The Kynix Components

Product OverviewThe 74HC138 is a high speed CMOS device. The device accepts a three bit binary weighted address on input pins A0, A1 and A2 and when enabled will produce one active low output with the remaing seven being high. There are two active LOW enable inputs E1 and E2, and one active HIGH enable input E3. The disabled device state results in all outputs being high. The enable state occurs with E1 and E2 asserted low and E3 asserted high. This blog will introduce 74HC138 systematically from its features, pinout to its specifications, applications, also including 74HC138 datasheet and so much more. CatalogProduct Overview74HC138 Features74HC138 Pinout74HC138 Applications74HC138 Circuit Schematic74HC138 Logic Diagram74HC138 Block Diagram74HC138 Package74HC138 Specification74HC138 Manufacturer74HC138 DatasheetUsing Warnings74HC138 FAQ 74HC138 FeaturesWide supply voltage range from 2.0 to 6.0 VCMOS low power dissipationHigh noise immunityLatch-up performance exceeds 100 mA per JESD 78 Class II Level BDemultiplexing capabilityMultiple input enable for easy expansionIdeal for memory chip select decodingActive LOW mutually exclusive outputsInput levels: For 74HC138: CMOS levelFor 74HCT138: TTL levelComplies with JEDEC standards:JESD8C (2.7 V to 3.6 V)JESD7A (2.0 V to 6.0 V)ESD protection:HBM JESD22-A114F exceeds 2000 VMM JESD22-A115-A exceeds 200 VMultiple package optionsSpecified from -40 °C to +85 °C and from -40 °C to +125 °C  74HC138 PinoutThe following figure is the diagram of 74HC138 pinout. 74HC138 Pinout 74HC138 ApplicationsMemory chip select decodingDemultiplexingSingle line peripheral controlAllow simple serial bit streams from a microcontroller to control asmany peripheral lines as needed 74HC138 Circuit SchematicVOL and VOH are typical voltage output levels that occur with the output load. Waveforms and test circuit 74HC138 Logic DiagramThe following figure shows the logic diagram of 74HC138. 74HC138 Logic Diagram 74HC138 Block DiagramThe following figure shows the block diagram of 74HC138. 74HC138 Block Diagram 74HC138 PackageThe following diagram shows the 74HC138 package. 74HC138 Package 74HC138 SpecificationBrand Name:NXP SemiconductorLength:5 mmLoad Capacitance (CL):50 pFOperating Temperature-Max:125 °COperating Temperature-Min: -40 °CPeak Reflow Temperature (Cel):260Power Supplies:2/6 VProp. Delay@Nom-Sup:45 nsPropagation Delay (tpd):225 nsSupply Voltage-Max (Vsup):6 VSupply Voltage-Min (Vsup):2 VSupply Voltage-Nom (Vsup):5 VSubcategory:Decoder/Drivers 74HC138 ManufacturerNXP Semiconductors N.V. enables secure connections for a smarter world, advancing solutions that make lives easier, better and safer. As the world leader in secure connectivity solutions for embedded applications, NXP is driving innovation in the automotive, industrial & IoT, mobile and communication infrastructure markets. 74HC138 DatasheetYou can download 74HC138 datasheet from the link given below:74HC138 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. 74HC138 FAQWhat is a 74HC138?The 74HC138 is a high speed CMOS device. The device accepts a three bit binary weighted address on input pins A0, A1 and A2 and when enabled will produce one active low output with the remaing seven being high. There are two active LOW enable inputs E1 and E2, and one active HIGH enable input E3. What is a 3 to 8 decoder?A 3 to 8 decoder has three inputs (A,B,C) and eight outputs (DO to D7). Based on the 3 inputs one of the eight outputs is selected. The truth table for 3 to 8 decoder is shown in table (1). What are the advantages of 3 to 8 line decoder in computer interfacing?3 to 8 line Decoder has a memory of 8 stages. It is convenient to use an AND gate as the basic decoding element for the output because it produces a “HIGH” or logic “1” output only when all of its inputs are logic “1”. You can clearly see the logic diagram is developed using the AND gates and the NOT gates. When a decoder can be used as a demultiplexer?A decoder with an enable input can function as a Demultiplexer. A demultiplexer is a circuit that receives information on a single line and transmits this information on one of 2n possible output lines. Selection of a specific output line is controlled by the bit values of n selection lines. What does a decoder do in a circuit?A decoder is a circuit that changes a code into a set of signals. It is called a decoder because it does the reverse of encoding, but we will begin our study of encoders and decoders with decoders because they are simpler to design.

CatalogProduct OverviewMJE15032 Related Video IntroductionMJE15032 CAD ModelsMJE15032 ComplementaryMJE15032 Marking DiagramMJE15032 FeaturesMJE15032 DatasheetMJE15032 SpecificationsMJE15032 ManufacturerUsing WarningMJE15032 FAQ Product OverviewDesigned for use as high−frequency drivers in audio amplifiers. MJE15032 Related Video IntroductionMJE15032 Video Description: Using a digital multimeter in diode test mode, we can check NPN and PNP transistors to see if they have semiconductor junctions in tact, and we can also identify which pin is emitter, collector, and base. Using diode check mode along with a resistance measurement, we can also check if a JFET appears to be functional. MJE15032 CAD ModelsFigure: MJE15032 PCB Symbol  Figure: MJE15032 Footprint   Figure: MJE15032 3D Models MJE15032 ComplementaryFigure: MJE15032 Complementary MJE15032 Marking DiagramFigure: MJE15032 Marking Diagram MJE1503x = Specific Device Codex = 2 or 3A = Assembly LocationY = YearWW = Work WeekG = Pb−Free Package MJE15032 FeaturesHigh DC Current GainHigh Current Gain − Bandwidth ProductTO−220 Compact PackageEpoxy Meets UL 94 V−0 @ 0.125 inThese Devices are Pb−Free and are RoHS Compliant* MJE15032 DatasheetYou can download the datasheet from the link given below:MJE15032 Datasheet MJE15032 SpecificationsTypeDescriptionCategoryDiscrete Semiconductor ProductsTransistors - Bipolar (BJT) - SingleMfronsemiPackageTubePart StatusObsoleteTransistor TypeNPNCurrent - Collector (Ic) (Max)8 AVoltage - Collector Emitter Breakdown (Max)250 VVce Saturation (Max) @ Ib, Ic500mV @ 100mA, 1ACurrent - Collector Cutoff (Max)10µA (ICBO)DC Current Gain (hFE) (Min) @ Ic, Vce10 @ 2A, 5VPower - Max2 WFrequency - Transition30MHzOperating Temperature-65°C ~ 150°C (TJ)Mounting TypeThrough HolePackage / CaseTO-220-3Supplier Device PackageTO-220Base Product NumberMJE15 MJE15032 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. MJE15032 FAQWhat is a bipolar transistor?Bipolar transistors are a type of transistor composed of pn junctions, which are also called bipolar junction transistors (BJTs). Whereas a field-effect transistor is a unipolar device, a bipolar transistor is so named because its operation involves two kinds of charge carriers, holes and electrons. Why is it called a bipolar transistor?Bipolar transistors are called bipolar because the main flow of current through them takes place in two types of semiconductor material: P and N, as the main current goes from emitter to collector (or vice versa). What's the purpose of bipolar transistors?Bipolar transistors are still used for amplification of signals, switching, and in digital circuits. Specialized types are used for high voltage switches, for radio-frequency amplifiers, or for switching heavy currents. How does a bipolar transistor work?Bipolar transistors are current-controlled and operated devices, meaning that a much smaller base current causes a larger current to flow from emitter to collector. Whereas transformers can amplify either current or voltage, transistors can amplify both. What is an NPN transistor used for?NPN transistors are used in amplifying circuit applications. NPN transistors are used in the Darlington pair circuits for amplifying weak signals. NPN transistors are used in applications we need sinking current. NPN transistors are used in some classic amplifier circuits, the same as 'push-pull' amplifier circuits. 

CatalogATMEGA808-MFR DescriptionATMEGA808-MFR Related Video InstructionATMEGA808-MFR CAD ModelsATMEGA808-MFR Pin ConfigurationATMEGA808-MFR Block DiagramATMEGA808-MFR FeaturesATMEGA808-MFR DatasheetATMEGA808-MFR SpecificationsATMEGA808-MFR ManufacturerUsing WarningATMEGA808-MFR FAQDescriptionThe ATmega808/809/1608/1609 microcontrollers are part of the megaAVR® 0-series, which uses the AVR processor with hardware multiplier running at up to 20 MHz, and offers a wide range of Flash sizes up to 48 KB, up to 6 KB of SRAM, and 256 bytes of EEPROM in 28-, 32-, 40-, or 48-pin packages. The series uses the latest technologies from Microchip with a flexible and low-power architecture, including Event System and SleepWalking, accurate analog features, and advanced peripherals. The devices described in this data sheet offer 8 or 16 KB in a 28/32/48-pin package. ATMEGA808-MFR Related Video InstructionVideo: How To Use AVR Microcontroller? | Microcontroller ProgrammingATMEGA808-MFR Video Description: In this video it shown how to program avr microcontroller it has used atmega8 microcontroller. CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model Pin Configuration   Figure: Pin Configuration Block Diagram Figure: Block Diagram FeaturesAVR®CPU:      – Single-cycle I/O access      – Two-level interrupt controller      – Two-cycle hardware multiplierMemories:      – 8 or 16 KB In-system self-programmable Flash memory      – 256B EEPROM      – 2 KB SRAM      – Write/Erase endurance:Flash 10,000 cyclesEEPROM 100,000 cycles      – Data retention: 40 years at 55°CSystem:      – Power-on Reset (POR) circuit      – Brown-out Detector (BOD)      – Clock options:16/20 MHz low-power internal oscillator32.768 kHz Ultra Low-Power (ULP) internal oscillator32.768 kHz external crystal oscillatorExternal clock input      – Single-pin Unified Program Debug Interface (UPDI)      – Three sleep modes:Idle with all peripherals running for immediate wake-upStandby      – Configurable operation of selected peripherals      – SleepWalking peripheralsPower-Down with limited wake-up functionalityPeripherals:      – One 16-bit Timer/Counter type A (TCA) with a dedicated period register and three compare channels      – Up to four 16-bit Timer/Counters type B (TCB) with input capture      – One 16-bit Real-Time Counter (RTC) running from an external crystal or an internal RC oscillator      – Up to four USARTs with fractional baud rate generator, auto-baud, and start-of-frame detection      – Host/client Serial Peripheral Interface (SPI)      – Host/client TWI with dual address matchCan operate simultaneously as host and clientStandard mode (Sm, 100 kHz)Fast mode (Fm, 400 kHz)Fast mode plus (Fm+, 1 MHz)      – Event System for core independent and predictable inter-peripheral signaling      – Configurable Custom Logic (CCL) with up to four programmable Look-up Tables (LUT)      – One Analog Comparator (AC) with a scalable reference input      – One 10-bit 150 ksps Analog-to-Digital Converter (ADC)      – Five selectable internal voltage references: 0.55V, 1.1V, 1.5V, 2.5V, and 4.3V      – CRC code memory scan hardwareOptional automatic CRC scan before code execution is allowed      – Watchdog Timer (WDT) with Window mode, with a separate on-chip oscillator      – External interrupt on all general purpose pinsI/O and Packages:      – Up to 41 programmable I/O lines      – 28-pin SSOP      – 32-pin VQFN 5x5 and TQFP 7x7      – 48-pin VQFN 6x6 and TQFP 7x7Temperature Ranges:      – Industrial: -40°C to +85°C      – Extended: -40°C to +125°CSpeed Grades -40°C to +105°C:      – 0-5 MHz @ 1.8V – 5.5V      – 0-10 MHz @ 2.7V – 5.5V      – 0-20 MHz @ 4.5V – 5.5VSpeed Grades +105°C to +125°C:      – 0-8 MHz @ 2.7V - 5.5V      – 0-16 MHz @ 4.5V - 5.5VSpeed Grades -40°C to +125°C - Automotive Range Parts (-VAO):      – 0-8 MHz @ 2.7V - 5.5V      – 0-16 MHz @ 4.5V - 5.5VVAO variants available: Designed, manufactured, tested, and qualified per the AEC-Q100 requirements for automotive applications. DatasheetYou can download the datasheet from the link given below:ATMEGA808-MFR-Datasheet SpecificationsManufacturer:MicrochipProduct Category:8-bit Microcontrollers - MCUSeries:ATmega808Mounting Style:SMD/SMTPackage / Case:QFN-32Core:AVRProgram Memory Size:8 kBData Bus Width:8 bitADC Resolution:10 bitMaximum Clock Frequency:20 MHzNumber of I/Os:27 I/OData RAM Size:1 kBOperating Supply Voltage:1.8 V to 5.5 VMinimum Operating Temperature:- 40 ℃Maximum Operating Temperature:+ 125 ℃Packaging:ReelPackaging:Cut TapeBrand:Microchip TechnologyData RAM Type:SRAMData ROM Size:256 BData ROM Type:EEPROMMoisture Sensitive:YesProduct:MCUProduct Type:8-bit Microcontrollers - MCUProgram Memory Type:FlashFactory Pack Quantity:5000Subcategory:Microcontrollers - MCUSupply Voltage - Max:5.5 VSupply Voltage - Min:1.8 VTradename:AVRWatchdog Timers:Watchdog Timer, Windowed ManufacturerMicrochip Technology Inc. is a publicly-listed American corporation that manufactures microcontroller, mixed-signal, analog and Flash-IP integrated circuits. Its products include microcontrollers (PIC, dsPIC, AVR and SAM), Serial EEPROM devices, Serial SRAM devices, embedded security devices, radio frequency (RF) devices, thermal, power and battery management analog devices, as well as linear, interface and wireless products. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. FAQWhat is a microcontroller used for?Microcontroller is a compressed micro computer manufactured to control the functions of embedded systems in office machines, robots, home appliances, motor vehicles, and a number of other gadgets. A microcontroller is comprises components like - memory, peripherals and most importantly a processor. How many microcontrollers are there?A typical home in a developed country is likely to have only four general-purpose microprocessors but around three dozen microcontrollers. A typical mid-range automobile has about 30 microcontrollers. They can also be found in many electrical devices such as washing machines, microwave ovens, and telephones. Is Arduino a microcontroller?The Arduino is an open-source electronics platform based on easy-to-use hardware and software used to build electronics projects. All Arduino boards have one thing in common which is a microcontroller. A microcontroller is basically a really small computer. 

Product OverviewThe W25Q128JV (128M-bit) Serial Flash memory provides a storage solution for systems with limited space, pins and power. The 25Q series offers flexibility and performance well beyond ordinary Serial Flash devices. They are ideal for code shadowing to RAM, executing code directly from Dual/Quad SPI (XIP) and storing voice, text and data. The device operates on a single 2.7V to 3.6V power supply with current consumption as low as 1µA for power-down. This blog will introduce W25Q128JVSIQ systematically from its features, pinout to its specifications, applications, also including W25Q128JVSIQ datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionW25Q128JVSIQ FeaturesW25Q128JVSIQ PinoutW25Q128JVSIQ ApplicationsW25Q128JVSIQ CAD ModelsW25Q128JVSIQ Block DiagramFast Read Dual Output InstructionW25Q128JVSIQ PackageW25Q128JVSIQ SpecificationW25Q128JVSIQ ManufacturerW25Q128JVSIQ DatasheetUsing WarningsW25Q128JVSIQ FAQ Related Video Introduction Video: W25Q128JV SPI Flash Memory: Part1 || Datasheet || SPI || Dual SPI || QUAD SPI || Status || Memory W25Q128JVSIQ Video Description: w25q128 specs and description, Overview from the datasheet. W25Q128JVSIQ FeaturesNew Family of SpiFlash Memories– W25Q128JV: 128M-bit / 16M-byte– Standard SPI: CLK, /CS, DI, DO– Dual SPI: CLK, /CS, IO0, IO1– Quad SPI: CLK, /CS, IO0, IO1, IO2, IO3– Software & Hardware Reset(1)Highest Performance Serial Flash– 133MHz Single, Dual/Quad SPI clocks– 266/532MHz equivalent Dual/Quad SPI– 66MB/S continuous data transfer rate– Min. 100K Program-Erase cycles per sector– More than 20-year data retentionEfficient “Continuous Read”– Continuous Read with 8/16/32/64-Byte Wrap– As few as 8 clocks to address memory– Allows true XIP (execute in place) operationLow Power, Wide Temperature Range– Single 2.7 to 3.6V supply– <1µA Power-down (typ.)– -40°C to +85°C operating range– -40°C to +105°C operating rangeFlexible Architecture with 4KB sectors– Uniform Sector/Block Erase (4K/32K/64K-Byte)– Program 1 to 256 byte per programmable page– Erase/Program Suspend & ResumeAdvanced Security Features– Software and Hardware Write-Protect– Power Supply Lock-Down– Special OTP protection– Top/Bottom, Complement array protection– Individual Block/Sector array protection– 64-Bit Unique ID for each device– Discoverable Parameters (SFDP) Register– 3X256-Bytes Security Registers with OTP locks– Volatile & Non-volatile Status Register BitsSpace Efficient Packaging– 8-pin SOIC 208-mil– 16-pin SOIC 300-mil (additional /RESET pin)– 8-pad WSON 6x5-mm / 8x6-mm– 24-ball TFBGA 8x6-mm (6x4/5x5 ball array)– 24-ball WLCSP– Contact Winbond for KGD and other options W25Q128JVSIQ PinoutThe following figure is the diagram of W25Q128JVSIQ pinout. W25Q128JVSIQ Pinout W25Q128JVSIQ ApplicationsThe W25Q128JV (128M-bit) Serial Flash memory provides a storage solution for systems with limited space, pins and power. W25Q128JVSIQ CAD ModelsThe followings are W25Q128JVSIQ Symbol, Footprint, and 3D Model. W25Q128JVSIQ Symbol W25Q128JVSIQ Footprint W25Q128JVSIQ 3D Model W25Q128JVSIQ Block DiagramThe following figure shows the block diagram of W25Q128JVSIQ. W25Q128JVSIQ Block Diagram Fast Read Dual Output InstructionThe Fast Read Dual Output (3Bh) instruction is similar to the standard Fast Read (0Bh) instruction except that data is output on two pins; IO0 and IO1. This allows data to be transferred at twice the rate of standard SPI devices. The Fast Read Dual Output instruction is ideal for quickly downloading code from Flash to RAM upon power-up or for applications that cache code-segments to RAM for execution. Fast Read Dual Output Instruction W25Q128JVSIQ PackageThe following diagram shows the W25Q128JVSIQ package. W25Q128JVSIQ PackageW25Q128JVSIQ SpecificationProduct AttributeAttribute ValueManufacturer:WinbondProduct Category:NOR FlashMounting Style:SMD/SMTPackage / Case:SOIC-8Series:W25Q128JVMemory Size:128 MbitSupply Voltage - Min:2.7 VSupply Voltage - Max:3.6 VInterface Type:SPIMaximum Clock Frequency:133 MHzOrganization:16 M x 8Data Bus Width:8 bitTiming Type:SynchronousMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CBrand:WinbondMoisture Sensitive:YesProduct Type:NOR FlashFactory Pack Quantity:450Supply Current - Max:25 mA W25Q128JVSIQ ManufacturerWinbond Electronics Corporation is a leading global supplier of semiconductor memory solutions. With offices in Taiwan, Hong Kong, China, Japan, Israel, and the USA, Winbond’s major products include specialty DRAM, mobile DRAM, and code storage flash memory. W25Q128JVSIQ DatasheetYou can download W25Q128JVSIQ datasheet from the link given below:W25Q128JVSIQ Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. W25Q128JVSIQ FAQWhat is the purpose of SPI flash memory?SPI flash memory, also known as flash memory, has become widely used in the embedded industry and is commonly used for storage and data transfer in portable devices. Common devices include phones, tablets, and media players, as well as industrial devices such as security systems and medical products. What are the types of flash memory?Flash memory comes in two basic types: NOR and NAND. What is the difference between flash memory and EEPROM?Flash uses NAND-type memory, while EEPROM uses NOR type. Flash is block-wise erasable, while EEPROM is byte-wise erasable. Flash is constantly rewritten, while other EEPROMs are seldom rewritten. Flash is used when large amounts are needed, while EEPROM is used when only small amounts are needed. What does NOR Flash stand for?NOR flash memory is one of the two popular types of flash memory. Flash memory is non-volatile computer memory that can be electrically erased and reprogrammed. Non-volatile means that no power is needed to maintain the information stored on the chip. How does a NOR Flash works?In NOR Flash, one end of each memory cell is connected to the source line and the other end directly to a bit line resembling a NOR Gate. In NAND Flash, several memory cells (typically eight cells) are connected in series similar to a NAND gate.

CatalogProduct OverviewLSM303DLHC Related Video IntroductionLSM303DLHC Pin ConnectionsLSM303DLHC Block DiagramLSM303DLHC Timing DiagramLSM303DLHC FeaturesLSM303DLHC ApplicationsLSM303DLHC DatasheetLSM303DLHC SpecificationsLSM303DLHC ManufacturerUsing WarningLSM303DLHC FAQ Product OverviewThe LSM303DLHC is a system-in-package featuring a 3D digital linear acceleration sensor and a 3D digital magnetic sensor. The LSM303DLHC has linear acceleration full scales of ±2g / ±4g / ±8g / ±16g and a magnetic field full scale of ±1.3 / ±1.9 / ±2.5 / ±4.0 / ±4.7 / ±5.6 / ±8.1 gauss. The LSM303DLHC includes an I2C serial bus interface that supports standard and fast mode 100 kHz and 400 kHz. The system can be configured to generate interrupt signals by inertial wake-up/free-fall events as well as by the position of the device itself. Thresholds and timing of interrupt generators are programmable by the end user. Magnetic and accelerometer blocks can be enabled or put into power-down mode separately. The LSM303DLHC is available in a plastic land grid array package (LGA) and is guaranteed to operate over an extended temperature range from -40 °C to +85 °C. LSM303DLHC Related Video IntroductionLSM303DLHC Video Description: The achievable performance of a low cost (consumer market targeted) digital magnet sensor output after the proper calibration and scaling measures is shown:The video shows 3d plots of the xyz-Magnetometer raw data, of the scaled and biased data and of the perfect sphere surface which is yielded by normalizing.For the data recording, the sensor has been turned in all directions slowly at 15Hz Data recording rate. 10000 data points make up the pictures. The correctional algorithms make a cheap consumer chip suitable for navigational purposes. There is no point farther off of the unity radius sphere surface then in percent range (0.01 normalized on 1). LSM303DLHC Pin ConnectionsFigure: LSM303DLHC Pin Connections LSM303DLHC Block DiagramFigure: LSM303DLHC Block Diagram LSM303DLHC Timing DiagramFigure: LSM303DLHC I2C Slave Timing Diagram LSM303DLHC Features3 magnetic field channels and 3 accelerationchannelsFrom ±1.3 to ±8.1 gauss magnetic field fullscale±2g/±4g/±8g/±16g linear acceleration full scale16-bit data outputI2C serial interfaceAnalog supply voltage 2.16 V to 3.6 VPower-down mode / low-power mode2 independent programmable interruptgenerators for free-fall and motion detectionEmbedded temperature sensorEmbedded FIFO6D/4D-orientation detectionECOPACK® RoHS and “Green” compliant LSM303DLHC ApplicationsTilt-compensated compassesMap rotationPosition detectionMotion-activated functionsFree-fall detectionClick/double-click recognitionPedometersIntelligent power-saving for handheld devicesDisplay orientationGaming and virtual reality input devicesImpact recognition and loggingVibration monitoring and compensation LSM303DLHC DatasheetYou can download the datasheet from the link given below:LSM303DLHC Datasheet LSM303DLHC SpecificationsTypeDescriptionCategorySensors, TransducersMotion Sensors - IMUs (Inertial Measurement Units)MfrSTMicroelectronicsPackageTrayPart StatusObsoleteSensor TypeAccelerometer, Magnetometer, 6 AxisOutput TypeI²COperating Temperature-40°C ~ 85°C (TA)Package / Case14-VFLGASupplier Device Package14-LGA (3x5)Mounting TypeSurface MountBase Product NumberLSM303 LSM303DLHC 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. LSM303DLHC FAQWhat is LSM303DLHC?The LSM303DLHC is a system-in-package featuring a 3D digital linear acceleration sensor and a 3D digital magnetic sensor. The system can be configured to generate interrupt signals by inertial wake-up/free-fall events as well as by the position of the device itself. What is an accelerometer used for?Accelerometers are devices that measure the vibration, or acceleration of motion of a structure. They have a transducer that converts mechanical force caused by vibration or a change in motion, into an electrical current using the piezoelectric effect. What is the principle of accelerometer?The main working principle of an accelerometer is that it converts mechanical energy into electrical energy. When a mass is kept on the sensor which is actually just like a spring it starts moving down. Since it is moving down it starts experiencing the acceleration. What is an accelerometer for exercise?Accelerometers are movement monitors that have the ability to capture intensity of physical activity. They are typically attached to a person waist with a belt clip; however, some monitors can also be work on the wrist, ankle, or even a shoe. What is accelerometer vibration?Vibration is most commonly measured using a ceramic piezoelectric sensor or accelerometer. An accelerometer is a sensor that measures the dynamic acceleration of a physical device as a voltage. The benefits of an accelerometer include linearity over a wide frequency range and a large dynamic range. 

CatalogProduct OverviewTCLT1014 Related Video IntroductionTCLT1014 Test CircuitsTCLT1014 Package DimensionsTCLT1014 FeaturesTCLT1014 ApplicationsTCLT1014 DatasheetTCLT1014 SpecificationsTCLT1014 ManufacturerUsing WarningTCLT1014 FAQ Product OverviewThe TCLT101. series consists of a phototransistor optically coupled to a gallium arsenide infrared-emitting diode in a 4-lead LSOP package. TCLT1014 Related Video IntroductionTCLT1014 Video Description: CommFront - How does Optical Isolator work? This short video explains how opto-isolators work including theory and the popular products used in data communication industry. TCLT1014 Test CircuitsFigure: TCLT1014 Test Circuit, Non-Saturated Operation  Figure: TCLT1014 Test Circuit, Saturated Operation TCLT1014 Package DimensionsFigure: TCLT1014 Package Dimensions TCLT1014 FeaturesSMD low profile 4 lead packageHigh isolation 5000 VRMSCTR flexibility available see order informationExtra low coupling capacitanceConnected baseDC input with transistor outputTemperature range -55 °C to +110 °CCreepage distance > 8 mmMaterial categorization TCLT1014 ApplicationsSwitchmode power suppliesComputer peripheral interfaceMicroprocessor system interface TCLT1014 DatasheetYou can download the datasheet from the link given below:TCLT1014 Datasheet TCLT1014 SpecificationsTypeDescriptionCategoryIsolatorsOptoisolators - Transistor, Photovoltaic OutputMfrVishay Semiconductor Opto DivisionPart StatusActiveNumber of Channels1Voltage - Isolation5000VrmsCurrent Transfer Ratio (Min)160% @ 10mACurrent Transfer Ratio (Max)320% @ 10mATurn On / Turn Off Time (Typ)6µs, 5µsRise / Fall Time (Typ)3µs, 4.7µsInput TypeDCOutput TypeTransistorVoltage - Output (Max)70VCurrent - Output / Channel50mAVoltage - Forward (Vf) (Typ)1.25VCurrent - DC Forward (If) (Max)60 mAVce Saturation (Max)300mVOperating Temperature-55°C ~ 110°CMounting TypeSurface MountPackage / Case4-SMD, Gull WingSupplier Device Package4-SOPBase Product NumberTCLT1014 TCLT1014 ManufacturerVishay Intertechnology, Inc. is an American manufacturer of discrete semiconductors and passive electronic components founded by Polish-born businessman Felix Zandman. Vishay has manufacturing plants in Israel, Asia, Europe, and the Americas where it produces rectifiers, diodes, MOSFETs, optoelectronics, selected integrated circuits, resistors, capacitors, and inductors. Vishay Intertechnology revenues for 2018 were $3.035 billion. As of December 31, 2018, Vishay Intertechnology had approximately 24,100 full-time employees. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. TCLT1014 FAQWhat is an Optocoupler?An optocoupler (also called optoisolator) is a semiconductor device that allows an electrical signal to be transmitted between two isolated circuits. Two parts are used in an optocoupler: an LED that emits infrared light and a photosensitive device that detects light from the LED. Both parts are contained within a black box with pins for connectivity. The input circuit takes the incoming signal, whether the signal is AC or DC, and uses the signal to turn on the LED. What is the use of optoisolator?When used correctly, an Optocoupler can effectively: Remove electrical noise from signals. Isolate low-voltage devices from high-voltage circuits. Allow you to use small digital signals to control larger AC voltages. Is optocoupler and optoisolator same?Today we find that both the terms optocoupler and optoisolator are used interchangeably to refer to the same function. The distinguishing feature between these two terms is the amount of voltage being isolated. In all optocouplers and optoisolators, input signals are converted to a pulse of light from an LED. What are the advantages of using optoisolators?Advantages of optoisolators include:Providing electrical and physical isolation of twosections of a circuit and hence the safety.Minimizing noise susceptibility and EMI and reducinginterference such as from electrical interference.Relatively small and inexpensive.Ability to limit voltage across multiple circuits. Are optocouplers analog or digital?The optocoupler is used to transmit analog or digital information between circuits while maintaining electrical isolation at potentials up to 5,000 volts. An optoisolator is used to transmit analog or digital information between circuits where the potential difference is above 5,000 volts.