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    74HC00 FAIRCHILD Search Results

    74HC00 FAIRCHILD Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    54ABT245/BRA Rochester Electronics LLC Replacement for Fairchild part number 5962-9214801QRA. Buy from authorized manufacturer Rochester Electronics. Visit Rochester Electronics LLC Buy
    74F403SPC Rochester Electronics LLC Replacement for Fairchild part number 74F403SPC. Buy from authorized manufacturer Rochester Electronics. Visit Rochester Electronics LLC Buy
    54F38/QCA Rochester Electronics LLC Replacement for Fairchild part number 54F38/BCA. Buy from authorized manufacturer Rochester Electronics. Visit Rochester Electronics LLC Buy
    93425ADM/B Rochester Electronics LLC Replacement for Fairchild part number 93425ADMQB. Buy from authorized manufacturer Rochester Electronics. Visit Rochester Electronics LLC Buy
    54ABT245/B2A Rochester Electronics LLC Replacement for Fairchild part number 5962-9214801Q2A. Buy from authorized manufacturer Rochester Electronics. Visit Rochester Electronics LLC Buy

    74HC00 FAIRCHILD Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    Difference between LS, HC, HCT devices

    Abstract: 74hc00 gate 74hc00 equivalent 74hc00 datasheet 74hc00 fairchild 74HC74 application note 74HC00 74hc00 and gates 74HC74S IC 74HC00
    Text: Fairchild Semiconductor Application Note 375 October 1984 To maximize the benefits of high-speed CMOS, you must cope with environmental interactions and component limitations. Especially important are system noise decoupling and both transient and steady-state level control.


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    MM54HC/74HC CD4000 Difference between LS, HC, HCT devices 74hc00 gate 74hc00 equivalent 74hc00 datasheet 74hc00 fairchild 74HC74 application note 74HC00 74hc00 and gates 74HC74S IC 74HC00 PDF

    54HC390

    Abstract: 54HC139 for 74hc04 CD4000 MM74HC 74hc164 74hc00 equivalent 74HC00 25c74 FAIRCHILD MM74HC
    Text: Fairchild Semiconductor Application Note 317 April 1989 When deciding what circuits to use for a design, speed is most often a very important criteria. MM74HC is intended to offer the same basic speed performance as low power Schottky TTL while giving the designer the low power and


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    MM74HC CD4000 MM54C/MM74C 54HC390 54HC139 for 74hc04 CD4000 74hc164 74hc00 equivalent 74HC00 25c74 FAIRCHILD MM74HC PDF

    74HC00

    Abstract: 74hc00 fairchild VHC00 74VHC00 74VHC00M 74VHC00MTC 74VHC00N 74VHC00SJ M14A 74VHC00MTCX
    Text: Revised February 2005 74VHC00 Quad 2-Input NAND Gate General Description Features The VHC00 is an advanced high-speed CMOS 2-Input NAND Gate fabricated with silicon gate CMOS technology. It achieves the high-speed operation similar to equivalent Bipolar Schottky TTL while maintaining the CMOS low


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    74VHC00 VHC00 74HC00 74hc00 fairchild 74VHC00 74VHC00M 74VHC00MTC 74VHC00N 74VHC00SJ M14A 74VHC00MTCX PDF

    74HC00 SN74HC00D 74HC Series IC

    Abstract: 74hc00t quad 74HC04 NOT GATE datasheet 74hc08m 74HC00M 74HC08T 74hc04n TI 74HC00 74hc00 datasheet 74HC04 Toshiba
    Text: 74ABT & 74HC Standard Logic, T.I. & Others Thousands of new ICs are in the pipeline for addition and not shown below. Call us to see if you can save 10-30%. Semiconductors 74ABTXXX CMOS Logic Competitive Cross Reference Guide Family ABT Package DIP SOIC TI


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    74ABT 74ABTXXX SN74ABTXXXN SN74ABTXXXD/DW 74ABTXXXN 74ABTXXXD 74ABTXXXPC 74ABTXXXSC 74HC00 SN74HC00D 74HC Series IC 74hc00t quad 74HC04 NOT GATE datasheet 74hc08m 74HC00M 74HC08T 74hc04n TI 74HC00 74hc00 datasheet 74HC04 Toshiba PDF

    vhc00

    Abstract: 74HC00 tPHL 74hc00 74VHC00 74VHC00M 74VHC00MTC 74VHC00N 74VHC00SJ M14A M14D
    Text: Revised April 1999 74VHC00 Quad 2-Input NAND Gate General Description The VHC00 is an advanced high-speed CMOS 2-Input NAND Gate fabricated with silicon gate CMOS technology. It achieves the high-speed operation similar to equivalent Bipolar Schottky TTL while maintaining the CMOS low


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    74VHC00 VHC00 74HC00 tPHL 74hc00 74VHC00 74VHC00M 74VHC00MTC 74VHC00N 74VHC00SJ M14A M14D PDF

    74HC4020

    Abstract: AN2907 MC9328MXLRM orcad 32KFGB-26 7sz04 CLK32 74AC04 ARM920T MC9328MX1 MC9328MXL
    Text: Freescale Semiconductor Application Note AN2907/D Rev. 0, 01/2005 32 kHz Oscillator Start-up Time and POR Pulse Width Considerations For i.MX Applications Processors with ARM920T by: David Babin 1 Abstract The POR power-on reset pulse into the i.MX series of


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    AN2907/D ARM920T ARM920T, 74HC4020 AN2907 MC9328MXLRM orcad 32KFGB-26 7sz04 CLK32 74AC04 ARM920T MC9328MX1 MC9328MXL PDF

    74HC00

    Abstract: CS5376 CDB5372-76 NC7S14 NC7SZ175
    Text: 09/05/01 Errata: CS5376 Rev. A Reference CS5376 Data Sheet revision DS256PP1 dated Jan ‘01 Introduction The CS5376 is a low power multi-channel digital filter with integrated system peripherals. It uses a coefficient programmable signal processing architecture to provide filtering for up


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    CS5376 DS256PP1 ER256A1 74HC00 CDB5372-76 NC7S14 NC7SZ175 PDF

    74hc00 oscillator circuit

    Abstract: cd40106 application notes CD40106 CD40106 Family specifications CD40106 PIN OUT 74hc00 gate IC 74C14 ic CD40106 CRYSTAL 20 MHZ with 74hc14 74HC374
    Text: By adopting certain techniques in the design of your CMOS-based logic system, you can effect dramatic reductions in the transitional power these zero-quiescent-current devices consume when switching. This article describes ways to reduce the power consumption in logic designs using high-speed CMOS ICs. The


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    MM54HC/74HC an008128 74hc00 oscillator circuit cd40106 application notes CD40106 CD40106 Family specifications CD40106 PIN OUT 74hc00 gate IC 74C14 ic CD40106 CRYSTAL 20 MHZ with 74hc14 74HC374 PDF

    7sz04

    Abstract: 32KFGB-26 pulse stretcher circuit diagram 74HC00 74HC4020 ARM920T CLK32 MC9328MX1 MC9328MXL MC9328MXS
    Text: Freescale Semiconductor Application Note AN2907/D Rev. 0, 01/2005 32 kHz Oscillator Start-up Time and POR Pulse Width Considerations 1 2 3 4 5 6 7 Abstract . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . 2


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    AN2907/D ARM920T ARM920T, 7sz04 32KFGB-26 pulse stretcher circuit diagram 74HC00 74HC4020 ARM920T CLK32 MC9328MX1 MC9328MXL MC9328MXS PDF

    74xx04

    Abstract: 74XX08 74XX00 74xx151 74xx161 TTL 74XX04 CMOS TTL Logic Family Specifications 74xx139 74als power consumption 74XX374
    Text: Fairchild Semiconductor Application Note 319 June 1983 The MM54HC/MM74HC family of high speed logic components provides a combination of speed and power characteristics that is not duplicated by bipolar logic families or any other CMOS family. This CMOS family has operating speeds


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    MM54HC/MM74HC 54LS/74LS) 54ALS/74ALS 54S/74S CD4000 54C/74C, 74xx04 74XX08 74XX00 74xx151 74xx161 TTL 74XX04 CMOS TTL Logic Family Specifications 74xx139 74als power consumption 74XX374 PDF

    MOTOROLA 74HC FAMILY

    Abstract: 54HC an-399 national 74HC AN-393 74hc00 equivalent crosstalk minimization bus inverter CMOS handbook transmission-line AN393
    Text: Fairchild Semiconductor Application Note 393 March 1985 Unlike low-power, metal-gate CMOS, high-speed 54HC/74HC devices readily drive long cable runs and backplanes. While the family maintains CMOS’s traditional noise immunity, you must watch transmission-line effects in such applications.


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    54HC/74HC MOTOROLA 74HC FAMILY 54HC an-399 national 74HC AN-393 74hc00 equivalent crosstalk minimization bus inverter CMOS handbook transmission-line AN393 PDF

    74vhc00

    Abstract: No abstract text available
    Text: 74VHC00 Quad 2-Input NAND Gate Features General Description • High Speed: tPD = 3.7ns typ. at TA = 25°C ■ High noise immunity: VNIH = VNIL = 28% VCC (min.) The VHC00 is an advanced high-speed CMOS 2-Input NAND Gate fabricated with silicon gate CMOS technology. It achieves the high-speed operation similar to


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    74VHC00 VHC00 74VHC00 PDF

    74HC00 ordering information

    Abstract: 74hc00 fairchild vhc00 74HC00 74VHC00 74VHC00M 74VHC00MTC 74VHC00N 74VHC00SJ M14A
    Text: 74VHC00 Quad 2-Input NAND Gate Features General Description • High Speed: tPD = 3.7ns typ. at TA = 25°C ■ High noise immunity: VNIH = VNIL = 28% VCC (min.) The VHC00 is an advanced high-speed CMOS 2-Input NAND Gate fabricated with silicon gate CMOS technology. It achieves the high-speed operation similar to


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    74VHC00 VHC00 74VHC00 74HC00 ordering information 74hc00 fairchild 74HC00 74VHC00M 74VHC00MTC 74VHC00N 74VHC00SJ M14A PDF

    74HC90 Decade Counter

    Abstract: Toshiba 2SK147 YSI 44006 panametrics 74HC90 74C90 NC7504 74HC90 counter 2SK147 toshiba datasheet 74hc90
    Text: Application Note 93 February 2003 Instrumentation Applications for a Monolithic Oscillator A Clock for All Reasons Jim Williams INTRODUCTION Clock Types Oscillators are fundamental circuit building blocks. A substantial percentage of electronic apparatus utilize oscillators, either as timekeeping references, clock sources,


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    AN93-19 AN93-20 an93f 74HC90 Decade Counter Toshiba 2SK147 YSI 44006 panametrics 74HC90 74C90 NC7504 74HC90 counter 2SK147 toshiba datasheet 74hc90 PDF

    schematic diagram inverter 5000w

    Abstract: schematic diagram inverter 5000w USING MOSFET 12v 5000W AUDIO AMPLIFIER CIRCUIT DIAGRAM 5000w audio amplifier circuit diagram 5000w mosfet power amplifier circuit diagram power amplifier 5000W with PCB 5000w power amplifier circuit diagram 5000w two transistor forward converter 5 channels 5000w audio amplifier circuit diagram 5000w power inverter circuit diagram
    Text: LINEAR TECHNOLOGY TECHNOLOG TECHNOLOGY SEPTEMBER 1999 IN THIS ISSUE… Four New Amplifiers Serve Many Applications . 1 Issue Highlights . 2 LTC in the News… . 2 DESIGN FEATURES JFET Op Amps Equal Low Noise


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    100MHz, 300MHz S-191 1-800-4-LINEAR schematic diagram inverter 5000w schematic diagram inverter 5000w USING MOSFET 12v 5000W AUDIO AMPLIFIER CIRCUIT DIAGRAM 5000w audio amplifier circuit diagram 5000w mosfet power amplifier circuit diagram power amplifier 5000W with PCB 5000w power amplifier circuit diagram 5000w two transistor forward converter 5 channels 5000w audio amplifier circuit diagram 5000w power inverter circuit diagram PDF

    minor project proposal on electronics

    Abstract: TL092 AN-643 signal path designer national special function analog and digital circuits
    Text: National Semiconductor Application Note 643 Joe Cocovich April 2001 INTRODUCTION The control and minimization of Electro-Magnetic Interference EMI is a technology that is, out of necessity, growing rapidly. EMI will be defined shortly but, for now, you might be


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    IC Ensemble

    Abstract: soil exploration TL092 74HC00 74HC74 AN-643 C1995 signal path designer 74HC74 schematic application
    Text: INTRODUCTION The control and minimization of Electro-Magnetic Interference EMI is a technology that is out of necessity growing rapidly EMI will be defined shortly but for now you might be more familiar with the terms Radio Noise Electrical Noise or Radio Frequency Interference (RFI) The technology’s explorations include a wide frequency spectrum from


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    20-3A IC Ensemble soil exploration TL092 74HC00 74HC74 AN-643 C1995 signal path designer 74HC74 schematic application PDF

    TL092

    Abstract: AN-643 instrumentation wiring practice terminations receptor digital fm signal path designer
    Text: INTRODUCTION The control and minimization of Electro-Magnetic Interference EMI is a technology that is, out of necessity, growing rapidly. EMI will be defined shortly but, for now, you might be more familiar with the terms Radio Noise, Electrical Noise, or


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    an010562 TL092 AN-643 instrumentation wiring practice terminations receptor digital fm signal path designer PDF

    TL092

    Abstract: AN-643 signal path designer
    Text: National Semiconductor Application Note 643 Joe Cocovich December 1989 INTRODUCTION The control and minimization of Electro-Magnetic Interference EMI is a technology that is, out of necessity, growing rapidly. EMI will be defined shortly but, for now, you might be


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    wheelchair circuit

    Abstract: COP8788 TL092 Abstract schematic power transistor Abstract ignition COP8788EGMH IC Ensemble COP8788E COP888GG 74HC00
    Text: National Semiconductor Application Note 1050 Robin Getz Bob Moeckel August 1996 1 0 ABSTRACT In today’s world with increasing numbers of both fixed and mobile electronic devices electromagnetic compatibility EMC is becoming a critical issue Disastrous if not annoying results occur if a system subsystem or component interferes with another through electromagnetic means The


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    75hc138

    Abstract: 75HC138 7 SEGMENT DISPLAY HCMOS designers guide The IC06 74HC Logic package Specific HC Cmos Logic 74Hcxxx CD 4511 CMOS TTL Logic Family Specifications 74hc245 CI 4017 data sheet ic 4017 7404 not gate ic
    Text: INTEGRATED CIRCUITS DATA SHEET User Guide Product specification Supersedes data of January 1993 File under Integrated Circuits, IC06 1997 Nov 25 Philips Semiconductors Product specification User Guide CONTENTS 1 INTRODUCTION 7 INPUT CIRCUITS 2 CONSTRUCTION


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    74HCT 75hc138 75HC138 7 SEGMENT DISPLAY HCMOS designers guide The IC06 74HC Logic package Specific HC Cmos Logic 74Hcxxx CD 4511 CMOS TTL Logic Family Specifications 74hc245 CI 4017 data sheet ic 4017 7404 not gate ic PDF

    CD4558

    Abstract: NC7S125 MC74F138N HCF4541 Motorola MC74HC251N 74ACT161 DHVQFN-20 74V1G08 SOT323/5 HCF4017 SN74ACT14DR
    Text: Logic Cross-Reference Introduction This Logic Cross-Reference for Buyers, Distribution Specialists and others with an interest in Logic will assist in finding a device made by Texas Instruments that is identical or similar to many of our competitors’ Logic products.


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    74ABT16244 A010203 53001cov SCYB017 CD4558 NC7S125 MC74F138N HCF4541 Motorola MC74HC251N 74ACT161 DHVQFN-20 74V1G08 SOT323/5 HCF4017 SN74ACT14DR PDF

    74HC00N

    Abstract: IC 74HC00N 74hc00 fan-out MM74HC00M 74HC00M
    Text: „ r Revised February 1999 SEMICONDUCTOR TM MM74HC00 Quad 2-Input NAND Gate static discharge by internal diode clam ps to Vc c and General Description The M M 74HC00 NAND gates utilize advanced silicon-gate C M OS tech n olo gy to achieve operating speeds sim ilar to


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    MM74HC00 74HC00 74HC00N IC 74HC00N 74hc00 fan-out MM74HC00M 74HC00M PDF

    74HCoo

    Abstract: 74HC00 74VHC00 74VHC00M 74VHC00MTC 74VHC00N 74VHC00SJ M14A M14D MTC14
    Text: S E M IC O N D U C T O R Revised April 1999 TM 74VHC00 Quad 2-Input NAND Gate as battery backup. This circuit prevents device destruction due to mismatched supply and input voltages. General Description Features • High Speed: tpp = 3.7ns typ at TA = 25°C


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    r21QQQ 74VHC00 74HCoo 74HC00 74VHC00 74VHC00M 74VHC00MTC 74VHC00N 74VHC00SJ M14A M14D MTC14 PDF