototransistor orphotodiode output in surface mount and leaded packagesProduct OverviewBy turning on, turning off, or adjusting display brightness,ambient light sensors can conserve battery power, optimizevisibility and provide extra safety by eliminating the need formanual adjustments. One measure of how well an ambientlight sensor performs is how it responds to the visible portionof different sources of light. Compared to Osram and TAOS,Vishay’s ambient light sensors are more linear and moreaccurate in measuring the ambient light when compared to alight meter.Features & BenefitsHuman eye-like responseHigh photo sensitivityAEC-Q101 qualified (-X01)-40 °C to +100 °C operating temperature rangeF-filtering epoxy (F) optionReduce power consumptionOptimize visibilityEliminate manual adjustmentsMake life safer, simplerApplicationsConsumer electronicsStreet lightingAutomotive lightingTEMT6200FX01TEMD6200FX01TEMD6010FX01TEMT6000X01TEMD5510X0146OutputPhotoTransistorPhotoDiodePartNumberMountingSize(mm)PeakWavelength(nm)Bandwidth(nm)Angle of HalfSensitivity(+/-)Light CurrentStandard A(uA)TEMT6200FX01 SMD 1.2 x 2.0 x 0.85 550 450 - 610 60 12TEMT6000X01 SMD 2.0 x 4.0 x 1.0 570 430 - 800 60 50TEPT5700 Leaded 5 mm, flat top 570 430 - 800 50 75TEPT5600 Leaded 5 mm 570 430 - 800 20 350TEPT4400 Leaded 3 mm 570 430 - 800 30 200TEMD6010FX01 SMD 2.0 x 4.0 x 1.0 540 430 - 610 60 0.04TEMD5510FX01 SMD 4.2 x 5.0 x 1.1 540 430 - 610 65 1TEMD6200FX01 SMD 1.2 x 2.0 x 0.85 540 430 - 610 60 0.04BPW21R Leaded TO5 - 8 mm 565 620 - 675 50 0.9www.FutureElectronics.com/Sensors

MAGNETIC / HALLWhat is a magnetic sensor?Magnetic sensors detect the presence or strength of amagnetic field. A simple magnetic sensor is a reed switch,which has flexible contacts made of iron-bearing magneticmaterials that make contact when a strong enough magnetexerts a force (magnetism) on them. Magnetic sensors usevarious sensing techniques like Hall effect or magnetoresistivefor various applications.Recently the MEMS magnetometer, which measures themagnetic field strength or direction, became popular as it canacquire accurate orientation-independent compass headinginformation when used in conjunction with a three axisaccelerometer.ApplicationCasesPosition, speed orcurrent sensingMotor controlMagnetic patternrecognitionReal Life ExamplesNeedle position in industrialknitting machinesRotary switches (human machineinterface)AC/DC motor position controlsRoboticsBrushless motorsVibration motor driversFan/motor driversATMs, cash counters, billchangers, ticket machines,automatic vending machines,card readersImportant selection parametersMagnetic Field Range defines the range of magnetic fieldstrength that a sensor can measure.Operating Point defines the threshold level of magnetic fieldthat causes the sensor output to turn ‘on’.Release Point defines the threshold level of magnetic fieldthat causes the sensor output to turn ‘off’.Sensitivity, for a linear or proportional magnetic sensor,defines the transfer function (ratio) of the output change, inproportion to the applied magnetic field.Typical applicationsThere are a multitude of magnetic sensor types adaptedfor different applications – Hall sensors are often used forposition/speed detection (linear or rotating) when used witha magnet and/or magnetic toothed object. Magnetic sensorsare well suited for use in harsh environments and have longlife since they are sealed and have no contacts to wear out.Other types are specialized for motor control applicationsand include motor drive electronics as well. Anotheruse is in magnetic compasses, using the most sensitivedevices to detect the earth’s natural magnetic field. Sinceelectric conductors produce a magnetic field proportionalto the current they carry, other devices can be used tounobtrusively measure current or power in this way. Recently,highly accurate and inexpensive 360-degree magneticrotational position sensor ICs have become popular formotion control & robotics and feature several output types,both analog and digital.MAGNETIC / HALL47www.FutureElectronics.com/Sensors

MAGNETIC / HALLHall Switches / LatchesHall switches or latch integrated hall sensors, control logic and interface circuitry to detect position. Switches do not retain themagnetic state when the magnet is removed, while latches retain the magnetic state when removing the magnet.MAGNETIC / HALL48DiodesPartNumberTypeOperating PointBop (mT)Release Point Brp(mT)Output Current(mA)Supply Voltage(V)OperatingTemp. (°C)*AH182P Unipolar Switch 1 0.005 2.5 to 5.5 E SIP-3AH182W Unipolar Switch 1 0.005 2.5 to 5.5 E SC59AH183P Unipolar Switch 1 0.28 2.5 to 5.5 E SIP-3AH183W Unipolar Switch 1 0.28 2.5 to 5.5 E SC59PackageAH337 Unipolar Switch 9 to 15 3 to 9 25 4.2 to 28 G SIP3 - SC59ATS137 Unipolar Switch 1 25 3.5 to 20 A SIP3 - SC59AH180AH1801AH1802AH1803AH1804AH180NAH1822AH1883AH1884AH1885AH1886AH1887AH1888AH1891AH1892AH173Omnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchOmnipolar SwitchBipolar LatchBops -6Bops -6Bops -4.0Bops -4.0Bops -6Bops -5.0Bops -5.5Bops -5.5Bops -5.5Bops -5.9Bops -5.5Bops -5.0Bops -7.9Bops -6HB:Bops -8.0LB:Bops -5.51.5/62934.2Brps >1Brpn 1Brpn 1Brpn 1Brpn 1Brpn 1Brpn 0.6Brpn 0.6Brpn 0.6Brpn 3.5Bopn >-3.5Brps >1.2Bopn -1.20.41.60.008 2.5 to 5.5 E0.008 2.5 to 5.5 E0.008 2.5 to 5.5 E0.008 2.4 to 5.5 E0.008 2.5 to 3.6 E0.008 2.5 to 5.5 E0.008 2.5 to 5.5 E0.007 1.65 to 3.3 ESC59 - SIP-3U-DFN2020-3U-DFN2020-6SC59U-DFN2020-3U-DFN2020-6SC59U-DFN2020-3U-DFN2020-6X2-DFN2015-3SC59U-DFN2020-6DFN1216-4SC59SC59 - SOT553TSOT23DFN2015-6X2-DFN3020-6SOT553U-DFN2020-30.007 1.65 to 3.3 E SOT5530.007 1.65 to 3.3 E SOT5530.007 1.65 to 3.3 E SOT5530.007 1.65 to 3.3 E SOT5530.007 1.65 to 3.3 EDFN2020R-3 - SOT553U-DFN2020-30.007 1.8 to 3.3 E U-WLB0808-40.004 1.6 to 3.6 ESOT553U-WLB0707-425 3 to 20 G SC59 - SIP-3AH175 Bipolar Latch 1.5/6 0.4 25 3.5 to 20 L SC59 - SIP-3AH1751 Bipolar Latch 0.5/7 1.4 50 3.5 to 20 G SC59(R) - SIP-3AH266 Bipolar Latch 10 max -10 min 400 4 to 28 A SIP-4AH276Q Bipolar Latch 10 max -10 min 400 3.5 to 20 A SIP-4AH342 Bipolar Latch 12-Apr 0.3 3.4 - 7.4 4.5 to 28 G SIP-4AH373 CMOS Latch 0.5/6 1.3 25 2.2 to 20 G SC59 - SIP-3*note: A:-20 to +85, E: -40 to +85, G:-40 to +125, L:-40 to +150www.FutureElectronics.com/Sensors

MAGNETIC / HALLPartNumberTypeOperating PointBop (mT)Release Point Brp(mT)Output Current(mA)Supply Voltage(V)OperatingTemp. (°C)*PackageAH375 CMOS Latch 0.5/6 1.2 25 2.2 to 20 G SC59 - SIP-3RohmMurataMelexisDiodesAH3761 CMOS Latch 0.5/6 1.2 50 3 to 28 G SC59 - SIP-3ATS177 Bipolar Latch -10 25 3.5 to 20 A SIP-3AH373 CMOS Latch 56 -6 25 2.5 G SC59 - SIP-3AH375 CMOS Latch 56 -6 25 2.5 G SC59 - SIP-3US1881 Latch 0.5 to 9.5 -9.5 to -0.5 20 3.5 to 24 E, L TO-92, SOT-23US3881 Latch 1 to 9 -9 to -1 20 2.2 to 18 E, L TO-92, SOT-23US5781 Unipolar Switch 7 to 15 3.5 to 10 20 3.5 to 24 E, L TO-92, SOT-23US5782 Unipolar Switch 7 to 15 3.5 to 10 20 3.5 to 24 E, L TO-92, SOT-23US5881 Unipolar Switch 15 to 30 9.5 20 3.5 to 24 E, L TO-92, SOT-23US2881 Bipolar Switch -1 to 6 -6 to 1 20 3.5 to 24 E, L TO-92, SOT-23US2882 Bipolar Switch -3 to 6 -6 to 2 20 3.5 to 24 E, L TO-92, SOT-23US2884 Bipolar Switch -2 to 6 -6 to 2 20 3.5 to 24 E, L TO-92, SOT-23US4881 Bipolar Switch -1 to 6 -6 to 1 20 2.2 to 18 E, L TO-92, SOT-23MLX90248 Omnipolar Switch +/-6 +/-0.5 1 2.5 to 3.5 E, L SOT-23, QFNMLX90224 Dual Latch 2.5 to 5.5 -5.5 to -2.5 typ 20 5 to 24 E, L VA (SIP4)MLX90217 Gear Tooth Sensor adaptive adaptive 25 3.5 to 24 L TO-92MLX92251 Dual Latch 5 - 10 -10 - 5 20 2.7 - 24 L TSOT-5AS-M15KA-R Magnetic Switch 0.5mT min 2.2mT max. 1.6 to 3.0μA 1.6 to 6.0V E SOT23 2.8×2.9×1.3mmAS-M15KAH-R Magnetic Switch 0.5mT min 1.6mT max. 1.6 to 3.0μA 1.6 to 6.0V E SOT23 2.8×2.9×1.3mmAS-M15LA-R Magnetic Switch 0.5mT min 2.2mT max. 1.6 to 3.0μA 1.6 to 6.0V E SOT23 2.8×2.9×1.3mmAS-M15SA-R Magnetic Switch 0.5mT min 2.2mT max. 1.6 to 3.0μA 1.6 to 6.0V E SOT23 2.8×2.9×1.3mmAS-M15SAH-R Magnetic Switch 0.7mT min 1.6mT max. 1.6 to 3.0μA 1.6 to 6.0V E SOT23 2.8×2.9×1.3mmAS-M15TAN-R Magnetic Switch 0.5mT min 2.5mT max 5.0 to 12.0μA 1.6 to 5.5V E SOT23 2.8×2.9×1.3mmAS-M15TANH-R Magnetic Switch 0.7mT min. 1.7mT max. 8.0 to 15.0μA 3.0 to 5.5V E SOT23 2.8×2.9×1.3mmAS-V20NA-R Magnetic Switch 0.8mT min. 4.0mT max. 5.0 to 12.0μA 2.5 to 3.5V E SON4AS-V20TA-R Magnetic Switch 0.8mT min. 4.0mT max. 5.0 to 12.0μA 2.5 to 5.5V E SOT23BU52054GWZ Omnipolar Switch ±6.3 ±5.4 0.005 1.65 to 3.6 E UCSP35L1BU52055GWZ Omnipolar Switch ±4.1 ±3.3 0.005 1.65 to 3.6 E UCSP35L1BU52001GUL Omnipolar Switch ±3.7 ±3.7 0.008 2.4 to 3.3 E VCSP50L1BU52011HFV Omnipolar Switch ±3.0 ±3.0 0.005 1.65 to 3.3 E HVSOF5BU52021HFV Omnipolar Switch ±3.7 ±3.7 0.008 2.4 to 3.6 E HVSOF5BU52015GUL Omnipolar Switch ±3.0 ±3.0 0.005 1.65 to 3.3 E VCSP50L1BU52025G Omnipolar Switch ±3.7 ±3.7 0.005 2.4 to 3.6 E SSOP5BU52056NVX Omnipolar Switch ±4.6 ±4.6 0.005 1.65 to 3.6 E SSON004X1216BU52053NVX Omnipolar Switch ±3.0 ±3.0 0.005 1.65 to 3.6 E SSON004X1216BU52061NVX Omnipolar Switch ±3.3 ±3.3 0.004 1.65 to 3.6 E SSON004X1216BD7411G Omnipolar Switch ±3.4 ±1.5 ±1 4.5 to 5.5 E SSOP5BU52004GUL Omnipolar Switch ±3.7 ±2.9 0.008 2.4 to 3.3 E VCSP50L1BU52014HFV Omnipolar Switch ±3.0 ±2.1 0.005 1.65 to 3.3 E HVSOF5BU52002GUL Omnipolar Switch 3.7 2.9 0.007 2.4 to 3.3 E VCSP50L1BU52003GUL Omnipolar Switch -3.7 -2.9 0.007 2.4 to 3.3 E VCSP50L1BU52012NVX Omnipolar Switch 3 2.1 0.004 1.65 to 3.6 E SSON004X1216BU52012HFV Omnipolar Switch 3 2.1 0.004 1.65 to 3.3 E HVSOF5BU52013HFV Omnipolar Switch -3.0 -2.1 0.004 1.65 to 3.3 E HVSOF5BU52040HFV Bipolar Latch ±3.0 -3 0.2 1.65 to 3.3 E HVSOF5*note: A:-20 to +85, E: -40 to +85, G:-40 to +125, L:-40 to +150MAGNETIC / HALL49www.FutureElectronics.com/Sensors

MAGNETIC / HALLLinear Hall ICMelexis’ programmable linear Hall sensors are ideal for position and fuel level sensing applications. The analog output isproportional to the applied flux density and the transfer characteristic can be programmed to any specific requirement.MelexisPartNumberOutput VoltageRange (V)Sensitivity(mV/mT)Magnetic Field Range(mT)Supply Voltage(V)Supply Current(mA)OperatingTemp. (°C)*PackageMLX90215 0 to 5 5 to 140 4.5 to 5.5 E, L VA (SIP4)MLX90251-0 0 to 5 2.6 to 15 333 to 800 4.5 to 5.5 2.5 to 6.5 E, L VA, TSSOPMLX90251-1 0 to 5 10 to 35 156 to 333 4.5 to 5.5 2.5 to 6.5 E, L VA, TSSOPMLX90251-2 0 to 5 18 to 90 62 to 156 4.5 to 5.5 2.5 to 6.5 E, L VA, TSSOPMLX90251-3 0 to 5 50 to 210 6 to 62 4.5 to 5.5 2.5 to 6.5 E, L VA, TSSOPMLX90288 0 to 5 N/A 6 to 650 4.5 to 5.5 8.8 to 10 L SOIC-8MLX90291 PWM N/A ±15 to ±400 4.5 to 5.5 8 to 10 L SOIC-8PWM / PAS4 /MLX90292N/A ±30 to ±170 4.6 - 8.7 13 - 19 G TSSOP16PSI5-A*note: E: -40 to +85, G:-40 to +125, L:-40 to +150Magnetic Pattern Recognition SensorThe magnetic pattern recognition sensor consists of a pair of magnetoresistive (MR) elements and a magnet. When a materialprinted with magnetic ink is scanned over the sensor, the magnetic flux applied to MRs changes, causing change of outputvoltages.MAGNETIC / HALLMurataPart NumberDetection Width(mm)Resolution(mm)Supply Voltage(V)Total Resistance Max.(ohm)Output VoltageMin.Output VoltageMax.Operating Temp.(°C)BS05M1KFFA 10mm 0.75mm 5V 3k 100mV p-p – 0 to 50BS05N1HFAA 3mm 0.75mm 5V 4k 400mV rms – -20 to 60BS05N1NFAA 6mm 0.87mm 5V 6k 330mV rms – -20 to 60BS05M1KFCB 10mm x 6ch 0.75mm 5V 10k 50mV ems – 0 to 50BS05M1KFJA 10.3mm x18ch 0.75mm 5V 3k 100mV p-p – 0 to 50BS05M1KFKA 10.3mm 0.75mm 5V 10k 50mV rms – 0 to 50BS05P1PGAB 1.5mm x1ch 0.75mm 5.25 6k 220mV rms 320mV rms -20 to 60BS05T1HGLC 3mm x1ch 0.75mm 5 3k 220mV rms 400mV rms -20 to 60Current SensorThe contact-less current sensor consists of a CMOS Hall effect sensor with a thin ferromagnetic layer structured on itssurface. The integrated ferromagnetic (IMC) layer is used as a magnetic flux concentrator providing a high magnetic gainwhich significantly increases the signal to noise ratio of the sensor. The sensor is particularly appropriate for DC and/or ACcurrent measurements up to 90kHz with ohmic isolation, very low insertion loss, fast response time, small package size andlow assembly cost requirements.50MelexisPart Number Output Types Bandwidth (kHz)Magnetic FieldRange (mT)Supply Voltage(V)Supply Current(mA)Operating Temp.(°C)PackageMLX91205 Voltage DC - 100 kHz ±10 / ±25 4.5 to 5.5 10 -40 to 125 SOIC-8MLX91206 Voltage / PWM DC - 90 kHz ±10 / ±25 4.5 to 5.5 9 -40 to 125 SOIC-8MLX91207 Voltage DC - 60 kHz ±15 to ±400 4.5 to 5.5 9 -40 to 125 SOIC-8www.FutureElectronics.com/Sensors

MAGNETIC / HALLHigh Speed Current SensingUsing the Hall EffectProgrammable Hall sensors solve demandingcurrent sensing applications.Product OverviewMLX91206The MLX91206 is a customer programmable monolithicSensor IC featuring Melexis’ Triaxis Hall technology. Itenables the user to construct small, economical and robustcurrent sensor solutions with very fast response times. Thesensor directly monitors the current flowing in an externalconductor such as a bus bar or PCB track. The automotivequalified contact-less current sensor consists of a CMOS Halleffect sensor with a thin ferromagnetic layer structured onits surface. The integrated ferromagnetic (IMC) layer is usedas a magnetic flux concentrator providing a high magneticgain which significantly increases the signal to noise ratioof the sensor. The sensor is particularly appropriate for DCand/or AC current measurements up to 90kHz with ohmicisolation, fast response time, small package size and lowassembly cost requirements. There is no upper limit to thelevel of current that can be measured because the outputlevel is dependent on the conductor size and distance fromthe sensor.Features & BenefitsFully customer programmable high speed current sensorFast analog output (12 bits resolution DAC) with largebandwidth DC– 90kHzOver voltage and reverse polarity protection and brokentrack diagnosticThermometer outputProgrammable switch functionPWM output (12 bits resolution ADC) -> MLX91206 onlyMagnetic concentrator (IMC) provides higher Signal toNoise Ratio ->MLX91206 only17 bit ID numberSingle die SOIC8 package RoHS compliantMLX91207The MLX91207 is a fully customer programmable monolithicSensor IC. The Hall sensor provides a high speed analogoutput signal proportional to the external applied flux densityand additional thermometer output.The MLX91207 enables the user to construct a robust basedcurrent sensor solution with fast response times

MAGNETIC / HALLNew Generation Hall Switches &Latches Manage Extreme EnvironmentsMAGNETIC / HALL52Product OverviewMelexis has a complete portfolio of Hall effect switchesand latches designed in mixed signal CMOS technology tomeet the full spectrum of application requirements. RecentlyMelexis launched a second generation of Hall effect switchesand latches with the MLX922xx platform. With this newproduct family, Melexis addresses several new functionalitiesmanaging extreme environments:With the built-in reverse voltage protection, remote sensorscan be specified for low voltage operation down to 2.7Vwhile being reverse voltage tolerant.The under-voltage lock-out protection will automaticallyfreeze the device when the voltage drops below aminimum value; this guarantees a valid output state in allcircumstances.With the built-in current limit, the output of the device willautomatically switch off in case of a prolonged short-circuitcondition. A self-check is periodically performed to switchback to normal operation if the short-circuit condition isreleased.The on-chip thermal protection switches off the output ifthe junction temperature increases above an abnormallyhigh threshold. It will automatically recover once thetemperature decreases below a safe value.ApplicationsAutomotive, consumer and industrialSolid-state switchBrushless DC motor commutationSpeed detectionLinear position detectionAngular position detectionProximity detectionBattery-operated / handheld appliancesFeatures & BenefitsWide operating voltage range from 2.2V to 24VHigh magnetic sensitivity – multi-purposeCMOS technologyChopper stabilized amplifier stageLow current consumptionMicro-power consumptionOpen-drain outputReverse voltage protectionUnder-voltage lock-outBuilt-in current limitOn-chip thermal protectionThin SOT23 3L and flat TO-92 3L (RoHS compliantpackages)Melexis Hall Effect Switches and LatchesUS188x Hall Latch – High SensitivityUS288x Bipolar Hall Switch - Very High SensitivityUS3881 Hall Latch – Low Voltage & High SensitivityUS4881 Bipolar Hall Switch - Low Voltage & Very HighSensitivityUS578x Unipolar Hall Switch - Medium SensitivityUS5881 Unipolar Hall Switch - Low SensitivityMLX90248 Micropower & Omnipolar Hall SwitchMLX9221x 3-wire Hall Effect Latch – Low to Very HighSensitivityMLX92213 Micropower & Omnipolar Hall Effect Latch withEnableMLX92221 2-wire Hall Effect Latch – Low to Very HighSensitivityMLX92241 2-wire Hall Effect Switch – Low to Very HighSensitivityMLX92251 Dual Hall Effect Latch with Speed & Direction -Medium Sensitivitywww.FutureElectronics.com/Sensors

MAGNETIC / HALLNew Generation ofSurface Mount LinearHall SensorsProgrammable linear Hall sensors forwide range of applicationsProduct OverviewThe family of linear Hall sensors breaks with the conventional“single-in-line-package” (SIP) approach which often offerssub-optimal solutions (mounting, space, EMI, reliability,cost...) at the system level for countless applications. Thenew Melexis programmable linear Hall ICs are surfacemountdevices (SMD) supporting the trend for improvedmanufacturability of sensor assemblies and modules.Features & BenefitsProgrammable Hall effect sensor (except MLX90290)12-bit magnetic flux densityWide measurement rangeSMD package RoHS compliantLead free component, suitable for lead free solderingprofile 260ºCMAGNETIC / HALLApplicationsLinear position sensingLinear stroke sensingRotary position sensingCurrent sensingMelexis Linear Hall Effect SensorsMLX90215 Precision Programmable Linear Hall ICMLX90242 Linear Hall Effect SensorMLX90251 Programmable Linear Hall Effect SensorMLX90288 SMD Programmable Linear Hall Sensor IC - Analog OutputMLX90291 SMD Programmable Linear Hall Sensor IC - PWM OutputMLX90292 SMD Programmable Linear Hall Sensor IC - 2-Wire PAS4/PSI5/PWM - 3-Wire PWM53www.FutureElectronics.com/Sensors

SensorSynergyLIGHT & OPTICALExpanding applicability through novel sensorsHall Sensor ICs4-Way SensorsProximity Sensor ICsTransmission-TypePhotointerruptersAmbient LightSensorsElectricFieldSensorsCIGSImageSensorsUVSensorsOpticalGasSensorsLIGHT & OPTICALWearable PulseSensorsSensorProductsTemperatureSensor ICsTouchscreenSensor Controller ICsROHM Semiconductor provides a wide rangeof innovative sensor solutions optimized forvirtually any application, from compact, wearablesensors, to distributed, next-generationsensor networks that span the globe.Pyroelectric Sensors54For information on products & technology: www.FutureElectronics.com/ROHMwww.FutureElectronics.com/Sensors

MOTIONWhat is a motion sensor?A motion sensor detects the movement of objects within itsfield of view. Passive infrared types are the most commontechnology used for motion sensors. These sensors detectlocalized variances in temperature between objects and thefixed background to determine if any object is moving. Theyoften employ special “zoned” or “curtain” lenses to amplifythese variances and increase sensitivity. Beyond bare sensordevices, today a range of fully integrated motion sensors isavailable.ApplicationCasesMotion detectorsLighting controlOccupancysensorsReal Life ExamplesBurglar alarm systemsIllumination control forpublic areasBuilding automationImportant selection parametersOutput Type (Analog vs. Digital)This indicates the nature of the output signal interface, whichcan be one of several forms of analog or digital interfaces, oreven a combination of several.Detection TypeThis indicates the nature or pattern of detection, includingstandard, spot, and others.Typical applicationsThe most popular applications for motion sensors are thePIR motion detectors used in alarm systems, as well asoccupancy sensors, often built into light switches or fixtures,which turn on when movement is detected in the vicinity.MOTION55www.FutureElectronics.com/Sensors

MOTIONPyroelectric Infrared Motion SensorBased on Murata’s ceramic technology, the IRS series pyroelectric infrared motion sensor exhibits high sensitivity and reliableperformance, and it’s ideal for security, appliance and lighting applications.MurataPart Number Output Type Sensitivity Wave Length Optical FilterSupply Voltage(Volt)Operating Temp.(°C)Package (mm)IRS-B210ST01-R1 Analog 3.6mVp-p 3μm to 14μm 3micro meter Long Pass 2V to 15V -40 to 70 4.7x4.7x2.4IRS-B340ST02-R1 Analog 3.6mVp-p 3μm to 14μm 3micro meter Long Pass 2V to 15V -40 to 70 4.7x4.7x2.4IRS-B345ST03-R1 Analog 3.6mVp-p 3μm to 14μm 3micro meter Long Pass 2V to 15V -40 to 70 4.7x4.7x2.4PhototransistorRohmPart NumberPeak SensitivityWavelength (λptyp.)(nm)Dark Current(µA)Collector Current(mA)Response Time(Typ. µs)Viewing Angleθ 1/2(deg)OperatingTemp. (°C)PackageRPM-012PB 800 0.5 20 10 ±12 -30 - +85 3x2x3mmRPT-34PB3F 800 0.5 30 10 ±36 -25 - +85 5.2x3.1mmRPT-37PB3F 800 0.5 30 10 ±36 -25 - +85 5.2x3.1mmRPT-38PB3F 800 0.5 30 10 ±36 -25 - +85 5.2x3.1mmRPM-20PB 800 0.5 30 10 ±14 -25 - +85 4.3x4.4x3.2mmRPM-22PB 800 0.5 30 10 ±32 -25 - +85 4.6x4.7x2.54mmSML-810TB 800 0.5 30 – – -30 - +85 Surface MountSCM-014TB 800 0.5 30 – – -30 - +85 Surface MountMOTION56Passive Infrared Motion SensorPanasonic offers extensive passive infrared motion sensor solutions. The EKMB and the EKMC series of PIR sensors arefully integrated designs with quad element, amplifier, comparator, power stabilizer, optical filter, and lens. The NaPiOn (AMNseries) family offers digital or analog output with built-in amplifier. With multiple detection types and black or white lens, thePanasonic motion sensors offer flexible solutions for occupancy or presence detection.PanasonicPart Number Output Type Detection TypeOutput Current(μA)Supply Voltage(Volt)OperatingTemp. (°C)PackageEKMB1101111 Digital Standard , 5m Max 1 2.3 to 4 -20 to 60 TO-5 Mounting, White LensEKMB1101112 Digital Standard , 5m Max 1 2.3 to 4 -20 to 60 TO-5 Mounting, Black LensEKMB1101113 Digital Standard , 5m Max 1 2.3 to 4 -20 to 60 TO-5 Mounting, Pearl White LensEKMB1201111 Digital Standard , 5m Max 2 2.3 to 4 -20 to 60 TO-5 Mounting, White LensEKMB1201112 Digital Standard , 5m Max 2 2.3 to 4 -20 to 60 TO-5 Mounting, Black LensEKMB1201113 Digital Standard , 5m Max 2 2.3 to 4 -20 to 60 TO-5 Mounting, Pearl White LensEKMB1301111K Digital Standard , 5m Max 6 2.3 to 4 -20 to 60 TO-5 Mounting, White LensEKMB1301112K Digital Standard , 5m Max 6 2.3 to 4 -20 to 60 TO-5 Mounting, Black LensEKMB1301113K Digital Standard , 5m Max 6 2.3 to 4 -20 to 60 TO-5 Mounting, Pearl White LensEKMB1103111 Digital Long , 12m Max 1 2.3 to 4 -20 to 60 TO-5 Mounting, White LensEKMB1103112 Digital Long , 12m Max 1 2.3 to 4 -20 to 60 TO-5 Mounting, Black LensEKMB1103113 Digital Long , 12m Max 1 2.3 to 4 -20 to 60 TO-5 Mounting, Pearl White LensEKMB1203111 Digital Long , 12m Max 2 2.3 to 4 -20 to 60 TO-5 Mounting, White LensEKMB1203112 Digital Long , 12m Max 2 2.3 to 4 -20 to 60 TO-5 Mounting, Black LensEKMB1203113 Digital Long , 12m Max 2 2.3 to 4 -20 to 60 TO-5 Mounting, Pearl White LensEKMB1303111K Digital Long , 12m Max 6 2.3 to 4 -20 to 60 TO-5 Mounting, White LensEKMB1303112K Digital Long , 12m Max 6 2.3 to 4 -20 to 60 TO-5 Mounting, Black Lenswww.FutureElectronics.com/Sensors

MOTIONPanasonicPart Number Output Type Detection TypeOutput Current(μA)Supply Voltage(Volt)OperatingTemp. (°C)PackageEKMB1303113K Digital Long , 12m Max 6 2.3 to 4 -20 to 60 TO-5 Mounting, Pearl White LensEKMC1601111 Digital Standard , 5m Max 170 3 to 6 -20 to 60 TO-5 Mounting, White LensEKMC1601112 Digital Standard , 5m Max 170 3 to 6 -20 to 60 TO-5 Mounting, Black LensEKMC1601113 Digital Standard , 5m Max 170 3 to 6 -20 to 60 TO-5 Mounting, Pearl White LensEKMC1603111 Digital Long , 12m Max 170 3 to 6 -20 to 60 TO-5 Mounting, White LensEKMC1603112 Digital Long , 12m Max 170 3 to 6 -20 to 60 TO-5 Mounting, Black LensEKMC1603113 Digital Long , 12m Max 170 3 to 6 -20 to 60 TO-5 Mounting, Pearl White LensAMN11111 Digital Standard 5m 100 3 to 6 -20 to 60 Black LensAMN11112 Digital Standard 5m 100 3 to 6 -20 to 60 White LensAMN12111 Digital Slight Motion 2m 100 3 to 6 -20 to 60 Black LensAMN12112 Digital Slight Motion 2m 100 3 to 6 -20 to 60 White LensAMN13111 Digital Spot 5m 100 3 to 6 -20 to 60 Black LensAMN13112 Digital Spot 5m 100 3 to 6 -20 to 60 White LensAMN14111 Digital 10m 100 3 to 6 -20 to 60 Black LensAMN14112 Digital 10m 100 3 to 6 -20 to 60 White LensAMN21111 Analog Standard 5m 170 4.5 to 5.5 -20 to 60 Black LensAMN21112 Analog Standard 5m 170 4.5 to 5.5 -20 to 60 White LensAMN22111 Analog Slight Motion 2m 170 4.5 to 5.5 -20 to 60 Black LensAMN22112 Analog Slight Motion 2m 170 4.5 to 5.5 -20 to 60 White LensAMN23111 Analog Spot 5m 170 4.5 to 5.5 -20 to 60 Black LensAMN23112 Analog Spot 5m 170 4.5 to 5.5 -20 to 60 White LensAMN24111 Analog 10m 170 4.5 to 5.5 -20 to 60 Black LensAMN24112 Analog 10m 170 4.5 to 5.5 -20 to 60 White LensAMN31111 Digital Standard 5m 170 3 to 6 -20 to 60 Black LensAMN31112 Digital Standard 5m 170 3 to 6 -20 to 60 White LensAMN32111 Digital Slight Motion 2m 170 3 to 6 -20 to 60 Black LensAMN32112 Digital Slight Motion 2m 170 3 to 6 -20 to 60 White LensAMN33111 Digital Spot 5m 170 3 to 6 -20 to 60 Black LensAMN33112 Digital Spot 5m 170 3 to 6 -20 to 60 White LensAMN34111 Digital 10m 170 3 to 6 -20 to 60 Black LensAMN34112 Digital 10m 170 3 to 6 -20 to 60 White LensAMN41121 Digital Standard 5m 46 2.2 to 3 -20 to 60 Black LensAMN41122 Digital Standard 5m 46 2.2 to 3 -20 to 60 White LensAMN42121 Digital Slight Motion 2m 46 2.2 to 3 -20 to 60 Black LensAMN42122 Digital Slight Motion 2m 46 2.2 to 3 -20 to 60 White LensAMN43121 Digital Spot 5m 46 2.2 to 3 -20 to 60 Black LensAMN43122 Digital Spot 5m 46 2.2 to 3 -20 to 60 White LensAMN44121 Digital 10m 46 2.2 to 3 -20 to 60 Black LensAMN44122 Digital 10m 46 2.2 to 3 -20 to 60 White LensMOTION57www.FutureElectronics.com/Sensors

MOTION5m black lens5m white lensFully Integrated PassiveInfrared Motion SensorPaPIRs sensorlineup12m black lensPanasonic’s proprietary embedded circuit design eliminates external sensingcircuits. Low current consumption for battery driven and wireless based devices.MOTION58Product OverviewPaPIRs is the newest passive infrared (PIR) motion sensoroffering a fully integrated design with lowest currentconsumption. Fully integrated features in the PaPIRs includea) built-in amplifier, b) comparator for digital output, c) powerstabilizer, d) quad PIR element, and e) optical filter (seeFigure 1). PIR sensors generate no outward signal into thearea and detect a combination of temperature difference andmotion.Features & BenefitsFully integrated design•§Compact size and easy integrationTO-5 metal package•§Noise resistance and ambient conditions stabilityBuilt-in amplifier•§Electromagnetic shieldingHigh signal-to-noise ratio•§Less susceptibility to false triggersDigital / Analog output•§Design simplification or adjustment to sensor sensitivity5m / 12m detection range•§Standard and long range distance detectionSmooth surface, low curvature lens with 3 color options:white, black, and pearl white•§Product design appearance considerationsFig.1 PaPIRs integrated componentsFig.2 PaPIRs quad element projection zonesA quad sensing element differentiates PaPIRs sensors andprovides more sensitive detection zones (see Figure 2). Aquad element design contributes to accurate detection andlead-free design using lithium tantalite. Detection is alsoimproved in warm environments when the temperaturedifference between an object and ambient conditions isreduced.www.FutureElectronics.com/Sensors

MOTIONFig.3 PaPIRs series overviewDetection Detection Profile Lens CurrentDistance Angle DiameterFig.4 Optimal zone projection for aisle detectionApplicationsPassive sensor components are ideal for battery poweredand low power consumption applications. PaPIRs sensorsprovide a fully integrated solution for energy conservation,environmental concerns, and safety and convenience. Idealfor lighting and HVAC control, security equipment, wirelessdevices, video intercoms, and home appliances (see Figure 5for wiring diagram).MOTIONFig.5 Wiring diagram for digital output modelsThe PaPIRs sensor lineup is available in EKMB and EKMCseries (see Figure 3). EKMB is designed specifically for lowpower applications. 1μA current consumption providesextended life for battery powered devices. Additional optionsare 2μA and 6μA. EKMC is a standard 170μA currentconsumption model. Optimal zone projection is featuredin the 12m version for aisle detection applications, e.g.warehouse lighting (see Figure 4).59www.FutureElectronics.com/Sensors

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POSITION / SPEEDWhat is a position/speed sensor?Position/speed sensors are a collection of various sensorstypes using various technologies to achieve linear orrotational position detection, or speed measurement. Themost common technologies used are magnetic (i.e. Halleffect or magnetoresistive), optical sensor and resistivecontact sensing.ApplicationCasesPositionSpeedReal Life ExamplesNeedle position in industrialknitting machinesRotary switches (human machineinterface)AC/DC motor position controlRoboticsControllers for injection speed ofmolding machineGear rotation speed and direction inFactory Automation equipmentMotor controllers for vehiclesImportant selection parametersLinear vs. RotaryDifferent technologies are used in linear or rotary position/speed measurement. For linear measurement, Halleffect, optical switches and passive devices such aslinear potentiometers are commonly used. For rotarymeasurement, magnetic or optical rotary encoders are moreoften encountered.Magnetic vs. OpticalBoth magnetic and optical sensors are useful for noncontactposition & speed measurement. Magnetic sensorsare immune to contamination and are ideal in harsh ordirty environments or submerged in fluids like motor oil.Optical sensors, generally transmissive or reflective types,are more suitable for clean environments free of dust andcontamination. For contact-type position/speed sensing,passive devices such as potentiometers are often used, asare rotary or linear encoders of this type.Typical applicationsPosition, and indirectly, speed sensors, have a wide rangeof industrial uses such as manufacturing processes, valveand flow controls, and robotics and CNC machines;automotive uses include engine monitoring & control, brakingand enhanced stability systems; commercial ones includecopiers, printers and scanners, elevators, and many kinds ofuser input devices or man-machine interface; aerospace andother applications abound.POSITION / SPEED61www.FutureElectronics.com/Sensors

POSITION / SPEEDSpecial Hall ICThe MLX903xx family is a CMOS Hall sensor that detects the angular position of a magnetic field parallel to the IC surface. Itis designed for contactless rotary position sensors that are frequently required in both automotive and industrial applications.MelexisPartNumberOutputChannelOutput TypeMagnetic FieldRange (mT)Analog OutputResolution(%Vdd/LSB)MLX90316 2-axis any 20 to 70 0.02%Output Current(mA)SupplyVoltage (V)SupplyCurrent (mA)OperatingTemp. (°C)4.5 to 5.5 11 max -40 to 125MLX90316-SPI 2-axis SPI 20 to 70 0.02% 4.5 to 5.5 11 max -40 to 125Analog 8 max,MLX90316-PPA 2-axis Analog 20 to 70 0.02% 4.5 to 5.5 11 max -40 to 125PWM 20 maxMLX90316-PPD 2-axis PWM 20 to 70 0.02% 4.5 to 5.5 11 max -40 to 125MLX90333 Triaxis any 20 to 70 0.02% 4.5 to 5.5Slow mode:11 max-40 to 125MLX90360 Triaxis Analog / PWM 20 to 70 0.02% 15 max 4.5 to 5.5 12 max -40 to 150MLX90363 Triaxis SPI 20 to 70 14bit N/A 3.3 / 5 15.5 max -40 to 150PackageSOIC8 /TSSOP-16SOIC8 /TSSOP-16SOIC8 /TSSOP-16SOIC8 /TSSOP-16SOIC8 /TSSOP-16SOIC8 /TSSOP-16SOIC8 /TSSOP-16POSITION / SPEEDDifferential Hall ICThe MLX90254 is a Differential Dynamic Hall Effect Sensor which has been developed for automotive crankshaft and ABS(anti-lock brake system) applications. The IC, combined with a magnet placed at its back, offers speed and position sensingof ferromagnetic tooth-wheels in dynamic operation (non zero speed).MelexisPart NumberPre-induction(mT)Differential Induction(mT)Output TypeSupply Voltage(V)Supply Current(mA)Operating Temp.(°C)Optical SwitchThe optical switches are compact transmissive sensors that include infrared emitters and phototransistor detectors configuredin a side by side or slot package, for motion, speed and direction detection.PackageMLX90254 -500 to 500 6 to 100 Voltage 4 to 24 5 to 12 -40 to 150 VA (SIP4)62TT electronics / Optek TechnologyVishayPartNumberOPB350 SeriesSlot Width (mm)1.57, 3.18, 4.75,6.35Forward Voltage(V)Peak Wavelength(nm)Collector Current(ON State) (mA)Dark CurrentMax (na)OperatingVoltage (V)OperatingTemp. (°C)1.7 (Max) 890 0.3 - 6.0 100 0.5 to 30 -40 to 85OPB620 4.826 1.6 (Max) 890 1 (Min) 65 0.5 to 24 -40 to 100 PCBOPB810W51Z 9.525 1.7 (Max) 890 0.625 (Min) 100 0.5 to 30 -40 to 80 WiredOPB811W55Z 9.525 1.7 (Max) 890 1.25 (Min) 100 0.5 to 30 -40 to 80 WiredPackagePCB andWiredOPB815WZ 9.525 1.7 (Max) 890 3.5 - 16.0 100 0.5 to 30 -40 to 80 WiredOPB819Z 31.75 1.8 (Max) 890 0.5 - 12.0 100 0.5 to 30 -40 to 85 WiredOPB829CZ 3.175 1.7 (Max) 890 1.8 (Min) 100 0.5 to 30 -40 to 80 WiredOPB830W55Z 3.175 1.7 (Max) 880 0.625 (Min) 100 0.5 to 30 -40 to 80 WiredOPB855 5.207 1.8 (Max) 935 1.5 - 20.0 100 0.5 to 30 -40 to 85 PCBOPB940W51Z 3.175 1.7 (Max) 880 Logic N/A4.75 to5.25TCPT1300X01 3 1.2 V at IF=15mA 950 nm 0.6 100 0.5 to 20 -40 to 85TCUT1300X01 3 1.2 V at IF=15mA 950 nm 0.6 x 2 100 0.5 to 20 -40 to 85-40 to 70 WiredSMD, 5.5 x4 x 4HSMD, 5.5 x4 x 4Hwww.FutureElectronics.com/Sensors

POSITION / SPEEDIndustrial Magnetic Rotary EncoderIndustrial Magnetic Rotary Encoders are contactless magnetic rotary encoders, which integrate Hall elements, analog frontend and digital signal processing in a single device, for accurate angular measurement over a full turn of 360°.amsPartNumberMaximumRotationalAngleOutputType*Magnetic FieldRange (mT)OutputResolution(deg)RPM(Max)Hysteresis(Degree)SupplyVoltagenom. (V)SupplyCurrentmax. (mA)OperatingTemp. (°C)PackageAS5030 360 SSI, PWM 20 to 80 1,4 (8bit) 30K 1.4 5.0 22 -40 to 125 TSSOP16AS5035 360 ABI 45 to 75 1,4 (8bit) 30K 0.7 3.3 or 5.0 25 -40 to 125 SSOP16AS5040 360AS5043 360SSI,PWM,ABI, UVWSSI,Analog45 to 75 0.35 (10bit) 30K 0.7 3.3 or 5.0 21 -40 to 125 SSOP1645 to 75 0.35 (10bit)depends onapplication0.7 3.3 or 5.0 21 -40 to 125 SSOP16AS5045 360 SSI, PWM 45 to 75 0.09 (12bit) 30K 0.7 3.3 or 5.0 21 -40 to 125 SSOP16AS5048A 360 SPI, PWM 30 to 70 0.022 (14bit) N/A 0 3.3 or 5.0 15 -40 to 150 TSSOP14AS5048B 360 I²C, PWM 30 to 70 0.022 (14bit) N/A 0 3.3 or 5.0 15 -40 to 150 TSSOP14AS5050 360 SPI 30 to 80 0.35 (10bit) N/A 0 3.3 8.5 -40 to 85AS5055 360 SPI 30 to 80 0.09 (12bit) N/A 0 3.3 8.5 -40 to 85QFN-16(4x4x0.85mm)QFN-16(4x4x0.85mm)MeasurmentSpecialtiesKMA36 360Analog,I 2 C540 0.04 N/A +/- 0.1 5.5 Max 30 -25 to 80 TSSOP20Industrial Magnetic Linear EncoderThe Industrial Magnetic Linear Encoders are single-chip ICs with integrated Hall elements for high speed linear motion and offaxis rotation measurement.amsPartNumberOutputType*Magnetic FieldRange (mT)LinearResolutionSpeed(Max)Hysteresis(lsb)Supply Voltagenom. (V)Supply Currentmax. (mA)OperatingTemp. (°C)PackageAS5304 ABI 5 to 60 25 (um) 20 meter/sec 1.5 5.0 35 -40 to 125 TSSOP20AS5306 ABI 5 to 60 15 (um) 12 meter/sec 1.5 5.0 30 -40 to 125 TSSOP20AS5311SSI, PWM,ABI10 to 40 0,488 (um) 0.65 meter / sec 2 3.3 or 5.0 21 -40 to 125 TSSOP-20AS5510 I²C 10 to 50 10 bit N/A 0 3.0 3.5 -30 to 85 WLCSPNSE-5310 I²C, PWM 10 to 40 0,488 (um) 0.65 meter / sec 2 3.3 or 5.0 21 -40 to 125 TSSOP-20POSITION / SPEEDMagnetic Rotational Speed SensorThe rotational speed sensors detect rotational speed or direction of ferrous gear wheels / geartooth target and referencemarks.NXPSensorTypeTyp. SensingDistance (mm)ToothFrequency (Hz)TargetOutput TypeSupply Voltage(V)TemperatureRange (°C)PackageKMI15/1 0 - 2.9 0 - 25,000 ferrous target Current 12 (typical) -40 to 85 SOT453KMI15/2depending onencoder0 - 25,000 magnetized target Current 12 (typical) -40 to 85 SOT453KMI15/4 0 - 2.3 0 - 25,000 ferrous target Current 12 (typical) -40 to 85 SOT453KMI16/1 0 - 2.9 0 - 25,000 ferrous target Open collector 5 (typical) -40 to 150 SOT47763*note: SSI: Synchronized Serial Interface, ABI: A/B Quadrature, UVW: BLDC Commutationwww.FutureElectronics.com/Sensors

POSITION / SPEEDAutomotive Certified Magnetic Rotary EncoderFor accurate angular measurement in automotive applications, the automotive certified magnetic rotary encoders are idealchoices.POSITION / SPEEDamsPartNumberMaximumRotationalAngleAS5115 360OutputType*Sine /CosineMagneticField Range(mT)OutputResolution(deg)RPM(Max)Hysteresis(Degree)SupplyVoltagenom. (V)SupplyCurrentmax. (mA)OperatingTemp. (°C)Package32 to 160 infinity 30k N/A 5.0 28 -40 to 150 SSOP-16AS5130 360 SSI, PWM 32 to 75 1,4 (8bit) 30k 1.4 5.0 24 -40 to 125 SSOP16AS5134 360AS5140H 360AS5145A 360AS5145B 360AS5145H 360AS5163 360AS5215 360AS5245 360AS5263 360SSI, PWM,ABI, UVWSSI, PWM,ABI, UVWSSI, PWM,ABISSI, PWM,ABISSI, PWM,(ABI)PWM orAnalog2x Sine &Cosine2x SSI, 2xPWM2x PWM orAnalog20 to 80 1 (8.5bit) 75k 2.0 5.0 22 -40 to 140 SSOP2045 to 75 0.35 (10bit) 30k 0.7 3.3 or 5.0 21 -40 to 150 SSOP1645 to 75 0.35 (10bit) 15k 0.35 3.3 or 5.0 21 -40 to 150 SSOP1645 to 75 0.09 (12bit) 15k 0.35 3.3 or 5.0 21 -40 to 150 SSOP1645 to 75 0.09 (12bit) 15k 0.35 3.3 or 5.0 21 -40 to 150 SSOP1630 to 70 0.09 (12bit) n/a 0 5.0 20 -40 to 150 TSSOP1420 to 80 infinity 30k n.a. 5.0 2x 28 -40 to 150 MLF-32 7x745 to 75 0.09 (12bit) 30k 0.35 3.3 or 5.0 2x 21 -40 to 150 MLF-32 7x730 to 70 0.09 (12bit) N/A 0 5.0 2x 20 -40 to 150 MLF-32 7x7Magnetic Angular Position SensorFor accurate angular position measurement, the following magnetic sensors are ideal choices.NXPVishaySensorTypeSupplyvoltageMax AnglerangeOutputRangeOutputtype*TemperatureRange (°C)PackageKMZ49 ≤ 9 V 180° 67 mVpeak (5V) sin/cos -40 to 150 SO8 (SOT96-1)KMZ60 2.7 V to 5.5 V 180° 2.8 Vpp (5V) sin/cos -40 to 150 SO8 (SOT96-1)KMA210 4.5 V to 5.5 VZ 180° 0.25 V - 4.75 V (5V) linear analog -40 to 160 SOT1288981HE Standard : 5VDC +/- 10% 360° 0.5V to 4.5V Analog / PWM -45 to 125 Throttle type design34THE Standard : 5VDC +/- 10% 3600° 0.05V to 4.95V Analog / PWM / SPI -40 to 85 Bush and servo mount151HE Standard : 5VDC +/- 10% 360° 0.5V to 4.5V Analog / PWM -45 to 125 Servo mount64Rotational SpeedMurata’s compact package and light weight rotary sensor provides sensing over a wide range of rotation speed includinga complete halt and is best suited for harsh environments. Typical applications/uses : Rotation speed detection of FactoryAutomation equipment, Rotation position detection & Proximity Switch.SensorTypeTotal Resistance(ohm)Response Frequency(kHz)Output TypeSupply VoltageTemperature Range(°C)MurataFR05CM21AR 0.7k-1.5k 0-100 Single 5 -10 to 170*note: SSI: Synchronized Serial Interface, ABI: A/B Quadrature, UVW: BLDC Commutationwww.FutureElectronics.com/Sensors

POSITION / SPEEDPassiveThe passive positon sensors include multiturn potentiometer, linear transducers and rotary position sensors.Vishay SpectrolVishay SfernicePartNumberStandard Resistance(ohms)ResistanceToleranceTemperature Coefficient357 1K - 20k ± 20% +/- 600 ppm / °CMaximum Voltage(V)Depends of totaltrack ohmic valueRotationalLifeTemperatureRange(°C)5,000,000 -55 to 125534 100 - 100k ± 5% 20 ppm / °C 14.1 - 447 1,000,000 -55 to 12538LLMF115LFunction ofrequested stroke:25mm to 150mmFunction ofrequested stroke:25mm to 1000mmFunction ofrequested stroke:25mm to 1000mm± 20%± 20%± 20%Ohm value: Typical +/- 600 ppm/°CVolt ratio: Typically +/- 20 ppm/V/V/°COhm value: Typical +/- 600 ppm/°CVolt ratio: Typically +/- 20 ppm/V/V/°COhm value: Typical +/- 600 ppm/°CVolt ratio: Typically +/- 20 ppm/V/V/°CDepends of totaltrack ohmic valueDepends of totaltrack ohmic valueDepends of totaltrack ohmic value25,000,000 -55 to 12525,000,000 -55 to 12540,000,000 -55 to 125PackageBushingmountBush andservo mountdesignLinear sensorsmallest size(diameter :9,52mm)Open sensor+ WiperLinearsensor withintegratedconnectorSensethe StormWe provide innovative analog solutionsto the most challenging applicationsin sensor and sensor interfaces,power management, and wireless.AS3935 – Franklin Lightning Sensor IC• Early warning indication of lightning storm activitywithin a 40km range65• Provides distance estimation to the head of the storm• Detects both cloud-to-ground and intra-cloud(cloud-to-cloud) fl ashes• Intelligent algorithm provides for false disturber rejection• Suitable for low power portable deviceswww.FutureElectronics.com/Sensors

POSITION / SPEEDA Plug & Play Low-powerRotary EncoderAS5050 is a 10-bit magnetic rotary encoder with integratedwake-up & power-down features.Product OverviewThe AS5050, featuring automatic power-down and wake-upmodes, is an encoder targeted for low-power applicationssuch as robotics and is also suited for servo motor control oras an input device for low-cost battery operated devices.Features & BenefitsIndustry lowest current consumptionSmall sizeIndustry simplest operation through standard SPI interfacePOSITION / SPEEDThe single-chip AS5050 integrates four Hall sensorelements, a 10-bit angle encoder, a smart powermanagement controller and an easy-to-use 3- or 4-wire SPIcommunications interface. Housed in a small 4x4 mm QFN-16 package, the low-power encoder is the smallest devicein its class. Depending on the readout rate, the currentconsumption is reduced to µA levels. For example, 50 µA at10 measurements per second is typical current drain - thelowest in the industry.Only a few passive components and a magnet rotating abovethe chip are necessary to assemble a contactless positionmeasurement encoder system. The AS5050 magnetic rotaryencoder performs all angle calculations on chip, features onchipautomatic wake-up and power-down, and only drawscurrent when a new measurement is requested by the hostcontroller. The AS5050 automatically powers down as soonas a measurement is completed.ApplicationsRoboticsServo motorBattery powered devicesHuman machine interface as selection knobs-66www.FutureElectronics.com/Sensors

POSITION / SPEED3D Hall Encoder SeriesAS5410 - an absolute linear position sensorProduct OverviewThe unique 3D Hall sensor solution senses absolute positionin automotive & industrial applications and provides highestresolution position information. The AS5410 allows absoluteposition sensing of a simple two-pole magnet immediatelyafter starting up the device without the need for a priorreference run within the application. Position sensing ispossible over large mechanical travel distances even withvery small magnets; a travel distance of 40mm does notpose a problem for a small, 4 x 4 x 3 mm sized NeFeBmagnet, for example.Moreover, the 3D Hall solution’s output remains stable evenwhen the device is subject to external stray magnetic fields.This feature is a worldwide first and the result of a specialdifferential measurement technique including several 3DHall sensor elements. Programming the internal EEPROM ofthe AS5410 allows it to convert a wide range of geometriesincluding curved movements, non-linear scales, and tiltedchip/magnet geometries into a linear output signal. Inorder to achieve a perfectly linearized output (up to 0.5%accuracy), the AS5410 linear position sensor provides aninternal linearization table with 33 base points.Features & BenefitsImmediate absolute position output after power onFlexible with regard to magnet and IC geometriesRobust against external magnetic stray fieldsHigh travel distances with small and low cost magnetsApplicationsRoboticsIndustrial and automation position sensingMedical applicationsWhite goodsPOSITION / SPEEDWith four preset basic operating modes which are selectablevia SPI, the ams AS5410 3D Hall encoder offers quickand easy configuration. All signal conditioning is on chip,including compensation for temperature effects.67www.FutureElectronics.com/Sensors

POSITION / SPEEDThe Sky’s the LimitProgrammable non-contact position sensors simplifylimitless linear, rotary and 3D applicationsPOSITION / SPEED68Product OverviewTriaxis ® is Melexis’ trademarked term to describe theinnovative magnetic sensor technology which is capableof 3 axis magnetic field measurement from a single sensor.Via the Triaxis ® technology the sensors are able to measurethe position of a magnet very precisely. They can be usedto measure rotational, linear and 3D displacement as wellas sense current flowing in a wire. The Triaxis ® sensorsmeasure the properties of a magnetic field using the Halleffect and innovative, patented, flux concentrators, known as“Integrated Magnetic Concentrators” or IMC.Depositing a patented magnetic film to the surface of thesensor IC and applying a specific mathematical formulato the resulting signals, a single sensor can measure 3components (x,y and z) of the applied magnetic flux density.Conventional Hall sensors are only sensitive to flux in 1 axis,through the sensor.Strengths of Triaxis ®Triaxis ® sensors are small, capable of high temperatureoperation and can include sophisticated bus and interfaceelectronics directly on chip. The magnetic coupling of thesignal means no physical contact and no wear items forvirtually infinite life. Also it means they are impervious to dirt,dust, moisture, grease and oil, making them ideal for harshenvironments in cars, trucks, farm equipment and industrialuses. Melexis’ patented Triaxis ® scheme tolerates magnetmisalignment, further simplifying the design challenges ofour customers. Being fully programmable, our customershave the freedom to use practically any (inexpensive) magnetthey prefer and can make many different sensors from onemechanical design simply by software changes. Also due tothe fact that the Triaxis ® sensors are “smart” sensors, theyhave self diagnostic features making them ideal in safetycritical products like drive by wire and machine controls.Features & BenefitsTriaxis ® magnetometer (BX, BY, BZ)On chip signal processing for robust position sensingHigh Speed Serial Interface (SPI compatible – full duplex)Enhanced self-diagnostics features5V and 3V3 application compatibleImmune to dirt and dustAssembly misalignment tolerantInexpensive magnet capabilitySingle Die – SO8 package RoHS compliantDual Die (Full Redundant) – TSSOP16 package RoHScompliantApplicationsAutomotiveSteering angle, pedal position, electronic throttle body, ERvalve, automatic shifter knob, turbo actuator, seat position,battery current monitoring, charge level indication, hybridvehicle battery control systems.Non-AutomotiveAgricultural vehicles and equipment, joysticks, man-machineinterfaces, heavy-duty vehicles, forklifts, robots, wheelchairs,industrial cranes, etc.www.FutureElectronics.com/Sensors

POSITION / SPEEDMLX90316 MLX90324 MLX90333 MLX90360 MLX90363Linear – – x x xFunctionalityMagnetizationOutput ModeOutputCalibrationRotaryEnd-of-Shaft x x – x xThrough-Shaft x x x x x3D-Joystick – – x – xDiametric x x x x xFront x x x x xAxial – – x x xAnalog Ratiometric x x x x –PWM x x x x –SENT – x – – –SPI x – x – xMulti-point x x x x N.A.Multi-segment – x – x N.A.Triaxis ® Block DiagramPOSITION / SPEED69www.FutureElectronics.com/Sensors

POSITION / SPEEDNXP MagnetoresistiveSensors KMA2xx SeriesImprove the ride with fully integrated angular sensor systems.POSITION / SPEEDProduct OverviewThese advanced sensors, with their ability to help reduceemissions, increase vehicle stability, and add driverindependentcontrol functions, create a safer, cleaner, morecomfortable ride, and help realize the future of green cars.ApplicationsThrottle positionPedal positionActive suspensionWiper positionElectronic steeringFully integrated single angular sensor KMA210Features & BenefitsContactless angle measurements up to 180°High temperature range up to 160 °CAutomotive qualification according to AEC-Q100Excellent EMC and ESD performanceNo external components requiredOvervoltage protection up to 16 VReflow capable due to MSL1Insensitive to•§magnetic drift over lifetime•§magnetic drift with temperature•§mechanical tolerances•§mechanical shifts caused by thermal stressFully integrated dual-channel angular sensor KMA22070This is the first in a new family of system-in-packagesolutions that require no external components. It integratesNXP’s latest magnetoresistive sensor chip, produced insix-inch technology, plus a unique signal conditioning ASIC,developed in ABCD9 technology. It is specially designedto improve overall performance and increase robustnessin automotive applications. The solution also contains twoembedded capacitors in the same package. This lowerscost as no PCB or external filter components are required foroperation.Like KMA210 this product is a fully integrated sensor aswell but containing two sensor channels. It is intended for allapplications requiring redundant sensor solutions as throttleapplications. The sensor is equipped with two MR sensordies and two ASICs providing two statistical independentoutput signals. Furthermore, the block capacitor for thesupply line and the two capacitors for both outputs are insidethe package as well. KMA220 does not require any externalcomponents for stable operation.www.FutureElectronics.com/Sensors

POSITION / SPEEDLinear Sensor Arrays forImaging & Spatial MeasurementExceptional in reading small changes in distance, position,or rotation with the highest accuracyProduct OverviewLinear sensor arrays from ams consist of a linear array ofintegrating photosensing pixels which measure incident lightover a user-defined exposure time and generate a voltageor digital output which represents the light exposure at eachpixel. The linear sensor arrays are available in a variety oflengths and pixel resolutions (DPI). The analog output maybe directly interfaced to an ADC for digital processing orcomparing for black/white thresholding.How Our Linear Sensor Arrays Operate:Each pixel is an independent light sensor with its ownphotodiode and amplifier circuitry. The output for eachpixel (analog or digital) is serially shifted out and read by themicrocontroller. Analog values are then shifted out seriallyusing a digital start pulse and a clock.Features & BenefitsAvailable in multiple lengths and pixel resolutionsFast image scan rate of up to 34us min light measurementUp to 8mm active area for light detectionRail-to-Rail output for wide dynamic rangePOSITION / SPEEDPartNumberDPI Pixels Integration Max Clock Speed Voltage Range CS CL P PCBTSL1401 400 128 Frame by Frame 8 MHz 3-5.5Vx x – –TSL1402R 400 256 Frame by Frame 8 MHz 3-5.5V – – x –TSL1406R 400 768 Frame by Frame 8 MHz 3-5.5V – – – xTSL1410R 400 1280 Frame by Frame 8 MHz 3-5.5V – – – xTSL1412S 400 1536 Frame by Frame 8 MHz 3-5.5V – – – xTSL201 200 64 Start/Stop per Pixel 5 MHz 4.5-5.5V – x – –TSL2014 200 896 Start/Stop per Pixel 5 MHz 4.5-5.5V – – – xTSL202R 200 128 Start/Stop per Pixel 5 MHz 4.5-5.5V – – x –TSL208R 200 512 Start/Stop per Pixel 5 MHz 4.5-5.5V – – – xTSL210 200 640 Start/Stop per Pixel 5 MHz 4.5-5.5V – – – xTSL3301CL 300 102 Frame by Frame 1 MHz 3-5.5V – x – –PACKAGE71www.FutureElectronics.com/Sensors

POSITION / SPEEDTCPT1300X01Transmissive Sensors, a.k.a. SlottedInterrupters or Photo InterruptersProven portfolio of transmissive sensors with surface mountand through-hole packagingTCUT1300X01POSITION / SPEEDProduct OverviewVishay has one of the broadest transmissive sensor portfoliosavailable, with proven performance in some of the toughestindustrial and automotive environments.Features & BenefitsWide gap widths up to 3.1 mmFine apertures from 0.3 mm to 1.0 mmOutput current from 0.5 mA to 4.0 mAAEC-Q101 qualified (-X01)Vertical and horizontal slotsDetect speed and directionApplicationsIndustrial optical switchInterface to encoding wheels and stripsDetect the status of a door or panel, inserted coin, orcredit or ATM cardPrinters, copiers, scanners, computer servers, networkingequipment, vending machines, ATMsTCST1030 TCST5250 TCST21, -22, TCST11, -12, TCST1230-23xx-13xx72Transmissive Sensors, Photo Interrupters, Slotted InterruptersLeaded or SurfaceMountSurface MountLeadedPartNumberGap(mm)Aperture(mm)Output CurrentTypical (mA)On, Off Timet on , t off (µs)Dimensions(mm)TCPT1300X01 3.0 0.3 0.6, single channel 20, 20 5.5 x 4.0 x 4.0TCUT1300X01 3.0 0.3 0.6, dual channel 20, 20 5.5 x 4.0 x 4.0TCST1030 3.0 none 2.4 15, 10 8.3 x 4.7 x 8.15TCST1103 3.1 1 4 10, 8 11.9 x 6.3 x 10.8TCST1202 3.1 0.5 2 10, 8 11.9 x 6.3 x 10.8TCST1300 3.1 0.3 0.5 10, 8 11.9 x 6.3 x 10.8TCST1230 2.8 0.5 2.0 15, 10 9.2 x 4.8 x 5.4TCST2103 3.1 1.0 4.0 10, 8 24.5 x 6.3 x 10.8TCST2202 3.1 0.5 2.0 10, 8 24.5 x 6.3 x 10.8TCST2300 3.1 0.3 0.5 10, 8 24.5 x 6.3 x 10.8TCST5250 2.7 0.5 1.5 15, 10 14.3 x 6 x 9.5Notes: All optical sensors have phototransistor outputwww.FutureElectronics.com/Sensors

POSITION / SPEEDModel 981 HE ThrottlePosition Sensor, Hall EffectIndustrial grade position feedback sensor for automotive and off-road vehiclesProduct OverviewVishay’s Model 981 HE is ideally suited for applicationsinvolving a high level of shock and vibration. Proven long lifeHall effect technology capable of operating in the toughestindustrial environments. True power-on position sensor with12 bits resolution.ApplicationsFoot pedal position sensorsThrottle position sensorsDrive-by-wireLift & shuttle position sensorsTilt control & tilt-positioning feedbackSuspension-system position sensorsElectrical SpecificationsFeatures & BenefitsContactless technology: Hall effectHollow & D-shaft models with or without springreturn systemsEasy & fast mounting model, output: analog or digitalFor harsh applications, drift free behavior over sensor’s lifeAll electrical angles available up to 360°Accurate linearity : ± 0.5%Operates over a wide temperature range: -45°C +125°CParameter Standard SpecialPOSITION / SPEEDElectrical Angle 90º, 120º, 180º, 270º, 360º Any other angle upon requestLinearity ± 1 % ± 0.5 %Supply Voltage 5V DC± 10 % Other upon requestSupply Current 10 mA typical / 16mA max. 16 mA for PWM outputOutput SignalAnalog ratiometric 10 % to 90 % of V supplyorPWM 1 kHz, 10 % to 90 % duty cycleOther upon requestOver Voltage Protection+20 V DCReverse Voltage Protection-10 V DCLoad Resistance RecommendedMin 1kΩ for analog output and PWM outputHysteresis Static (D-Shaft Version)

POSITION / SPEED34THE Industry First10 Turn Position SensorTen turn servo or bushing mount Hall effect sensor in size 09 (22.2mm)POSITION / SPEEDProduct OverviewThe Vishay 34THE is ideally suited for a wide variety of “offroad”steering and actuator applications. Proven long lifeHall effect technology capable of operating in the toughestindustrial environments. True power-on position sensor.ApplicationsOff-road vehicles: steering and actuator applicationsAgricultural machinery, fork-lifts, sweepersMarine rudder position controlAny kind of off-road application involving a multi-turnposition functionalityElectrical SpecificationsFeatures & BenefitsNon contacting long life Hall effectAccurate linearity down to: ± 0.5 %All electrical angles available up to: 3600°, fully settablefrom 0 to 10 turns.Very long life: 50M cycles for servo, 10M cyclesfor bushingFully configurable in angle & output typeCompliant to RoHS Directive 2002/95/ECRedundant option for higher safety level applicationsParameter Standard Special74Electrical Angle 10 turns 3600º Any other angle upon requestLinearity ± 1 % ± 0.5 %Supply Voltage 5V DC±10 % Other upon requestSupply Current < 16 mA for single < 32 mA for redundantOutput SignalAnalog ratiometric 1 % to 99 % of V supply(other upon request)or PWM 1 kHz, 10 % to 90 % duty cycle or SPI binary on 5 V or binary on 3.3 VOver Voltage Protection+20 V DCReverse Voltage Protection-10 V DCLoad Resistance RecommendedMin 1kΩ for analog output and PWM outputHysteresis Static10º on drive shaftMechanical SpecificationsParameterMechanical travelBearing typeStandardResolutionStandard3600º continuousA sleeve bearing for bushing model / 2 ball bearings for servo modelIP 50; other upon request12 bits for analog and PWM, 14 bits for SPIwww.FutureElectronics.com/Sensors

6040200100802 020Polygons of arbitrary shapein any colorFigure 5. Font toolWE’VE GOT YOU COVERED!Published 11 times a year, Future Technology Magazine (FTM) features the latest andgreatest industry tips, technology breakthroughs, and innovative products from leadingmanufacturers and suppliers, with a strong emphasis on New Product Introductions.Also, most featured products are available in engineering quantities.You won’t want to miss a single issue of this informative resource and critical tool in today’smarket, where you’ll find:PRODUCT AND TECHNOLOGY NEWS FROM FUTURE ELECTRONICSTechnical ViewFree Graphics Library Provides Great User Experience and QuickTime to Market By: Sylvain Cormier, Eng., MBA, Advanced Engineer, Future ElectronicsUser interfaces have evolved over time.foreground image with the background to createWith this evolution came a rise in customerthe appearance of semi transparency.expectations for product interactivity andbe ter user experience. In the fast pacedWhen including text in the UI, the designer canelectronics market, implementation needs touse one of the dozen royalty free fonts that arebe achieved in the shortest possible delay.included with the SEGGER tool. If those fontsdo not match the requirements, it is possible toUsers have now grown accustomed to the smartcreate new fonts from true type fonts using thephone experience. Consequently, the Graphicaltool that is provided in the package (see Figure 5).User Interface (GUI) is often the key di ferentiatingfactor that can have a huge impact on the successTouchscreen support for emWin is also available.of a product. Companies often struggle to developIt includes a low level driver, which handles thea produc that is both professional looking andanalog input, debouncing and calibration of theUsers ask more and more for an interactiveeasy to use. The workflow required to reach thistouchscreen. The window manager deals withexperience. The tool comes with various built-ingoal is obstructed by several hurdles as a mix oftouch messages and widgets such as bu toninteractive widgets. Icons, sliders, check boxes,individuals from di ferent fields, ranging fromobjects. I takes no more than one line of codebuttons and drop-down lists a l have fu ly encapsulateduser interaction with automatic clickhuman psychology to embedded design, isto create a bu ton or other widget, which thenrequired. The implementation of the User Interfaceautomatically handles touch messages and reactshandling (see Figure 3). In addition, many of(UI) in an embedded system should not be one ofaccordingly. The widgets have different a tributes,the widgets (progress bars, windows) can bethose cha lenges. NXP has addressed this issuewhich makes them very flexible. Because in mostskinnable, a lowing the designer to customizeby partnering with market-leader SEGGER tocases the default a tributes are fine, they arethe UI to their design (see Figure 4).provide their best-in-class emWin Graphics libraryeasy to use. Of course the touchscreen support isfree of charge when used with any current NXPwri ten in ANSI C.ARM MCU.Di ferent applications may require different screenThe emWin solution was developed by SEGGERsizes and resolutions. emWin provides configurationse tings to easily change the LCD size forto provide a robust, proven, industry leading UserInterface (UI) solution. They have invested manyyour project. The developer only needs to changeyears of development e fort to cover the entirethe value of define variables to be able to reflectUI development process. The tools available in thethe target LCD resolution settings. Once this isemWin package include highly optimized drawingdone, it is be possible to see the co rect screenroutines, HW abstraction, PC-based design,size and color depth on a PC screen by using asimulation and co laborative tools.simulation tool. It wi l be the same look and feelas the one used in the end application.emWin Supported FeaturesThe memory footprint of such tools often requiresMany microcontroler companies o fer basic emWin makes it possible to integrate themthe use of oversized memory densities. emWingraphics routines. Unfortunately, these often seamlessly in the design by providing a tool thathas been designed to have a memory footprint asprovide only basic primitive drawings such as easily converts them to .c files. The tool supportssma l as possible. Various configuration switcheslines, circles, squares, etc. With emWin, complex popular formats such as JPEG, GIF and BMP. Asa low tailoring the software to perfectly matchfigures can be generated on top of the basic ones. an added bonus, emWin provides alpha blendingcapabilities that make it easy to combine ayour needs, reducing memory consumptionArcs, complex multi-point polygons, roundedto a minimum. The memoryrequirements vary dependingon which parts of the softwareare used and how efficient yourperceived screen resolution (see Figure 2). Thesetarget compiler is. It is thereforeadvanced tools a low a designer to come up withnot possible to specify precisevalues, bu the fo lowing appliestime required to obtain the desired look and feel.to typical systems:Small systems (no windowmanager)RAM: 100 bytesStack: 500 bytes• ROM: 10-25 kb (dependingon the functionality used)corners and gradient fi ls are a l part of the toolset(see Figure 1). In addition, anti-aliasing can beused to provide smooth transitions and increasedprofessional looking GUI, while minimizing the120 140160180Figure 2. Anti-aliasingFigure 3. Interactive widgetsFigure 4. Skinnable widgetsShould the UI development require custom images,Look Inside for Future Exclusivesand New Product IntroductionsJ U L Y2012FreescaleThe Ultimate Solution in Performance andPrecision for Energy Efficient InnovationPAGE 3MicrelEtherSynch ,IEEE1588v2 Made SimplePAGE 6International RectifierFamily of TSOP-6 HEXFET ®MOSFETs Offering a Cost Effective,Flexible Solution for Low Power ApplicationsPAGE 12Technical ViewContro ling Lighting Via the Power Line:Practical Possibility or Sti l a Pipe Dream?PAGES 22-23AMERICAS’ EDITIONFigure 1. Complex drawings22 1.800.675.1619 • www.FutureElectronics.comTo receive your choice of either the printed or virtual version, register today at:www.FutureElectronics.com/FTM/register

Taking the World WirelessWherever you are, whatever your application,Future Electronics RF & Wireless Solutions connects youwith the right products and best customer support in the industry.For more information, please visit www.FutureElectronics.com.

PRESSUREWhat is a pressure sensor?A pressure sensor is a device that generates an electricalsignal as a function of the pressure measured in a media (i.e.gas or liquid). Various technologies can be used to measurepressure, for example piezoelectric, piezoresistive straingage, capacitive or electromagnetic, etc.Pressure sensors are commonly divided into five types,according to the relative way in which they measurepressure, which also implies the environment to which one orboth sides of the pressure sensor element is exposed to:An absolute pressure sensor measures relative to a perfectvacuum, which is the environment in a sealed chamber onone side of the sensing element.A gauge sensor measures pressure relative to atmospheric(ambient air) pressure, by having one side of the sensorelement which allows ambient air to enter, while measuringpressure from a port on the opposite side. Most mechanicalpressure gauges work this way, such as you would use tocheck the pressure in your tires, hence the name ‘gauge’.A differential sensor measures the pressure’s differencebetween two fluid ports. For example, measuring thepressure drop across a ventilation duct can be used tomonitor airflow through that duct.A sealed sensor is combination of a gauge and absolutepressure sensors; using a sealed chamber like the absolutesensor, which contains a calibrated gas pressure of exactly1 standard atmosphere (about 100 kPa) instead of vacuum,so it measures like a gauge sensor except its output doesn’tchange due to local air pressure variances.A vacuum sensor is intended to measure pressure relativeto and below atmospheric pressure, which is typicallya specialized form of either absolute or sealed pressuresensors.Important selection parametersSensing RangeMeasured in kPa or PSI, the sensing range indicates themaximum pressure range the device can measure.Pressure TypeAs described above, different type of pressure sensors canbe selected depending on the application and pressuremeasurement requirements.AccuracyAccuracy is defined as percentage of full scale output range.ApplicationCasesAtmospheric pressureor AltitudemeasurementEngine control,pneumatic andhydraulic machinesProcess monitoringand controlMedical DevicesHVAC in CommercialBuildingsReal Life ExamplesBarometers, weather balloons,altimeters (aircraft)Automobile engines, fuel andbrake systems; Aircraft, Industrialmachinery, construction &miningCompressor controls, coatings,and paint sprayers; Tank liquidlevel monitoringWrist and arm-cuff bloodpressure instrument, Infusionpump, hospital beds, respiratoryequipmentHVAC&R compressors, air ductflowPRESSURE77www.FutureElectronics.com/Sensors

PRESSUREDigital OutputFuture Electronics, through its world leading suppliers, offers an extensive MEMS-based pressure sensor portfolio containinga wide variety of pressure ranges, diverse packaging and porting options.BoschGEMeasurement SpecialtiesPart NumberPressure RangePressureType*DigitalInterfaceSupply Voltage(V)BMP180 300 - 1100 hPa A I²C 1.8 - 3.6BMP183 300 - 1100 hPa A SPI 1.8 - 3.6Supply Current(mA)0.003 @ 1sample /sec0.003 @ 1sample /secOperating Temp.(°C)-40 to 85-40 to 85PackageLGA 7(3.6 x 3.8 x 0.93 mm3)LGA 7(3.6 x 3.8 x 0.93 mm3)NPA-600 2.5 - 207 kPa A,D,G Serial 5 N/A -40 to 125 SOIC-14NPA-700 2.5 - 207 kPa A,D,G I²C 5 N/A -40 to 125 SOIC-14MS560702BA03-50 10 to 1200 mbar A I²C / SPI 3 Vdc 1 uA - 40 to 85 5.0mm x 3.0mm x 1.0mm4515DO-DS5AI005DP 5 inH2O D I²C / SPI 3 vdc or 5 vdc 1 uA - 10 to 85 .49in x .39in.4515DO-DS5AI005GP 5 inH2O G I²C / SPI 3 vdc or 5 vdc 1 uA - 10 to 85 .49in x .39in.4525DO-DS5AI001GP 1psi G I²C / SPI 3 vdc or 5 vdc 1 uA - 25 to 105 .49in x .39in.4525DO-DS5AI001DP 1psi D I²C / SPI 3 vdc or 5 vdc 1 uA - 25 to 105 .49in x .39in.4525DO-DS5AI002DP 2psi D I²C / SPI 3 vdc or 5 vdc 1 uA - 25 to 105 .49in x .39in.4525DO-DS5AI002GP 2psi G I²C / SPI 3 vdc or 5 vdc 1 uA - 25 to 105 .49in x .39in.4525DO-DS5AI005GP 5psi G I²C / SPI 3 vdc or 5 vdc 1 uA - 25 to 105 .49in x .39in.4525DO-TP5AI100GP 100psi G I²C / SPI 3 vdc or 5 vdc 1 uA - 25 to 105 .49in x .39in.ST MicroLPS331AP 26-126 kPa A I²C / SPI 3.6 0.012 -40 to 85 HCLGA-16*note: A: Absolute, B: Barametric, D: Differential, G: Gauge; 1kPa = 10 mbar = 10 hPa = 0.145 psi = 4.015 inH2O78www.FutureElectronics.com/Sensors

PRESSUREAnalog OutputGE Measurement & ControlMeasurement SpecialtiesPart NumberPressure RangePressureType*Full ScaleOutput (V)Accuracy(%FSO)SupplyVoltage(V)SupplyCurrent(mA)Operating Temp.(°C)PackageNPP-301A 100 / 200 / 700 kPa A 0.06 ± 0.2 3 N/A - 40 to 125 SOIC-8NPA-100 2.5 - 207 kPa A,D,G 0.04 to 0.166 ± 0.1 N/A 1.5 - 40 to 125 SOIC-14NPA-300 2.5 - 207 kPa A,D,G 3 ± 0.1 3.3 N/A - 40 to 125 SOIC-14NPA-500 2.5 - 207 kPa A,D,G 4.5 ± 0.1 5 N/A - 40 to 125 SOIC-14NPC-12102.5 - 690(10inH2O - 100 psi)A, D,G 0.05 or 0.1 ± 0.1 or ± 0.5 N/A 1.5 - 40 to 125 8 pin PCBNPC-1220 34 - 690 (5-100 psi) A,D,G 0.05 ± 0.1 N/A 1.5 - 40 to 125 8 pin PCBNPH-8 100 - 700 kPa A,D,G 0.1 ± 0.1 N/A 1.5 - 40 to 125 TO-8NPI-19 100/200/700/1700 kPa A,,G 0.1 ± 0.1 N/A 1 - 40 to 125 Stainless Steel4515-DS5A005DP 5inH2O D 2.97 or 4.5 0.25% 3.3 or 5 3mA - 10 to 85 0.49in x 0.39in.4515-DS5A005GP 5inH2O G 2.97 or 4.5 0.25% 3.3 or 5 3mA - 10 to 85 0.49in x 0.39in4525-DS5A001GP 1psi G 2.97 or 4.5 0.25% 3.3 or 5 3mA - 25 to 105 0.49in x 0.39in4525-DS5A001DP 1psi D 2.97 or 4.5 0.25% 3.3 or 5 3mA - 25 to 105 0.49in x 0.39in4525-DS5A002DP 2psi D 2.97 or 4.5 0.25% 3.3 or 5 3mA - 25 to 105 0.49in x 0.39in4525-DS5A002GP 2psi G 2.97 or 4.5 0.25% 3.3 or 5 3mA - 25 to 105 0.49in x 0.39in4525-DS5A005GP 5psi G 2.97 or 4.5 0.25% 3.3 or 5 3mA - 25 to 105 0.49in x 0.39in4525-TP5A100GP 100psi G 2.97 or 4.5 0.25% 3.3 or 5 3mA - 25 to 105 0.49in x 0.39inM3021-000005-05KPG 5000psi G 0.1 0.25% 5 N/A - 20 to 85 1/4in-18 nptmM3021-000005-250PG 250psi G 0.1 0.25% 5 N/A - 20 to 85 1/4in-18 nptmM5134-000004-05KPG 5000psi G 4.5 0.25% 5 N/A - 40 to 125 7/16-20-nf male86-005G-C 5psi G 0.1 0.25% N/A 1.5mA - 40 to 125 16mm86-015G-C 15psi G 0.1 0.25% N/A 1.5mA - 40 to 125 16mm86-030A-C 30psi A 0.1 0.25% N/A 1.5mA - 40 to 125 16mm86-100A-C 100psi A 0.1 0.25% N/A 1.5mA - 40 to 125 16mmHIGH TEMPERATURE SEMICONDUCTOR HAS A NAME:86-100G-C 100psi G 0.1 0.25% N/A 1.5mA - 40 to 125 16mm*note: A: Absolute, B: Barametric, D: Differential, G: Gauge1kPa = 10 mbar = 10 hPa = 0.145 psi = 4.015 inH2OHIGH TEMPERATURE SEMICONDUCTOR HAS A NAME:79www.FutureElectronics.com/Sensors

PRESSURENEW Surface MountPressure SensorFast, accurate, stable NPA MEMS sensoroffers new standard for pressure measurementPRESSUREProduct OverviewGE’s NovaSensor NPA product series is provided in aminiature size as a cost effective solution for applicationsthat require calibrated performance. Packaged in a SOIC14pin surface mount, the NPA Series is available in Gauge,Absolute or Differential pressure ranges with either mV,amplified analog or digital outputs. The sensor is intended forprinted circuit board mounting and delivered in tape and reelform to simplify manufacturing handling.ApplicationsHealthcarePositive airway pressure devicesCritical care ventilatorsAnesthesia machinesFirst responder safety equipmentBlood pressure measurementHospital bedsFeatures & BenefitsSurface mount 14 pin SOIC packageFast

PRESSURESpecificationsSeries Excitation Voltage Min/Max NotesNPA-100 1.5mA – NPA Uncompensated, mVNPA-300 3.3V 3.135 V to 3.465 V NPA Compensated, low power amplified analogNPA-500 5.0V 4.75 V to 5.25 V NPA Compensated, amplified analogNPA-600 5.0V * 4.75 V to 5.25 V NPA Compensated, digital serialNPA-700 5.0V * 4.75 V to 5.25 V NPA Compensated, digital I 2 C* 3.3V optional, contact factory for more detailsParameter Units Min Typ MaxCommon ParametersAccuracy (Total Error Band) %FSO -1.5 1.5Proof Pressure (10”H2O to 1 psi) psi 35Proof Pressure (>1 psi to 30 psi) psi 60Maximum Package Pressure 60Pressure ranges 10”H2O 30 psiParameterTemperature RangeOperating -40 to +125 °C -40 to +257°FCompensated 0 to 60 °C +32 to +157°FStorage -40 to +125 °C -40 to +257°FOrdering InformationModelNPACode Description100 mV Output, Ratiometric Uncalibrated Sensor300 Analog Amplified Output, 3.3Vdc Excitation, Calibrated Sensor500 Analog Amplified Output, 5Vdc Excitation, Calibrated Sensor600 ZACwire — Digital Serial Output, Calibrated Sensor, 2 byte601 ZACwire — Digital Serial Output, Calibrated Sensor, 3 byte700 I 2 C - Digital output, Calibrated Sensor, 2 byteCode Port TypeM 1 manifold port for Gauge and Absolute pressure typesB 2 barbed ports for Gauge, Absolute and Differential pressure types*N Non portedCode Pressure Range10W 10”H20 (2.5 KPa)001 1 PSI (7 KPa)005 5 PSI (35 KPa)015 15 PSI (100 KPa)030 30 PSI (200 KPa)Code Pressure TypeG GaugeD DifferentialA ** AbsolutePRESSURE81NPA - -Note: * 1 barbed port available upon request.** Absolute pressure ranges are available in 15 PSIA and 30 PSIA only.www.FutureElectronics.com/Sensors

PRESSURENPP-301 Series SurfaceMount Pressure SensorGE’s NovaSensor low cost surface mount SO-8 packagesuitable for automated assemblyPRESSURE82Product OverviewThe NPP-301 Series features silicon pressure sensors insurface mount packages. An ultra-small Silicon FusionBonded (SFB), ultra-high stability SenStable ® piezoresistivechip from GE is placed in a plastic package that exploits highvolume, leadframe package technology to bring forth a lowcost sensor alternative to the OEM user.The NPP-301 Series produces a voltage output that islinearly proportional to the input pressure. The user canprovide NPP Series products with signal conditioning circuitryto amplify the output signal or to maximize OEM valueadded. The NPP-301 Series is compatible with most noncorrosivegases and dry air.ApplicationsAutomotive tire pressurePneumatic controlsPressure switches and controllersAltimeters and barometersCable leak detectionConsumer appliancesPortable gauges and manometersFeatures & BenefitsLow cost surface mount package: SO-8Wide operating temperature range: -40°F to 257°F(–40°C to 125°C)Static accuracy

PRESSUREPressure Sensor forDirect Liquid DetectionADPW11 direct liquiddetection pressure sensorPanasonic’s custom designed sensor chip detects liquid pressure directly inaddition to air pressure. Linear output for positive and negative pressure.Product OverviewThe PS-A pressure sensor lineup offers the advantage of abuilt-in amplifier and compensating circuit in model ADPW11.Based on a MEMS sensor chip design, the sensor measurespressure with a piezoresistive element and provides a voltageoutput. Various liquid mediums are measurement compatible,including water, chemical solutions, oil, and gas (e.g. highhumidity air). Standalone design offers simplicity in mountingthe sensor without requiring a PCB (see Figure 1).Features & BenefitsDirect liquid detection•§Design simplicity with direct attachment to installation holeBuilt-in amplifier and compensating circuit•§Compact size and easy integrationSensor and IC chip protected by potting•§Resistant to high temperature and high humidity conditionsLinear output for both positive and negative pressure•§Measurement accuracy from -19.6kPa to 49.0kPaLow power consumption (16mW typ.)•§Energy savingsStandalone design with connector•§No soldering on boardADPW11 offers direct liquid detection in the PS-A pressuresensor lineup (see Figure 2). Pressure sensor moduleincludes only a sensor and IC chip, providing increasedresistance against ambient conditions. Measures gaugepressure and withstands maximum applied pressure of -90to 350kPa.ApplicationsWater level detection (e.g. water heater, storage tank) andindustrial water pressure monitoring in piping. Compatiblewith other applications requiring direct pressure detection ofliquid medium.Fig.1 ADPW11 standalone design mountingFig.2 ADPW11 ordering informationADPW 1 1PS-A Direct water pressure detection typeShape1: Standalone typeInstallation hole 4.5mm dia., 40mm pitchPipe shape: 6mm dia., No 0-ring grooveCompatible plug: XMP-04VRated pressure1: Negative pressure - 19.6kPaPositive pressure 49.0kPa*Please inquire about pressure rangePRESSURE83www.FutureElectronics.com/Sensors

PRESSURELPS331AP MEMSBarometric Pressure SensorPRESSUREProduct OverviewThe new LPS331AP MEMS pressure sensor provides highresolutionmeasurements of pressure in an ultra-compactpackage. The device is created in ST’s state of the artVENSENS process using a mono-silicon membrane abovean air cavity with controlled gap and defined pressure. Theresult is a device with very low power consumption, greatnoise immunity, and intrinsic robustness to overpressureconditions.Features & Benefits260 to 1260 mbar absolute pressure rangeDigital output I 2 C or SPI interfaceHigh resolution modeEmbedded temperature compensationEmbedded 24-bit ADCSelectable ODR from 1Hz to 25HzRobust 10k g shock survivabilityHigh 20x overpressure capabilityFast report, one shot, and dual interrupt modes of operationLow power consumptionOperating Voltage Range: 1.71 to 3.6VSmall and thin Ecopack ® packageApplicationsAn absolute pressure sensor measures pressure relative toa sealed chamber inside the sensing element. In additionto thermostatic controls, LPS331 is particularly suited forapplications such as smartphones, tablet PCs, and handheldGPS.Indoor and outdoor navigationEnhanced GPS for dead-reckoningAltimeter and barometer for portable devicesWeather station equipmentPortable devicesEvaluation KitST pressure sensors are supported by the MEMS evaluationkit which consists of the STEVAL-MKI109V2 board with aGUI. A separate plug-in module contains the LPS331APchip. The board connects to a host PC via USB and allowsfull access to the chip capabilities via the easy to usesoftware.84LPS331APEvaluationPlug-in ModuleSTEVAL-MKI109V2 e-Motion Motherboardwww.FutureElectronics.com/Sensors

PROXIMITYWhat is a proximity sensor?Proximity sensors remotely detect the presence of nearbyobjects (non-contact). Various detection technologies canbe used depending on the application and the nature ofthe objects to be detected. Infrared optical or reflectivesensors can detects presence of any opaque objects in arange of millimeters to centimeters. Capacitive or resistivesensors detect the change of capacity or resistance betweenthe sensor pad and objects to determine the presence ormovement of the objects.ApplicationCasesObject detectionHuman machineinterfaceReal Life ExamplesBulk-handling machinesLevel detectorsPackage detectionHandheld devices, appliancesTypical applicationsProximity sensors are often found in bulk-handling machines,liquid or tank level detectors, and printing presses, forexample. IR reflective proximity sensors are widely usedtoday for ON/OFF switch control for lighting, occupancy,access control and mobile devices.Touch controllers, including capacitive and resistive types, arebecoming popular due to improved sensitivity and accuracy.It is intuitive and easy to use, and the sensor pad can besealed from the surrounding environment, which makes it anideal solution for harsh or dusty environments. Some touchcontrollers achieve high sensitivity that can sense presenceof a finger through thick winter gloves.PROXIMITY85www.FutureElectronics.com/Sensors

PROXIMITYIR Relective Proximity SensorThe IR reflective proximity sensors detect and measure reflected infrared (IR) energy to detect the presence of an object orperson. The proximity detection circuitry compensates for ambient light, allowing it to operate in environments ranging frombright sunlight to dark rooms.Part NumberDetection Rangemax (cm)Output Type Output Range Supply Voltage(V)Supply Current(mA)Operating Temperature(°C)PackageTSL26711 46 I²C 16 bits 2.6 - 3.6 0.175 -30 to 70 DFN-6TSL26713 46 I²C 16 bits 2.6 - 3.6 0.175 -30 to 70 DFN-6TSL27711 46 I²C 16 bits 2.6 - 3.6 0.175 -30 to 70 DFN-6amsTSL27713 46 I²C 16 bits 2.6 - 3.6 0.175 -30 to 70 DFN-6TSL37713 76 I²C 16 bits 2.7 - 3.3 0.235 -30 to 70 DFN-6TSL37715 76 I²C 16 bits 2.7 - 3.3 0.235 -30 to 70 DFN-6TSL27721 46 I²C 16 bits 2.6 - 3.6 0.2 -30 to 70 DFN-6TSL27723 46 I²C 16 bits 2.6 - 3.6 0.2 -30 to 70 DFN-6Integrated Ambient Light and Proximity SensorThe devices combine an infrared emitter and PIN photodiode for proximity measurement, ambient light sensor, and signalprocessing IC in a single package with a 16 bit ADC. It provides ambient light sensing to support conventional backlight anddisplay brightness adjustment, and proximity sensing for object and motion detection.Part NumberDetectionRange(mm)OperatingVoltageRangeI 2 C BusVoltageRnageLED DriveCurrentAmbientLightRnageStandbyCurrentInterruptOperatingTemperature (oC)PackagePROXIMITYVishayVCNL4000VCNL4010VCNL4020200(65536counts)2.5 to 3.6 V1.7 to5.0 V10 mA to200 mA.25 lux to 16klux at .25 luxper count1.5 μANoYesYes-25 to 85SMD3.9 x 3.9 x0.7HSMD3.9 x 3.9 x0.7HSMD4.9 x 2.4 x0.8HOptical SensorThe optical sensors are compact transmissive/reflective sensors that integrate infrared emitters and phototransistor detectorsfor proximity detection.86TT electronics / Optek TechnologyPartNumberDetectionRange (mm)ForwardVoltage (V)ReverseVoltage (V)PeakWavelength (nm)Maximum DarkCurrent (nA)Output Current(uA)OperatingTemperature (°C)OPB606A 1.27 1.7 (Max) 2 935 100 0.5 (Min) -40 to 85 PCBOPB700ALZ 5.08 1.7 (Max) 2 890 100 0.1 - 2.5 -40 to 100 WiredOPB700Z 5.08 1.7 (Max) 2 890 100 0.1 - 2.5 -40 to 100 WiredOPB701ALZ 5.08 1.7 (Max) 2 890 250 2.5 - 43.0 -40 to 100 WiredOPB704 3.81 1.7 (Max) 2 890 250 0.2 - 2.5 -40 to 80 PCBOPB710F 6.35 1.5 (Max) 2 935 100 0.15 (Min) 0 to 70 TO-72OPB732WZ 12.7 - 76 1.8 (Max) 3 850 100 0.25 (Min) -40 to 85 WiredOPB733TR 10.16 - 25.4 1.7 (Max) 5 890 100 0.1 (Min) -25 to 85 SMDPackageVishayTCNT2000 0.2 to 4 1.2 5 940 30 0.8 -40 to 85 SMDwww.FutureElectronics.com/Sensors

PROXIMITYCapacitive Touch ControllerSemtech capacitive touch controller ICs come in 8- and 12-channel models and feature integrated LED drivers. They supporta wide range of button, slider and touch wheel capacitive sensor designs.SemtechPart NumberNo. of SensingChannelsOutput Interface Supply Voltage (V) Supply Current (µA)OperatingTemperature (oC)PackageSX8633 12 I²C 2.7 - 3.6 80 -40 to 85 MLPQ-W32SX8634 12 I²C 2.7 - 3.6 80 -40 to 85 MLPQ-W32SX8635 12 I²C 2.7 - 3.6 80 -40 to 85 MLPQ-W32SX8636 8 I²C 2.7 - 3.6 70 -40 to 85 MLPQ-UT28SX8638 8 I²C 2.7 - 3.6 70 -40 to 85 MLPQ-UT28SX8639 8 I²C 2.7 - 3.6 70 -40 to 85 MLPQ-UT28SX8643 12 I²C 2.7 - 3.6 80 -40 to 85 MLPQ-W32SX8644 12 I²C 2.7 - 3.6 80 -40 to 85 MLPQ-W32SX8645 12 I²C 2.7 - 3.6 80 -40 to 85 MLPQ-W32SX8646 8 I²C 2.7 - 3.6 70 -40 to 85 MLPQ-UT28SX8647 8 I²C 2.7 - 3.6 70 -40 to 85 MLPQ-UT28SX8648 8 I²C 2.7 - 3.6 70 -40 to 85 MLPQ-UT28SX8649 8 I²C 2.7 - 3.6 70 -40 to 85 MLPQ-UT28SX8660 8 I²C/Analog 2.7 - 3.6 70 -40 to 85 MLPQ-UT28SX8661 8 I²C/Analog 2.7 - 3.6 70 -40 to 85 MLPQ-UT28SX8662 12 I²C 2.7 - 3.6 100 -40 to 85 MLPQ-W32SX8663 12 I²C 2.7 - 3.6 100 -40 to 85 MLPQ-W32Resistive Touch ControllerThe ultra low power, 4-wire and 5-wire resistive touchscreen controllers enable multi-touch gestures on regular 4-wire resistivetouchscreens and support proximity on any panel. It also features advanced haptics control as well as robust on-chip ESDprotection in a small footprint.SemtechPart Number Touch Panel Resolution InterfacePowerConsumption(µA)On-chip-ESD Protection(± kV)Multi-touchProximitySensingPackageSX8651 4-wire 12-bit I²C 0.4 25kV Air; 15kV Contact yes no 3.0x3.0mm DFNSX8653 4/5-wire 12-bit SPI 0.4 25kV Air; 15kV Contact yes no 4.0x3.0mm DFNSX8654 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact no yes 4.0x4.0mm QFNSX8655 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact no no 4.0x4.0mm QFNSX8656 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact no yes 4.0x4.0mm QFNSX8657 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact no yes 4.0x4.0mm QFNSX8658 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact no no 4.0x4.0mm QFNSX8674 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact yes yes 4.0x4.0mm QFNSX8675 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact yes no 4.0x4.0mm QFNSX8676 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact yes yes 4.0x4.0mm QFNSX8677 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact yes yes 4.0x4.0mm QFNSX8678 4/5-wire 12-bit I²C 0.4 25kV Air; 15kV Contact yes no 4.0x4.0mm QFNSX8650 4-wire 12-bit I²C 0.4 25kV Air; 15kV Contact no no 3.0x3.0mm DFNSX8652 4/5-wire 12-bit SPI 0.4 25kV Air; 15kV Contact no no 4.0x3.0mm DFNPROXIMITY87www.FutureElectronics.com/Sensors

PROXIMITYCapacitive Touch Sensorswith Enhanced LED Driversand Proximity SensingPROXIMITYProduct OverviewThe superior sensitivity of the SX863x/4x touch sensorplatform enables sensing through a thick overlay material aswell as proximity detection with an extended range (>10cm)all in a tiny footprint with zero components per input. Thelow power consumption and advanced, built-in LED driversmake it the ideal solution for a wide range of sensingapplications in mobile phones, media players, notebooksand white goods.Features & BenefitsExtreme low powerSupport button, slider and wheel designProximity detection (>10cm)ApplicationsFlat Panel TVsLCD monitorsWhite goods & appliancesPrintersAutomotive audio consolePersonal media playersSet Top Boxes (STBs)Game consolesIndustrial systemsBuilt-in LED drivers (12mA)256-step intensity control (Lin/Log)VdigVana Vdd ResetbAuto lightingField programmableMin. scan time=15msOverlay=>5mmSmart auto-offset comp.Ultra small footprintProximityButtonsCap0Cap1Cap2Cap3Cap4Cap5Cap6Cap7AnalogFrontEnd andSensorInterfaceRC Clock Generation10 BitADCSX863xMicroProcessorPowerManagement andRESETPWM LEDControllerGPIO / LEDInterfaceGPIO0GPIO1GPIO2GPIO3GPIO4GPIO5GPIO6+V88Touch WheelCap8RAMNVMGPIO7Cap9EnterSlider>>>>>Cap10Cap11ProxSensorROMI2C InterfacePlug & PlayFunctionalityCP CNGND x3SCL SDA Intbwww.FutureElectronics.com/Sensors

PROXIMITYMulti-touch ResistiveTouchscreen Controllerwith Proximity Sensing andHaptic FeedbackProduct OverviewThese fully integrated, haptic enabled resistive touchscreencontrollers feature a unique built-in proximity sensing circuitrywhich enables proximity detection in applications whereautomatic system wake up or backlight LED dimmingadjustments are required without the need for any additionalcomponents. The SX867x family can directly connect toan ERM or LRA Motor to create haptic feedback, thuseliminating the need for a dedicated μC interface. TheSX867x family also supports various multi-touch gesturessuch as pinch, stretch and rotation on a regular 4-wireanalog resistive touchscreen.Features & BenefitsLow power (0.4μA)Compatible with a wide range of resistive panelsEnable multi-touch gestures with 4-wire touch panelBuilt-in proximity detection with ANY panels (>5cm)Integrated haptic motor control (LRA&ERM)12-bit resolutionESD protection (±25kV Air & ±15kV Contact)50kSPS Eq. throughputDigital filtersApplicationsPortable navigation devicesAutomotive center consolesDigital photo framesDSC, video camerasHandheld games & mobilePOS terminalsControl panelsPROXIMITY89www.FutureElectronics.com/Sensors

PROXIMITYKey Benefits of IntroducingCapacitive Sensing toElectronic Equipmentby Emmanuel T. Nana, NXP SemiconductorsNXP’s capacitive sensors use a patented auto-calibrationcapacitance-change detection circuitry to monitor thecapacitance at the input of the device. The device digitallyfilters out very slow and very quick changes in capacitance atthe input and continuously adjusts itself to the environment.As a result, the performance of the NXP devices is affectedless by conditions that can impair or prevent correctfunctions in other devices. The auto-calibration functionensures that long-term environmental changes such as dirt,humidity, freezing temperatures, or damages to the electrodedo not affect the device function.PROXIMITY90There is an increasing use of capacitive sensing technologyin many different applications that require touch switches,proximity detection, fluid level measurement, slider andwheel controls, position determination, human interface andmany other features. These capacitive sensors are changingthe face of today’s electronic equipment as they require noactual pressing on the sensor area and theywork when the user is wearing gloves.NXP Semiconductors’ capacitive sensordevices offer the added benefits of autocalibration,configurability, low powerconsumption, and increased reliability indifferent environments.NXP’s PCF8883 single-channel capacitivesensor has a wide operating supply voltagerange from 3V to 9V. A sensing plate connectsto the IN pin of the device and any change ofcapacitance on the IN pin will cause the open-drain OUT pinto toggle.Sensitivity and response time are the two primary items totake into account when fine-tuning the device performance.The sensitivity is adjusted by altering the value of thecapacitor on the CPC pin, while the response time iscontrolled by varying the value of the capacitor on the CLINpin.Fig.1 Typical connections of PCF8883The ability to vary the sensitivity of the devices makes itsuitable for use as either a touch sensor or a proximitysensor. For proximity sensing applications, the sensitivity isincreased by increasing the CPC capacitance; and for touchsensing applications, the sensitivity is lowered by reducingthe CPC capacitance. Proximity sensing is widely used inequipment to detect the closeness of an object,in touch-free operations such as hazardousenvironments or medical applications, and inhermetically sealed applications where thesensing plate is separated from the user witha dielectric material.Power consumption is always a mainconsideration for battery-operatedequipment using capacitive sensingtechnologies. The PCF8883 deviceconsumes less than 5μA, even under worst-caseoperating conditions (typically 2.2μA at 3.0V supply). Thismakes the device very suitable for applications wherebyall the electronics may be powered down or put in deepsleep mode and the PCF8883 is configured in the proximitysensing mode to scan the environment for any user’spresence.By enabling human interfaces that can be controlled byproximity or touch, capacitive sensors have the ability totransform the way we interact with electronic systems. Untilnow, a limiting factor has been reliability, since environmentalfactors such as humidity, dirt, freezing temperatures, andchanges in the moving object can have a negative impact onsensitivity and responsiveness.C SENS= Sensing plate capacitanceThe coaxial cable is optionalNXP Semiconductors, with its low-power PCF8883capacitive sensors, takes advantage of a patented autocalibrationfeature that improves reliability. Designing withauto-calibration requires a certain amount of fine-tuning,since the switch has to be optimized for typical applicationrequirements, but once the initial configuration is set, thesensor offers enhanced performance and longevity. As aresult, these auto-calibrating devices are expanding thereach of capacitive sensors, and bringing a new level of userfriendliness to a wider range of applications.www.FutureElectronics.com/Sensors

PROXIMITYProximity Detection SensorsSimplifies the human-machine interfacewith touchless technologyProduct OverviewProximity detection sensors from ams sense reflected IRenergy to detect the presence and motion of an objector person. Proximity detection sensors can be usedfor mechanical switch replacement or to sense humangesturing, enabling sophisticated applications centered onenhancing the user experience.Features & BenefitsDevices with Proximity + Color Sensors, or Proximity +Ambient Light Sensor, integrated on a single deviceWide Dynamic Range, from less than 15 cm to over 1mwhen coupled with a proper LEDGesture Controls and Simple Mechanical SwitchReplacement can be substituted with proximity detectionsensorsSaves energy by reducing the total system powerconsumptionPROXIMITYPartNumberVoltageGainProgrammableIntegrationTimeInterrupt1 2 CAddress1 2 CBUSALSIntegratedRecommended Operating DistanceTSL26711 2.6 - 3.6 x x x 39 VDD NoxxTSL26713 2.6 - 3.6 x x x 39 1.8V No x x –TSL27711 2.6 - 3.6 x x x 39 VDD Yes x x –TSL27713 2.6 - 3.6 x x x 39 1.8V Yes x x –TSL27723 2.6 - 3.6 x x x 39 1.8V Yes x x –SHORT: LESS THAN 15 CMMEDIUM: LESS THAN 46 CMLONG: GREATER THAN 46 CM–91www.FutureElectronics.com/Sensors

IntroducingThe Energy Harvesting PlatformIndustrialPortable scanners,building and productionautomation, containertracking, signal lightingCommercialBuilding and lighting control,bus shelters, parking metersSecurityCameras, sensors,communicationsConsumerPortable electronics,garden irrigation, smart home,remote controlsThe Energy Harvesting Platform, a complete energy harvesting evaluation system.Measurement of the power chain is taken at the energy harvesting point, dc-dc to storage,storage, dc-dc to application and at the application. The GUI displays the power chainand with data logging functions can measure the effectiveness of your energy harvesting system designin real life conditions. GUI controlled relays allow complete user control over each block in the system.This system can be continuously upgraded with the latest,leading edge energy harvesting, dc-dc, storage and low power technology,putting you ahead of the curve in designing products to run plug free!Get ahead of the energy harvesting curve, at:www.FutureEnergySolutions.com/EnergyHarvestingPlatform

TEMPERATUREWhat is a temperature sensor?As one of the most commonly available and widely usedsensor types, a temperature sensor simply detects thetemperature of the surrounding environment and convertsthe temperature reading into an electronic signal. A varietyof temperature sensors is available in various materials (i.e.ceramic, polymer, metal or semiconductor), form factors,functions and features; from simple discrete thermistors,to thermopile, thermocouple, and to fully integrated siliconbandgap temperature sensor ICs.Infrared temperature sensors have emerged in recentyears to become widely used in non-contact temperaturemeasurement, which are well suited to medical, securityand comfort sensing applications as well as more extremeenvironments such as industrial furnaces.As manufacturing technology and design techniqueimproves, today’s temperature sensors are extremelyaccurate and designed with rich features and functions suchas analog or digital interfaces and multiple remote junctionsensing capabilities, which make it much easier to design inthe system.Important selection parametersSensing Range is the operating temperature range overwhich the device can measure temperature while maintainingrated accuracy.Accuracy is defined as the worst-case error in temperaturebetween measured and the actual temperature.Output Type includes analog voltage output, or a rangeof digital options including SPI, I 2 C, set-point comparatoroutputs, PWM, to name a few choices.Depending on the device output type, other parameters maybe important, such as:resolution (digital, in number of bits), orgain and output impedance (analog)Typical applicationsTemperature sensors are used in a wide range of medical,security, industrial and commercial applications suchas thermostats, and industrial process control, weathermonitoring, engine controls, etc. One of the most commonuses today is in monitoring and managing the temperatureof high performance electronic circuits, including powersupplies, microprocessors and FPGAs, memory, and radiotransmitter circuits.TEMPERATURE93www.FutureElectronics.com/Sensors

TEMPERATUREAnalog Output Temperature SensorThe analog output temperature sensing IC provides accurate, low power and low cost temperature sensing solutions.Part NumberOperatingTemperature (°C)TemperatureAccuracy (±)(°C)Sensor Gain(mV/°C)Supply Voltage (V)Quiescent Current(μA)PackageMeasurementSpecialties5MVCTS050 -20 to 80 1 2 6.2 to 30 1000- 5000 8.5 X 55mm S/S HsgMCP9700 -40 to 125 ±1 10 2.3 to 5.5 12 SOT23, SC70MCP9700A -40 to 125 ±1 10 2.3 to 5.5 12 SOT23, SC70TEMPERATUREMicrochipRohmMCP9701 -40 to 125 ±1 19.5 2.3 to 5.5 12 SOT23, SC70MCP9701A -40 to 125 ±1 19.5 2.3 to 5.5 12 SOT23, SC70TC1047A -40 to 125 ±0.5 10 2.5 to 5.5 60 SOT23TC1047 -40 to 125 ±0.5 10 2.7 to 4.4 60 SOT23TC1046 -40 to 125 ±0.5 6.25 2.7 to 4.4 60 SOT23BD1020HFV-TR -30 to 100 ±1 -8.2 2.4 to 5.5 - HVSOF5BDE0600G-TR -30 to 130 ±4 -10.68 2.9 to 5.5 - SSOP5BDE0700G-TR -30 to 130 ±4 -10.68 2.9 to 5.5 - SSOP5BDE0800G-TR -30 to 130 ±4 -10.68 2.9 to 5.5 - SSOP5BDE0900G-TR -30 to 130 ±4 -10.68 2.9 to 5.5 - SSOP5BDE1000G-TR -30 to 130 ±4 -10.68 2.9 to 5.5 SSOP5BDE1100G-TR -30 to 130 ±4 -10.68 2.9 to 5.5 - SSOP5BDJ0701HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5BDJ0751HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5BDJ0801HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5BDJ0851HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5BDJ0901HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5BDJ0550HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5BDJ0600HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5BDJ0650HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5BDJ0700HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5BDJ0800HFV -30 to 100 ±2.5 -8.20 2.4 to 5.5 7.5 HVSOF5ST MicroSTLM20 -55 to 130 ±1.5 -11.77 (typ) 2.4 to 5.5 4.8 SC70-5, UDFN494ThermocoupleThermocouple probe assemblies are designed in various application specific styles mainly for high temperature measurement.MeasurementSpecialtiesSensorSeriesT01T11T0201244Package EMF table Tolerances (%)Mineral insulated thermocouple type K ,S/S sheath, ø6x200mm, Cable Lg 2mFlexible cable thermocouple type T, glassfiber insulation cable Lg 3mThermocouple Type J, ø3x52 S/Shousing, glass fiber insulation cable Lg5maccording to IEC5844096.2 μV @100°Caccording to IEC5844279 μV @100°Caccording to IEC5845269 μV @100°CClass 1 according to IEC584±1.5 between −40 °C and 375 °C±0.004×T between 375 °C and 1000 °CClass 1 according to IEC584±0.5 between −40 °C and 125 °C±0.004×T between 125 °C and 350 °CClass 1 according to IEC584±1.5 between −40 °C and 375 °C±0.004×T between 375 °C and 750 °COperatingTemperature (°C)800400400www.FutureElectronics.com/Sensors

TEMPERATUREDigital Output Temperature SensorThe digital output temperature sensors provide easy and flexible interface with integrated analog to digital converter and serialinterface blocks.Part Number Resolution (bit) Interface TypeOperatingTemperature (°C)Temperature Accuracy(±) (°C)SupplyVoltage (V)SupplyCurrent(mA)PackageMeasurementSpecialtiesG-NICO-018(TSYS01)16, 24 SPI / I²C -40 to 125 0.1 3.6 1.4 QFN16MCP9800 12 I²C / SMBus -40 to 125 0.5 2.7 to 5.5 0.4 SOT23MCP9801 12 I²C / SMBus -40 to 125 0.5 2.7 to 5.5 0.4 MSOP, SOICMCP9802 12 I²C / SMBus -40 to 125 0.5 2.7 to 5.5 0.4 SOT23MCP9803 12 I²C / SMBus -40 to 125 0.5 2.7 to 5.5 0.4 MSOP, SOICMCP9804 12 I²C / SMBus -40 to 125 0.25 2.7 to 5.5 0.4 MSOP, SOICMCP9805 12 I²C -40 to 125 0.5 (75ºC to 95ºC) 3.0 to 3.6 0.2 TSSOP, 2x3 DFNMCP9808 12 I²C / SMBus -40 to 125 0.25 2.7 to 5.5 0.4 MSOP, SOICMCP98242 12 I²C -40 to 125 0.5 (75ºC to 95ºC) 3.0 to 3.6 0.2 TSSOP, 2x3 DFNMicrochipNXPMCP98243 11 I²C / SMBus -40 to 125 0.5 3.0 to 3.6 0.5MCP9843 12 I²C / SMBus -40 to 125 0.5 3.0 to 3.6 0.5TC72 10 SPI -55 to 125+/-2 (max) -40ºC to85ºC8/TSSOP,8/DFN,8/TDFN,8/UDFN8/TSSOP,8/DFN,8/TDFN2.7 to 5.5 0.4 3x3 DFN, MSOPTC74 8 I²C / SMBus -40 to 125 +/-2 (max) 25ºC to 85ºC 2.7 to 5.5 0.35 TO-220, SOT23TC77 13 SPI -55 to 125 +/-1 (max) 2.7 to 5.5 0.4 SOT23, SOICTCN75 12 I²C / SMBus -55 to 125 0.5 2.7 to 5.5 1 SOIC, MSOPTCN75A 12 I²C / SMBus -40 to 125 1 2.7 to 5.5 0.5 SOIC, MSOPTC620 N/A Logic -40 to 125 +/-3 4.5 to 18 0.4 PDIP, SOICTC621 N/A Logic -40 to 125 +/-3 4.5 to 18 0.4 PDIP, SOICTC622 N/A Logic -40 to 125 +/-5 4.5 to 18 0.6 PDIP, SOIC, SOT-220TC623 N/A Logic -40 to 125 +/-3 2.7 to 4.5 0.25 PDIP, SOICTC624 N/A Logic -40 to 125 1 2.7 to 4.5 0.3 PDIP, SOICTC6501/2 N/A Logic -55 to 135 +/-6 2.7 to 5.5 0.04 SOT23TC6503/4 N/A Logic -55 to 135 +/-6 2.7 to 5.5 0.04 SOT23MCP9501 N/A Logic -40 to 125 1 2.7 to 5.5 0.04 5/SOT-23MCP9502 N/A Logic -40 to 125 1 2.7 to 5.5 0.04 5/SOT-23MCP9503 N/A Logic -40 to 125 1 2.7 to 5.5 0.04 5/SOT-23MCP9504 N/A Logic -40 to 125 1 2.7 to 5.5 0.04 5/SOT-23MCP9509 N/A Logic -40 to 125 0.5 2.7 to 5.5 0.05 5/SOT-23MCP9510 N/A Logic -40 to 125 0.5 2.7 to 5.5 0.08 6/SOT-23LM75A 11 I²C -55 to 125 ±2 oC 2.8 to 5.5 1LM75B 11 I²C -55 to 125 ±2 oC 2.8 to 5.5 0.3SE95 13 I²C -55 to 125 ±1 2.8 to 5.5 1SE97B 11 I²C / SMBus -40 to 125 ±1 3.0 to 3.6 0.25SO8MSOP8SO8TSSOP8XSON-8HWSON-8SO8MSOP8HVSON8TSSOP8SE98A 11 I²C / SMBus -40 to 125 ±1 1.7 to 3.6 0.25 TSSOP8 HWSON8TEMPERATURE95www.FutureElectronics.com/Sensors

TEMPERATUREPart Number Resolution (bit) Interface TypeOperatingTemperature (°C)Temperature Accuracy(±) (°C)SupplyVoltage (V)SupplyCurrent(mA)PackageON SemiconductorCAT34TS02 0.063 I²C / SMBus -40 to 125 ±3 3.3 to 3.6 0.5 TDFN-8CAT6095 0.063 I²C / SMBus -40 to 125 ±3 3.0 to 3.6 0.2 TDFN-8NCT75 0.063 I²C / SMBus -55 to 125 ±1 3.0 to 5.5 0.8DFN-8Micro8-8SOIC-8STTS75 9, 10, 11, 12 I²C -55 to 125 ± 2 2.7 to 5.5 0.001 SO8, MSOP8ST MicroSTDS75 9, 10, 11, 12 I²C -55 to 125 ± 2 2.7 to 5.5 0.001 SO8, MSOP8STCN75 9 I²C -55 to 125 ± 2 2.7 to 5.5 0.001 SO8, MSOP8STLM75 9 I²C -55 to 125 ± 2 2.7 to 5.5 0.001 SO8, MSOP8STTS424E02 10 I²C / SMBus -40 to 125 ± 1 3 0.002 TDFN8Digital Infrared ThermometerThe digital output infrared thermometers provide non-contact temperature measurement with integrated IR temperaturedetector (thermopiles), signal conditioning and temperature calculation circuitry. Single or dual zone detection, high outputaccuracy and wide temperature range make them ideal for industrial, medical and consumer applications.TEMPERATUREMeasurementSpecialtiesMelexisPart NumberG-TPSY-002(TPT300V)G-TPMO-023(TSEV01S01C10)G-TPMO-022(TSEV01S01C90)G-TPMO-014(TSEV0108L39)Object TemperatureRange (°C)TemperatureAccuracy (±) (°C)MeasurementResolution (°C)0 to 300 3 0.3OutputInterfaceAnalog andRS232SupplyVoltage (V)QuiescentCurrent (mA)OperatingTemperature (°C)9 to 24 22 0 to 85PackageStainless Steel,IP650 to 300 2 0.1 SPI 3.3 to 16 2 0 to 85 N/A0 to 100 1 0.02 SPI 3.3 to 16 2 0 to 85 N/A-20 to 120 2 0.1 SPI 4 to 16 15 0 to 85 N/AMLX90614 -70 to 380 0.5 0.02 SMBus 3 or 5 1 -40 to 125 TO-39MLX90615 -40 to 115 0.05 0.02 SMBus 3 0.8 -40 to 85 TO-46MLX90616 -70 to 1030 0.5 0.02 SMBus 3 1 -40 to 85 TO-39Analog Infrared ThermopilePartNumberOperatingTemperature (°C)InternalResistance(kOhm)ResistanceT.C. (%°C)ThermistorResistance(kOhm)Responsitivity(V/W)Noise Voltage(nVrms)Diaphragm size(mm)Package96GE Measurement& ControlZTP-101T -20 to 100 200 0.10 30 +/-3% 110 Typical 62 1.5 X 1.5 mm2 TO-39(TO-5)ZTP-115 -20 to 100 50 0.15 10 +/-3% 60 Typical 30 1.0 X 1.0 mm2 TO-39(TO-5)ZTP-135SR -20 to 100 60 0.12 100 +/-3% 62 Typical 32 1.4 X 1.4 mm2 TO-46(TO-18)ZTP-135SR-F1 -20 to 100 60 0.12 100 +/-3% 38 Typical 32 1.4 X 1.4 mm2 TO-46(TO-18)www.FutureElectronics.com/Sensors

TEMPERATURERemote Temperature SensorFor applications where single or multiple remote temperature sensing is required, the digital output temperature sensor IC withone or more remote sensing inputs is the ideal choice.NXPON SemiconductorSemtechPart NumberOperatingTemperature(°C)TemperatureAccuracy (±)(°C)Resolution (°C)Interface TypeRemote ThermalSensorsSupplyVoltage (V)SA56004 -55 to 125 ±2 11 (bit) I ² C / SMBus 1 3.0 to 5.5 0.5QuiescentCurrent(mA)PackageSO8TSSOP8NE1617A -55 to 125 ±2 8 (bit) I²C / SMBus 1 3.0 to 5.5 0.07 QSOP16NE1619 -55 to 125 ±3 8 (bit) I²C / SMBus 1 2.8 to 5.5 0.5 QSOP16ADM1021A -55 to 125 ±3 1 I²C / SMBus 1 3.0 to 5.5 0.2 QSOP-16ADM1023 -55 to 125 ±1 1 I²C / SMBus 1 3.0 to 5.5 0.2 QSOP-16ADM1032 0 to 120 ±1 1 I²C / SMBus 1 3.0 to 5.5 0.215ADT7461 -40 to 125 ±1 1 I²C / SMBus 1 3.0 to 5.5 0.215Micro8-8SOIC-8Micro8-8SOIC-8ADT7461A -40 to 125 ±1 1 I²C / SMBus 1 3.0 to 3.6 0.35 Micro8-8ADT7481 -40 to 120 ±1 1 I²C / SMBus 2 3.0 to 3.6 4 Micro10ADT7482 -40 to 120 ±1 1 I²C / SMBus 2 3.0 to 3.6 0.35 Micro10ADT7483A -40 to 125 ±1 1 I²C / SMBus 2 3.0 to 3.6 0.35 QSOP-16ADT7484A -40 to 125 ±1 0.016 SST 1 3.0 to 3.6 5Micro8-8SOIC-8ADT7485A -40 to 125 ±1 0.016 SST 1 3.0 to 3.6 5 Micro10ADT7486A -40 to 125 ±1 0.016 SST 2 3.0 to 3.6 5 Micro10ADT7488A -40 to 125 ±1 0.016 SST 1 3.0 to 3.6 5 Micro10NCT1008 -40 to 125 ±1 1 I²C / SMBus 1 2.8 to 3.6 0.35DFN-8WDFN-8NCT210 -65 to 125 ±3 1 I²C / SMBus 1 3.0 to 5.5 0.37 QSOP-16NCT214 -40 to 125 ±1 1 I²C / SMBus 1 3.0 to 3.6 0.35 WDFN-10NCT72 -40 to 125 ±1 1 I²C / SMBus 1 2.8 to 3.6 0.35NVT210 -40 to 125 ±1 1 I²C / SMBus 1 3.0 to 3.6 0.35SX8733 -40 to 125SX8743 -40 to 125SX8744 -40 to 125±0.5 (25°Cto 100°C)±0.5 (25°Cto 100°C)±0.5 (25°Cto 100°C)DFN-8WDFN-8Micro8-8WDFN-811 (bit) SMBus 2 2.7 to 5.5 0.01 MLPD-611 (bit) SMBus 4 2.7 to 5.5 0.01 MSOP-811 (bit) SMBus 3 2.7 to 5.5 0.01 MSOP-8TEMPERATUREThermistor - Inrush Current LimiterInrush protection prevents nuisance blowing of fuses or breakers in switching power suppliers, inverters or motorsapplications. To provent surge or inrush current from demaging the down stream components, the themistors below are theideal options.97SensorSeriesPackage R25 (Ohm) Tolerance Operating Temperature (°C) Max steady state current (Amps)GE Measurement& ControlCL-xx epoxy coated disc, PCB mount 0.7 to 120 25% -50 to 75 2 to 12CL-xxx epoxy coated disc, PCB mount 5 to 50 25% -50 to 175 1.1 to 4.7www.FutureElectronics.com/Sensors

TEMPERATURETEMPERATURE98ThermistorA thermistor is a low cost and simple form of temperature sensor with resistance varying according to its surroundingtemperature. Future Electronics offers extensive thermistor products. Visit the Future Electronics website for more options.GE Measurement& ControlMeasurement SpecialtiesNXPVishaySensor Series Package R25 (Ohm) TolerancesOperatingTemperature (°C)TemperatureCoefficient (%/K)RL0503 (MS Series) Epoxy coated with insulated leads 2K to 100K +/- 1 ºC -50 to 150 -3.8 to -4.903006- Glass encasulated - MELF 250 to 1 M 2% to 10% -50 to 150 -3.34 to -5.07AL03006 DO-35 glass encapsulated 250 to 1 M 2% to 10% -50 to 204 -3.34 to -5.0795 SeriesInterchangeableEpoxy coated chip with leads 2K to 100K +/- .1ºC or +/- .2ºC -80 to 150 -4.3 to -4.910K3A1IB Bead Thermistor 10K 0.5% -20 to 80 -4.3910K3A1A-UL Bead Thermistor 10k 0.25% -20 to 80 -4.3910KF3960DPGS DO-35 Thermistor 10k 1% -40 to 250 -4.39GA10KM3499J15 Mini Axial Glass Thermistor 10K 20% -40 to 250 -3.8710K3CG500 Goldchip 10K 1% -40 to 125 -4.04G15K4D489 High Rel Surface probe 15K 2% -60 to 160 -4.044K3A354 Bead Thermistor 4K 2% -55 to 115 -4.392.2K3D210 Medical probe 2.2K 0.5% 25 to 45 -4.3910K3D1217 Pipe Probe 10K 1% -40 to 125 -3.7910K3D1037 Boiler Probe 10k 1% -40 to 125 -4.3910K3435MSL015 Over molded probe 10K 1% -40 to 125 -3.7755006 Glass Encapsulated Thermistor 10K 1% -80 to 150 -4.0455031 Glass Encapsulated Thermistor 10K 0.5% -80 to 100 -4.0455004 Glass Encapsulated Thermistor 2.2K 1% -80 to 200 -4.3955033 Glass Encapsulated Thermistor 2.2K 0.5% -80 to 125 -4.39KTY81-1 SOD70 1000 +/- 1% to +/- 5% -55 to 150 0.79KTY81-2 SOD70 2000 +/- 1% to +/- 5% -55 to 150 0.79KTY82-1 SOT23 1000 +/- 1% to +/- 5% -55 to 150 0.79KTY82-2 SOT23 2000 +/- 1% to +/- 5% -55 to 150 0.79KTY83-1 SOD68 1000 +/- 1% to +/- 5% -55 to 175 0.76KTY84-1 SOD68 1000 (R100) +/- 3% to +/- 5% -40 to 300 0.61NTCS08052K2 to 680K-3.69 to -4.501%, 2%, 3%, 5%NTCS0603 Surface Mount2K to 100K -40 to 150 -3.81 to -4.52NTCS0402 4K7 to 100K 3%, 5% -3.85 to -4.48NTHS1206NTHS0805NTHS0603Surface Mount1K to 330K1K to 300K1K to 350KNTHS0402 10K to 350K 3%, 5%, 10%1%, 2%, 3%, 5%,10% -40 to 125 -3.5 to -4.67NTCLE100 Radial Through-Hole 3R3 to 470K 2%, 3%, 5% -40 to 125 -3.22 to -4.97M, C, T Radial Through-Hole 68R to 1M1%, 5%, 10%0.2°C, 0.5°C, 1.0°C-40 to 125 -3.5 to -4.67NTCLE203 Radial Through-Hole 2K to 470K 1%, 2%, 3%, 5% -40 to 125 -3.87 to -4.97NTCLE203…SB0 Radial Through-Hole 2K06 to 30K 0.5°C -55 to 150 -3.87 to -4.51NTCLE201 Radial Through-Hole 3K to 10K 0.5°C -40 to 125 -4.37NTCLE300 Radial Through-Hole 3K to 10K 0.5°C -40 to 125 -4.37NTCLE305 Radial Through-Hole 2K06 to 10K 0.5°C -40 to 125 -3.85 to -4.39NTCLE400 Long Lead Through-Hole 2K2 to 100K 3% -40 to 85 -4.38 to -4.47NTCLE413 Radial Through-Hole 4K7 to 100K 1%, 3%, 5% -40 to 105 -3.75 to -4.57www.FutureElectronics.com/Sensors

TEMPERATUREVishaySensor Series Package R25 (Ohm) TolerancesOperatingTemperature (°C)TemperatureCoefficient (%/K)NTCLE428 Radial Through-Hole 4K7 to 100K 1%, 3%, 5% -40 to 105 -3.75 to -4.47NTCLG100 Axial Through-Hole 10K to 220K 5% -40 to 200 -4.10 to -4.38NTCALUG01 Assembly 4K7 to 47K 2%, 3%, 5% -40 to 150 -4.39 to -4.51NTCALUG02 Assembly 4K7 to 10K 1%, 2%, 3% -55 to 125 -3.75 to -4.57NTCALUG03 Assembly 10K to 47K 2%, 3% -40 to 125 -4.10 to -4.39NTCACAP Assembly 2K7 to 10K 1%, 2% -55 to 60 -4.39NTCAFLEX Assembly 10K to 47K 3% -40 to 125 -4.41NTCAIMME3C90373 Assembly 10K 3% -25 to 105 -4.39NTCASCW Assembly 1K to 470K 1%, 2%, 5% -40 to 100 -3.87 to -4.95NTCLP450 Assembly 100K 3% -40 to 105 -4.57PTS1206PTS0805PTS0603TFPT1206TFPT0805TFPT0603Surface MountSurface Mount100R, 500R, 1K100R, 500R100R100R to 10K100R to 5K100R to 1K0.3°C, 0.6°C -55 to 155 0.3850.5%, 1%, 5% -55 to 150 0.41RTD Platinum ElementPlatinum RTD glass wire wound sensors provide excellent accuracy and stablility for applications that involve vibration, oraggressive environments.Measurement SpecialtiesSensorSeriesGO1020GX518KHPackageGlass wire wound RTD elementwith leadsGlass wire wound RTD elementwith leadsCeramic wire wound RTD elementwith leadsR0°C(Ohm)100100100PF0001387 Tubular silicone RTD with leads 100SP683SB0736PF0001884P0600424HS100562S20017Flexible silicone surface probe10x23x1.5mm, 4 wires cableLg 1.5mRigid epoxy surface probe10x80mm, 3 wires cable Lg 10mPush-in probe, ø5x45mm S/Shousing, 2 wires cable lg 1.5mScrew-in probe, ø6mm Lg50,M10x150, S/S housing,2 wires cable Lg 0.5mRing terminal probe for M4 screw,2 wires cable Lg 1mReference probe TLH ø5x500mm,4 wires cable Lg 2m10010010001000100100Tolerances+/-0.3°C according to IEC60751: class W 0.3 (Class B)+/-0.3°C according to IEC60751: class W 0.3 (Class B)+/-0.3°C according to IEC60751: class W 0.3 (Class B)+/-0.3°C according to IEC60751: class W 0.3 (Class B)+/-0.3°C according to IEC60751: class W 0.3 (Class B)+/-0.3°C according to IEC60751: class W 0.3 (Class B)+/-0.3°C according to IEC60751: class W 0.3 (Class B)+/-0.3°C according to IEC60751: class W 0.3 (Class B)+/-0.3°C according to IEC60751: class W 0.3 (Class B)+/-0.3°C according to IEC60751: class W 0.3 (Class B)Supply Current(mA)OperatingTemperature(°C)TemperatureCoefficient(ppm/K)1 -196 to 400 38501 -196 to 400 38501 -196 to 1000 38501 -40 to -250 38501 -40 to -200 38501 -20 to 150 38500.3 -20 to 105 38500.3 -40 to -200 38501 -40 to -250 38501 -200 to -600 3850TEMPERATURE99www.FutureElectronics.com/Sensors

TEMPERATURENTC Inrush Current LimiterThermistor – CL SeriesGE’s Thermometrics NTC Disc thermistors for inrush current limitingProduct OverviewDisc thermistor with uninsulated leads. Kinked leadsindicated by an “A” suffix to the part number are available byspecial request.ApplicationsControl of the inrush current in switching power supplies,fluorescent lamps, inverters, motors, etc.Features & BenefitsReliable, solid state device for inrush current suppressionExcellent mechanical strengthWide operating temperature range: -58°F to 347°F(-50°C to 175°C)Small in size, suitable for PCB mountingTEMPERATURE100TypeRes @77˚F(25˚C)±25%(Ω)Max*SteadyStateCurrentAMPS(RMS)CL-11 0.7 12CL-21 1.3 8CL-30 2.5 8CL-40 5 6CL-60 10 5CL-70 16 4CL-80 47 3CL-90 120 2CL-110 10 3.2CL-120 10 1.7CL-130 50 1.6CL-140 50 1.1CL-150 5 4.7CL-160 5 2.8CL-170 16 2.7CL-180 16 1.7CL-200 25 1.7CL-210 30 1.5DiscDia.(Max)in(mm)0.77(19.56)0.55(13.97)0.77(19.56)0.77(19.56)0.77(19.56)0.77(19.56)0.77(19.56)0.93(23.62)0.40(10.16)0.40(10.16)0.45(11.43)0.45(11.43)0.55(13.97)0.55(13.97)0.55(13.97)0.55(13.97)0.55(13.97)0.40(10.16)DiscThick.(Max)in(mm)0.22(5.59)0.21(5.33)0.22(5.59)0.22(5.59)0.22(5.59)0.22(5.59)0.22(5.59)0.22(5.59)0.17(4.32)0.17(4.32)0.17(4.32)0.17(4.32)0.18(4.57)0.18(4.57)0.18(4.57)0.18(4.57)0.18(4.57)0.20(5.08)LeadSpacingRef.in(mm)0.328(8.33)0.328(8.33)0.328(8.33)0.328(8.33)0.328(8.33)0.328(8.33)0.328(8.33)0.328(8.33)0.250(6.35)0.250(6.35)0.250(6.35)0.250(6.35)0.328(8.33)0.328(8.33)0.328(8.33)0.328(8.33)0.328(8.33)0.250(6.35)Lead Dia.AWG@120VACC x(max)**µ Farads@240VACEquation constants for resistanceunder load***X Y CurrentRange Min. I/ Max. I*Approx. Res. Under Load at %Maximum Rated25% 50% 75% 100%Diss.Const.(mW/ ˚C)18 2700 675 0.50 -1.18 4.0 ≤ I ≤ 12 0.14 0.06 0.04 0.03 25 10018 800 200 0.60 -1.25 3.0 ≤ I ≤ 8.0 0.25 0.11 0.06 0.04 15 6018 6000 1500 0.81 -1.25 2.5 ≤ I ≤ 8.0 0.34 0.14 0.09 0.06 25 10018 5200 1300 1.09 -1.27 1.5 ≤ I ≤ 6.0 0.65 0.27 0.16 0.11 25 10018 5000 1250 1.45 -1.30 1.2 ≤ I ≤ 5.0 1.08 0.44 0.26 0.18 25 10018 5000 1250 1.55 -1.26 1.0 ≤ I ≤ 4.0 1.55 0.65 0.39 0.27 25 10018 5000 1250 2.03 -1.29 0.5 ≤ I ≤ 3.0 2.94 1.20 0.71 0.49 25 10018 5000 1250 3.04 -1.36 0.5 ≤ I ≤ 2.0 7.80 3.04 1.75 1.18 30 12024 600 150 0.83 -1.29 0.7 ≤ I ≤ 3.2 1.11 0.45 0.27 0.19 8 3024 600 150 0.61 -1.09 0.4 ≤ I ≤ 1.7 1.55 0.73 0.47 0.34 4 9024 600 150 1.45 -1.38 0.4 ≤ I ≤ 1.6 5.13 1.97 1.13 0.76 8 3024 600 150 1.01 -1.28 0.2 ≤ I ≤ 1.1 5.27 2.17 1.29 0.89 4 9022 1600 400 0.81 -1.26 1.0 ≤ I ≤ 4.7 0.66 0.28 0.17 0.12 15 11022 1600 400 0.60 -1.05 0.8 ≤ I ≤ 2.8 0.87 0.42 0.28 0.20 9 13022 1600 400 1.18 -1.28 0.5 ≤ I ≤ 2.7 1.95 0.80 0.48 0.33 15 11022 1600 400 0.92 -1.18 0.4 ≤ I ≤ 1.7 2.53 1.11 0.69 0.49 9 13022 800 200 0.95 -1.24 0.4 ≤ I ≤ 1.7 2.74 1.16 0.70 0.49 9 13024 600 150 1.02 -1.35 0.3 ≤ I ≤ 1.5 3.83 1.50 0.87 0.59 8 30TimeConst.(sec.)* maximum rating at 77°F (25ºC) or I derated= √(1.1425 - 0.0057 x T A) x I max@77°F (25°C) for ambient temperatures other than 77°F (25ºC).** maximum ratings*** R load= X (I max * %load) Y where X and Y are found in the parametric table.www.FutureElectronics.com/Sensors

TEMPERATUREMS Series NTC Thermistorwith Insulated LeadsGE’s Thermometrics epoxy coated thermistorswith nickel PTFE insulated leadsProduct OverviewTemperature accuracy: ±1°C @ 77°F (25°C)Dissipation constant: 1.4 mW/°CTime constant: 15 secondsOperating range: -58°F to 302°F (-50°C to 150°C)Features & BenefitsHigh sensitivity greater than –4% /°C at 77°F (25°C)Suitable for temperature measurement, control andcompensationHigh reliability and stabilityResin coated for good mechanical strength and resistanceto solventsAvailable in a wide range of material systemsTight tolerances on resistance and B valueSmall body sizeFast responseApplicationsTemperature measurement and control of:AutomotiveIndustrialHVACWhite goodsType NumberRo@ 77°F(25°C) (Ω)MaterialSystemRL0503-1248-73-MS 2K D7.3RL0503-2890-95-MS 5K D9.5RL0503-5820-97-MS 10K D9.7ARL0503-17.56K-96-MS 30K F9.61RL0503-27.53K-120-MS 50K D12.0RL0503-55.36K-122-MS 100K D12.2TEMPERATURE101www.FutureElectronics.com/Sensors

TEMPERATUREDigital, Plug and Play InfraredThermometers in a TO-canMLX90614 & MLX90615 family for broad range of industrial,medical and automotive applicationsTEMPERATURE102Product OverviewMelexis’ infrared thermometer chips are the world’s mosthighly integrated and intelligent IR temperature solutionson the market. At the core is a single or dual IR thermopile,combined with on-board low-noise amplifier, 17-bit ADC andpowerful DSP unit. This all in a single TO “can” package,with no need for external components or signal conditioningcircuitry. Excluding the need for external components makesthis family of sensors a low-cost “plug-and-play” solution forany high-accuracy IR thermometer or transducer, capableof measuring to better than 0.2 degrees Celsius. The digitaloutput is provided in SMBus or continuous PWM format.Melexis designs and manufactures the entire system.MLX90614 specific featuresEasy to integrate smallsize TO-39 can (9mmdiameter)Standard calibration in awide temperature range:•§-40 to 125ºC for ambienttemperature•§-70 to 380ºC for objecttemperatureBetter than 0,50ºCaccuracy in the range of0-50ºCMLX90615 specific featuresEasy to integrate small size TO-46 can (4,5mm diameter)Standard calibration in a wide temperature range:•§-40 to 85ºC for ambient temperature•§-50 to 115ºC for object temperature0,10ºC medical accuracy from 32 to 42ºCTypical ApplicationsHome appliances: microwave ovens, cooking stoves,heaters, hair dryersHealth careFire/heat detection, alarm systemsHigh precision contact-less temperature measurementThermal comfort sensor for Mobile Air Conditioning controlsystemsWindshield defoggingTemperature sensing element for residential, commercialand industrial building air conditioningPresence detectorsMobile telephonesIndustrial temperature controlTemperature control in laser printers and copiersLivestock monitoringSensor grid for multi-zone temperature controlThermal relays/alertsFeatures & BenefitsFactory calibrated IR thermometer with linear digital output2-wire SMBus compatible interface for readingtemperatures and sensor reconfigurationBuilding block for sensor network with up to 100thermometersHigh reliability and long-term stabilityAvailable for 3 and 5V applications, easy to adapt forvoltage sources in range 6-24VPower saving mode for battery operationwww.FutureElectronics.com/Sensors

TEMPERATUREAccurate Measurementsin Extreme EnvironmentsMLX90616 for extreme contact-less temperature solutionsProduct OverviewA common challenge for current high end thermometerguns is sensitivity to fast temperature changes in theirenvironment. A stabilization period of up to a half hour in theenvironment is often necessary to achieve new, accurate,measurements. The new MLX90616ESF-HCA thermopilesensor with integrated electronic stabilization function usesproprietary Melexis technology to reduce the stabilizationperiod to less than one minute.The MLX90616ESF-HCA incorporates a secondarythermopile sensor to detect temperature variations in thepackage and in the optical assembly. The signal of thissecondary sensor is used to compensate electronicallyfor the adverse effect on the measurement. In this way itis possible to make a thermometer gun which stabilizes inseconds and gives accurate results in extreme, demandingenvironments.The MLX90616 is intended to be used in applications wherethe user places a lens in front of the sensor to adjust the FOVto his application. The sensor-lens combination temperaturemeasurement must be calibrated by the customer. Melexisprovides the necessary software to do this in a typicalengineering environment.ResolutionThe calculated object and ambient temperatures areavailable from RAM memory with a resolution of 0.02 ˚C.They are accessible by a 2 wire serial SMBus compatibleprotocol (0.02°C resolution) or via 10-bit PWM (Pulse WidthModulated) output.Features & BenefitsEasy to integrateFactory calibrated in wide temperature range:-40…+85ºC for sensor temperatureMeasurement range -70ºC to 1030ºCMeasurement resolution of 0.02ºCBuilt-in thermal gradient compensation sensor for faststable readingsSMBus compatible digital interfaceCustomizable PWM output for continuous reading3V supply voltageSleep mode for reduced power consumption8-14um spectral sensitivityTEMPERATUREExtreme Temperature RangeThe MLX90616 has been specifically designed to measurehigh object temperatures with a maximum of 1030ºC.The MLX90616 is factory calibrated in a wide temperaturerange of -40 to 85ºC for the ambient temperature. Forintegration in thermometer guns it comes with an 8 to 12micron optical filter. The internal electronics will calculatethe object temperature based on the internal temperature,the thermopile output and the calibration data stored inthe EEPROM by the thermometer manufacturer during thecalibration process.103www.FutureElectronics.com/Sensors

TEMPERATURELow Resolution Thermal ImagingMLX90620: 16X4 array of heat sensitive active thermopileswith wide dynamic rangeProduct OverviewMelexis’ MLX90620 is a 16x4 array of thermopile sensors,able to measure a scene with object temperatures between-40 and 300ºC. Each sensing element has its own onchipamplifying and digitization circuit, so every sensor ismeasuring continuously. In this way the array offers thepossibility of a high frame rate without the increase in noisedue to multiplexing a large number of signals to a singleamplifier.TEMPERATURE104During the production process, calibration constants arestored in the on-board EEPROM. These constants are readby the application microcontroller and used to equalizethe digital sensor output and calculate the scene objecttemperature.Typical ApplicationsEfficient air conditioningMicrowave ovensPeople detectionHot spot detectionBuilding environmental auditingSecurity / automatic doorsHome safetyOccupancy monitoringFeatures & Benefits16x4 thermal arrayFactory calibratedWide field of view: 40º or 60ºSmall package: 9mm TO-393.3V supply voltageObject temperature range -50 to 300ºCProgrammable frame rate 0.5Hz to 64HzHigh speed I 2 C interfaceExcellent long term stabilityDigital Active ThermopileEEPROMDigital FilteringRAMMemoryI 2 C InterfaceVoltageRegulatorCL SD VSS VDwww.FutureElectronics.com/Sensors

TEMPERATURENXP High AccuracyI 2 C Temperature SensorsProduct OverviewThe NXP lineup of I 2 C temperature sensors spans industrystandarddevices, to improved specification versions of thoseparts, all the way to innovative, complex, highly accuratesolutions that fit your application at the price point you need.Features & BenefitsNXP offers a direct drop-in replacement to the industrystandardLM75, as well as improved specification deviceswith higher resolution (up to 13-bits), extended temperaturerange, extremely low operating and standby currentconsumption and space-saving packages. Along with theseambient temperature sensors, NXP supplies parts thatmeasure temperature at remote locations using a simplediode connection, providing better than ±1°C accuracy. Aninnovative offset register allows for precise calibration of theremote sensor in the system with no hardware adjustments.Lastly, NXP provides temperature ICs which includenonvolatile memory for DDR3 memory module applications.These devices are JEDEC JC42.4 compliant and are usedas SPD (serial presence detect) function on DDR3 memorymodules. The serial EEPROM can be used in more generalpurposeapplications, such as data logging or standardmemory.TypenumberOperatingTemperature(°C)A/D Converterresolution(bit)Assignable I 2 CaddressesLM75A -55°C to +125°C 11 8LM75B -55°C to +125°C 11 8NE1617A 0°C to +120°C 8 9NE1619 0°C to +120°C 8 2SA56004 0°C to +125°C 11 8SE95 -55°C to +125°C 13 8SE97B -40°C to +125°C 11 8SE98A -40°C to +125°C 11 8Accuracy of on-chipsensor ( ±°C)2°C@-25°C to +100°C,3°C@-55°C to +125°C2°C@-25°C to +100°C,3°C@-55°C to +125°C1°C@+60°C to +100°C,2°C@0°C to +125°C2°C@+25°C,3°C@0°C to +120°C2°C@+60°C to +100°C,3°C@0°C to +125°C1°C@-25°C to +100°C,2°C@-5°C5 to +125°C1°C@+75°C to +95°C,2°C@+40°C to +125°C2°C@75°C to +95°C,3°C@40°C to +125°CTypical ApplicationsThe NXP temperature sensor products are ideal forwatchdog applications, all the way to system monitor andcontrol use. Some of the typical areas of use are:ThermostatHVACIndustrial controlDDR3 DIMM memory modulesSystem thermal management in laptops, desktops andserversTest equipment and instrumentationAccuracy of remotediode ( ±°C)3°C@+60°C to +100°C,5°C@0°C to +125°C3°C@+25°C,5°C @0°C to +120°C1°C@+60°C to +100°C,3°C@0°C to +125°COperatingvoltage(VDC)Standbycurrent(uA)Package2.8~5.5 3.5 SO8, TSSOP82.8~5.5 1SO8, TSSOP8,XSON8U3.0~5.5 10 SSOP16 (QSOP)2.8~5.5 100 SSOP16 (QSOP)3.0~5.5 102.8~5.5 7SO8, TSSOP8,HVSON8SO8, TSSOP8,wafer3.0~3.6 5 HWSON81.7~3.6 5 TSSOP8, HWSON8TEMPERATURE105www.FutureElectronics.com/Sensors

TEMPERATUREDigital Temperature SensingPrecision diode digital temperature for up to3 external sensorsTEMPERATUREFeatures & Benefits1 internal and up to 3 external sensorsRemote diode temp. accuracy of ±0.5°C on the temp.range 25°C to 100°C2 temperature output formats: 0°C to 127°C and -40°C to140°C with 0.125°C resolutionParasitic series resistance cancellation: Algorithmic,3-point and Kelvin (4-wire)Under-/over- temperature alarms with programmablethresholds programmable conversion rate (optimal powerconsumption)250 uA active current @ 10Hz sampling rateSMBus v2.0 interface supports timeoutSX8733 - 2 ports, SX8743 - 4 ports, SX8744 - 3 portsTypical ApplicationsPrintersServersSet Top Boxes (STBs)ProjectorsZoomingADC with Serial InterfacesThe SX8724 is a data acquisition system based on Semtech’s low powerZoomingADC technology. It directly connects most types of miniature sensors with ageneral purpose microcontroller.106Features & BenefitsUp to 16-bit differential data acquisitionProgrammable gain: (1/12 to 1000)Sensor offset compensation up to 15x full scale of input3 differential or 6 single-ended signal inputsProgrammable resolution vs. speed vs. supply current4 digital outputs to bias sensorsInternal or external voltage referenceInternal time baseLow power (250 µA for 16b @ 500 S/s)2-wire interfaceSX8724S for SPI and SX8724C for I 2 CApplicationsIndustrial sensingBarometerCompasswww.FutureElectronics.com/Sensors

Wirelessly Monitor and Control Lighting Systems - Anywhere, AnytimeEasy I Quick I Intuitive I Internet EnabledSynapse Wireless offers a complete, reliable,wireless-controlled, intelligent lighting systemfor secure indoor and outdoor applications:- Remotely control and monitor lights- Internet enabled for mobile or desktop access- Easy to integrate into new or existing designsBased on the award-winning SNAP Wireless Network!Future Lighting Solutions has the products, toolsand knowledge to help you make the right decisions inspecifying your LED lighting system from:- LED Components (LEDs, optics, drivers or heatsinks)- Integrated Solutions- Wireless ControlsWe make your LED lighting solutions simple!

TEMPERATURENTC TemperatureSensor AssembliesUtilized in many applications, Vishay’s NTC Temperature Sensor Assembliescome in a variety of mechanical and electrical executions and are highlycustomizable.TEMPERATUREProduct OverviewThe NTCA Series of parts offers a broad range of optionsthat provide accurate and dependable temperaturemeasurement. Vishay’s standard off-the-shelf assemblies aresuitable for attachment or integration with many systems.A sampling of standard assemblies is shown in the tablebelow. Since not every off-the-shelf assembly satisfies allcustomers’ requirements, Vishay also offers customizedsolutions. Customized assembly solutions 1 allow for designflexibility combined with the intrinsic functionality of an NTCthermistor.ApplicationsNTC Temperature Sensor Assemblies are used across manymarket segments such as automotive, medical, industrial,and consumer. Example applications include:Features & BenefitsAccurate and reliable temperature sensingProvides environmental control and assists safetyprotection systemsNumerous resistance (R 25) values with tolerances as lowas 1%Multiple resistance/temperature curves with Betatolerances as low as 0.5%High insulation voltage characteristicsOffers a complete solution resulting in a simplified supplychainRoHS compliantAEC-Q200 qualification and UL Approval availableAutomotive:Part SeriesDescriptionExample Image(not to scale)Hybrid/Electric Vehicle Battery Packs and Chargers, SeatHeaters, Lighting Systems, Engine ManagementNTCACAPNTC Refrigerator Sensor108Industrial:Automation Systems, HVAC Systems, Solar Heaters,Welding Equipment, Power Supply, Power ConversionNTCAFLEXNTCAIMMNTC Flex Foil SensorNTC Immersion SensorMedical:Ultrasound Equipment, X-Ray Equipment, MedicalAppliances, CathetersNTCALUGNYCLPNTC Lug SensorNTC Pipe SensorConsumer:Washers, Dryers, Ovens, Refrigerators, Freezers,Dishwashers, Microwaves, Coffee Machines1Customization options include but are not limited to: thermistor characteristics,housing style/material for mounting, lead length, wire type, insulation type, andconnector/hook-up systems.www.FutureElectronics.com/Sensors

TEMPERATURENTC Through Hole ThermistorsVishay’s NTC through hole thermistors provide temperature measurementand monitoring solutions for a number of applications where temperaturemanagement is essential.Product OverviewVishay possesses one of the broadest lineups of accurateand reliable through hole thermistors on the market. Thethrough hole NTC family of thermistors is optimal fortemperature detection and management in applications ofall types. These devices come in a variety of shapes andsizes covering a wide range of electrical characteristics. Asampling of standard through hole thermistors is shown inthe table below.Features and BenefitsNTCLE SeriesRadial through hole epoxy coated NTC thermistorHighly accurate and reliable temperature sensingSeveral resistance (R25) values with tolerances as low as 1%Multiple resistance/temperature curves with Betatolerances as low as 0.5%Several wire/insulation types and lead lengths(customization available 1 )Mini and micro chip sensor styles ideal for space constraintsFast response times down to 0.7 secondsRoHS compliantAEC-Q200 Qualification and UL Approval available1Customization options include but are not limited to: lead length, wire type,insulation type, and connector/hook-up systems.NTCLG SeriesAxial through hole NTC DO-35 glass thermistor for addedrobustness in corrosive atmospheres and harsh environmentsWide range of resistance (R25) values with 5% toleranceSuitable for high temperature applications (up to 300°C)Demonstrates high stability (low resistance drift of ±0.5%)in thermal shock testsQuick response time down to 0.9 secondsRoHS compliantApplicationsNTC through hole thermistors are used across many marketsegments consisting of automotive, medical, industrial, andconsumer. Example applications include:Automotive:Engine Management, Battery Management, AutomaticTransmission Control, Safety ManagementIndustrial:Automation Systems, HVAC Systems, Lighting Systems,Power Supply, Power ConversionMedical:Ultrasound Equipment, X-Ray Equipment, MedicalAppliances, Catheters, Blood MonitorsConsumer:Domestic Appliances, LCD Monitors, Home AudioSystems, Battery Chargers, Printers, ServersPart SeriesNTCLE100NTCLE203...SB0NTCLE300...SBNTCLE305...SBNTCLG100NTCLE413/428DescriptionNTC Sensor,Standard PrecisionNTC 2-Point Sensor,Automotive GradeNTC 2-Point Sensor,Insulated Flexible LeadsNTC Micro Chip 2-PointSensor, Insulated LeadsNTC Glass EncapsulatedHigh Temperature SensorNTC Mini Chip Sensor,PVC Insulated LeadsExample Image(not to scale)TEMPERATURE109www.FutureElectronics.com/Sensors

GE Offers Full Range ofSensing SolutionsTemperature - ThermometricsWith more than 70 years of technologyexperience in the development, designand manufacture of high quality sensors,GE offers one of the most comprehensiveranges of temperature measurement andsensing products in the world today. GE’stemperature technologies include highaccuracy NTC thermistors, PTC heaters,IR and custom design capabilities globally.GE provides solutions to wide range oftemperature sensing challenges faced bythe healthcare, automotive, industrial andconsumer markets.Pressure (MEMS) - NovaSensorEquipped with the most advanced designtools and cutting edge laboratories, GEis a leader in the design, model andfabrication of Microelectromechanicalsystems (MEMS). GE’s MEMS sensor lineincludes state-of-the-art, high-performanceand cost effective sensor solutions knownfor their accuracy, reliability and size. Oursensors offer best in class performancefor applications in the healthcare,transportation and industrial markets.Humidity – General EasternApplicationsu Intake air & exhaust gasu Coolant/transmission fluidu Outside air & cabin temperatureu Catheter temperatureu Clinical thermometersu Neonatalu Environmental control systemsu High voltage and short circuit protectionu Current limiting & surge suppressionu Appliances, electronics,communications, industrial HVACu Aerospace, defense, marineApplicationsu Automotive tire pressureu Pneumatic controlsu Pressure switches and controllersu Altimeters and barometersu Portable gauges and manometersu Catheter pressureu Respiratory applicationsu Sleep apneau Anesthesiau Ventilationu Disposable blood pressureGE offers a range of elements and fully integrated relative humidity products from sensorsand elements all the way up to industrial transmitters for HVAC and specialty applicationssuch as harsh environments, automotive environmental control and medical devices.CO2 - TelaireGE’s Telaire product line boasts over 30 patents related to the design and applicationof low-cost infrared gas sensing. We offer a range of OEM CO2 modules with patentedlifetime calibration warranty, CO2 instruments and transmitters for various HVAC andventilation control applications.

POLPO 2This demonstration board is the first memberof the POLPO 2 module family, developed byFuture Electronics’ System Design Center (SDC).It combines a temperature sensor, a pressuresensor, a gyroscope, a magnetometer and anaccelerometer. These MEMS sensors will providea 3-axis sensing of linear, angular and magneticmotion, complemented with temperature andbarometric/altitude readings.This inertial demonstration board represents acomplete hardware platform which can be usedin numerous applications such as virtual reality,augmented reality, image stabilization, humanmachine interfaces and robotics.A complete set of communication interfaceswith various power supply options in a uniqueform factor make POLPO 2 a flexible and opendemonstration platform.To aid in user development, the demonstrationkit includes a complete source code library tofacilitate the use of the demonstration boardfeatures.KEY FEATURESn Three power supply options: USB connector,Batteries Boost or Batteriesn STM32L152VBT6: Ultra-Low-Power ARM Cortex-M3 basedMicrocontrollers, 128K flashn STTS75D: temperature sensor with –55 to +125°C range and I 2 Cdigital interfacen LPS331AP / LPS001WP: pressure sensor 300-1100 mbarabsolute full scale with I 2 C digital output and barometern L3GD20 / L3G4200D: ultra-stable 3-axis gyroscope fullscale of ±250/±500/±2000 dps, I 2 C digital outputn LSM303DLHC / LSM303DLH: 6-axis geomagnetic module: ±2 g /±4 g / ±8 g linear acceleration full scale, magnetic field configurablefull scale ±1.3 to ± 8.1 gauss (max), I 2 C digital outputSTTS75DDigital temperature sensor& thermal watchdogn Extended connector for communication and GPIOn USB 2.0 full speed connectionn Reset buttonn User LEDs and buttonsn LCD 8 Digits x 14 Segmentsn Touch PadsMini-USBTEMPERATUREST: STTS75DBUTTONSPRESSUREST: LPS001WPLPS331AP/LPS001WPMEMS pressure sensorPOWER MANAGEMENTUSB or BATTERIESST: L6920ST: LDS3985M33RST: LDS3985M18RSEGMENT LCDMICROCONTROLLERST: STM32L152VBT6LEDsGYROSCOPEST: L3G4200DL3GD20/L3G4200DLow-power three-axisangular rate sensorTOUCHPADSEXPANSIONACCELEROMETERMAGNETOMETERST: LSM303DLHLSM303DLHC/LSM303DLH6-axis module:Accelerometer andmagnetometerTo qualify for a FREE demo board,go go to www.FutureElectronics.com/STMicroto