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SN7404NE4 Texas Instruments Hex inverters 14-PDIP 0 to 70 visit Texas Instruments
SN7404D Texas Instruments Hex inverters 14-SOIC 0 to 70 visit Texas Instruments
SN7404DG4 Texas Instruments Hex inverters 14-SOIC 0 to 70 visit Texas Instruments
SN7404DE4 Texas Instruments Hex inverters 14-SOIC 0 to 70 visit Texas Instruments
SN7404DR Texas Instruments Hex inverters 14-SOIC 0 to 70 visit Texas Instruments Buy
SN7404J-00 Texas Instruments TTL/H/L SERIES, HEX 1-INPUT INVERT GATE, CDIP14 visit Texas Instruments

IC 7404

Catalog Datasheet MFG & Type PDF Document Tags

ic 7404

Abstract: specifications of IC 7404 EMI Suppression Effect !Example of IC Protection (VFR3V) " Testing Method 1. Put ESD surge to IC (7404 family) input terminal with ESD simulator based on IEC 801-2. 2. Check IC's operation. 3. If IC's operation is normal, increase ESD voltage in 1kV steps. 4. Continue above steps 1 to 3 till IC's operation , IC ESD Simulator " Result Varistor VFR3V can protect IC from ESD. (Result) Breakdown level [kV] 30 min. 25 20 15 10 5 0 Without VFR3V With use VFR3V LS ALS AS C IC's Family HC
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IC 7404

Abstract: VARISTOR 103 1KV VFR/VFS Series !Example of IC Protection " Testing Method 1. Put ESD surge to IC (7404 family) input terminal with ESD simulator based on IEC 801-2. 2. Check IC's operation. 3. If IC's operation is normal, increase ESD voltage in 1kV step. 4. Continue above steps 1 to 3 till IC's operation become abnormal. [Test Circuit] 330 VFR3V 150pF Test IC ESD Simulator " Result (Result) Break down level [kV , protection of IC. It absorb ESD surge rushed into IC's I/O terminal efficiently. No.1 Pin Indicator (Surge
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IC 7404

Abstract: 2504 varistor (7404 family) input terminal with ESD simulator based on IEC 801-2. 2. Check IC's operation. 3. If IC , Type EMIFILr VFR3V series is designed for ESD surge protection of IC. It efficiently absorbs ESD surges rushed into IC's I/O terminal. 8.0 max. 2.3 max. No.1 Pin Indicator (Surge entrance side , specifications before ordering. C30E.pdf Jun.13,2012 cExample of IC Protection (VFR3V) Test IC ESD Simulator o Result Varistor VFR3V can protect IC from ESD. (Result) Breakdown level [kV] 30 min. 25 20
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VARISTOR 103 1KV

Abstract: specifications before ordering. Noise Suppression Effect of VFR/VFS Series cExample of IC Protection (VFR3V) Test Circuit o Testing Method 1. Put ESD surge to IC (7404 family) input terminal with ESD simulator based on IEC 801-2. 2. Check IC's operation. 3. If IC's operation is normal, increase ESD voltage in 1kV steps. 4. Continue above steps 1 to 3 till IC's operation becomes abnormal. VFR3V , designed for ESD surge protection of IC. It efficiently absorbs ESD surges rushed into IC's I/O terminal
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IC 7404

Abstract: DSS6NF31C223 ROHS . VFR3V series is designed for ESD surge protection of IC. It efficiently absorbs ESD surges rushed into IC's I/O terminal. 5.0 max. 8.0 max. No.1 Pin Indicator (Surge entrance side) s
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7404

Abstract: ic 7404 maximum current conversion). C2 0u1F C1 150pF L1 47uH Q1 FMMT617 1 2 3 U1 7404 4 U2 7404 5 6 U3 7404 D1 Vout ZHSC750 Vcc R3 3k3 TR1 + R2 10k + R1 22k The , operation of the inverters and the transformer imitates the operation of the MAX253 IC and provides an , C4 15uF D2 C3 0u1F ZHSC750 Q2 FMMT617 9 8 U4 7404 R4 3k3 Figure 1 DN 43 -
Zetex Semiconductors
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ZTX618 7404 ic 7404 maximum current 7404 ic applications for ic 7404 transformer 5v 500mA free ic 7404 240KH ZHCS750 RS-485 RS-232

7404 NOT ic

Abstract: 7404 Signetics 7404, LS04, S04 Inverters Hex Inverter Product Specification Logic Products TYPE 7404 74LS04 74S04 TYPICAL PROPAGATION DELAY 10ns 9.5ns 3ns TYPICAL SUPPLY CURRENT (TOTAL , 853-0504 81501 S ignetics Logic Products Product S p e cificatio n Inverters 7404, LS04, S04 , 4, 1985 5-16 Signetics Logic Products P roduct S pecification Inverters 7404, LS04 , temperature range unless otherwise noted.) 7404 74LS04 Max Min 2.7 0.4 Typ2 3.4 0.35 0.25 -1 .5 0.5 0.4 -1 .5
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7404 NOT ic 7404 ic pin configuration 74LS 7404 IC TTL 7404 IC 7404 INVERTER IC 7404 hex inverter N7404N N74LS04N N74S04N N74LS04D N74S04D F07S70S

specifications of IC 7404

Abstract: 7404 NOT ic Signetics I 7404, LS04, S04 Inverters Hex Inverter Product Specification Logic Products TYPE 7404 74LS04 74S04 TYPICAL PROPAGATION DELAY 10ns 9.5ns 3ns TYPICAL SUPPLY CURRENT , 81501 Signetics Logic Products P roduct S pecification Inverters 7404, LS04, S04 , Inverters 7404, LS04, S04 DC ELECTRICAL CHARACTERISTICS IE 9 I (Over recommended operating free-air temperature range unless otherwise noted.) 7404 74L.S04 Max Min 2.7 0.4 Typ 2 3.4 0.35 0.25 -1 .5
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specifications of IC 7404 lm 7404 7404 pin configuration lm 7404 and pin configuration not 7404 pin configuration of ic 7404

TTL 7404

Abstract: ic ttl 7404 IC ESD TTL Vcc-GND 10 7 Gate DUT 10 6 10 IC TTL 7404 5 10 GND 4 Vcc AVR-M2012C120MB6AB AVR-M1608C120MB6AB GND IC TTL 7404 10 3 0 5 10 ESD , 0.01 5 601 B 1MHz1Vrms 36 pF 6ESD 7IC 5 IC IEC61000-4-2 6 IC HBM : Human Body Model 20kV 30kV 30kV100 7 ESD A ESD , / div 50 ESD ESS-630A IC 8 8 1005 2 AV DVD-ROM
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AVR-M1608C080M AVR-M1608C120MT2AB AVR-M1005C270MAAB AVR-M1608C270MAAB TTL 7404 AVR-M1608C270M ABB ic 7404 datasheet TDK AVR-M1608C270K TTL ic 7404 AVR-M1005 AVR-M1608 AVR-M1005C080M AVR-M1608C180M AVR-M1005C120M

7404 not gate ic

Abstract: 14 pin ic 7404 IC socket is compatible with the ADSP2101 EZ-ICE. Refer to the ADSP-21XX and ADMC201 data sheets , trigger IC and the 74F32 OR gate IC. The OR gate is used so that a reset can be detected from either an , signals are buffered by a 74LS04 HEX buffer IC and brought to the 8-way terminal block, J3. If active low signals are required, direct from the ADMC201, this inverter IC can be bypassed. The buffer can , the ADSP-2101 IC. This connector can be used to interface directly with the evaluation board for the
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7404 not gate ic 14 pin ic 7404 IC 7404 not gate 25c512 14 pin ic 7404 not gate pin DIAGRAM OF IC 7404 ADMC201-LAB AD586 232/422SEL AD7306JN

specifications of IC 7404

Abstract: 7404 not gate ic 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; 5./8 -8%2* ).2)4.* )('(9.7.*? @7*2( A(-* BCD EF=D *,)80%7%/? , LMN$)8.'7,Ic &g $2,*+;%0> *2 O%0 *+;%66> *6 WF%0 K VV e WF%66 K VV e O%66 W*8;Pb-> GAL 1 ',2 EF=D G$$ K ]SSG E$K _MT DP K RLM N$ GFOKYRMG VHa G DP K RLMN$)8.'7,Ic , K LM N$)8.'7,Ic L LHM G DP K RMS N$)8.'7,Ic GA K GO$ min. RHa` LHV G , ] DP K LM N$)8.'7,Ic L hij LHM G RHU G DP K RLM N$ R RHL G DP K RLM N
SEMIKRON
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SK60GAL125 SK60GAR125

7404 not gate

Abstract: 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; ?2,0)8 @A=? *,)80%7%/B $CD *,)80%7%/B EF< # # Typical , *.0/ # 5,(* *2(0-6,2 (0+ .-%7(*.%0 *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; ?2 , . output characteristic, inclusive RCC'+ EE' Fig. 2 Rated current vs. temperature IC = f (Ts) Fig. 3 Typ. turn-on /-off energy = f (IC) Fig. 4 Typ. turn-on /-off energy = f (RG) Fig. 6 Typ. gate , times vs. IC Fig. 8 Typ. switching times vs. gate resistor RG Fig. 10 CAL diode forward
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7404 not gate SK50MLI066

IC 7404 application and use in

Abstract: 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; ?2,0)8 @A=? *,)80%7%/B $CD *,)80%7%/B EF< @0*,/2(*,+ G?$ *,&' , *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; ?2,0)8 @A=? *,)80%7%/B $CD *,)80%7%/B EF , . 2 Rated current vs. temperature IC = f (TC) Fig. 3 Typ. turn-on /-off energy = f (IC) Fig. 4 , © by SEMIKRON SK100MLI066T Fig. 7 Typ. switching times vs. IC Fig. 8 Typ. switching times
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IC 7404 application and use in

DIODE S4 66

Abstract: ,(* *2(0-6,2 (0+ .-%7(*.%0 # # # *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; ?2,0 , , -)2,3 &%40*.0/ # 5,(* *2(0-6,2 (0+ .-%7(*.%0 # # # *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& % , . 2 Rated current vs. temperature IC = f (Ts) Fig. 3 Typ. turn-on /-off energy = f (IC) Fig. 4 , © by SEMIKRON SK100GB066T Fig. 7 Typ. switching times vs. IC Fig. 8 Typ. switching times
SEMIKRON
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DIODE S4 66
Abstract: / # 5,(* *2(0-6,2 (0+ .-%7(*.%0 # # # *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; , + .-%7(*.%0 # # # *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; ?2,0)8 @A=? *,)80%7 , Fig. 1 Typ. output characteristic, inclusive RCC'+ EE' Fig. 2 Rated current vs. temperature IC = f (Ts) Fig. 3 Typ. turn-on /-off energy = f (IC) Fig. 4 Typ. turn-on /-off energy = f (RG) Fig , Typ. switching times vs. IC Fig. 8 Typ. switching times vs. gate resistor RG Fig. 10 CAL diode SEMIKRON
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SK20GD066ET

pj 87 diode

Abstract: diode pj 87 / # 5,(* *2(0-6,2 (0+ .-%7(*.%0 # # # *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; , ?X O TR U$ LEJ JQf I L IR TJ &g ?X O IRJ U$ ® ?X O TR U$ Ic TPQP , (0-6,2 (0+ .-%7(*.%0 # # # *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; ?2,0)8 , ' Fig. 2 Rated current vs. temperature IC = f (TC) Fig. 3 Typ. turn-on /-off energy = f (IC) Fig , DIL © by SEMIKRON SK30GD066ET Fig. 7 Typ. switching times vs. IC Fig. 8 Typ. switching
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pj 87 diode diode pj 87 pj 66 diode PJ+906+lv 0/pj 87 diode
Abstract: 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; ?2,0)8 @A=? *,)80%7%/B $CD *,)80%7%/B EF< # # Typical , (74&.0.4& %:.+, ),2(&.) ; ?2,0)8 @A=? *,)80%7%/B $CD *,)80%7%/B EF< # # Typical Applications* # , Fig. 1 Typ. output characteristic, inclusive RCC'+ EE' Fig. 2 Rated current vs. temperature IC = f (TC) Fig. 3 Typ. turn-on /-off energy = f (IC) Fig. 4 Typ. turn-on /-off energy = f (RG) Fig , Typ. switching times vs. IC Fig. 8 Typ. switching times vs. gate resistor RG Fig. 10 CAL diode SEMIKRON
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SK30MLI066
Abstract: / # 5,(* *2(0-6,2 (0+ .-%7(*.%0 # # # *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; , (74&.0.4& %:.+, ),2(&.) ; ?2,0)8 @A=? *,)80%7%/B $CD *,)80%7%/B EF< @0*,/2(*,+ G?$ *,&',2(*42, - , . 2 Rated current vs. temperature IC = f (Ts) Fig. 3 Typ. turn-on /-off energy = f (IC) Fig. 4 , © by SEMIKRON SK50GD066ET Fig. 7 Typ. switching times vs. IC Fig. 8 Typ. switching times SEMIKRON
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Abstract: / # 5,(* *2(0-6,2 (0+ .-%7(*.%0 # # # *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; , personal. *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; ? )8(00,7@ 8%&%/,0,%4- A.7.)%0 - , /-off energy = f (IC) Fig. 4 Typ. turn-on /-off energy = f (RG) Fig. 6 Typ. gate charge characteristic 3 30-10-2006 DIL © by SEMIKRON SK13GD063 Fig. 7 Typ. switching times vs. IC Fig SEMIKRON
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Abstract: / # 5,(* *2(0-6,2 (0+ .-%7(*.%0 # # # *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; , personal. *82%4/8 +.2,)* )%'',2 9%0+,+ (74&.0.4& %:.+, ),2(&.) ; 5./8 -8%2* ).2)4.* )('(9.7.*? , ' Fig. 3 Typ. turn-on /-off energy = f (IC) Fig. 4 Typ. turn-on /-off energy = f (RG) Fig. 6 Typ , . switching times vs. IC Fig. 8 Typ. switching times vs. gate resistor RG Fig. 10 CAL diode forward SEMIKRON
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SK80GB063
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