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The TPD4102K is a DC brush less motor driver using high voltage PWM control. It is fabricated by high voltage SOI process.It contains PWM circuit, 3-phase decode logic, level shift high-side driver, low-side driver, IGBT outputs, FRDs, over current and under voltage protection circuits, and thermal shutdown circuit.It is easy to control a DC brush less motor by applying a signal from a motor controller and a hole IC to the TPD4102K. Features ● Bootstrap circuit gives simple high side supply ● Bootstrap diode is built in ● PWM and 3-phase decoder circuit are built in ● Outputs Rotation pulse signals ● 3-phase bridge output using IGBTs ● FRDs are built in ● Incorporating over current andunder voltage protection, and thermal shutdown ● Package: 23-pin HZIP This product has a MOS structure and is sensitive to electrostatic discharge. When handling this product, ensure that the environment is protected against electrostatic discharge.
Features● mWSaverTMTechnology Provides Industry’s Best-in-Class Standby Power— 100mW at25-mW Load for LCDM Adaptor— Internal High-VoltageJFETStartup— Low Operating Current:Under 2mA— Adaptively DecreasePWM Frequency to 23kHzat Light-Load Conditionfor BetterEfficiency— Feedback Impedance SwitchingDuring MinimumLoad or No Load● ProprietaryAsynchronous Frequency Hopping Technique thatReducesEMI● Fixed PWM Frequency：65kHz(FAN6755W), 130kHz (FAN6755UW)● Internal Leading-Edge Blanking● Built-in Synchronized Slope Compensation● Auto-Restart Protection: Feedback Open-Loop Protection (OLP), VDDOver-Voltage Protection (OVP), Over-Temperature Protection (OTP),and Line Over-Voltage Protection● Soft Gate Drive with Clamped Output Voltage: 18V● VDDUnder-Voltage Lockout (UVLO)● ProgrammableConstant Power Limit (Full AC Input Range)● Internal OTP Sensorwith Hysteresis● Build-in 5-ms Soft-Start Function● Input Voltage Sensing (VINPin)for Brown-In/Out ProtectionwithHysteresis and Line Over-Voltage ProtectionApplicationsGeneral-purpose switched-mode power supplies and flyback power converters, including:● LCDMonitorPowerSupply● Open-Frame SMPDescriptionThishighly integrated PWM controllerprovides severalfeatures to enhance the performance of flyback converters. To minimize standby power consumption, a proprietary adaptive green-mode function reduces switching frequency at light-load condition. To avoid acoustic-noise problems, the minimum PWM frequency is set above 23kHz. This green-mode function enables the power supply to meet international power conservation requirements,such as Energy Star. With the internal high-voltage startupcircuitry, the power loss caused bybleeding resistorsis also eliminated. To further reduce power consumption, FAN6755W/UWusesthe BiCMOS process, which allows an operating current of only 2mA.The standby power consumption canbe under 100mW formost of LCDmonitorpower supply designs.FAN6755W/UWintegrates a frequency-hopping function that reducesEMI emission of a power supply with minimum line filters. Thebuilt-in synchronized slope compensation achieves a stable peak-current-mode controland improvesnoise immunity. The proprietary line compensation ensures constant output power limit over a wide AC input voltage rangefrom 90VACto 264VAC.FAN6755W/UWprovides many protection functions. The internal feedback open-loop protection circuit protects the power supply from open-feedback-loop conditionor output-short condition. It also has line under-voltage protection (brownout protection) and over-voltage protection using an input voltage sensing pin (VIN).FAN6755W/UWis available in a 7-pinSOP package.
BTS840S2Brand:INFINEONDescription-N channel vertical power MOSFET with charge pump, ground referenced CMOS compatible input,diagnostic feedback and proportional load current sense monolithically integrated in Smart SIPMOS?technology.-Providing embedded protective functionsApplications-μC compatible high-side power switch with diagnostic feedback for 12V and 24V grounded loads-All types of resistive, inductive and capacitve loads-Most suitable for loads with high inrush currents, so as lamps-Replaces electromechanical relays, fuses and discrete circuitsFunctions-CMOS compatible input-Undervoltage and overvoltage shutdown with auto-restart and hysteresis-Fast demagnetization of inductive loads-Logic ground independent from load ground
Features● UltraFast:Optimized for high operatingfrequencies 8-40 kHz in hard switching, 200 kHz in resonant mode● Generation 4 IGBT design provides tighterparameter distribution and higher efficiency thanGeneration 3● Industry standard TO-247AC packageBenefits● Generation 4 IGBTs offer highest efficiency available● IGBTsoptimizedforspecifiedapplicationconditions● Designed to be a drop-in replacement for equivalentindustry-standard Generation 3 IR IGBTs
DescriptionApplications shown on the herein document are examples of standard use and operation. Customers are responsible incomprehending the suitable use in particular applications. Panjit International Inc. makes no representation or warrantythat such applications will be suitable for the specified use without further testing or modification.Features● Fast switching speed.● Surface mount package Ideally Suited for Automatic insertion● Electrically Identical to Standard JEDEC● High Conductance● Acqire quality system certificate : TS16949● AEC-Q101 qualified● Lead free in comply with EU RoHS 2002/95/EC directives.● Green molding compound as per IEC61249 Std. (Halogen Free)
● 4 V gate drive ● Low drain-source ON-resistance : RDS (ON) = 0.16Ω(typ.)● High forward transfer admittance : |Yfs| = 4.0 S (typ.) ● Low leakage current: IDSS = -100 μA (max) (VDS = -60 V) ● Enhancement mode : Vth = -0.8~-2.0 V (VDS = -10 V, ID = -1 mA
Description● With TO-220 package● Complement to type 2SA913/913A● Large collector power dissipation● High VCEOFeatures● High bandwidth provides fast turn-on with no overshoot● Current limit operation rejects line ripple● Universal input voltage range (85 VAC to 265 VAC)● Built-in current limit and hysteretic thermal protection● Higher effi ciency than passive solutions● Higher power factor than capacitor-fed solutions● Entirely manufacturable in SMD
DESCRIPTION● High Switching Speed● High Collector-Emitter Breakdown Voltage-: V(BR)CEO= 400V(Min)
Digital Logic Ground Isolation Line Receiver Microprocessor System Interfaces Switching Power Supply Feedback Control Transistor InverterDescriptionThe TOSHIBA TLP759F consists of a GaA￡As high-output light emitting diode and a high speed detector of one chip photo diodetransistor. This unit is 8-lead DIP package.TLP759F has no internal base connection, and a faraday shield integrated on the photodetector chip provides an effective common mode noise transient immunity.So this is suitable for application in noisy environmental condition.All parameters are tested to the specification of TLP759.Features●Isolation voltage：5000 Vrms (min.)●Switching speed: tpHL = 0.3μs (typ.)tpHL =0.5μs (typ.) (RL=1.9 kΩ)●TTL compatible●UL recognized: UL1577, file no. E67349●BSI approved：BS EN60065:200,certificate no.8869BS EN60950-1:2002,certificate no.8870●Option (D4) typeVDE approved: DIN EN 60747-5-2Certificate no. 40009302Maximum operating insulation：1140VPKHighest permissible over voltage：6000VPK
Features● Overload protection● Current limitation● Short circuit protection● Thermal shutdown● Overvoltage protection (including load dump)● Fast demagnetization of inductive loads● Reverse battery protection1)● Undervoltage and overvoltage shutdown with auto-restart and hysteresis● Open drain diagnostic output● Open load detection in ON-state● CMOS compatible input● Loss of ground and loss of Vbb protection● Electrostatic discharge (ESD) protectionApplication● μC compatible power switch with diagnostic feedback for 12 V and 24 V DC grounded loads● All types of resistive, inductive and capacitve loads● Replaces electromechanical relays, fuses and discrete circuitsGeneral DescriptionN channel vertical power FET with charge pump, ground referenced CMOS compatible input and diagnostic feedback, monolithically integrated in Smart SIPMOStechnology. Fully protected by embedded protection functions.
FEATURE● Full Software Control of Sound Generation● Interfaces to Most 8-bit and 16-bit Microprocessors● Three Independently Programmed Analog Outputs● Two 8-bit General Purpose I/O Ports(Ay-3-8910)● One 8-bit General Purpose I/OPort(Ay-3-8912)● Single +5 Volt SupplyDESCRIPTIONThe AY-3-8910/8912/8913 Programmable Sound Generator ( PSG ) isaLSICircuit which can produce a wide variety of complexsounds under software control. The AY-3-8910 / 8912 / 8913 is manufactured inthe General Instrument N-channel lon Implant Process. Operation requires a single + 5V power supply, a TTL compatible clock, and amicroprocessor controller such as the General Instrument 16-bit CP1610 or one of the PIC1650 series of 8-bit microcomputers.The PSG is easily interfaced to any bus oriented system. Its flexibility makes it useful in applications such as music synthesis, soundeffects generation, audible alarms, tone signalling and FSK modems. The analog sound outputs can each provide 4 bits of logarithmic digital to analog conversion, greatly enhancing the dynamic range of the sounds produced.In order to perform sound effects while allowing the processor tocontinue its other tasks . the PSG can continue to produce soundafter the initial commands have been given by the control processor. The fact that realistic sound production often involves more than oneeffect is satisfied by the three independently controllable channelsavailable in the PSG.All of the circuit control signals are digital in nature and intended tobe provided directly by a microprocessor/microcomputer. This means thatonePSG can produce the full range of required soundswith no change in external circuitry. Since the frequency response ofthe PSG ranges from sub-audible at its lowest frequency to post-audible at its highest frequency, there are few sounds whichare beyond reproduction with only the simplest electrical connections.Since most applications of a microprocessor / PSG system would alsorequire interfacing between the outside world and the microprocessor , this facility has been designed into the PSG. The AY-3-8910 hastwo general purpose 8-bit I/O ports and is supplied in a 40 lead package : the AY-3-8912 has one port and 28 leads : the AY-3-8913 hasno ports and 24 leads.
1. DescriptionThe HIP4082IPZ is a medium frequency, medium voltage half-bridge N-channel MOSFET Driver IC. Specifically targeted for PWM motor control and UPS applications, bridge based design is made simple and flexible with the half-bridge driver. With operation up to 80V, the device is best suited to applications of moderate power levels. It has a flexible input protocol for driving every possible switch combination except those which would cause a shoot-through condition. It reduced drive current allows smaller packaging and it has a much wider range of programmable dead times (0.1 to 4.5ms) making it ideal for switching frequencies up to 200kHz. It does not contain an internal charge pump, but does incorporate non-latching level-shift translation control of the upper drive circuits.2. FeaturesIndependently drives 4 N-channel FET in full-bridge configurations95VDC Bootstrap supply maximum voltageDrives 1000pF load at 1MHz in free air at 50°CUser-programmable dead timeDIS (disable) overrides input control and refreshes bootstrap capacitor when pulled lowShoot-through protectionUnder voltage protectionStresses those listed in absolute maximum ratings may cause permanent damage to the device.3. Product InformationDriver Configuration:Full BridgePeak Output Current:1.4ASupply Voltage Min:8.5VSupply Voltage Max:15VDriver Case Style:DIPNo. of Pins:16PinsInput Delay:40nsOutput Delay:25nsOperating Temperature Min:-55°COperating Temperature Max:125°CPackaging:EachProduct Range:-Module Configuration:Full BridgeDevice Type:MOSFET DriverMSL:-Supply Voltage Range:8.5V to 15V
DescriptionThe C8187-4 is a silicon monolithic integrated circuit designed as a frequency up-converter for wireless transceiv-ers.This IC has higher operating frequency, lower distortion and higher conversion gain than the conventionalC8187-4.This device is manufactured using NECs 30 GHzmaxf UHS0 (Ultra High Speed Process) silicon bipolar process. NECsstringent quality assurance and test procedures ensure the highest reliability and performance.Features● HIGH OUTPUT FREQUENCY: fRFout = 0.8 to 2.5 GHz● SUPPLY VOLTAGE:VCC = 2.7 to 3.3 V● HIGH IP3 AND CONVERSION GAIN:OIP3 = +10 dBm typ at fRFout = 0.9 GHz CG = +11 dBm typ at fRFout = 0.9 GHz● HIGH-DENSITY SURFACE MOUNTING:6-pin super minimold package
Lower System Cost, Higher Design Flexibility ●Multi-mode operation maximizes efficiency at all loads ●New eSIP-7F and eSIP-7C packages ●Low thermal impedance junction-to-case (2℃per watt) ●Low height is ideal for adapters where space is limited ●Simple mounting using a clip to aid low cost manufacturing ●Horizontal eSIP-7F package ideal for ultra low height adapter and monitor applications ●Extended package creepage distance from DRAIN pin to adjacent pin and to heat sink ●No heat sink required up to 35 W using P, G and M packages with universal input voltage and up to 48 W at 230 VAC ●Output overvoltage protection (OVP) is user programmable for latching/non-latching shutdown with fast AC reset ●Allows both primary and secondary sensing ●Line undervoltage (UV) detection prevents turn-off glitches ●Line overvoltage (OV) shutdown extends line surge limit ●Accurate programmable current limit ●Optimized line feed-forward for line ripple rejection ●132 kHz frequency (254Y-258Y and all E/L packages) reduces transformer and power supply size ●Half frequency option for video applications ●Frequency jittering reduces EMI filter cost●Heat sink is connected to SOURCE for low EMI ●Improved auto-restart delivers 3% of maximum power in short circuit and open loop fault conditions ●Accurate hysteretic thermal shutdown function automatically recovers without requiring a reset ●Fully integrated soft-start for minimum start-up stress ●Extended creepage between DRAIN and all other pins improves field reliabilityDescription TOPSwitchTM-HX cost effectively incorporates a 700 V power MOSFET, high voltage switched current source, PWM control, oscillator, thermal shutdown circuit, fault protection and other control circuitry onto a monolithic device.
The MPM3002 is a H-bridge power circuit with lossless current sensing capability.The upper legs of the bridge consists of P-channel power MOSFETS and the lower legs ofthe bridge consist of two SENSEFET devices. This power circuit packaged in the ICePAKpackage is ideal for applications such as servo motor drives, stepper motor controls and switching power supplies. Features of this product include：● P and N-channel Power MOSFET Configuration for Ease of Drive● Lossless Current Sensing in Each Lower Leg of the H-bridge● Isolated Package with 2kVIsolation Voltage Rating● High Power Handling Capability-62 5 Watts● High Peak Current Handling Capability--25 Amperes
Complementary SiliconPlastic Power TransistorsDesigned for use as high-frequency drivers in audio amplifiers.Features● High DC Current Gain● High Current Gain—Bandwidth Product● TO-220 Compact Package● Epoxy Meets UL 94 V-0 @ 0.125 in● These Devices are Pb-Free and are RoHS Compliant
1.DescriptionThe LM35 series are precision integrated-circuit temperature sensors, whose output voltage is linearly proportional to theCelsius (Centigrade) temperature. The LM35 thus has an advantage over linear temperature sensors calibrated in Kelvin,as the user is not required to subtract a large constant voltage from its output to obtain convenient Centigrade scaling.The LM35 does not require any external calibration or trimming to provide typical accuracies of ±1?4?C at room temperatureand ±3?4?C over a full ?55 to +150?C temperature range. Low cost is assured by trimming and calibration at the wafer level.2.Features Calibrated directly in ? Celsius (Centigrade) Linear + 10.0 mV/?C scale factor 0.5?C accuracy guaranteeable (at +25?C) Rated for full ?55? to +150?C range Suitable for remote applications Low cost due to wafer-level trimming Operates from 4 to 30 volts Less than 60 μA current drain Low self-heating, 0.08?C in still air Nonlinearity only ±1?4?C typical Low impedance output, 0.1 ? for 1 mA load
50A, 60V, 0.022 Ohm, N-Channel Power MOSFETsThese N-Channel power MOSFETs are manufactured using the MegaFET process. This process, which uses feature sizes approaching those of LSI integrated circuits gives optimum utilization of silicon, resulting in outstanding performance. They were designed for use in applications such as switching regulators, switching converters, motor drivers, and relay drivers. These transistors can be operated directly from integrated circuits.Formerly developmental type TA49018.Features● 50A, 60V● rDS(ON)= 0.022Ω● Temperature Compensating PSPICEModel● Peak Current vs Pulse Width Curve● UIS Rating Curve ● 175℃Operating Temperature
FEATURES● WithTO-220Fpackaging● Highspeedswitching● Lowgateinputresistance● Standardlevelgatedrive● Easytouse● 100%avalanchetested● MinimumLot-to-LotvariationsforrobustdeviceperformanceandreliableoperationAPPLICATIONS● Powersupply● Switchingapplications
TC4093B Quad 2-Input NAND Schmitt TriggersThe TC4093B is a quad 2-input NAND gate having Schmitt trigger function for all the input terminals. Since the circuit threshold voltage varies with rising time and falling time of the input waveform (VP and VN), this gate can be used for a wide variety of applications to line receivers, waveform shaping, astable multivibrators, monosatable multivibrators, etc.In addtion to regular NAND gates. As the TC4093B and the TC4011B are identical in pin assignment, they are compatible each other.
Features● Two 2SC2412K chips in a EMT or UMT or SMTpackage.● Mounting possible with EMT3 or UMT3 or SMT3automatic mounting machines.● Transistor elements are independent, eliminatinginterference.● Mounting cost and area can be cut in half.Structure● Epitaxial planar type● NPN silicon transistor
Features● Low collector to emitter saturation voltage● VCE(sat) = 1.8 V typ. (IC = 40 A, VGE = 15V, Ta = 25°C)● Gate to emitter voltage rating ±30 V● Pb-free lead plating and chip bonding
FEATURE● High breakdown voltage (VRRM=600V).● High reliability.● One-pointfixing type plastic mold package facilitating easy mounting and heat dissipation.● Fast reverse recovery time.● Low noise at the time of reverse recovery.
DescriptionThe X28HC256 is a second generation high performance CMOS 32K x 8 EEPROM. It is fabricated with Intersil’s proprietary,textured poly floating gate technology, providing a highly reliable 5 Volt only nonvolatile memory. The X28HC256 supports a128-byte page write operation, effectively providing a 24μs/byte write cycle, andenabling the entire memory to be typicallyrewritten in less than 0.8 seconds. The X28HC256 also features DATA Polling and Toggle Bit Polling, two methods of providingearly end of write detection. The X28HC256 also supports the JEDEC standard Software Data Protection feature for protectingagainst inadvertent writes during power-up and power-down. Endurance for the X28HC256 is specified as a minimum 1,000,000write cycles per byte and an inherent data retention of 100 years.Features●Access time: 70ns●Simple byte and page write— Single 5V supply— No external high voltages or VPP control circuits— Self-timed— No erase before write— No complex programming algorithms— No overerase problem●Low power CMOS— Active: 60mA— Standby: 500μA●Software data protection— Protects data against system level inadvertent writes●High speed page write capability●Highly reliable Direct Write cell— Endurance: 1,000,000 cycles— Data retention: 100 years●Early end of write detection— DATA polling— Toggle bit polling
Introduce this Module:The X28C64JM-20 is an 8K x 8 E2PROM, fabricated with Xicor’s proprietary, high performance, floating gate CMOS technology. Like all Xicor programmable non- volatile memories the X28C64JM-20 is a 5V only device. The X28C64 supports a 64-byte page write operation, effectively providing a 78μs/byte write cycle and enabling the entire memory to be typically written in 0.625 seconds. X28C64JM-20 also features DATA and Toggle Bit Polling, a system software support scheme used to indicate the early completion of a write cycle. In addition, the X28C64JM-20 includes a user-optional software data protection mode that further enhances Xicor’s hardware write protect capability.Some Core Parameters of the Module:SPECIAL FEATURES :●150ns Access Time.●Single 5V Supply.●Low Power CMOS – Active Current Max. 60mA.●64 Byte Page Write Operation.●Byte Write Cycle: 5ms Typical.●Complete Memory Rewrite: 0.625sec.How it Uses in the work:NE555 Pinout Connections:PIN DESCRIPTIONS:Addresses (A0–A12):The Address inputs select an eight -bit memory location during a read or write operation.Chip Enable (CE):The IC Enable input must be LOW to enable all read/ write operations. When CEis HIGH, power consumption is reduced.Output Enable (OE):The Output Enable input controls the data output buffers and is used to initiate read operations.Data In/Data Out (I/OO –I/O7):Data is written to or read from the X28C64 through the Input or Output pins.Write Enable (WE):The Write Enable input controls the writing of data to the X28C64.●VCC: +5V Power Supply.●VSS: Ground Power Supply.●NC: No Connect.Function Diagram:
DescriptionE2PROM (EEPROM) stands for Electrically Erasable Programmable Read Only Memory. It is no volatile memory which means it can keep data even after the power is turned OFF, but still it can be erased and reprogrammed. Flash memory is a type of EEPROM but designed for high speed and data density.X28C64JM20 is an 8K x 8 EEPROM. This IC is Xicor’s intellectual proprietary. This device is no volatile memory with device operating at 5 V. Xicor’s devices are designed for high performance and reliability, inherent data retention for the Xicor’s devices is near hundred years.Pin DescriptionIC X28C64JM20 is available in 32 lead PLCC configuration, however IC is available in TSOP, plastic DIP, CERDIP, Flat pack and SOIC configurations. Pin NumberPin NameDescription3-11, 27-29A0–A12Address Inputs13-15, 18-22, 24I/O0–I/O7Data Input/Output31WEWrite Enable23CEChip Enable25OEOutput Enable32VCC+5V16VSSGround1, 2, 12, 17, 30NCNo ConnectIC Electrical Characteristics/ SpecificationsElectrical characteristics of the IC X28C64JM20is given below in a table.ParameterDescriptionValueIccVCC current (Active) (for TTL inputs)30 – 60mAISB1VCC Current (Standby) (for TTL Inputs)1 – 2mAISB2VCC Current (Standby) (for CMOS inputs)100 – 200μAILIInput leakage current10μAILOOutput leakage current10μAVILLow Input voltage-1 – 0.8VVIHHigh Input voltage2 - VCC +1VVOLOutput low voltage0.4VVOHOutput high voltage2.4VTemperature under Bias–10℃to +85℃Storage Temperature–65℃to +150℃Working PrincipleIC X28C64JM20 is nonvolatile memory, which can be erased or written electronically. Read operation of the device is initiated by OE and CE pin and same pins are used to terminate the read operation. Write operations are initiated by CE and WE pins and same pins plays role for terminating the write operation. ApplicationsEEPROM is used in following applications●Key less entry systems●Control systems●Integrated controller applicationsPassword Entry SystemCircuit diagram of a password entry system is shown in figure below. Password is separately stored in the EEPROM, when a user wants to open the lock by applying the password controller will retrieve the password that is stored in the EEPROM and compare it with the one that is in microcontroller. If tow password matches it will produce the desired logic (High or Low)
The Integrated Circuit TOP256YN is a lower system cost and higher design flexibility operational IC. It is used for the off-line switcher and eco smart enhanced power technology and respective power switching applications. No heat sink and other variable properties are configured for the IC as it has low thermal impedance junction temperature of 2 Degree Celsius. The underline voltage or under voltage (UV) detects the prevention of turn-off glitches and line over voltage (OV) to the surge limit of the integrated circuit. Accurate hysteric and thermal shut down function automatically recovers without resetting. The fully integrated soft-start for minimum power stress and functional operation use the drain pins to improve field reliability of the integrated circuit chip. TOP256YN Key Features: 1.Signal grounded and optimised field effect connection 2.Accurate programmable current limit 3.Half frequency option for video applications 4.It allows both primary and secondary sensing elemts 5.Ultra-height low power adapters Pinout and layout configuration of TOP256YN: The pinout configuration of the IC is shown in the figure below with respective terminal characteristics and description pinout configurationFunctional block diagram of TOP256YN: The basic functional diagram of the IC is shown in the figure below with respective pinout configuration and functional details. TOP256YN functional block diagramApplications of TOP256YN: As shown in the figure below it is used in DLP projector electronic applications. Apart from the projector applications it is also used in variety if engineering applications. TOP256YN DLP Projector application1.Use in power amplification circuits 2.DLP projector 3.Variable modulation circuits If you are unable to find the IC TOP256YN then you can also get the replacement, substitute or an alternative of the IC which shows similar functional and thermal benefits of the IC. The equivalent part number: TOP258PN, TOP253, TOP254Conclusion: The Integrated Circuit is used for the industrial and power switching electronic circuits because of the fast driving and over voltage loading applications. The IC shows good features and benefits for electronic and electrical applications.
Features● Complementary NPN-PNP devicesApplications● Power linear and switchingDescriptionThe device is manufactured in Planar technology with “Base Island” layout. The resulting transistor shows exceptional high gain performance coupled with very low saturation voltage. The PNP type is BD244C.
Product OverviewCD40106BE consists of six Schmitt-trigger circuits. Each circuit functions as an inverter with Schmitt-trigger action on the input. The trigger switches at different points for positive- and negative-going signals. The difference between the positive-going voltage (VP) and the negative-going voltage (VN) is defined as hysteresis voltage (VH).● Schmitt trigger action with no external components● Hysteresis voltage typ. at 0.9V at VDD = 5V, 2.3V at VDD = 10V, and 3.5V at VDD = 15V● Noise immunity greater than 50%● No limit on input rise and fall times● Standardised, symmetrical output characteristics● 100% tested for quiescent current at 20sV● Maximum input current of 1μA at 18 V over full package temperature range; 100nA at 18V and 25°C● Low VDD to VSS current during slow input rampApplications● Clock Timing, Consumer Electronics, Embedded Design Development, Multimedia