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    74LS04 GATE AND Search Results

    74LS04 GATE AND Result Highlights (6)

    Part ECAD Model Manufacturer Description Download Buy
    TB67H481FTG Toshiba Electronic Devices & Storage Corporation Stepping and Brushed Motor Driver /Bipolar Type / Vout(V)=50 / Iout(A)=3.0 / IN input type / VQFN32 Visit Toshiba Electronic Devices & Storage Corporation
    TLP5702H Toshiba Electronic Devices & Storage Corporation Photocoupler (Gate Driver Coupler), High-Topr / IGBT driver, 5000 Vrms, SO6L Visit Toshiba Electronic Devices & Storage Corporation
    TLP5705H Toshiba Electronic Devices & Storage Corporation Photocoupler (Gate Driver Coupler), High-Topr / IGBT driver, 5000 Vrms, SO6L Visit Toshiba Electronic Devices & Storage Corporation
    7UL2T125FK Toshiba Electronic Devices & Storage Corporation One-Gate Logic(L-MOS), Buffer, SOT-765 (US8), -40 to 85 degC Visit Toshiba Electronic Devices & Storage Corporation
    7UL2T126FK Toshiba Electronic Devices & Storage Corporation One-Gate Logic(L-MOS), Buffer, SOT-765 (US8), -40 to 85 degC Visit Toshiba Electronic Devices & Storage Corporation
    7UL1G07FU Toshiba Electronic Devices & Storage Corporation One-Gate Logic(L-MOS), Non-Inverter Buffer (Open Drain), USV, -40 to 85 degC Visit Toshiba Electronic Devices & Storage Corporation

    74LS04 GATE AND Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    74LS04 Hex Inverter Gate function table

    Abstract: 74LS04 74ls04 dip 74LS04 gate and 74LS04 circuit diagram with voltage 74ls04 data sheet 74ls04 hex inverter 74LS04 ttl Datasheet of 74LS04 SL74HCU04
    Text: SL74HCU04 Hex Unbuffered Inverters High-Performance Silicon-Gate CMOS The SL74HCU04 is identical in pinout to the 74LS04. This contain six independent unbuffered inverters. These inverters are well suited for use as oscillators, pulse shapers and in many other applications


    Original     		PDF SL74HCU04 SL74HCU04 74LS04. 74LS04 Hex Inverter Gate function table 74LS04 74ls04 dip 74LS04 gate and 74LS04 circuit diagram with voltage 74ls04 data sheet 74ls04 hex inverter 74LS04 ttl Datasheet of 74LS04

    74LS04

    Abstract: 74LS04 function table in74hcu04an
    Text: IN74HCU04A IN74HCU04A Hex Unbuffered Inverters High-Performance Silicon-Gate CMOS The IN74HCU04A is identical in pinout to the 74LS04. This contain six independent unbuffered inverters. These inverters are well suited for use as oscillators, pulse shapers and in many other applications requiring


    Original     		PDF IN74HCU04A IN74HCU04A 74LS04. 012AB) 74LS04 74LS04 function table in74hcu04an

    74LS04

    Abstract: 74LS04 Hex Inverter Gate function table IN74HCU04 IN74HCU04D IN74HCU04N
    Text: TECHNICAL DATA IN74HCU04 Hex Unbuffered Inverters High-Performance Silicon-Gate CMOS The IN74HCU04 is identical in pinout to the 74LS04. This contain six independent unbuffered inverters. These inverters are well suited for use as oscillators, pulse shapers and in many other applications


    Original     		PDF IN74HCU04 IN74HCU04 74LS04. 74LS04 74LS04 Hex Inverter Gate function table IN74HCU04D IN74HCU04N

    hcu04

    Abstract: 74LS04 Hex Inverter Gate function table 14 HCU04 74LS04 74LS04 not gate KK74HCU04A KK74HCU04AD KK74HCU04AN 74ls04 power dissipation
    Text: KK74HCU04A KK74HCU04A Hex Unbuffered Inverters High-Performance Silicon-Gate CMOS The KK74HCU04A is identical in pinout to the 74LS04. This contain six independent unbuffered inverters. These inverters are well suited for use as oscillators, pulse shapers and in many other applications requiring


    Original     		PDF KK74HCU04A KK74HCU04A 74LS04. 012AB) hcu04 74LS04 Hex Inverter Gate function table 14 HCU04 74LS04 74LS04 not gate KK74HCU04AD KK74HCU04AN 74ls04 power dissipation

    80C167* microcontroller

    Abstract: 74LS04 NOT gate CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION SAB 80C167 Difference between LS, HC, HCT devices an 17850 transistor 2N2222 SMD 2n2222 smd truth 74ls04 sab 1077 application
    Text: Application Note 73 Vishay Semiconductors High-Speed/Logic Gate Optocoupler SFH67XX Series INTRODUCTION The new SFH67XX series of high-speed optocouplers is capable of transmitting data rates up to 5 Mb/s typical and 2.5 Mb/s over the full specified operating temperature range.


    Original     		PDF SFH67XX SFH6700/19 whic10 MAX525 SFH6701/11 MAX873 74HCT04 24-Apr-08 80C167* microcontroller 74LS04 NOT gate CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION SAB 80C167 Difference between LS, HC, HCT devices an 17850 transistor 2N2222 SMD 2n2222 smd truth 74ls04 sab 1077 application

    Application Note 73

    Abstract: 83701 74LS04 NOT gate 74LS04 NOT gate 74LS04 truth 74ls04 74LS04 gate and 74LS04 truth table how to interface microcontroller to optocoupler TTL 74LS04
    Text: VISHAY SEMICONDUCTORS www.vishay.com Optocouplers and Solid-State Relays Application Note 73 High-Speed/Logic Gate Optocoupler SFH67XX Series INTRODUCTION The new SFH67XX series of high-speed optocouplers is capable of transmitting data rates up to 5 Mb/s typical and


    Original     		PDF SFH67XX SFH6700/19 74HCT04* SFH6701/11 74HCT04 29-Nov-11 Application Note 73 83701 74LS04 NOT gate 74LS04 NOT gate 74LS04 truth 74ls04 74LS04 gate and 74LS04 truth table how to interface microcontroller to optocoupler TTL 74LS04

    ND transistor

    Abstract: 74ls04 LED Light circuits diagram CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION transistor 2N2222 SMD Infineon 80C167 74ls04 LED Light circuits 80C167* microcontroller 74LS04 truth table Difference between LS, HC, HCT devices Q12N2222
    Text: High Speed/Logic Gate Optocoupler SFH67XX Series Appnote 73 1. Introduction The new SFH67XX series of high speed optocoupler is capable of transmitting data rates up to 5 Mb/s typically and 2.5 Mb/s over full temperature range (guaranteed). The combination of low input current (1.6 mA) and active logic


    Original     		PDF SFH67XX SFH6700/19 SFH6705 74HCT04* MAX525 SFH6701/11 74HCT04 ND transistor 74ls04 LED Light circuits diagram CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION transistor 2N2222 SMD Infineon 80C167 74ls04 LED Light circuits 80C167* microcontroller 74LS04 truth table Difference between LS, HC, HCT devices Q12N2222

    SAB 80C167

    Abstract: 80C167* microcontroller 74ls04 connection circuits 74LS04 NOT gate 80c167 TTL 74LS04 propagation delay NOT gate 74LS04 SFH6732 CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION 17853 mosfet
    Text: VISHAY Vishay Semiconductors High Speed/Logic Gate Optocoupler SFH67XX Series (Appnote 73) 1. Introduction The new SFH67XX series of high speed optocoupler is capable of transmitting data rates up to 5 Mb/s typically and 2.5 Mb/s over full temperature range (guaranteed).The combination of low input current


    Original     		PDF SFH67XX SFH6700/19 74HCT04* MAX525 SFH6701/11 MAX873 74HCT04 SAB 80C167 80C167* microcontroller 74ls04 connection circuits 74LS04 NOT gate 80c167 TTL 74LS04 propagation delay NOT gate 74LS04 SFH6732 CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION 17853 mosfet

    74ls04 LED Light circuits

    Abstract: CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION 74ls04 LED Light circuits diagram transistor 2N2222 SMD 74LS04 truth table 74LS04 NOT gate Difference between LS, HC, HCT devices ND transistor 74LS04 circuit diagram with voltage Q12N2222
    Text: High Speed/Logic Gate Optocoupler SFH67XX Series Appnote 73 1. Introduction The new SFH67XX series of high speed optocoupler is capable of transmitting data rates up to 5 Mb/s typically and 2.5 Mb/s over full temperature range (guaranteed). The combination of low input current (1.6 mA) and active logic


    Original     		PDF SFH67XX SFH6700/19 SFH6705 13/SCLK 74HCT04* MAX525 74ls04 LED Light circuits CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION 74ls04 LED Light circuits diagram transistor 2N2222 SMD 74LS04 truth table 74LS04 NOT gate Difference between LS, HC, HCT devices ND transistor 74LS04 circuit diagram with voltage Q12N2222

    74LS04

    Abstract: Datasheet of 74LS04 TTL 74ls04 74LS04 TTL 74ls04 datasheet 74LS04 not gate 74ls04 not 74ls04 data sheet 74LS04 gate and data sheet 74ls04
    Text: ® DMS APPLICATION NOTE Decimal Point Drivers The most common technique for activating a single decimal point is simply tieing its activation pin to ground. In most situations, only one decimal point is used because the display reading represents only one parameter. However, some applications require


    Original     		PDF DMS-40PC-X-RL 74LS04 Datasheet of 74LS04 TTL 74ls04 74LS04 TTL 74ls04 datasheet 74LS04 not gate 74ls04 not 74ls04 data sheet 74LS04 gate and data sheet 74ls04

    74LS04 NOT gate

    Abstract: NOT gate 74LS04 74LS04 74LS04 gate and TTL 74LS04 DMS-30PC TTL 74ls04 data 74ls04 not of 74LS04 "Rotary Switch"
    Text: ® DMS APPLICATION NOTE Decimal Point Drivers The most common technique for activating a single decimal point is simply tieing its activation pin to ground. In most situations, only one decimal point is used because the display reading represents only one parameter. However, some applications require


    Original     		PDF S-40PC-X-RL 74LS04 NOT gate NOT gate 74LS04 74LS04 74LS04 gate and TTL 74LS04 DMS-30PC TTL 74ls04 data 74ls04 not of 74LS04 "Rotary Switch"

    2N3904 TRANSISTOR using darlington amplifier

    Abstract: crystal 20Mhz of 2n3904 10mhz crystal oscillator 74LS04 as colpitts oscillator 74LS04 LT1034 20MHz quartz crystal crystal oscillator 4049 LT1011
    Text: Application Note 12 October 1985 Circuit Techniques for Clock Sources Jim Williams Almost all digital or communication systems require some form of clock source. Generating accurate and stable clock signals is often a difficult design problem. Quartz crystals are the basis for most clock sources. The


    Original     		PDF 50ppm an25fa AN12-8 2N3904 TRANSISTOR using darlington amplifier crystal 20Mhz of 2n3904 10mhz crystal oscillator 74LS04 as colpitts oscillator 74LS04 LT1034 20MHz quartz crystal crystal oscillator 4049 LT1011

    74ls08n

    Abstract: 74ls04n 74LS14N 74LS07N 74LS05N 74LS11N 74ls06n 74LS02N IC 74LS14 74ls04 hex inverter
    Text: Standard Logic Call us to see if you can save 10-20%. 74F Series Continued – General purpose family of high speed advanced bipolar logic DIP SOIC Save Up To 20% When Purchasing Texas Instruments Products. Save Up To 30%! Jameco Value Offering Jameco now offers two ways to save! Our selection of Texas Instruments products will save you


    Original     		PDF 74LS14N* 74ls08n 74ls04n 74LS14N 74LS07N 74LS05N 74LS11N 74ls06n 74LS02N IC 74LS14 74ls04 hex inverter

    hp 2503

    Abstract: HP 450 optocoupler HP optocoupler 2503 TTL gate not 7404 CI 7404 7404 not gate 74ls04 data sheet sample 74LS04 7404 ttl 74ls04 dip
    Text: HCPL-2503 Single Channel, High Speed Logic Interface Optocoupler Data Sheet Lead Pb Free RoHS 6 fully compliant RoHS 6 fully compliant options available; -xxxE denotes a lead-free product Description Features The HCPL-2503 optocoupler is specified for use in LSTTLto-LSTTL and TTL-to-LSTTL logic interfaces. A nominal


    Original     		PDF HCPL-2503 HCPL-2503 AV02-0520EN hp 2503 HP 450 optocoupler HP optocoupler 2503 TTL gate not 7404 CI 7404 7404 not gate 74ls04 data sheet sample 74LS04 7404 ttl 74ls04 dip

    Untitled

    Abstract: No abstract text available
    Text: 95000 PA4101 PUNK with µP Supervisor ANALOG PRODUCTS DIVISION Features General Description • • • • • • • • The PA4101 is a low power monolithic CMOS mixed signal device. Its function is to control power supply transition noise in audio circuits and systems. It requires very few external


    Original     		PDF PA4101 PA4101

    MMBF4856

    Abstract: transistor equivalent 2n5551 BF245 application note MSC2404 MSC1621 74LS04 Fan Out 2n3819 equivalent transistor MMBF5486L bf245 equivalent MPS8093
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA Advance Information MDC3105LT1 Motorola Preferred Device Integrated Relay/Solenoid Driver • Optimized to Switch 3 V to 5 V Relays from a 5 V Rail • Compatible with “TX’’ and “TQ’’ Series Telecom Relays Rated up to


    Original     		PDF Automat218A MSC1621T1 MSC2404 MSD1819A MV1620 MV1624 MV1636 MV1640 MV1642 MV1644 MMBF4856 transistor equivalent 2n5551 BF245 application note MSC1621 74LS04 Fan Out 2n3819 equivalent transistor MMBF5486L bf245 equivalent MPS8093

    68HC24

    Abstract: 14049UB mc14000 series 74LS240-74HC240 74LS04 Hex Inverter Gate function table 74LS04 NOT gate MC14049 IC AN1102 motorola AN1102-D CMOS IC 4069UB
    Text: by AN1102/D MOTOROLA SEMICONDUCTOR APPLICATION NOTE AN1102 Interfacing Power MOSFETs to Logic Devices Prepared by Ken Berringer Motorola Discrete Applications POWER MOSFET DRIVE CHARACTERISTICS Power M OSFETs are commonly used in switching applica­ tions due to their fast switching speeds and low static losses.


    OCR Scan     		PDF AN1102/D AN1102 25178T AN1102/D 68HC24 14049UB mc14000 series 74LS240-74HC240 74LS04 Hex Inverter Gate function table 74LS04 NOT gate MC14049 IC AN1102 motorola AN1102-D CMOS IC 4069UB

    Z80h

    Abstract: TDA 718 z80b 74LS74 timing diagram Z80B-CPU Z850 74ls74 timing setup hold z80a cpu Z850D 74LS164M
    Text: A p p l ic a t io n N o t e <£ZiI£3G INTERFACING Z80 CPUS TO THE Z8500 P e rip h e ra l fa m ily INTRODUCTION Data Bus Signals The Z8500 Family consists of universal peripherals that can interface to a variety of microprocessor systems that use a non-multiplexed address and


    OCR Scan     		PDF Z8500 00-2013-A0) Z8530 Z8536 Z8038 Z80h TDA 718 z80b 74LS74 timing diagram Z80B-CPU Z850 74ls74 timing setup hold z80a cpu Z850D 74LS164M

    CI 74LS04

    Abstract: TCD106C transistor ti41 026c transistor IC - 74LS04 IC 74LS04 E 74LS04 ic 74LS04 logic symbol 74ls04 power dissipation TI-490
    Text: TOSHIBA -CLOGIC/MEMORYD- 90 9 7 24 8 T OS HIB A b7 ^ 1 ^ 0 ^ 7 2 4 0 G D G iS b l L OGIC/MEMORY TCD106C CCD IMAGE SENSOR CCD (Charge Coupled Device) 67C 09561 j/ T-41-55 The TCD106C is a high sensitivity 5000 elements linear image sensor. The sensor is designed for Facsimile, OCR,


    OCR Scan     		PDF TCD106C T-41-55 TCD106C 4D22F 35i00 mX5000) CI 74LS04 transistor ti41 026c transistor IC - 74LS04 IC 74LS04 E 74LS04 ic 74LS04 logic symbol 74ls04 power dissipation TI-490

    740L6000

    Abstract: C2071 C2066 C2057 740L6 740L6010 740L600 740L6001 NE555 led c2065
    Text: APPLICATIONS ANO i | OPERATION OF OPTOLOGIC ——1 OPTOELECTR0»ICS AN3000 INTRODUCTION Since the introduction of the optically coupled isolator, digital design engineers have struggled with the problem of achieving logic-in to logic-out compatibility over temperature, minimizing the effects of LED degradation, and obtaining


    OCR Scan     		PDF AN3000 740L6000 C2071 C2066 C2057 740L6 740L6010 740L600 740L6001 NE555 led c2065

    74ls04 power dissipation

    Abstract: 74ls04 connection circuits 74hct04 74LS04 IC - 74LS04 cmos 74ls04 ic 74LS04 ttl 74LS04 dissipation 74ls04 function of ic 74ls04
    Text: HS-CMOS" M54HCT04 INTEGRATED CIRCUITS mmÊÊÊÊmm PRODUCT PREVIEW HEX INVERTER DESCRIPTION The M 54/74HCT04 is a high speed CM OS IN­ VE R TE R fa b ric a te d in s ilic o n gate C 2MOS technology. It has the same high speed perform ance of LSTTL combined with true CMOS low power consumption.


    OCR Scan     		PDF M54HCT04 M54HCT04 M74HCT04 M54HCT/74HCT 54/74LS04 74ls04 power dissipation 74ls04 connection circuits 74hct04 74LS04 IC - 74LS04 cmos 74ls04 ic 74LS04 ttl 74LS04 dissipation 74ls04 function of ic 74ls04

    74LS82

    Abstract: 74LS176 74LS94 74LS286 74ls150 74LS177 74LS116 74ls198 7400 TTL 74ls521
    Text: GOULD 4055916 GOULD SEMICONDUCTOR SEMICONDUCTOR DIV DIV 03E D | 03E MDSSTlb 09920 D UCICmEU T-4 3I-V 7400 TTL Cells •> GOULD CM OS Gate Array and Standard Cell Library Electronics Features General Description • Over 200 functions available. 7400 TTL Cells, a member of Gould’s EXPERT ASIC


    OCR Scan     		PDF

    ZO125

    Abstract: transistor c373 74HC244 HD74HC273 74hc123 application notes lm 74ls04 74L 74H 74S 3T5T PNP power transistors by hitachi HD74HC04
    Text: Application Note 1. Input Protection Circuit An Si-gate process is applied to Hitachi's high-speed CMOS input protection resistor as shown in Figure 1a , input over­ logic ICs. They have a thinner gate oxide compared to conven­ current flows directly to the power supply and the destruction


    OCR Scan     		PDF HD74BC HD74AC HD74BC! HD74BC245AT ZO125 transistor c373 74HC244 HD74HC273 74hc123 application notes lm 74ls04 74L 74H 74S 3T5T PNP power transistors by hitachi HD74HC04

    74LS04 noise margin

    Abstract: 74LS04 circuit diagram with voltage 74ls04 power dissipation 74ls04 pin diagram 74LS04 cmos 74ls04 74LS04 pinout 74Ls04 dissipation 74LS04 INVERTER CIRCUIT DIAGRAM 2097a
    Text: SANYO SEMICONDUCTOR 12E CORP LC74HCU04WI •'s-'<í^tí>¿áK # d I ? ci ci7 D 7 b o o o a b i a C M O S High-Speed Standard Logic L C 7 4 H C Senes 3034A Hex Inverter Unbuffered 2097A Features • The L C 7 4 H C U 0 4 M consists o f 6 identical unbuffered inverters.


    OCR Scan     		PDF LC74HCÃ 04IVI LC74HC LC74HCU04M 74LS04) 54LS/74LS 10sec LC74HCU04M) 034A-M14IC 74LS04 noise margin 74LS04 circuit diagram with voltage 74ls04 power dissipation 74ls04 pin diagram 74LS04 cmos 74ls04 74LS04 pinout 74Ls04 dissipation 74LS04 INVERTER CIRCUIT DIAGRAM 2097a