The Kynix Components

CatalogHLG-320H-C1400B DescriptionHLG-320H-C1400B Block DiagramHLG-320H-C1400B Model EncodingHLG-320H-C1400B Driving Methods of LED ModuleHLG-320H-C1400B FeaturesHLG-320H-C1400B ApplicationsHLG-320H-C1400B DatasheetHLG-320H-C1400B SpecificationsUsing WarningHLG-320H-C1400B FAQHLG-320H-C1400B DescriptionHLG-320H-C series is a 320W LED AC/DC LED power supply featuring the constant current mode and high voltage output. HLG-320H-C operates from 90~305VAC and offers models with different rated current ranging between 700mA and 3500mA. Thanks to the high efficiency up to 94%, with the fanless design, the entire series is able to operate for -40°C ~ +85°C case temperature under free air convection. The design of metal housing and IP67/IP65 ingress protection level allows this series to fit both indoor and outdoor applications. HLG-320H-C is equipped with various function options, such as dimming methodologies, so as to provide the optimal design flexibility for LED lighting system. HLG-320H-C1400B Block DiagramFigure: Block Diagram HLG-320H-C1400B Model EncodingTypeIP Level FunctionNoteAIP65lo adjustable through built-in potentiometerIn StockBIP673 in 1 dimming function (0-10)Vdc,10V PWM signal and resistance)In StockTable about Model Encoding HLG-320H-C1400B Driving Methods of LED ModuleThis series works in constant current mode to directly drive the LEDs. HLG-320H-C1400B FeaturesConstant Current mode outputMetal housing with Class I designBuilt-in active PFC functionIP67 /IP65 design for indoor or outdoor installationsFunction options: output adjustable via potentiometer; 3 in 1 dimmingTypical lifetime> 62000 hours7 years warranty HLG-320H-C1400B ApplicationsLED street lightingLED fishing lampLED harbor lightingLED building architectural lightingLED greenhouse lightingLED bay lightingType“HL”for use in Class I , Division 2 hazardous (Classified) location. HLG-320H-C1400B DatasheetYou can download the datasheet from the link given below:HLG-320H-C1400B-Datasheet HLG-320H-C1400B Installation ManualHLG-320H-C1400B Installation Manual HLG-320H-C1400B SpecificationsManufacturer:MEAN WELLProduct Category:LED Power SuppliesOperation Mode:Constant Current (CC)Output Current-Channel 1:1.4 AOutput Voltage-Channel 1:114 VDC to 229 VDCOutput Power:320.6 WInput Voltage:90 VAC to 305 VAC, 127 VDC to 431 VDCDimming:With DimmingNumber of Outputs:1 OutputMounting Style:Chassis MountLength:252 mmWidth:90 mmHeight:43.8 mmIndustry:IndustrialStandard:PSESeries:HLG-320H-CIP Rating:IP67Brand:MEAN WELLOpen Frame/Enclosed:EnclosedProduct Type:LED Power SuppliesFactory Pack Quantity:8Subcategory:AC-DC Power SupplyTradename:HLG SeriesUnit Weight:4.145 lbs Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. HLG-320H-C1400B FAQWhat is a LED driver power supply?LED drivers, or LED power supplies, provide LED light bulbs with the electricity required for peak performance, much like a fluorescent lamp's magnetic ballast or a low-voltage bulb transformer. Which power supply do I need for LED lights?Make sure the total wattage of your LED strip lighting is at least 20 percent less than the power supply's rated wattage. For example, if you have an LED strip light that requires 80 watts of power to run, you'll need a power supply that's rated for at least 96 watts. What is the difference between power supply and LED driver?LED power sources that provide a “constant-current” output have typically been referred to as LED drivers. In the past, AC-DC power supplies that provided a regulated “constant-voltage” to LEDs were referred to as LED power supplies. Today, the terms “LED driver” and “LED power supply” are used interchangeably. How do you connect LED lights to power supply?For this, all you need to do is connect the led strips to the ends of your led splitter and then plug in your female connector to the male connector on your power supply. This will ensure that power is distributed evenly and the lights are working as they should. Can a LED driver be used as a power supply?Conventional AC-DC power supplies and DC-DC converters provide an output that is regulated to provide a “constant-voltage.” However, LEDs work most efficiently and safest with a “constant-current” drive. Today, the terms “LED driver” and “LED power supply” are used interchangeably. 

Catalog Description CAD Models Functional Diagram Features Typical Applications Datasheet Specifications Manufacturer Using Warning FAQ Description The HMC1035LP6GE is a low-noise, wide-band 3.3 V clock generator IC with a fractional-N Phase Locked Loop(PLL) that features an integrated Voltage Controlled Ocillator (VCO). The device provides differential clock outputs between 25 MHz and 2500 MHz range. The HMC1035LP6GE features a low noise Phase Detector (PD) and Delta-Sigma modulator, capable of operating at up to 100 MHz which permits wider loop-bandwidths and excellent spurious performance.   The HMC1035L _P6GE features industry leading phase noise and jiter performance, across the operating range, that enable it to improve link level jtter performance, Bit- Error-Rates (BER) and eye diagram metrics. The superior noise floor (<-162 dBc/Hz) makes the HMC1035LP6GE an ideal source for a variety of applications -such as clock references for high speed data converters, physical layer devices (PHY), serializer/deserializer (SERDES) circuits, FPGAs and processors. The HMC1035LP6GE can also be used as an LO for 10G/40G/100G optical modules and transponders, as well as primary reference clock for 10G/40G/100G line cards, and for jtter attenuation and frequency translation.   The differential output of the HMC1035LP6GE can be set to either External Termination, which could be used for LVPECL operation, or Internal Termination for operation in an LVDS compatible mode or LVPECL. Additionally, an ouput swing adjustment makes the device flexible and compatible with a wide variety of signal level requirements. The output can be internally terminated to reduce component count and cost or could be terminated externally using standard LVPECL termination methods. An Output Mute function allows the user to shut off the outputs, such as may be required for board testing or debugging. The LVPECL/LVDS, amplitude select and Output Mute function are all programmed SPI serial programming   The HMC1035L P6GE is designed to select between a Power Priority or a Performance Priority mode. The Power Priority setting reduces the current consumption of the part, whereas the Performance Priority setting improves the Jitter and Phase Noise performance.   The 24 bit Delta- Sigma Modulator further enhances Hittite's Exact Frequency Mode, which enables users to generate output frequencies with 0 Hz frequency error in many applications.   CAD Models   Figure: PCB Symbol     Figure: Footprint     Figure: 3D Model   Functional Diagram   Figure: Functional Diagram   Features 3.3 V Only, Single Supply Rail OperationOutput Frequency Range: 25 MHz - 2500 MHzInteger or Fractional-N mode Frequency TranslationConfigurable LVDS-compatible or LVPECL type Differential Outputs‘’Power Priority’’and"Performance Priority" modes97 fs RMS Jitter Generation (12 kHz - 20 MHz,2500 MHz, Typ)-163 dBc/Hz Phase Noise Floor to Improve ADC/DAC SNR (maximum output swing levels).Adjustable PLL Loop BW via External FilterOutput Disable/Mute ControlLock Detect SignalExact Frequency Mode to achieve reference frequency tuning, and 0 Hz frequency error40 Lead 6x6 mm SMT Package: 36 mm2   Typical Applications 10G/40G/100G Optical Modules, Transponders,Line CardsOTN and SONET/SDH ApplicationsData Converters, Sample Clock GenerationCellular/4G InfrastructureHigh Frequency Processor/FPGA ClocksAny Frequency Clock Rate GenerationLow Jtter SAW Oscillator ReplacementDDS ReplacementFrequency TranslationFrequency Margining   Datasheet You can download the datasheet from the link given below: HMC1035LP6GE-Datasheet   Specifications Manufacturer:Analog Devices Inc.Product Category:Clock Generators & Support ProductsSeries:HMC1035Type:Clock GeneratorsMaximum Input Frequency:2500 MHzMax Output Freq:350 MHzNumber of Outputs:1 OutputDuty Cycle - Max:0.51Operating Supply Voltage:3.3 VOperating Supply Current:237 mAMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CMounting Style:SMD/SMTPackage / Case:QFN-40Packaging:Cut TapeBrand:Analog DevicesJitter:97 fsOutput Type:LVDS, LVPECLProduct Type:Clock GeneratorsFactory Pack Quantity:500Subcategory:Clock & Timer ICsUnit Weight:0.004138 oz   Manufacturer Analog Devices, Inc. (ADI), also known simply as Analog, is an American multinational semiconductor company specializing in data conversion, signal processing and power management technology, headquartered in Wilmington, Massachusetts.   Using Warning Note: Please check their parameters and pin configuration before replacing them in your circuit.   FAQ Why do we need clock generator? A clock generator combines an oscillator with one or more PLLs, output dividers and output buffers. Clock generators and clock buffers are useful when several frequencies are required and the target ICs are all on the same board or in the same FPGA.   Where is the clock generator located? Location. The clock generator is a circuit on the motherboard.   What is chip clock generator? A clock generator is a circuit that produces a timing signal (known as a clock signal and behaves as such) for use in synchronizing a circuit's operation. The signal can range from a simple symmetrical square wave to more complex arrangements.  

CatalogProduct OverviewLIS3DSHTR CAD ModelsLIS3DSHTR Pin ConnectionsLIS3DSHTR Block DiagramLIS3DSHTR Timing DiagramLIS3DSHTR FeaturesLIS3DSHTR ApplicationsLIS3DSHTR DatasheetLIS3DSHTR SpecificationsLIS3DSHTR ManufacturerUsing WarningLIS3DSHTR FAQ Product OverviewThe LIS3DSH is an ultra-low-power highperformance three-axis linear accelerometer belonging to the “nano” family with an embedded state machine that can be programmed to implement autonomous applications. The LIS3DSH has dynamically selectable full scales of 2g/ ±4g/ 6g/ 8g/ 16g and is capable of measuring accelerations with output data rates from 3.125 Hz to 1.6 kHz. The self-test capability allows the user to check the functioning of the sensor in the final application. The device can be configured to generate interrupt signals activated by user-defined motion patterns. The LIS3DSH has an integrated first-in, first-out (FIFO) buffer allowing the user to store data in order to limit intervention by the host processor. The LIS3DSH is available in a small thin plastic land grid array package (LGA) and is guaranteed to operate over an extended temperature range from -40 °C to +85 °C. LIS3DSHTR CAD ModelsFigure: LIS3DSHTR PCB Symbol  Figure: LIS3DSHTR Footprint  Figure: LIS3DSHTR 3D Models LIS3DSHTR Pin ConnectionsFigure: LIS3DSHTR Pin Connections LIS3DSHTR Block DiagramFigure: LIS3DSHTR Block Diagram LIS3DSHTR Timing DiagramFigure: LIS3DSHTR I2C slave timing diagram  Figure: LIS3DSHTR SPI slave timing diagram LIS3DSHTR FeaturesWide supply voltage, 1.71 V to 3.6 VIndependent IOs supply (1.8 V) and supplyvoltage compatibleUltra-low power consumption2g/±4g/±6g/±8g/±16g dynamically selectablefull scaleI2C/SPI digital output interface16-bit data outputProgrammable embedded state machinesEmbedded temperature sensorEmbedded self-testEmbedded FIFO10000 g high shock survivabilityECOPACK®, RoHS and “Green” compliant LIS3DSHTR ApplicationsMotion-controlled user interfaceGaming and virtual realityPedometersIntelligent power saving for handheld devicesDisplay orientationClick/double-click recognitionImpact recognition and loggingVibration monitoring and compensation LIS3DSHTR DatasheetYou can download the datasheet from the link given below:LIS3DSHTR Datasheet LIS3DSHTR SpecificationsProduct AttributeAttribute ValueManufacturer:STMicroelectronicsProduct Category:AccelerometersSensor Type:3-axisSensing Axis:X, Y, ZAcceleration:2 g, 4 g, 6 g, 8 g, 16 gOutput Type:DigitalInterface Type:I2C, SPIResolution:16 bitSupply Voltage - Max:3.6 VSupply Voltage - Min:1.71 VOperating Temperature:-40°C ~ 85°C (TA)Mounting Style:SMD/SMTPackage / Case:LGA-16Brand:STMicroelectronicsMoisture Sensitive:YesProduct Type:AccelerometersSeries:LIS3DSHSubcategory:SensorsUnit Weight:0.000670 oz LIS3DSHTR ManufacturerSTMicroelectronics is a French-Italian multinational electronics and semiconductors manufacturer headquartered in Plan-les-Ouates near Geneva, Switzerland. The company resulted from the merger of two government-owned semiconductor companies in 1987: "Thomson Semiconducteurs" of France and "SGS Microelettronica" of Italy. It is commonly called "ST", and it is Europe's largest semiconductor chip maker based on revenue. While STMicroelectronics corporate headquarters and the headquarters for EMEA region are based in the Canton of Geneva, the holding company, STMicroelectronics N.V. is incorporated in the Netherlands. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. LIS3DSHTR FAQWhat is an accelerometer sensor used for?An accelerometer is an electromechanical device used to measure acceleration forces. Such forces may be static, like the continuous force of gravity or, as is the case with many mobile devices, dynamic to sense movement or vibrations. Acceleration is the measurement of the change in velocity, or speed divided by time. How do I choose an accelerometer sensitivity?Accelerometers are offered in a range of sensitivities and the optimum sensitivity is dependent on the level of the signal to be measured e.g., in the case of a high g shock test, low sensitivity is desirable. What is a microphone accelerometer?The microphones monitor the local pressure changes in the atmosphere to determine the noise location. These simple accelerometers can act as vibration sensors and be distributed at pre-determined locations to allow for the localization of the noise source via timing the acoustic signal in the structure. 

CatalogBME280 DescriptionBME280 Related Video IntroductionBME280 CAD ModelsBME280 PinoutBME280 Block DiagramBME280 FeaturesBME280 Key Parameters for Humidity SensorBME280 Key Parameters for Pressure SensorBME280 Typical ApplicationsBME280 Target DevicesBME280 DatasheetBME280 SpecificationsBME280 ManufacturerUsing WarningBME280 FAQBME280 DescriptionThe BME280 is as combined digital humidity, pressure and temperature sensor based on proven sensing principles. The sensor module is housed in an extremely compact metal-lid LGA package with a footprint of only 2.5 × 2.5 mm² with a height of 0.93 mm. Its small dimensions and its low power consumption allow the implementation in battery driven devices such as handsets, GPS modules or watches. The BME280 is register and performance compatible to the Bosch Sensortec BMP280 digital pressure sensor. The BME280 achieves high performance in all applications requiring humidity and pressure measurement. These emerging applications of home automation control, in-door navigation, fitness as well as GPS refinement require a high accuracy and a low TCO at the same time.The humidity sensor provides an extremely fast response time for fast context awareness applications and high overall accuracy over a wide temperature range.The pressure sensor is an absolute barometric pressure sensor with extremely high accuracy and resolution and drastically lower noise than the Bosch Sensortec BMP180. The integrated temperature sensor has been optimized for lowest noise and highest resolution. Its output is used for temperature compensation of the pressure and humidity sensors and can also be used for estimation of the ambient temperature. The sensor provides both SPI and I²C interfaces and can be supplied using 1.71 to 3.6 V for the sensor supply VDD and 1.2 to 3.6 V for the interface supply VDDIO. Measurements can be triggered by the host or performed in regular intervals. When the sensor is disabled, current consumption drops to 0.1 µA. BME280 can be operated in three power modes (see chapter 3.3):sleep modenormal modeforced mode BME280 Related Video IntroductionBME280 Video Description: The module is explained fully with wiring shown and code explained and demonstrated.  The link to the code is below the timing. BME280 CAD Models Figure: BME280 PCB Symbol  Figure: BME280 PCB Footprint BME280 Pinout Figure: BME280 Pinout BME280 Block Diagram Figure: BME280 Block Diagram BME280 FeaturesPackage: 2.5 mm x 2.5 mm x 0.93 mm metal lid LGADigital interface: I²C (up to 3.4 MHz) and SPI (3 and 4 wire, up to 10 MHz)Supply voltage: VDD main supply voltage range: 1.71 V to 3.6 V                                   VDDIO interface voltage range:1.2 V to 3.6 VCurrent consumption :         1.8 µA @ 1 Hz humidity and temperature         2.8 µA @ 1 Hz pressure and temperature         3.6 µA @ 1 Hz humidity, pressure and temperature         0.1 µA in sleep modeOperating range: -40--+85 ℃, 0-100 % rel. humidity, 300--1100 hPaHumidity sensor and pressure sensor can be independently enabled / disabledRegister and performance compatible to Bosch Sensortec BMP280 digital pressure sensorRoHS compliant, halogen-free, MSL1 BME280 Key Parameters for Humidity SensorResponse time: 1 sAccuracy tolerance: ±3 % relative humidityHysteresis: ±1% relative humidity BME280 Key Parameters for Pressure SensorRMS Noise:0.2 Pa, equiv. to 1.7 cmOffset temperature coefficient:±1.5 Pa/K, equiv. to ±12.6 cm at 1 ℃ temperature change BME280 Typical ApplicationsContext awareness, e.g. skin detection, room change detectionFitness monitoring / well-beingWarning regarding dryness or high temperaturesMeasurement of volume and air flowHome automation controlcontrol heating, venting, air conditioning (HVAC)Internet of thingsGPS enhancement (e.g. time-to-first-fix improvement, dead reckoning, slope detection)Indoor navigation (change of floor detection, elevator detection)Outdoor navigation, leisure and sports applicationsWeather forecastVertical velocity indication (rise/sink speed) BME280 Target DevicesHandsets such as mobile phones, tablet PCs, GPS devicesNavigation systemsGaming, e.g flying toysCamera (DSC, video)Home weather stationsFlying toysWatches BME280 DatasheetYou can download the datasheet from the link given below:BME280-Datasheet BME280 SpecificationsManufacturer:BoschProduct Category:Board Mount Humidity SensorsRH Range:0 % to 100 %RH Accuracy:+/- 3 %Mounting Style:SMD/SMTOutput Type:DigitalInterface Type:I2C, SPIOperating Supply Current:500 nASupply Voltage - Min:1.7 VSupply Voltage - Max:3.6 VMinimum Operating Temperature:- 40 ℃Maximum Operating Temperature:+ 85 ℃Package / Case:LGA-8Packaging:ReelPackaging:Cut TapePackaging:MouseReelBrand:Bosch SensortecOperating Supply Voltage:1.8 VProduct:Board MountProduct Type:Humidity SensorsFactory Pack Quantity:10000Subcategory:SensorsPart # Aliases:0273.141.185-1NVUnit Weight:0.001940 oz BME280 ManufacturerBosch Sensortec is the technology leader in sensing solutions based on microelectromechanical systems (MEMS) and dedicated to the consumer electronics world. Our success in MEMS sensors and solutions is built on a remarkable team driven by passion, innovation and flexibility. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. BME280 FAQHow does a BME280 work?The BME280 sensor module reads barometric pressure, temperature, and humidity. Because pressure changes with altitude, you can also estimate altitude. There are several versions of this sensor module. The BME280 sensor uses I2C or SPI communication protocol to exchange data with a microcontroller. How do I use my Raspberry Pi with BME280?Wiring1.Connect the Raspberry Pi 3.3V power pin to Vin.2.Connect the Raspberry Pi GND pin to GND.3.Connect the Pi SDA pin to the BME280 SDI.4.Connect the Pi SCL pin to to the BME280 SCK. What are the power modes supported by BME280?The BME280 supports I2C and SPI (3-wire/4-wire) digital, serial interfaces. The sensor can be operated in three power modes: Sleep mode, normal mode and the forced mode. How do humidity sensors work?Humidity sensors work by detecting changes that alter electrical currents or temperature in the air. A capacitive humidity sensor measures relative humidity by placing a thin strip of metal oxide between two electrodes. The metal oxide's electrical capacity changes with the atmosphere's relative humidity. What is BME280 used?BME280 Temperature, Humidity and Pressure SensorThis precision sensor can measure relative humidity from 0 to 100% with ±3% accuracy, barometric pressure from 300Pa to 1100 hPa with ±1 hPa absolute accuracy, and temperature from -40°C to 85°C with ±1.0°C accuracy. 

CatalogProduct OverviewMBR0530T1G CAD ModelsMBR0530T1G Package DimensionsMBR0530T1G Marking DiagramMBR0530T1G FeaturesMBR0530T1G Mechanical CharacteristicsMBR0530T1G DatasheetMBR0530T1G SpecificationsMBR0530T1G ManufacturerUsing WarningMBR0530T1G FAQ Product OverviewThe MBR0530 uses the Schottky Barrier principle with a large area metal−to−silicon power diode. Ideally suited for low voltage, high frequency rectification or as free wheeling and polarity protection diodes in surface mount applications where compact size and weight are critical to the system. This package also provides an easy to work with alternative to leadless 34 package style. MBR0530T1G CAD ModelsFigure: MBR0530T1G PCB Symbol  Figure: MBR0530T1G Footprint  Figure: MBR0530T1G 3D Models MBR0530T1G Package DimensionsFigure: MBR0530T1G Package Dimensions MBR0530T1G Marking DiagramFigure: MBR0530T1G Marking DiagramB3 = Device CodeM = Date Code MBR0530T1G FeaturesGuardring for Stress ProtectionLow Forward Voltage125°C Operating Junction TemperatureEpoxy Meets UL 94, V−0 @ 0.125 inPackage Designed for Optimal Automated BoardAssemblyNRVB Prefix for Automotive and Other Applications Requiring     Unique Site and Control Change Requirements; AEC−Q101     Qualified and PPAP CapableThese Devices are Pb−Free and are RoHS Compliant* MBR0530T1G Mechanical CharacteristicsPolarity Designator: Cathode BandWeight: 11.7 mg (approximately)Case: Epoxy, MoldedFinish: All External Surfaces Corrosion Resistant and TerminalLeads are Readily SolderableLead and Mounting Surface Temperature for Soldering Purposes:260°C Max. for 10 Seconds MBR0530T1G DatasheetYou can download the datasheet from the link given below:MBR0530T1G Datasheet MBR0530T1G SpecificationsProduct AttributeAttribute ValueManufacturer:onsemiProduct Category:Schottky Diodes & RectifiersProduct:Schottky DiodesMounting Style:SMD/SMTPackage / Case:SOD-123-2Configuration:SingleTechnology:SiIf - Forward Current:500 mAVrrm - Repetitive Reverse Voltage:30 VVf - Forward Voltage:430 mVIfsm - Forward Surge Current:5.5 AIr - Reverse Current:130 uAOperating Temperature:-65°C ~ 125°CSeries:MBR0530Brand:onsemiHeight:1.12 mmLength:2.69 mmProduct Type:Schottky Diodes & RectifiersSubcategory:Diodes & RectifiersTermination Style:SMD/SMTType:Schottky DiodeWidth:1.6 mmPart # Aliases:MBR0530T3GUnit Weight:0.001058 oz MBR0530T1G ManufacturerOnsemi is driving energy efficient innovations, empowering customers to reduce global energy use. The company offers a comprehensive portfolio of energy efficient power and signal management, logic, discrete and custom solutions to help design engineers solve their unique design challenges in automotive, communications, computing, consumer, industrial, LED lighting, medical, military/aerospace and power supply applications. onsemi operates a responsive, reliable, world-class supply chain and quality program, and a network of manufacturing facilities, sales offices and design centers in key markets throughout North America, Europe, and the Asia Pacific regions. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. MBR0530T1G FAQWhat is the Schottky diode and how it works?In a Schottky diode, a semiconductor–metal junction is formed between a semiconductor and a metal, thus creating a Schottky barrier. The N-type semiconductor acts as the cathode and the metal side acts as the anode of the diode. This Schottky barrier results in both a low forward voltage drop and very fast switching. What are the advantages of Schottky diodes?Advantages of Schottky diode :High efficiency.Fast recovery time so it can be mostly used in the application of high-speed switching.Low junction capacitance.The low forward voltage drop.It can operate high frequency.Schottky diode produces less unwanted noise than P-N junction diode.High current density. What is Schottky diode used for?Compared to p-n diodes, a Schottky diode provides lower voltage drop across the diode at low reverse bias. Some applications of Schottky diodes include rectifiers in switching regulators, discharge protection in power electronics, and rectifying circuits requiring high switching rate. 

Product OverviewThe TSOP38238 is a 38kHz IR Receiver Module for remote control systems. A PIN diode and a preamplifier are assembled on a lead frame, the epoxy package contains an IR filter. The demodulated output signal can be directly connected to a microprocessor for decoding. It optimized to suppress almost all spurious pulses from energy saving lamps like CFLs. This blog will introduce TSOP38238 systematically from its features, pinout to its specifications, applications, also including TSOP38238 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionTSOP38238 FeaturesTSOP38238 PinoutTSOP38238 Pin ConfigurationTSOP38238 ApplicationsTSOP38238 Circuit DiagramHow to Use TSOP38238TSOP38238 CAD ModelsTSOP38238 Block DiagramTSOP38238 PackageTSOP38238 SpecificationTSOP38238 VS TSOP4838TSOP38238 ManufacturerTSOP38238 DatasheetUsing WarningsTSOP38238 FAQ Related Video Introduction Video: How To Make An IR Remote Tester Using IR Receiver Diode - TSOP38238 XXX Video Description: In This Video I Am Going To Show You How To Make An IR Remote Tester Using IR Receiver Diode - TSOP38238For This Project You Need1. IR Receiver Diode - TSOP382382. BC557 Transistor3. White LED4. DTH Remote5. Wire6. 4V Battery etc. TSOP38238 FeaturesVery Low Supply CurrentPhoto Detector and Preamplifier in One PackageInternal Filter for PCM FrequencyImproved Shielding Against EMIImproved Immunity Against Ambient LightInsensitive to Supply Voltage Ripple and Noise TSOP38238 PinoutThe following figure is the diagram of TSOP38238 pinout. TSOP38238 Pinout TSOP38238 Pin ConfigurationPin NameDescriptionVCCThe Vcc pin powers the module, typically with +5VGNDPower Supply GroundOUTOutput Pin TSOP38238 ApplicationsThe TSOP382 is a miniaturized IR Receiver diode that is widely used by engineers and hobbyist due to its low power consumption and an easy to use package. TSOP382 is compatible with all common IR remote control data formats so it can be used with common IR remotes. The operating voltage is from 2.5V to 5.5v so it can be used with both 3.3V and 5V power supplies. The TSOP38238 is similar to a normal plastic-packaged transistor in size and suitable for all kinds of infrared remote control and infrared transmission. So if you are looking for an IR Receiver diode with low power consumption, then TSOP38238 might be the right choice for you. TSOP38238 Circuit DiagramThe following is the application circuit diagram of TSOP38238. TSOP38238 Circuit Diagram How to Use TSOP38238The application circuit diagram for the TSOP38238 IR Receiver module is given above. The Resistor R1 and Capacitor C1 are used to reduce the supply ripples. TSOP38238 consists of a PIN diode, a preamplifier, and an IR filter. The receiver diode detects all frequencies of IR light, but the filter and only lets through IR at 38 kHz. Then the preamplifier modulates the signal and converts it to an electrical signal before sending it to a microcontroller. TSOP38238 CAD ModelsThe followings are TSOP38238 Symbol, Footprint, and 3D Model. TSOP38238 Symbol TSOP38238 Footprint TSOP38238 3D Model TSOP38238 Block DiagramThe following figure shows the block diagram of TSOP38238. TSOP38238 Block Diagram TSOP38238 PackageThe following diagram shows the TSOP38238 package. TSOP38238 Package TSOP38238 SpecificationAttributeValueCarrier Frequency38kHzMaximum Transmission Distance45mWavelength of Peak Sensitivity950nmOutput Current5mANumber of Pins3Mounting TypeThrough HoleDimensions5 x 4.8 x 6.95mmHeight6.95mmLength5mmMaximum Supply Voltage5.5VMinimum Supply Voltage2.5VMinimum Operating Temperature-25 °CMaximum Operating Temperature+85 °CWidth4.8mmOperating Temperature Range-25 → +85 °C TSOP38238 VS TSOP4838AttributeTSOP38238TSOP4838Carrier Frequency38kHz38kHzMaximum Transmission Distance45m45mWavelength of Peak Sensitivity950nm950nmOutput Current5mA5mANumber of Pins33Mounting TypeThrough HoleThrough HoleDimensions5 x 4.8 x 6.95mm6 x 5.6 x 6.95mmHeight6.95mm6.95mmLength5mm6mmMaximum Supply Voltage5.5V5.5VMinimum Supply Voltage2.5V2.5VMinimum Operating Temperature-25 °C-25 °CMaximum Operating Temperature+85 °C+85 °CWidth4.8mm5.6mm TSOP38238 ManufacturerVishay Intertechnology manufactures several kinds of discrete semiconductors. These typically perform a single function, such as switching, amplifying, rectifying, or transmitting electrical signals. Vishay Intertechnology also manufactures selected ICs, which combine the functions of multiple components on a single chip, as well as modules, which include multiple components in a single package. Vishay Intertechnology’s semiconductors portfolio includes MOSFETs (low-voltage, medium-voltage, and high-voltage), ICs (both power and analog), a wide range of diodes and rectifiers, and many different types of optoelectronic products. The Company is a market and technology leader in power rectifiers, low-voltage power MOSFETs, and infrared components. TSOP38238 DatasheetYou can download TSOP38238 datasheet from the link given below:TSOP38238 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. TSOP38238 FAQWhat kind of resistor is used in tsop38238?The Resistor R1 and Capacitor C1 are used to reduce the supply ripples. TSOP38238 consists of a PIN diode, a preamplifier, and an IR filter. The receiver diode detects all frequencies of IR light, but the filter and only lets through IR at 38 kHz. What is IR receiver sensor?An infrared (IR) sensor is an electronic device that measures and detects infrared radiation in its surrounding environment. When an object comes close to the sensor, the infrared light from the LED reflects off of the object and is detected by the receiver. Are IR receivers interchangeable?In general, IR receivers are fairly interchangeable as long as the operating parameters mentioned are met. Of course, if cosmetic / mechanical compatibility is desired, that is a challenge in itself. How does an IR receiver work?An IR receiver can detect bursts of infrared light sent by a common remote controller (like for a television), and then output a pattern of high/low signals to a Propeller I/O pin. What is an IR receiver used for?An infrared receiver is used in an IR system to control and operate devices by sending signals.