The Kynix Components

Product OverviewThe MC1455 monolithic timer circuit  is a highly stable controller capable of producing accurate time delays or oscillation. Additional terminals  are provided for triggering or resetting if desired. In the time delay mode, time is precisely controlled by one external resistor and capacitor . For a stable operation as an oscillator, the free-running frequency and the duty cycle  are both accurately controlled with two external resistors  and one capacitor,  The circuit may be triggered and reset on falling waveforms, and the output structure can source or sink up to 200 mA or drive TTL circuits. This blog will introduce MC1455 systematically from its features, pinout to its specifications, applications, also including MC1455 datasheet and so much more. CatalogProduct OverviewMC1455 FeaturesMC1455 PinoutMC1455 ApplicationsMC1455 Circuit DiagramMC1455 Block DiagramMC1455 PackageMC1455 SpecificationMC1455 ManufacturerMC1455 DatasheetUsing WarningsMC1455 FAQ MC1455 FeaturesDirect Replacement for NE555 TimersTiming from Microseconds through HoursOperates in Both Astable and Monostable ModesAdjustable Duty CycleHigh Current Output Can Source or Sink 200 mAOutput Can Drive TTLTemperature Stability of 0.005% per °CNormally ON or Normally OFF OutputPb−Free Packages are Available MC1455 PinoutThe following figure is the diagram of MC1455 pinout.x = B or Vyyy = BP1 or P1A = Assembly LocationL = Wafer LotY, YY = YearW, WW = Work Weekor G = Pb−Free Package MC1455 Pinout MC1455 ApplicationsPrecision TimingPulse generationSequential timingTimedelay generationPulse width modulationPulse position modulationMissing Pulse Detector MC1455 Circuit DiagramThe followings are the circuit diagrams of MC1455. 22 Second Solid State Time Delay Relay Circuit Representative Circuit Schematic Test circuit for measuring DC parameters (to set output and measure parameters):a) When VS  2/3 VCC, VO  is low.b) When VS  1/3 VCC, VO  is high.c) When VO  is low, Pin 7 sinks current. To test for Reset, set VO c) high, apply Reset voltage, and test for current flowing into Pin 7.c) When Reset is not in use, it should be tied to VCC. General Test Circuit  MC1455 Block DiagramThe following figure shows the block diagram of MC1455. MC1455 Block Diagram MC1455 PackageThe following diagram shows the MC1455 package. MC1455 Package MC1455 SpecificationManufacturer:onsemiOperating Temperature-Max:125 °COperating Temperature-Min: -55 °CPower Supplies:5/15 VSupply Voltage-Max (Vsup):15 VSupply Voltage-Min (Vsup):5 VWidth:7.5 mmSubcategory:Counters MC1455 ManufacturerON Semiconductor is a Fortune 500 company driving energy efficient innovations, empowering customers to reduce global energy use. The company is a leading supplier of semiconductor-based solutions, offering a comprehensive portfolio of energy efficient power and signal management, logic, standard and custom devices. The company’s products help engineers solve their unique design challenges in automotive, communications, computing, consumer, industrial, medical and military/aerospace applications. MC1455 DatasheetYou can download MC1455 datasheet from the link given below:MC1455 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. MC1455 FAQWhat are timer circuits?The Timer circuits are used to produce time delay intervals for triggering a load. This time delay is set by the user. Below are few examples of timer circuits used in different applications. How do timers work?With timer operation, the Time Switch controls the output according to the set ON and OFF times. With pulse-output operation, the Time Switch outputs a pulse of a specified time width at the set ON time. Power turned ON by a Time Switch. warmed up before the employees come to work so that work can begin immediately. Is timer an input or output?A timer is a control device that outputs a signal at a preset time after an input signal is received. 

CatalogProduct OverviewTXS0108EPWR Related Video IntroductionTXS0108EPWR CAD ModelsTXS0108EPWR Pin ConfigurationTXS0108EPWR Block DiagramTXS0108EPWR FeaturesTXS0108EPWR ApplicationsTXS0108EPWR DatasheetTXS0108EPWR SpecificationsTXS0108EPWR ManufacturerUsing WarningTXS0108EPWR FAQ Product OverviewThis device is an 8-bit non-inverting level translator that uses two separate configurable power-supply rails. The A port tracks the VCCA pin supply voltage. The VCCA pin accepts any supply voltage between 1.4 V and 3.6 V. The B port tracks the VCCB pin supply voltage. The VCCB pin accepts any supply voltage between 1.65 V and 5.5 V. Two input supply pins allows for low Voltage bidirectional translation between any of the 1.5 V, 1.8 V, 2.5 V, 3.3 V, and 5 V voltage nodes. When the output-enable (OE) input is low, all outputs are placed in the high-impedance (Hi-Z) state. To ensure the Hi-Z state during power-up or powerdown periods, tie OE to GND through a pull-down resistor. The minimum value of the resistor is determined by the current-sourcing capability of the driver. TXS0108EPWR Related Video IntroductionTXS0108EPWR Video Description: Arun will explain how a level translators can be used to allow two ICs with different logic levels to communicate with each other. He will also review important parameters to consider when selecting a level translator for your design. TXS0108EPWR CAD ModelsFigure: TXS0108EPWR PCB Symbol  Figure: TXS0108EPWR Footprint   Figure: TXS0108EPWR 3D Models TXS0108EPWR Pin ConfigurationFigure: TXS0108EPWR Pin Configuration TXS0108EPWR Block DiagramFigure: TXS0108EPWR Block Diagram TXS0108EPWR FeaturesNo direction-control signal neededMaximum data rates– 110 Mbps (push pull)– 1.2 Mbps (open drain)4 V to 3.6 V on A port and 1.65 V to 5.5 V on Bport (VCCA ≤ VCCB)No power-supply sequencing required – eitherVCCA or VCCB can be ramped firstLatch-up performance exceeds 100 mA perJESD 78, Class IIESD protection exceeds JESD 22 (A Port)– 2000-V human body model (A114-B)– 150-V machine model (A115-A)– 1000-V charged-device model (C101)IEC 61000-4-2 ESD  (B port)– ±8 kV contact discharge– ±6 kV Air-gap discharge TXS0108EPWR ApplicationsHandsetsSmartphonesTabletsDesktop PCs Figure: TXS0108EPWR Typical Application Circuit TXS0108EPWR DatasheetYou can download the datasheet from the link given below:TXS0108EPWR Datasheet TXS0108EPWR SpecificationsTypeDescriptionCategoryIntegrated Circuits (ICs)Logic - Translators, Level ShiftersMfrTexas InstrumentsPart StatusActiveTranslator TypeVoltage LevelChannel TypeBidirectionalNumber of Circuits1Channels per Circuit8Voltage - VCCA1.4 V ~ 3.6 VVoltage - VCCB1.65 V ~ 5.5 VOutput TypeOpen Drain, Push-PullData Rate60MbpsOperating Temperature-40°C ~ 85°C (TA)FeaturesAuto-Direction SensingMounting TypeSurface MountPackage / Case20-TSSOP (0.173", 4.40mm Width)Supplier Device Package20-TSSOPBase Product NumberTXS0108 TXS0108EPWR ManufacturerTexas Instruments Incorporated (TI) is an American technology company headquartered in Dallas, Texas, that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globally. It is one of the top 10 semiconductor companies worldwide based on sales volume.The company's focus is on developing analog chips and embedded processors, which account for more than 80% of its revenue.TI also produces TI digital light processing technology and education technology products including calculators, microcontrollers and multi-core processors. The company holds 45,000 patents worldwide as of 2016. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. TXS0108EPWR FAQWhat is TXS0108EPWR?The TXS0108EPWR is a 8-bit Non-inverting Translator IC, uses two separate configurable power-supply rails. The A port is designed to track VCCA. VCCA accepts any supply voltage from 1.2 to 3.6V. The B port is designed to track VCCB. VCCB accepts any supply voltage from 1.65 to 5.5V. This allows for low-voltage bidirectional translation between any of the 1.2, 1.5, 1.8, 2.5, 3.3 and 5V voltage nodes. When the output-enable (OE) input is low, all outputs are placed in the high-impedance state. To ensure the high-impedance state during power up or power down, OE should be tied to GND through a pull-down resistor, the minimum value of the resistor is determined by the current-sourcing capability of the driver. What is bidirectional voltage level translator?Bidirectional Voltage Translators without Direction Pin: Our bidirectional voltage level translators serve as an interface between different supply and input/output voltage levels. These products come without direction pins. What is the significance of level translator?Level translators provide an interface between components that operate at different voltage levels. Maxim offers a wide range of high-speed level, logic-level, and smart card level translators in both uni- and bidirectional types. 

Product Overview The AD823 is a dual precision, 16 MHz, JFET input op amp  that can operate from a single supply of 3.0 V to 36 V or from dual supplies of ±1.5 V to ±18 V. It has true single-supply capability with an input voltage range  extending below ground in single-supply mode. Output voltage swing  extends to within 50 mV of each rail for IOUT ≤ 100 μA, providing outstanding output dynamic range.   An offset voltage of 800 μV maximum, an offset voltage drift  of 2 μV/°C, input bias currents  below 25 pA, and low input voltage noise  provide dc precision with source impedances  up to a Gigaohm. It provides 16 MHz, −3 dB bandwidth, −108 dB THD @ 20 kHz, and a 22 V/μs slew rate with a low supply current of 2.6 mA per amplifier. The AD823 drives up to 500 pF of direct capacitive load as a follower and provides an output current of 15 mA, 0.5 V from the supply rails. This allows the amplifier to handle a wide range of load conditions.   This blog will introduce AD823 systematically from its features, pinout to its specifications, applications, also including AD823 datasheet and so much more.   Catalog Product Overview AD823 Features AD823 Pinout AD823 Applications AD823 Circuit Diagram AD823 Package AD823 Specification AD823 Manufacturer AD823 Datasheet Using Warnings AD823 FAQ   AD823 Features Single-supply operation Output swings rail-to-railInput voltage range extends below groundSingle-supply capability from 3 V to 36 V High load drive Capacitive load drive of 500 pF, G = +1Output current of 15 mA, 0.5 V from supplies Excellent ac performance on 2.6 mA/amplifier −3 dB bandwidth of 16 MHz, G = +1350 ns settling time to 0.01% (2 V step)Slew rate of 22 V/µs Good dc performance 800 µV maximum input offset voltage2 µV/°C offset voltage drift 25 pA maximum input bias current Low distortion: −108 dBc worst harmonic @ 20 kHz Low noise: 16 nV/√Hz @ 10 kHz No phase inversion with inputs to the supply rails   AD823 Pinout The following figure is the diagram of AD823 pinout.   AD823 Pinout   AD823 Applications Battery-powered precision instrumentationPhotodiode preampsActive filters12-bit to 16-bit data acquisition systemsMedical instrumentation   AD823 Circuit Diagram The followings are the circuit diagrams of AD823.   Simplified Schematic   Small Signal Schematic   Second-Order  Low-Pass Filter    AD823 Package The following diagram shows the AD823 package.   AD823 Package   AD823 Specification Manufacturer:Analog Devices IncOperating Temperature-Max:85 °COperating Temperature-Min: -40 °CSupply Voltage-Max (Vsup):3.5 VSupply Voltage-Min (Vsup):2 VSupply Voltage-Nom (Vsup):3 VTerminal Pitch:0.5 mmTime@Peak Reflow Temperature-Max (s):30Peak Reflow Temperature (Cel):260Seated Height-Max:0.8 mm   AD823 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. The company manufactures analog, mixed-signal and digital signal processing (DSP) integrated circuits (ICs) used in electronic equipment. These technologies are used to convert, condition and process real-world phenomena, such as light, sound, temperature, motion, and pressure into electrical signals.   AD823 Datasheet You can download AD823 datasheet from the link given below: AD823 Datasheet   Using Warnings Note: Please check their parameters and pin configuration before replacing them in your circuit.   AD823 FAQ What are the input modes of op amp? These modes are single-ended, double-ended or differential, and common. Since the differential amplifier is the input stage of the op-amp, the op-amp exhibits the same modes.   Do op amps have input impedance? The input impedance of an op amp is the impedance that is seen by the driving device. The lower the input impedance of the op amp, the greater is the amount of current that must be supplied by the signal source.   What application of op amp works in amplifier mode? Operational amplifiers are linear devices that have all the properties required for nearly ideal DC amplification and are therefore used extensively in signal conditioning, filtering or to perform mathematical operations such as add, subtract, integration and differentiation.   Why does op-amp have high input impedance? Op amps need high input impedance because they are voltage-gain devices. In order for voltage to drop across the input, the impedance has to be very high, as ohm's law states, V=IR. It's also important to prevent the loading effect. If the impedance were small, the current draw would be high.   What is the difference between op amp and amplifier? Amplifiers can be either electronic or mechanical in common definition whereas operational amplifiers are electronic amplifiers. Amplifiers, in general, have a limited capability of amplifying DC signals but all op-amps are capable of amplifying DC signals.

CatalogLMD18200 DescriptionLMD18200 Related Video InstructionLMD18200 CAD ModelsLMD18200 Connection DiagramLMD18200 Functional Block DiagramLMD18200 FeaturesLMD18200 ApplicationsLMD18200 DatasheetLMD18200 SpecificationsLMD18200 ManufacturerUsing WarningLMD18200 FAQLMD18200 DescriptionThe LMD18200 is a 3A H-Bridge designed for motion control applications. The device  is built using a multi-technology process which combines bipolar and CMOS control circuitry with DMOS power devices on the same monolithic structure. ldeal for driving DC and stepper motors ; the LMD1 8200 accommodates peak output currents up to 6A. An innovative circuit which facilitates low-loss sensing of the output current  has been implemented. LMD18200 Related Video InstructionVideo:Motor Drivers: The H-BridgeLMD18200 Video Description:This section explains what an H-bridge is, how it is made, and the common parts. The video also discusses how to drive a brushed-DC motor with an H-Bridge, Coast, and Brake. LMD18200 CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model  LMD18200 Connection Diagram Figure: Connection Diagram LMD18200 Functional Block Diagram Figure: Functional Block Diagram LMD18200 FeaturesDelivers Up to 3A Continuous OutputOperates at Supply Voltages Up to 55VLow Rps(ON) Typically 0.330 per Switch at 3ATTL and CMOS Compatible InputsNo "Shoot-Through" CurrentThermal Warning Flag Output at 145°CThermal Shutdown (Outputs Off) at 170°CInternal Clamp DiodesShorted Load ProtectionInternal Charge Pump with External BootstrapCapability LMD18200 ApplicationsDC and Stepper Motor DrivesPosition and Velocity ServomechanismsFactory Automation RobotsNumerically Controlled MachineryComputer Printers and Plotters LMD18200 DatasheetYou can download the datasheet from the link given below:LMD18200-Datasheet LMD18200 SpecificationsProduct Category:Motor / Motion / Ignition Controllers & DriversOperating Supply Voltage:12 V to 55 VOperating Supply Current:13 mAMinimum Operating Temperature:- 40 ℃Maximum Operating Temperature:+ 125 ℃Package / Case:TO-220-11Packaging:TubeManufacturer:Texas InstrumentsBrand:Texas InstrumentsProduct Type:Motor / Motion / Ignition Controllers & DriversSeries:LMD18200Factory Pack Quantity:23Subcategory:PMIC - Power Management ICsUnit Weight:0.242004 oz LMD18200 ManufacturerTexas Instruments Incorporated (TI) is an American technology company headquartered in Dallas, Texas, that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globally. It is one of the top 10 semiconductor companies worldwide based on sales volume.The company's focus is on developing analog chips and embedded processors, which account for more than 80% of its revenue.TI also produces TI digital light processing technology and education technology products including calculators, microcontrollers and multi-core processors. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. LMD18200 FAQWhat is an H-bridge motor driver?The H-bridge is an electronic circuit that looks like the letter H. An H-bridge is used to drive a load, such as a brushed DC motor, in both directions. And it controls the flow of current to a load. What is the use of H-bridge in motor driver IC?Generally, the H-bridge motor driver circuit is used to reverse the direction of the motor and also to break the motor. When the motor comes to a sudden stop, as the terminals of the motor are shorted. Or let the motor run free to a stop, when the motor is detached from the circuit. What are the applications of H bridge?The most important application of the H-Bridge circuit as the motor driver circuit.In Robotics Technology, H-bridge circuits are used.H-Bridge circuit is also used as Invertecircuitut.In modern battery charger for electrical vehicles, H-bridge circuits are used. 

CatalogCS43131-CNZ DescriptionCS43131-CNZ Related Video InstructionCS43131-CNZ CAD ModelsCS43131-CNZ Pin ConfigurationCS43131-CNZ Typical Connection DiagramCS43131-CNZ FeaturesCS43131-CNZ ApplicationsCS43131-CNZ DatasheetCS43131-CNZ SpecificationsCS43131-CNZ ManufacturerUsing WarningCS43131-CNZ FAQCS43131-CNZ DescriptionThe CS43131 is a high-performance, 32-bit resolution, stereo audio DAC that supports up to 384-kHz sampling frequency with integrated low-noise ground-centered headphone amplifiers. The advanced 32-bit oversampled multibit modulator with mismatch shaping technology eliminates distortion due to on-chip component mismatch. Proprietary digital-interpolation filters support five selectable filter responses with pseudo-linear phase and ultralow latency to minimize pre-echos and ringing artifacts. An on-chip programmable filter is available for further response customization. Other features include volume control with 0.5-dB steps, wideband flatness mode support, and digital deemphasis for 44.1-kHz sample rate. The integrated ground-centered stereo headphone amplifiers are capable of delivering more than 30 mW into 32-W load or 5 mW into 600-W load per channel at full performance. It is also capable of generating 2 Vrms on a 600-W load. Proprietary headphone impedance detection enables wide-band impedance detection for further digital post-processing. An internal stereo audio switch with true bypass supports an alternate analog input path for interfacing with external audio sources to minimize the overall bill-of-materials cost and PCB area. The patented on-chip  DSD  processor preserves audio integrity by allowing signal processing such as volume control and 50-kHz Scarlet Book recommended filtering to be applied directly to the  DSD stream without an intermediate decimation stage. Additional features like volume matching and channel mixing enable seamless transition between DSD and PCM playback paths. The CS43131 accepts I2S, right-justified, left-justified, and TDM-format  PCM data at sample rates from 32 to 384 kHz. The industry-standard high-speed I2C interface capable of up to 1-MHz operation provides easy configuration control. An integrated PLL allows for maximum clocking flexibility in any system. Popguard® technology eliminates output transients upon power-up or power-down events. The CS43131 is available in a commercial-grade 42-ball WLCSP or 40-pin QFN package for operation from –10°C to +70°C. CS43131-CNZ Related Video InstructionVideo:How to plug in a DAC ! Easy for Beginners! CS43131-CNZ CAD Models Figure: PCB Symbol  Figure: Footprint  Figure:  3D Model  CS43131-CNZ Pin Configuration Figure: Pin Configuration CS43131-CNZ Typical Connection Diagram Figure: Typical Connection Diagram CS43131-CNZ FeaturesEnhanced DSoversampling DAC architecture       — 32-bit resolution       — Up to 384-kHz sampling rate       — Low clock jitter sensitivity       — Auto mute detectionIntegrated high performance, ground-centered stereo headphone outputs       — 130-dB dynamic range (A-weighted)       — –115-dB total harmonic distortion + noise (THD+N)       — 110-dB interchannel isolation       — Up to 2-Vrms stereo output       — Headphone power output         – 30 mW per channel into 32 W         – 5 mW per channel into 600 WHeadphone detection       — Headphone DC and AC impedance measurement       — Headphone plug-in detection       — Popguard® technology eliminates pop noiseIntegrated PLL       — Support for 11.2896-/22.5792-, 12.288-/24.576-, 9.6-/ 19.2-, 12-/24-, and 13-/26-MHz system MCLK rates       — Reference clock sourced from XTI/MCLK pin       — System clock outputMono Mode (differential) supportI2C control—up to 1 MHzWideband Flatness Mode Support CS43131-CNZ ApplicationsSmart phones, tablets, portable media players, laptops, digital headphones, powered speakers, AVR, home theater systems, Blu-ray /DVD/SACD players, and pro audio CS43131-CNZ DatasheetYou can download the datasheet from the link given below:CS43131-CNZ-Datasheet CS43131-CNZ SpecificationsProduct Category:Audio D/A Converter ICsSeries:CS4313Number of Converters:2 ConverterResolution:32 bitInterface Type:I2CNumber of DAC Outputs:2 OutputOperating Supply Voltage:1.66 V to 1.94 VMinimum Operating Temperature:- 10 ℃Maximum Operating Temperature:+ 70 ℃Mounting Style:SMD/SMTPackage / Case:QFN-40Packaging:TrayManufacturer:Cirrus LogicBrand:Cirrus LogicDynamic Range dB:130 dBMoisture Sensitive:YesNumber of Channels:2 ChannelNumber of DACs:2 DACProduct:Audio DAC ConvertersProduct Type:Audio D/A Converter ICsFactory Pack Quantity:490Subcategory:Audio ICsTHD plus Noise:- 115 dBTradename:MasterHIFIType:High Performance CS43131-CNZ ManufacturerCirrus Logic Inc. is an American fabless semiconductor supplier that specializes in analog, mixed-signal, and audio DSP integrated circuits (ICs). Since 1998, the company's headquarters have been in Austin, Texas. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. CS43131-CNZ FAQWhat is stereo audio DAC?A DAC takes digital data and transforms it into an analog audio signal. Afterward, it sends that analog signal to an amplifier. When you hear digital recordings, you're actually listening to an analog signal that was converted from digital by a DAC. Does a DAC improve sound quality?DAC is a dedicated conversion hardware for converting digital signals into the analogue signal. Generally DAC improves the audio quality of digital signal. But the quality of output will also depend the digital signal encoding fed into the DAC. High quality digital signals will yield better quality analog output. Do stereo receivers have DAC?Most modern stereo receivers include DAC since this is what makes it possible for digital sound to be transmitted over into the speakers/headphones. 

CatalogProduct OverviewIR2113 Related Video IntroductionIR2113 CAD ModelsIR2113 Pin AssignmentIR2113 Typical ConnectionIR2113 Functional Block DiagramIR2113 FeaturesIR2113 DatasheetIR2113 SpecificationsIR2113 ManufacturerUsing WarningIR2113 FAQ Product OverviewThe IR2110/IR2113 are high voltage, high speed power MOSFET and IGBT drivers with independent high and low side referenced output channels. Proprietary HVIC and latch immune CMOS technologies enable ruggedized monolithic construction. Logic inputs are compatible with standard CMOS or LSTTL output, down to 3.3V logic. The output drivers feature a high pulse current buffer stage designed for minimum driver cross-conduction. Propagation delays are matched to simplify use in high frequency applications. The floating channel can be used to drive an N-channel power MOSFET or IGBT in the high side configuration which operates up to 500 or 600 volts. IR2113 Related Video IntroductionIR2113 Video Description: Half Bridge IC IR2113 and IRFP460 mosfetAudio Source...Car Radio...Each channel receives its own transformer100 Volt Ela TransformerThe transformers are secondary side connected in seriesPower supply 50 volts and 6.6A IR2113 CAD ModelsFigure: IR2113 PCB Symbol   Figure: IR2113 Footprint   Figure: IR2113 3D Models IR2113 Pin AssignmentFigure: IR2113 Pin Assignment IR2113 Typical ConnectionFigure: IR2113 Typical Connection IR2113 Functional Block DiagramFigure: IR2113 Functional Block Diagram Lead DefinitionsSymbol DescriptionVDD Logic supplyHIN Logic input for high side gate driver output (HO), in phaseSD Logic input for shutdownLIN Logic input for low side gate driver output (LO), in phaseVSS Logic groundVB High side floating supplyHO High side gate drive outputVS High side floating supply returnVCC Low side supplyLO Low side gate drive outputCOM Low side return IR2113 Features Floating channel designed for bootstrap operationFully operational to +500V or +600VTolerant to negative transient voltagedV/dt immuneGate drive supply range from 10 to 20VUndervoltage lockout for both channels3.3V logic compatibleSeparate logic supply range from 3.3V to 20VLogic and power ground ±5V offsetCMOS Schmitt-triggered inputs with pull-downCycle by cycle edge-triggered shutdown logicMatched propagation delay for both channelsOutputs in phase with inputs IR2113 DatasheetYou can download the datasheet from the link given below:IR2113 Datasheet IR2113 SpecificationsType DescriptionCategoryIntegrated Circuits (ICs)PMIC - Gate DriversMfrInfineon TechnologiesPackageTubePart StatusObsoleteDriven ConfigurationHalf-BridgeChannel TypeIndependentNumber of Drivers2Gate TypeIGBT, N-Channel MOSFETVoltage - Supply3.3V ~ 20VLogic Voltage - VIL, VIH6V, 9.5VCurrent - Peak Output (Source, Sink)2A, 2AInput TypeNon-InvertingHigh Side Voltage - Max (Bootstrap)600 VRise / Fall Time (Typ)25ns, 17nsOperating Temperature-40°C ~ 150°C (TJ)Mounting TypeThrough HolePackage / Case14-DIP (0.300", 7.62mm)Supplier Device Package14-DIPBase Product NumberIR2113 IR2113 ManufacturerInfineon Technologies is a leading global designer, manufacturer and supplier of a broad range of semiconductors used in various microelectronic applications. Infineon's product portfolio consists of logic products, including digital, mixed-signal, and analog integrated circuits, as well as discrete semiconductor products. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. IR2113 FAQWhat is IR2113?The IR2113 are high voltage, high speed power MOSFET and IGBT drivers with independent high and low side referenced output channels. The floating channel can be used to drive an N-channel power MOSFET or IGBT in the high side configuration which operates up to 500 or 600 volts. What does a gate driver do?A gate driver is a power amplifier that accepts a low-power input from a controller IC and produces the appropriate high current gate drive for a power device. To operate a MOSFET/IGBT, typically a voltage has to be applied to the gate that is relative to the source/emitter of the device. What is half bridge and full bridge?The main difference between half bridge and full bridge inverter is the maximum value of output voltage. In half bridge inverter, peak voltage is half of the DC supply voltage. In full bridge inverter, peak voltage is same as the DC supply voltage.