The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LTC6991MPS6#TRPBF Linear Technology LTC6991 - TimerBlox: Resettable, Low Frequency Oscillator; Package: SOT; Pins: 6; Temperature Range: -55°C to 125°C
LTC6904HMS8#PBF Linear Technology LTC6904 - 1kHz - 68MHz Serial Port Programmable Oscillator; Package: MSOP; Pins: 8; Temperature Range: -40°C to 125°C
LTC6904HMS8#TR Linear Technology LTC6904 - 1kHz - 68MHz Serial Port Programmable Oscillator; Package: MSOP; Pins: 8; Temperature Range: -40°C to 125°C
LTC6930CDCB-5.00#TRPBF Linear Technology LTC6930-X.XX - 32.768kHz to 8.192MHz Precision µPower Oscillators; Package: DFN; Pins: 8; Temperature Range: 0°C to 70°C
LTC6930CMS8-4.19#PBF Linear Technology LTC6930-X.XX - 32.768kHz to 8.192MHz Precision µPower Oscillators; Package: MSOP; Pins: 8; Temperature Range: 0°C to 70°C
LTC6930HDCB-4.19#PBF Linear Technology LTC6930-X.XX - 32.768kHz to 8.192MHz Precision µPower Oscillators; Package: DFN; Pins: 8; Temperature Range: -40°C to 125°C

ttl crystal oscillator using 74hct04 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1998 - motorola 7805 ACT

Abstract: 7805 5V REGULATOR IC THREE TERMINAL 10K SIP Resistor MC68HC16Z1CFC16 MOTOROLA 78M05 7805 voltage regulator 3v 62256 MAX147BCPP 78M05 pinout u2 7805 regulator IC
Text: tests its RAM. Systems Using 5V Logic For 5V-logic systems, the 74HCT04 translates the MAX147's 3V , ) to set its bus speed. Crystal Y1 is a 32.768kHz frequency reference. The internal oscillator runs , % resistor Maxim MAX147BCPP Maxim MAX872CPA Maxim MAX393CPE Maxim MAX666CPA Maxim MAX495CPA 74HCT04 , . Source code is provided. Order the EV system for comprehensive evaluation of the MAX147 using a , 74HCT04 level translator). Start the MAX147 software on the IBM PC by setting the current directory


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PDF MAX147 MAX147EVKIT-DIP MAX147EVC16-DIP MAX147EVC32-DIP 80C32 motorola 7805 ACT 7805 5V REGULATOR IC THREE TERMINAL 10K SIP Resistor MC68HC16Z1CFC16 MOTOROLA 78M05 7805 voltage regulator 3v 62256 MAX147BCPP 78M05 pinout u2 7805 regulator IC
2001 - 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 Difference between LS, HC, HCT devices 74LS04 truth table Q12N2222
Text: necessary. The SFH67XX series features positive logic with TTL output levels. For improved noise immunity , (valid for Figure 3) (2) Figure 2. Series LED Drive SFH6700/19 VDD 1 NC TTL / R1 Data LS TTL IN LOGIC VCC 8 Out 2 7 Figure 4. Typical Input Current Threshold (Normalized , 0 20 40 60 Temperature, TA (°C) SFH6700/19 1 NC R1 Data IN TTL / CMOS LOGIC 100 , 80 2 3 4 NC SFH6700/19 VCC 8 Out 1 NC 7 R1 VDD VE 6 2 R2 TTL / 3


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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 Difference between LS, HC, HCT devices 74LS04 truth table Q12N2222
2001 - 74ls04 LED Light circuits

Abstract: CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION 74ls04 LED Light circuits diagram 74LS04 truth table transistor 2N2222 SMD 74LS04 NOT gate Difference between LS, HC, HCT devices 74LS04 circuit diagram with voltage ND transistor Q12N2222
Text: necessary. The SFH67XX series features positive logic with TTL output levels. For improved noise immunity , Input Current Threshold (Normalized) vs. Temperature 1 NC TTL / R1 Data LS TTL IN LOGIC , NC R1 VDD Data IN TTL / CMOS LOGIC 2 3 ­40 ­20 VCC 8 Out 7 0 20 40 , 1.10 k 74HCT04 1.10 k Both circuits are simple and feature minimum component count with low , shunt LED drive circuit according to Figure 5, is a good solution. R2 TTL / 3 Data CMOS IN


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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 74LS04 truth table transistor 2N2222 SMD 74LS04 NOT gate Difference between LS, HC, HCT devices 74LS04 circuit diagram with voltage ND transistor Q12N2222
1998 - ttl crystal oscillator using 74hct04

Abstract: 78M05 pinout motorola 7805 ACT socket 2X20 pin 7805 5V REGULATOR IC THREE TERMINAL 62256 sram application note HCT08 -74 IC6 7805 MC68HC16Z1CFC16
Text: and run the file. 6) Systems Using 5V Logic For 5V-logic systems, the 74HCT04 translates the , internal oscillator runs 256 times faster than the external crystal . When the 68HC16 is reset, it waits for , the EV system for comprehensive evaluation of the MAX147 using a personal computer. Order the EV kit , MAX147BCPP Maxim MAX872CPA Maxim MAX393CPE Maxim MAX666CPA Maxim MAX495CPA 74HCT04 Maxim MAX494CPD PC board , do not require the 74HCT04 level translator). 5) Start the MAX147 software on the IBM PC by setting


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PDF MAX147 68HC16 80C32 80C32 ttl crystal oscillator using 74hct04 78M05 pinout motorola 7805 ACT socket 2X20 pin 7805 5V REGULATOR IC THREE TERMINAL 62256 sram application note HCT08 -74 IC6 7805 MC68HC16Z1CFC16
80C167* microcontroller

Abstract: 74LS04 NOT gate SAB 80C167 CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION Difference between LS, HC, HCT devices transistor 2N2222 SMD an 17850 sab 1077 application truth 74ls04 2n2222 smd
Text: where a galvanic insulation is necessary. The SFH67XX series features positive logic with TTL output , NC TTL / R1 Data LS TTL IN LOGIC Out 2 7 Normalized Input Current Threshold (% , VDD Data IN 2 TTL / CMOS LOGIC 3 VCC 8 Out Due to the coupler's typically low , Fig. 3 - Series LED Drive R2 TTL / A good compromise between low power dissipation and , 74LS04 750 74LS04 1.10 k 74HCT04 3 Data CMOS IN LOGIC 4 NC 17854 Out 7


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

Abstract: 80C167* microcontroller 74ls04 connection circuits 80c167 74LS04 NOT gate CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION 17853 mosfet SFH6732 NOT gate 74LS04 TTL 74LS04 propagation delay
Text: , where a galvanic insulation is necessary. The SFH67XX series features positive logic with TTL output , 74LS04 1.10 k 74HCT04 1.10 k Totem Pole Drive Circuits Figures 2 and 3 are two of the most , /19 VDD 1 NC R1 TTL / Data LS TTL IN LOGIC VCC 8 Out 2 7 VE 6 3 GND 4 NC GND 5 17851 Figure 2. Series LED Drive SFH6700/19 1 NC R1 VDD Data IN TTL , TTL / Data CMOS IN LOGIC Out 2 R2 VCC 8 7 VE 6 3 4 NC Data IN 1 NC R1


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PDF SFH67XX SFH6700/19 74HCT04* MAX525 SFH6701/11 MAX873 74HCT04 SAB 80C167 80C167* microcontroller 74ls04 connection circuits 80c167 74LS04 NOT gate CIRCUIT DIAGRAM OF LED LOAD DRIVEN BY TOTEM POLE FOR COMMON CATHODE CONNECTION 17853 mosfet SFH6732 NOT gate 74LS04 TTL 74LS04 propagation delay
2011 - Application Note 73

Abstract: 83701 74LS04 NOT gate truth 74ls04 NOT gate 74LS04 74LS04 gate and 74LS04 80C167* microcontroller TTL 74LS04 how to interface microcontroller to optocoupler
Text: features positive logic with TTL output levels. For improved noise immunity the detector incorporates a , 40 - 20 0 20 40 60 TA - Temperature (°C) 80 100 SFH6700/19 VDD TTL / 1 NC R1 2 3 GND 4 NC VCC 8 Out 7 Data LS TTL IN LOGIC VE 6 GND 5 17851 Fig. 2 - Series LED Drive SFH6700/19 1 NC VDD TTL / CMOS LOGIC VCC 8 Out 7 R1 2 3 4 NC 17853 Data IN VE 6 GND 5 Fig. 4 - Typical Input Current Threshold (Normalized) vs. Temperature SFH6700/19 1 NC VDD TTL / GND


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PDF SFH67XX SFH6700/19 74HCT04* SFH6701/11 74HCT04 29-Nov-11 Application Note 73 83701 74LS04 NOT gate truth 74ls04 NOT gate 74LS04 74LS04 gate and 74LS04 80C167* microcontroller TTL 74LS04 how to interface microcontroller to optocoupler
74HCT04

Abstract: 3v to 5v dc converter 74HCT04 datasheet INDUCTOR 220uH LM339M MBR0530T1 LM339m PIN DIAGRAM capacitor 47uF TANTALUM 74HCT04 Pin Diagram 3V to 5V dc dc converter
Text: using the equation: I BAT = 5.0 I LOAD V BAT VBAT IBAT ILOAD = input supply voltage , 74HCT04 IC performs the level-shifting of the logic signals from the low-voltage side to the high-voltage side. This IC has high-impedance TTL level inputs and CMOS level outputs. Therefore it can be operated , and inductor value. 3. Even lower power supply voltages The 74HCT04 IC cannot be used in , voltages below 2.6V, this part of the circuit will have to be redesigned. The 74HCT04 may be replaced by a


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PDF nAN400-01 nRF0433 N-7075 74HCT04 3v to 5v dc converter 74HCT04 datasheet INDUCTOR 220uH LM339M MBR0530T1 LM339m PIN DIAGRAM capacitor 47uF TANTALUM 74HCT04 Pin Diagram 3V to 5V dc dc converter
2013 - 74HC04DB

Abstract: 74HC04PW 74HC04 for 74hc04 74HC04BQ 74HCT04
Text: 74HCT04 -Q100: TTL level ESD protection: MIL-STD-883, method 3015 exceeds 2000 V HBM JESD22-A114F , 74HC04-Q100; 74HCT04 -Q100 Hex inverter Rev. 2 - 10 April 2013 Product data sheet 1. General description The 74HC04-Q100; 74HCT04 -Q100 is a hex inverter. Inputs also include clamp diodes, this enables , Semiconductors 74HC04-Q100; 74HCT04 -Q100 Hex inverter 3. Ordering information Table 1. Ordering , . Product data sheet Rev. 2 - 10 April 2013 2 of 16 NXP Semiconductors 74HC04-Q100; 74HCT04


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PDF 74HC04-Q100; 74HCT04-Q100 74HCT04-Q100 AEC-Q100 74HC04-Q100: 74HCT04-Q100: 74HC04DB 74HC04PW 74HC04 for 74hc04 74HC04BQ 74HCT04
3v to 5v dc converter

Abstract: 74HCT04 LM339M MAX856 MBR0530T1 N-7075 nRF0433
Text: using the equation: I BAT 5.0 I LOAD K VBAT VBAT IBAT K ILOAD = input supply voltage , 74HCT04 IC performs the level-shifting of the logic signals from the low-voltage side to the high-voltage side. This IC has high-impedance TTL level inputs and CMOS level outputs. Therefore it can be operated , and inductor value. 3. Even lower power supply voltages The 74HCT04 IC cannot be used in , voltages below 2.6V, this part of the circuit will have to be redesigned. The 74HCT04 may be replaced by a


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PDF nAN400-01 nRF0433 N-7075 3v to 5v dc converter 74HCT04 LM339M MAX856 MBR0530T1
2001 - sp8t rf switch

Abstract: No abstract text available
Text: 7. ALL NC PORTS TO BE GROUNDED. TTL Interface Circuit Vcc TTL Control A 5.1V Zener To A 74HCT04 (1/6) 10K Vee Ohm -5 VDC Vcc TTL Control B To B 5.1V Zener 74HCT04 (1/6) 10K Vee Ohm 5.1V Zener TTL Control C Vcc 74HCT04 (1/6) 10K Vee Ohm -5 VDC -5 VDC Note: Control inputs A, B, and C , Isolation: >30 dB@ 6 GHz Low Insertion Loss: 2.4 dB@ 6 GHz Integrated 3:8 TTL Decoder LP4 SMT Package , required logic control lines to three. The switch operates using a negative control voltage of 0/-5 volts


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PDF HMC322LP4 50-Ohm 75-Ohm HMC322LP4 sp8t rf switch
2012 - 74HC04

Abstract: 74HC04PW for 74hc04 74HC-HCT04 74HC04BQ
Text: 74HCT04 -Q100: TTL level ESD protection: MIL-STD-883, method 3015 exceeds 2000 V HBM JESD22-A114F , 74HC04-Q100; 74HCT04 -Q100 Hex inverter Rev. 1 - 12 July 2012 Product data sheet 1. General description The 74HC04-Q100; 74HCT04 -Q100 is a hex inverter. Inputs also include clamp diodes, this enables , Semiconductors 74HC04-Q100; 74HCT04 -Q100 Hex inverter 3. Ordering information Table 1. Ordering , Rev. 1 - 12 July 2012 2 of 15 NXP Semiconductors 74HC04-Q100; 74HCT04 -Q100 Hex inverter


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PDF 74HC04-Q100; 74HCT04-Q100 74HCT04-Q100 AEC-Q100 74HC04-Q100: 74HCT04-Q100: 74HC04 74HC04PW for 74hc04 74HC-HCT04 74HC04BQ
2012 - 74HC04

Abstract: 74HC-HCT04 74HC04DB 74HC04PW for 74hc04 74HC04 equipment 74HC04BQ nxp 74hc04n HCT04 LOGIC CIRCUIT Z148
Text: level For 74HCT04 : TTL level ESD protection: HBM JESD22-A114F exceeds 2000 V MM JESD22-A115-A , 74HC04; 74HCT04 Hex inverter Rev. 4 - 3 August 2012 Product data sheet 1. General description The 74HC04; 74HCT04 is a hex inverter. The inputs include clamp diodes that enable the use of current , 3 0.85 mm NXP Semiconductors 74HC04; 74HCT04 Hex inverter 4. Functional diagram 1 1 , view (1) The die substrate is attached to the exposed die pad using conductive die attach material


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PDF 74HC04; 74HCT04 74HCT04 74HC04: 74HCT04: JESD22-A114F JESD22-A115-A 74HC04N 74HCT04N 74HC04 74HC-HCT04 74HC04DB 74HC04PW for 74hc04 74HC04 equipment 74HC04BQ nxp 74hc04n HCT04 LOGIC CIRCUIT Z148
2012 - Not Available

Abstract: No abstract text available
Text: JESD8-1A  Input levels:  For 74HC04-Q100: CMOS level  For 74HCT04 -Q100: TTL level  ESD , 74HC04-Q100; 74HCT04 -Q100 Hex inverter Rev. 1 — 12 July 2012 Product data sheet 1. General description The 74HC04-Q100; 74HCT04 -Q100 is a hex inverter. Inputs also include clamp diodes , JESD22-A115-A exceeds 200 V (C = 200 pf, R = 0 )  Multiple package options 74HC04-Q100; 74HCT04 , . All rights reserved. 2 of 15 74HC04-Q100; 74HCT04 -Q100 NXP Semiconductors Hex inverter


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PDF 74HC04-Q100; 74HCT04-Q100 74HCT04-Q100 AEC-Q100 74HCns
2007 - HCT04G

Abstract: 74HCT04 74HCT04DR2G 74HCT04DTR2G HCT04 HCT04A LS04
Text: 74HCT04 Hex Inverter With LSTTL-Compatible Inputs High-Performance Silicon-Gate CMOS The 74HCT04 may be used as a level converter for interfacing TTL or NMOS outputs to High-Speed CMOS inputs , · · · Output Drive Capability: 10 LSTTL Loads TTL /NMOS-Compatible Input Levels Outputs Directly Interface to CMOS, NMOS and TTL Operating Voltage Range: 4.5 to 5.5 V Low Input Current: 1.0 mA , : 74HCT04 /D 74HCT04 Pinout: 14-Lead Packages (Top View) VCC A6 Y6 A5 Y5 A4 Y4 14


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PDF 74HCT04 74HCT04 HCT04A SOIC-14 HCT04G HCT04G 74HCT04DR2G 74HCT04DTR2G HCT04 LS04
2012 - Not Available

Abstract: No abstract text available
Text: :  For 74HC04: CMOS level  For 74HCT04 : TTL level  ESD protection:  HBM JESD22-A114F , 74HC04; 74HCT04 Hex inverter Rev. 4 — 3 August 2012 Product data sheet 1. General description The 74HC04; 74HCT04 is a hex inverter. The inputs include clamp diodes that enable the use of , 74HC04; 74HCT04 NXP Semiconductors Hex inverter 4. Functional diagram 1 1 1 1A 1Y , Transparent top view 001aac441 (1) The die substrate is attached to the exposed die pad using


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PDF 74HC04; 74HCT04 74HCT04 74HC04: 74HCT04: JESD22-A114F JESD22-A115-A HCT04
2002 - rf54

Abstract: No abstract text available
Text: MMIC SP6T SWITCH DC - 2.5 GHz TTL Interface Circuit Vcc TTL Control A To A 5.1V Zener 74HCT04 (1/6) 10K Vee Ohm -5 VDC Vcc TTL Control B To B Note: Control inputs A, B, and C can be driven directly with TTL logic with -5 Volts applied to the HCT logic gate Vee and to pin 11 (Vee) of the RF switch. 7 SWITCHES - SMT 5.1V Zener 74HCT04 (1/6) 10K Vee Ohm -5 VDC Vcc TTL Control C 5.1V , -lead SOIC. See positive bias/ TTL SP6T version HMC252QS24. 7 SWITCHES - SMT Electrical Specifications


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PDF HMC172QS24 HMC172QS24 24-lead 74HCT04 rf54
2007 - 74HCT04

Abstract: 74HCT04DR2G 74HCT04DTR2G HCT04 HCT04A LS04 74HCT04 Pin Diagram HCT04g
Text: 74HCT04 Hex Inverter With LSTTL-Compatible Inputs High-Performance Silicon-Gate CMOS The 74HCT04 may be used as a level converter for interfacing TTL or NMOS outputs to High-Speed CMOS inputs , · · · · · · · · · Output Drive Capability: 10 LSTTL Loads TTL /NMOS-Compatible Input Levels Outputs Directly Interface to CMOS, NMOS and TTL Operating Voltage Range: 4.5 to 5.5 V Low , , 2007 - Rev. 1 1 Publication Order Number: 74HCT04 /D 74HCT04 Pinout: 14-Lead Packages (Top


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PDF 74HCT04 74HCT04 HCT04A SOIC-14 74HCT04/D 74HCT04DR2G 74HCT04DTR2G HCT04 LS04 74HCT04 Pin Diagram HCT04g
2013 - 74HCT04

Abstract: 74hct04t 74HCT04 Pin Diagram
Text: 74HCT04 HEX INVERTERS Description The 74HCT04 provides provides six independent inverters with , Supply Voltage Range from 4.5V to 5.5V Pin Compatible with Low Power Schottky (LSTTL) Inputs Are TTL , . 74HCT04 Document number: DS35330 Rev. 3 - 2 1 of 8 www.diodes.com January 2013 © Diodes Incorporated 74HCT04 Pin Descriptions Pin Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Pin Name 1A 1Y 2A 2Y , Table Input A H L Output Y L H 74HCT04 Document number: DS35330 Rev. 3 - 2 2 of 8 www.diodes.com


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PDF 74HCT04 74HCT04 A115-A) 000-V A114-A) C101C) DS35330 74hct04t 74HCT04 Pin Diagram
2003 - 74HCT04

Abstract: for 74hc04 74HC04 74HC04DB 74HC04N APPLICATION 74HCT04 datasheet 74HC04PW DIP14, inverter, high voltage 74HCT04N 74HCT04 Pin Diagram
Text: INTEGRATED CIRCUITS DATA SHEET 74HC04; 74HCT04 Hex inverter Product specification , inverter 74HC04; 74HCT04 FEATURES DESCRIPTION · Complies with JEDEC standard no. 8-1A The 74HC/HCT04 are high-speed Si-gate CMOS devices and are pin compatible with low power Schottky TTL , of the outputs. 2. For 74HC04: the condition is VI = GND to VCC. For 74HCT04 : the condition is VI = , Product specification Hex inverter 74HC04; 74HCT04 ORDERING INFORMATION PACKAGE TYPE NUMBER


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PDF 74HC04; 74HCT04 74HC/HCT04 EIA/JESD22-A114-A EIA/JESD22-A115-A SCA75 613508/03/pp20 74HCT04 for 74hc04 74HC04 74HC04DB 74HC04N APPLICATION 74HCT04 datasheet 74HC04PW DIP14, inverter, high voltage 74HCT04N 74HCT04 Pin Diagram
2002 - Not Available

Abstract: No abstract text available
Text: Circuit Vcc TTL Control A 5.1V Zener To A 74HCT04 (1/6) 10K Vee Ohm -5 VDC Vcc TTL Control B To B 5.1V Zener 74HCT04 (1/6) 10K Vee Ohm -5 VDC Note: Control inputs A and B can be driven directly with TTL , Isolation: 40 dB@ 6 GHz Low Insertion Loss: 1.8 dB@ 6 GHz Integrated 2:4 TTL Decoder LP3 SMT Package GaAs , required logic control lines to two. The switch operates using a negative control voltage of 0/-5V, and , : COPPER ALLOY 2. PLATING: LEAD-TIN SOLDER PLATE 3. CHARACTERS TO BE HELVETICA MEDIUM, .020 HIGH USING


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PDF HMC344LP3 50-Ohm 75-Ohm HMC344LP3
2001 - Not Available

Abstract: No abstract text available
Text: Circuit Vcc TTL Control A 5.1V Zener To A 74HCT04 (1/6) 10K Vee Ohm -5 VDC Vcc TTL Control B To B 5.1V Zener 74HCT04 (1/6) 10K Vee Ohm -5 VDC Note: Control inputs A and B can be driven directly with TTL , Isolation: 40 dB@ 6 GHz Low Insertion Loss: 1.8 dB@ 6 GHz Integrated 2:4 TTL Decoder LP3 SMT Package GaAs , required logic control lines to two. The switch operates using a negative control voltage of 0/-5V, and , : COPPER ALLOY 2. PLATING: LEAD-TIN SOLDER PLATE 3. CHARACTERS TO BE HELVETICA MEDIUM, .020 HIGH USING


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PDF HMC344LP3 50-Ohm 75-Ohm HMC344LP3
2002 - RF-45

Abstract: No abstract text available
Text: SWITCH DC - 2.5 GHz TTL Interface Circuit Vcc TTL Control A To A 5.1V Zener 74HCT04 (1/6) 10K Vee Ohm -5 VDC Vcc TTL Control B To B Note: Control inputs A, B, and C can be driven directly with TTL , SWITCHES - SMT 5.1V Zener 74HCT04 (1/6) 10K Vee Ohm -5 VDC Vcc TTL Control C 5.1V Zener To C 74HCT04 (1/6) 10K Vee Ohm -5 VDC 7 - 32 For price, delivery, and to place orders, please contact , -lead SOIC. See positive bias/ TTL SP6T version HMC252QS24. 7 SWITCHES - SMT Electrical Specifications


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PDF HMC172QS24 HMC172QS24 24-lead 74HCT04 RF-45
IC 74hct04 pin diagram

Abstract: ALH IC 74LS04 Hex Inverter Gate function table lc1235
Text: = 5 V LOW POWER DISSIPATION Ice = 1 |iA (MAX.) AT Ta = 25 "C COMPATIBLE WITH TTL OUTPUTS ViH = 2V , Package) PIN AND FUNCTION COMPATIBLE WITH 54/74LS04 DESCRIPTION The M54/ 74HCT04 is a high speed CMOS , devices are designed to directly interface HSC2MOS systems with TTL and NMOS components. They are also , February 1993 1/4 119 M 54/M 74HCT04 TRUTH TABLE A L H Y H L 1A ·0 ) 1 S U J \ ( 4) \ ( 6 , to 300 mW by 10mW/°C: 65 °C to 85 °C 2/4 rz7 SGS-THOMSON 120 M 54/M 74HCT04 RECOM M


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PDF M54HCT04 M74HCT04 54/74LS04 M54/74HCT04 IC 74hct04 pin diagram ALH IC 74LS04 Hex Inverter Gate function table lc1235
1997 - MC68HC16Z1CFC16

Abstract: 10K SIP Resistor 3FW 94 3FW 59 80C32MOD-ULE-DIP RAM 62256 lcd 2X20 MAX147EVKIT-DIP MAX147EVC32-DIP MAX147
Text: tests its RAM. Systems Using 5V Logic For 5V-logic systems, the 74HCT04 translates the MAX147's 3V , frequency reference. The internal oscillator runs 256 times faster than the external crystal . When the , Maxim MAX666CPA Maxim MAX495CPA 74HCT04 Maxim MAX494CPD PC board Software disk, MAX147 Evaluation , provided. Order the EV system for comprehensive evaluation of the MAX147 using a personal computer. Order , require the 74HCT04 level translator). Start the MAX147 software on the IBM PC by setting the current


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PDF MAX147 10-pin MAX147BCPP MAX872CPA MAX393CPE MAX666CPA MAX495C3? 80C32 MC68HC16Z1CFC16 10K SIP Resistor 3FW 94 3FW 59 80C32MOD-ULE-DIP RAM 62256 lcd 2X20 MAX147EVKIT-DIP MAX147EVC32-DIP
Supplyframe Tracking Pixel