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Part : MM74C04N Supplier : ON Semiconductor Manufacturer : Newark element14 Stock : - Best Price : - Price Each : -
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Part : MM74C04M Supplier : Fairchild Semiconductor Manufacturer : Rochester Electronics Stock : 177 Best Price : $1.44 Price Each : $1.77
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Part : MM74C04N Supplier : National Semiconductor Manufacturer : Bristol Electronics Stock : 185 Best Price : $1.1250 Price Each : $3.00
Part : 2J301M-250RG174-C04N Supplier : 2J Antennae Manufacturer : Rutronik Stock : 99 Best Price : $4.48 Price Each : $6.22
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74C04 Datasheet

Part Manufacturer Description PDF Type
74C04 Fairchild Semiconductor QUAD TWO-INPUT NAND GATE HEX INVERTER Scan
74C04 Fairchild Semiconductor Hex Inverter Scan
74C04 N/A Semiconductor Reference and Application Handbook 1978 Scan

74C04

Catalog Datasheet MFG & Type PDF Document Tags

4096ub

Abstract: 74C04 4069UB/74C04/54C04 HEX INVERTER DESCRIPTION - The 4069UB is a general purpose Hex Inverter which has standard Fairchild input and output characteristics. A single-stage design has been used since the output impedance of a single-input gate is not pattern sensitive. The 4096UB is a Direct Replacement for the 74C04/54C04. LOGIC AND CONNECTION DIAGRAM DIP (TOP VIEW) VDD R Hai nil rm nói m m -N , Chara 7-122 This Material Copyrighted By Its Respective Manufacturer FAIRCHILD CMOS â'¢ 4069UB/74C04
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OCR Scan
4000B 4069UB fairchild 54C04 fairchild CMOS 4000B series cmos 4069 DELAY32 4069UB/74C04/54C04 74C04/54C04

74C32

Abstract: 74C02 Available Also HARRIS HD-74C00 HD-74C02 HD-74C04 HD-74CO8 HD-74C1I0 HD-74C1I4 HD-74C20 HD-74C30 HD , -74C10 HD-74C04 HD-74C08 HD-74C30 HD-74C32 HD-74C86 HD-74C901 HD-74C902 HD-74C903 HD-74C904 HD
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OCR Scan
HD-74C151 MM74C107 HID-4025 CD40106 MC14584 74C32 74C02 74C89 74C164 74C20 HD-54C/74 HD-74C04 HD-74C42 HD-74C48 HD-74C73 HD-74C74

2N2222 pnp

Abstract: IC free 74C04 inverters and associated components. Each VF output pulse causes a fixed quantity of charge to be , STABILIZING AMP 3 100k 1N914 2 1N4148 1.8k* A 74C04 7 + 470 5V 33k 6 LTC1052 1F COLD JUNCTION TEMPERATURE TRACKING B C D 74C04 74C04 74C04 10k E 74C04 8 , 3300pF ­5V 150k* 5V 74C04 50k 60°C TRIM 5V 16 33k* A CHARGE PUMP LTC1043 , A1 LM307 LT1004 2.5V 74C04 + + 10k 180k 100 22 0.01 ­15V 1N4148 15V
Linear Technology
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2N2222 pnp IC free Vernitron potentiometer 2n2222 -331 2n2222 -331 transistors ultrasonic transducer polaroid AN7-15 AN7-16

74C04

Abstract: MIC94031 Off D G Load +12V 74C04 A Off On Off On B Output Off 0V Off +12V On +8V , G On Off Use "C" version only. "HC" versions not rated to 12V. 74C04 Figure 3
Micrel Semiconductor
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MIC94030 MIC94031 74HC04 P-Channel 1.8V MOSFET MIC94030BM4 MIC94031BM4 MIC94030/94031 MIC94030/1

intel 28F256

Abstract: 74C04 (trace B), stabilizing at about 17V. Pulsing the Vpp command line low causes the 74C04 (trace C) to bias , is the 74C04 output, with trace B showing clean Vpp characteristics. As in Figure 1, spurious Vpp
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OCR Scan
28F256 LT1072 CM55-T13 LT1006 LT1010 intel 28F256 intel 28F256 flash 74C04 application DN17-1

pe-6197

Abstract: 74C04 operation for circuit Figure 5a. The LT1013's output (Trace B) servos around the 74C04's switching , Q1 2N3906 5V 5V 74C04 1k 1k Q3 2N2907 5V 10k INPUT INPUT ­ + 0.01 , Inverter-Based Output Stage with Voltage Gain GATES = 1/6 74C04 Figure 5b. Common Emitter Output Stage with , , which receive complementary drive from the 74C04 based square wave oscillator. A1 supplies power to , 4/6 74C04 13V 1000pF 20k 20k 13k T1 Q1 Q3 2N6533 1N4007 4 28V OUTPUT
Linear Technology
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pe-6197 op amp transistor current booster circuit MJE305 linear an18 12BH7A 2n5160 AN18-15 AN18-16
Abstract: 4069UB/74C04/54C04 HEX INVERTER D E S C R IP TIO N â'" The 4 0 6 9 UB is a general purpose Hex Inverter w h ic h has standard F airchild in p u t and o u tp u t characteristics. A single-stage design has been used since the o u tp u t impedance o f a single-input gate is no t patte rn sensitive. The 4 0 9 6 U B is a D irect Replacem ent fo r the 74C 04/54C 04. LO G IC A N D C O N N E C T IO N D , ly C h a r a c te r is tic s . 7-122 FAIRCHILD CMOS â'¢ 4069UB/74C04/54C04 T Y P IC A L E L E -
OCR Scan

DQ211

Abstract: 74C04 application 16 IN* S: 2 15 5.3 r in 3 1/2MM74C73 1/6 74C04 14 1/6 74C04 14 14 f& W r, 1/6 74C04 J 0
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OCR Scan
DQ211 SILICONIX DG212CJ DG211/212 DG2122 PLUS-40 DG444/445 DG211

dg1u

Abstract: DG211A 74C04 74C04 74C04 +5V O V2 MM74C73 J Q clk KCLR V2 MM74C73 J Q CLK KCLR zr TT O o On +
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OCR Scan
DG212 dg1u DG211A siliconix dg211 15-V DG211CJ DG211DY DG211A/212A P-32167

inverter circuit dc to ac 5V to 1000V

Abstract: 1000v to 2000v vac inverter circuit LT1013's output (Trace B) servos around the 74C04's switching threshold (about 1/2 supply voltage) as it , never be directly driven from low impedance Text Figure 5 uses an RC damper network from the 74C04 inverters to ground to eliminate local oscillations. In that circuit the 74C04's are forced to run in their , Q2, which receive complementary drive from the 74C04 based square wave oscillator. A1 supplies power , generated in similar fashion to Figure 13's circuit. The 74C04 based oscillator furnishes complementary gate
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OCR Scan
inverter circuit dc to ac 5V to 1000V 1000v to 2000v vac inverter circuit transformer inverter ips 12v scr controlled servo amplifier op amp current booster using transistors 2N2219

74C04

Abstract: MIC94031 +8V +12V MIC94030 B G 74C04 2M On Off D Load +12V D * Substrate must be connected to source G Use"C" version only."HC" versions not rated to 12V 74C04 Figure 3
Micrel Semiconductor
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MIC94030BM MICREL SOT marking MIC94030YM4 MIC94031YM4 M9999-071106 MIC94030/MIC94031

4069 CMOS hex inverter

Abstract: 4069 CMOS High Voltage Generator for Low Current Applications. 12 VDC + 220 uf .01 uf .01 uf NPN 220 ohm 10 ohm 1 Meg. 220 uf + 1 Meg. 120 v 4, 1N4004 or similar 220 ohm 10 ohm 12 v + + PNP 74C04 or 4069 CMOS Hex Inverter (A quad nand gate may be used by tying the inputs together.) 10 uf .01 uf ordinary power transformer Here is a simple circuit for generating over 100 volts from a 12 volt source for powering low current devices and experiments
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4069 CMOS hex inverter 4069 CMOS transformer 220 volts CMOS 4069 gate not 4069 inverter 220 Ohms Resistors 2N4401 2N4403

lt1052

Abstract: 74C90 330pF 0.1µF 74C04 10k OUTPUT 1H to 1.25MHz 0.01µF VIN OV TO 5V 10k FULL-SCALE TRIM , 0.1µF 5V 10k 6 LTC1052 3 74C04 5V 100pF 8 + 4 1 0.1µF 0.1µF 0.1µF , CLAMP 470 74C04 8 ­ 1µF 1N4148 1.8k* 5V 7 LTC1052 1N914 100k COLD JUNCTION TEMPERATURE TRACKING 0.1µF 820pF ­ 5V 3300pF 150k* 5V 50k 60°C TRIM 74C04 , U TYPICAL APPLICATIO S Precision Isolation Amplifier 1k* INPUT SIDE OUTPUT SIDE 74C04
Linear Technology
Original
LTC7652 lt1052 74C90 diode bridge LT 405 TC-10-11 44007 TTL 7490 LTC1052/LTC7652

74C901

Abstract: 74C902 -4049 HD-4050 HD-74C02 HD-74C00 HD-74C20 HD-74C10 HD-74C04 HD-74C08 HD-74C30 HD-74C32 HD-74C86 HD
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OCR Scan
HD-80C95 MM74C221 74C901 74C902 74C221 74C904 80C97 Multivibrator 4001 HD-74C173 HD-74C174 HD-74C175 HD-74C192 HD-74C193 HD-74C195

74C04

Abstract: MIC94031 Application SS* S MIC94030 A On Off D G Load +12V 74C04 A Off On Off On B , to 12V. 74C04 Figure 3. Analog Switch Application MIC94030/94031 4 1997 MIC94030
Micrel Semiconductor
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94031

74C151

Abstract: 74C74 Available Also HARRIS HD-74C00 HD-74C02 HD-74C04 HD-74CO8 HD-74C1I0 HD-74C1I4 HD-74C20 HD-74C30 HD
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OCR Scan
HD-74C83 HD-74C107 HD-74C154 74C151 74C74 74C107 74C48 74c157 74C42 HD-74C76 HD-74C85 HD-74C89 HD-74C95

ltc1052

Abstract: 330pF 0.1µF 74C04 10k OUTPUT 1H to 1.25MHz 0.01µF VIN OV TO 5V 10k FULL-SCALE , â'" 1M 6 LTC1052 3 74C04 5V 100pF 8 + 4 2 INPUT â'" 5V 7 â , OPTIONAL INPUT FILTER-AND-OVERLOAD CLAMP 470â"¦ 74C04 8 â'" 1µF COLD JUNCTION TEMPERATURE TRACKING 0.1µF 820pF â'" 5V 3300pF 150k* 5V 50k 60°C TRIM 74C04 5V , '" 74C04 10k 10k 20k ZERO TRIM 1 4 100k* â'" 15V 2N5434 15V 30pF 2N5434 22M
Linear Technology
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lm7411

Abstract: LM741 DG212 S1 +5 V IN1 1/ 2 74C04 74C04 C D1 MM74C73 J S2 Q CLK IN2 K CLR R D2 74C04 S3 R 1/ 2 MM74C73 J IN3 Q CLK D3 K CLR S4 IN4 D4 V
Siliconix
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LM741 lm7411 74175 truth table 70039 AV 74175 7432 pin configuration DG211B/212B LM101A 2N4400 S-52880--R

ci 7432 ttl

Abstract: LM741 +5 V VL DG212 S1 +5 V IN1 1/ 2 74C04 74C04 C D1 MM74C73 S2 J Q CLK IN2 K CLR R D2 74C04 R 1/ 2 S3 MM74C73 IN3 J Q CLK D3 K CLR S4
Temic Semiconductors
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ci 7432 ttl ci 7432 7432 truth table DG212CJ DG212DY TL081 PLUS40 S-44054--R

eprom 92112

Abstract: SPRAGUE 11Z-2003 RESISTOR L1 = PULSE ENGINEERING, INC. #PE-51515 = 1N4148 LT1004 1.2V AN30 F05 = 74C04 Figure 5 , #PE-92108 = 74C04 Figure 18. The Low Quiescent Current Loop Applied to a Buck Converter (8V-16V to 5V , R1* 1M R7 10k 74C04(5) C3 0.005µF LT1071 12VIN FB VC R6 200 A1 1/2 LT1017 , 6 ­ 74C04 LT1020 COMP + *1% METAL FILM RESISTOR GROUND UNUSED 74C04 INPUTS 9
Linear Technology
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eprom 92112 SPRAGUE 11Z-2003 AN3030 MALLORY CAPACITOR CATALOG hp5082-2810 STANCOR 11Z-2003 LTC1044 PE-52645 AN30-43 AN30-44 LT1004-2 2N2222

siliconix dg211

Abstract: 7432 truth table S1 +5 V IN1 1/ 2 74C04 74C04 C D1 MM74C73 J S2 Q CLK IN2 K CLR R D2 74C04 S3 R 1/ 2 MM74C73 J IN3 Q CLK D3 K CLR S4 IN4 D4 V
Temic Semiconductors
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pin configuration of 7432 DG211 Siliconix datasheet 74175 tl081 PIN DIAGRAM E-76363--R

Datasheet of 7490 IC decade counter

Abstract: VDR-307 amplifier, preserving galvanic isolation between the circuit's input and output ports. Three 74C04 gates , -7 Application Note 9 INPUT SIDE 1k* OUTPUT SIDE 10k 74C04 10k 20k ZERO TRIM ­15V 15V 10 , 74C90 ÷10 ÷10 10 1 12 14 2k 74C04 2k 10 1 12 68pF 15V 1N4148 NC NC , 8 330 1k 1 2N2222 POWER 2 DRIVER 74C04 15V 2.2F 1N4148 (4) 20k FLOATING , 2N3904 4 1 0.1F NC Q1 2N2907 8 ­ 470 5V 330pF 0.1F 74C04 10k fOUT
Linear Technology
Original
SP656 Datasheet of 7490 IC decade counter VDR-307 ic 7490 pin diagram SCO-106 ic 7490 Decade Counter data sheet 7490 Decade Counter ICL7652 AN9-20

grid tie inverters circuit diagrams

Abstract: P50N05E S D 1N5817 ­ 6 LT1020 COMP + * = 1% METAL FILM RESISTOR GROUND UNUSED 74C04 , regulator, Trace A, Figure 16) causes the LT1020's comparator to go high. The 74C04 inverter chain switches , 11 1M 200k PRE-REG TRIM 8 · 20 825k* 220k · 70 4 74C04 · 30 , internal comparator to function. Because of this, the circuit needs a start-up mechanism. The 74C04
Linear Technology
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grid tie inverters circuit diagrams P50N05E p50n05 scr preregulator DALE RH-25 lk-343 AD534 LT1012 1N1183 1N916 LT1057 RH-25

DG212CJ

Abstract: 74175 truth table DG212 S1 +5 V IN1 1/ 2 74C04 74C04 C D1 MM74C73 J S2 Q CLK IN2 K CLR R D2 74C04 S3 R 1/ 2 MM74C73 J IN3 Q CLK D3 K CLR S4 IN4 D4 V
Temic Semiconductors
Original
70039 logic diagram of 7432
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