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Názov IO TTL - RU značenie -> 74xx - tabuľka
Identifikátor 4060006
Výrobca/Vydal BBE - BB Elektronik
Zaradené Dňa 18.06.2020 01:15:17
Posledná zmena 02.07.2020 16:45:26
Posledné zobraz 07.06.2025 17:53:36
Popularita 219
Popis

Tabuľka IO TTL RU značenie a zodpovedajúce 74XX [ RU → 74XX ]:

RU Latin RU Cyrillic 74XX S F LS ALS H HC HCT N DIP Popis Vstup Výstup Katalógový list
AG1 АГ1 121 74×121 1 14 monostable multivibrator Schmitt-trigger   SN74121
AG3 АГ3 123 74×123 2 16 dual retriggerable monostable multivibrator, clear     SN74123
AG4 АГ4 221 74×221 2 16 dual monostable multivibrator Schmitt-trigger   SN74221
AP АП 640 74×640 1 20 octal bus transceiver, inverting outputs   three-state SN74LS640
AP АП 641 74×641 1 20 octal bus transceiver, non-inverting outputs   open-collector SN74LS641
AP3 АП3 240 74×240 8 20 octal buffer, inverting outputs Schmitt-trigger three-state SN74LS240
AP4 АП4 241 74×241 8 20 octal buffer, non-inverting outputs Schmitt-trigger three-state SN74LS241
AP5 АП5 244 74×244 8 20 octal buffer, non-inverting outputs Schmitt-trigger three-state SN74LS244
AP6 АП6 245 74×245 8 20 octal bus transceiver, non-inverting outputs Schmitt-trigger three-state SN74LS245
GG2 ГГ2 626 74×626 2 16 dual voltage-controlled oscillator, enable control, two-phase outputs analog   SN74LS626
GT1 ГГ1 124 74×124 2 16 dual voltage-controlled oscillator analog   SN74S124
ID1 ИД1 141 74×141 1 16 BCD to decimal decoder/driver for cold-cathode indicator / Nixie tube   open-collector 60 V SN74141
ID3 ИД3 154 74×154 1 24 4-line to 16-line decoder/demul­tiplexer, inverting outputs     SN74154
ID4 ИД4 155 74×155 2 16 dual 2-line to 4-line decoder/demul­tiplexer, inverting outputs     SN74155
ID5 ИД5 156 74×156 2 16 dual 2-line to 4-line decoder/demul­tiplexer, inverting outputs   open-collector SN74156
ID6 ИД6 42 74×42 1 16 BCD to decimal decoder     SN74LS42
ID7 ИД7 138 74×138 1 16 3-line to 8-line decoder/demul­tiplexer, inverting outputs     SN74LS138
ID10 ИД10 145 74×145 1 16 BCD to decimal decoder/driver   open-collector 15 V / 80 mA SN74145
ID14 ИД14 139 74×139 2 16 dual 2 to 4-line decoder/demul­tiplexer, inverting outputs     SN74LS139A
ID18 ИД18 247 74×247 1 16 BCD to 7-segment decoder/driver   open-collector 15 V SN74247
ID19 ИД19 159 74×159 1 24 4-line to 16-line decoder/demul­tiplexer   open-collector SN74159
IE2 ИЕ2 90 74×90 1 14 decade counter (separate divide-by-2 and divide-by-5 sections)     SN74LS90
IE4 ИЕ4 92 74×92 1 14 divide-by-12 counter (separate divide-by-2 and divide-by-6 sections)     SN74LS92
IE5 ИЕ5 93 74×93 1 14 4-bit binary counter (separate divide-by-2 and divide-by-8 sections)     SN74LS93
IE6 ИЕ6 192 74×192 1 16 synchronous presettable up/down 4-bit decade counter, clear     SN74192
IE7 ИЕ7 193 74×193 1 16 synchronous presettable up/down 4-bit binary counter, clear     SN74193
IE8 ИЕ8 97 74×97 1 16 synchronous 6-bit binary rate multiplier     SN7497
IE9 ИЕ9 160 74×160 1 16 synchronous presettable 4-bit decade counter, asynchronous clear     SN74160
IE10 ИЕ10 163 74×163 1 16 synchronous presettable 4-bit binary counter, synchronous clear     SN74163
IE11 ИЕ11 161 74×161 1 16 synchronous presettable 4-bit binary counter, asynchronous clear     SN74161
IE13 ИЕ13 191 74×191 1 16 synchronous presettable up/down 4-bit binary counter     SN74191
IE14 ИЕ14 196 74×196 1 14 presettable 4-bit decade counter/latch     SN74196
IE15 ИЕ15 197 74×197 1 14 presettable 4-bit binary counter/latch     SN74197
IE16 ИЕ16 168 74×168 1 16 synchronous presettable 4-bit up/down decade counter     SN74LS168
IE17 ИЕ17 169 74×169 1 16 synchronous presettable 4-bit up/down binary counter     SN74LS169B
IE18 ИЕ18 162 74×162 1 16 synchronous presettable 4-bit decade counter, synchronous clear     SN74162
IE19 ИЕ19 393 74×393 2 14 dual 4-bit binary counter     SN74LS393
IK2 ИК2 381 74×381 1 20 4-bit arithmetic logic unit/function generator, generate and propagate outputs     SN74LS381A
IK4 ИК4 281 74×281 1 24 4-bit parallel binary accumulator     SN74S281
IM1 ИМ1 80 74×80 1 14 gated full adder     SN7480
IM2 ИМ2 82 74×82 1 14 2-bit binary full adder     SN7482
IM3 ИМ3 83 74×83 1 16 4-bit binary full adder     SN74LS83A
IM5 ИМ5 183 74×183 2 14 dual carry-save full adder     SN74LS183
IM6 ИМ6 283 74×283 1 16 4-bit binary full adder (has carry in function)     SN74283
IM7 ИМ7 385 74×385 4 20 quad serial adder/subtractor     SN74LS385
IP2 ИП2 180 74×180 1 14 9-bit odd/even parity bit generator and checker     SN74180
IP3 ИП3 181 74×181 1 24 4-bit arithmetic logic unit and function generator     SN74LS181
IP4 ИП4 182 74×182 1 16 lookahead carry generator     SN74S182
IP5 ИП5 280 74×280 1 14 9-bit odd/even parity bit generator/checker     SN74LS280
IP6 ИП6 242 74×242 4 14 quad bus transceiver, inverting outputs Schmitt-trigger three-state SN74LS242
IP7 ИП7 243 74×243 4 14 quad bus transceiver, non-inverting outputs Schmitt-trigger three-state SN74LS243
IP8 ИП8 261 74×261 1 16 2-bit by 4-bit parallel binary multiplier     SN74LS261
IP9 ИП9 384 74×384 1 16 8-bit by 1-bit two's complement multipliers     SN74LS384
IR1 ИР1 95 74×95 1 14 4-bit shift register, parallel in, parallel out, serial input     SN74LS95B
IR2 ИР2 91 74×91 1 14 8-bit shift register, serial in, serial out, gated input     SN74LS91
IR5 ИР5 98 74×98 1 16 4-bit data selector/storage register     SN54L98
IR8 ИР8 164 74×164 1 14 8-bit serial-in parallel-out (SIPO) shift register, asynchronous clear, not output latch     SN74164
IR9 ИР9 165 74×165 1 16 8-bit parallel-in serial-out (PISO) shift register, parallel load, complementary outputs     SN74165
IR10 ИР10 166 74×166 1 16 parallel-load 8-bit shift register     SN74166
IR11 ИР11 194 74×194 1 16 4-bit bidirectional universal shift register     SN74194
IR12 ИР12 195 74×195 1 16 4-bit parallel-access shift register     SN74195
IR12 ИР12 199 74×199 1 24 8-bit universal shift register, J-Not-K serial inputs     SN74199
IR13 ИР13 198 74×198 1 24 8-bit bidirectional universal shift register     SN74198
IR15 ИР15 173 74×173 4 16 quad D flip-flop, asynchronous clear   three-state SN74173
IR16 ИР16 295 74×295 1 14 4-bit bidirectional shift register   three-state SN74LS295B
IR22 ИР22 373 74×373 8 20 octal transparent latch   three-state SN74LS373
IR23 ИР23 374 74×374 8 20 octal register   three-state SN74LS374
IR24 ИР24 299 74×299 1 20 8-bit bidirectional universal shift/storage register   three-state SN74LS299
IR25 ИР25 395 74×395 1 16 4-bit cascadable shift register   three-state SN74LS395A
IR26 ИР26 670 74×670 1 16 16-bit register file (4×4)   three-state SN74LS670
IR27 ИР27 377 74×377 1 20 8-bit register, clock enable     SN74LS377
IR28 ИР28 322 74×322 1 20 8-bit shift register, sign extend   three-state SN74LS322A
IR29 ИР29 323 74×323 1 20 8-bit bidirectional universal shift/storage register, synchronous clear   three-state SN74LS323
IR30 ИР30 259 74×259 1 16 8-bit addressable latch     SN74259
IR33 ИР33 573 74×573 1 20 octal D-type transparent latch   three-state SN74ALS573C
IR34 ИР34 873 74×873 2 24 dual 4-bit transparent latch with clear   three-state SN74ALS873B
IR35 ИР35 273 74×273 1 20 8-bit register, asynchronous clear     SN74273
IR37 ИР37 574 74×574 1 20 octal D-type edge-triggered flip-flop   three-state SN74HC574
IR38 ИР38 874 74×874 2 24 dual 4-bit edge-triggered D flip-flops with clear   three-state SN74ALS874
IR40 ИР40 533 74×533 1 20 octal transparent latch, inverting outputs   three-state SN74HC533
IR41 ИР41 534 74×534 1 20 octal register, inverting outputs   three-state SN74HC534
IV1 ИВ1 148 74×148 1 16 8-line to 3-line priority encoder     SN74148
IV2 ИВ2 348 74×348 1 16 8 to 3-line priority encoder   three-state SN74LS348
IV3 ИВ3 147 74×147 1 16 10-line to 4-line priority encoder     SN74147
KP1 КП1 150 74×150 1 24 16-line to 1-line data selector/multi­plexer     SN74150
KP2 КП2 153 74×153 2 16 dual 4-line to 1-line data selector/multi­plexer, non-inverting outputs     SN74153
KP5 КП5 152 74×152 1 14 8-line to 1-line data selector/multi­plexer, inverting output     SN54152A
KP7 КП7 151 74×151 1 16 8-line to 1-line data selector/multi­plexer     SN74151A
KP11 КП11 257 74×257 4 16 quad 2-line to 1-line data selector/multi­plexer, non-inverting outputs   three-state SN74LS257B
KP12 КП12 253 74×253 2 16 dual 4-line to 1-line data selector/multi­plexer   three-state SN74LS253
KP13 КП13 298 74×298 4 16 quad 2-input multiplexer, storage     SN74298
KP14 КП14 258 74×258 4 16 quad 2-line to 1-line data selector/multi­plexer, inverting outputs   three-state SN74LS258B
KP15 КП15 251 74×251 1 16 8-line to 1-line data selector/multi­plexer, complementary outputs   three-state SN74251
KP16 КП16 157 74×157 4 16 quad 2-line to 1-line data selector/multi­plexer, non-inverting outputs     SN74157
KP17 КП17 353 74×353 2 16 dual 4-line to 1-line data selectors/mul­tiplexers, inverting outputs   three-state SN74LS353
KP18 КП18 158 74×158 4 16 quad 2-line to 1-line data selector/multi­plexer, inverting outputs     SN74LS158
KP19 КП19 352 74×352 2 16 dual 4-line to 1-line data selectors/mul­tiplexers, inverting outputs     SN74LS352
LA ЛА 39 74×39 4 14 quad 2-input NAND gate (different pinout than 7438)   open-collector 60 mA SN7439
LA1 ЛА1 20 74×20 2 14 dual 4-input NAND gate     SN74LS20
LA2 ЛА2 30 74×30 1 14 single 8-input NAND gate     SN74LS30
LA3 ЛАЗ 00 74×00 4 14 quad 2-input NAND gate     SN74LS00
LA4 ЛА4 10 74×10 3 14 triple 3-input NAND gate     SN74LS10
LA6 ЛА6 40 74×40 2 14 dual 4-input NAND gate   driver NO=30 SN74LS40
LA7 ЛА7 22 74×22 2 14 dual 4-input NAND gate   open-collector SN74LS22
LA8 ЛА8 01 74×01 4 14 quad 2-input NAND gate   open-collector SN74LS01
LA9 ЛА9 03 74×03 4 14 quad 2-input NAND gate   open-collector SN74LS03
LA10 ЛА10 12 74×12 3 14 triple 3-input NAND gate   open-collector SN74LS12
LA11 ЛА11 26 74×26 4 14 quad 2-input NAND gate   open-collector 15 V SN74LS26
LA12 ЛА12 37 74×37 4 14 quad 2-input NAND gate   driver NO=30 SN74LS37
LA13 ЛА13 38 74×38 4 14 quad 2-input NAND gate   open-collector driver NO=30 SN74LS38
LA16 ЛА16 140 74×140 2 14 dual 4-input NAND   driver 50 Ω SN74S140
LA19 ЛА19 134 74×134 1 16 single 12-input NAND gate   three-state SN74S134
LD1 ЛД1 60 74×60 2 14 dual 4-input expander for 74×23, 74×50, 74×53, 74×55     SN7460
LE ЛЕ 33 74×33 4 14 quad 2-input NOR gate   open-collector driver NO=30 SN74LS33
LE1 ЛЕ1 02 74×02 4 14 quad 2-input NOR gate     SN74LS02
LE2 ЛЕ2 23 74×23 2 16 dual 4-input NOR gate with strobe, one gate expandable with 74×60     SN7423
LE3 ЛЕ3 25 74×25 2 14 dual 4-input NOR gate with strobe     SN7425
LE4 ЛЕ4 27 74×27 3 14 triple 3-input NOR gate     SN74LS27
LE5 ЛЕ5 28 74×28 4 14 quad 2-input NOR gate   driver NO=30 SN74LS28
LE6 ЛЕ6 128 74×128 4 14 quad 2-input NOR gate   driver 50 Ω SN74128
LE7 ЛЕ7 260 74×260 2 14 dual 5-input NOR gate     SN74LS260
LI1 ЛИ1 08 74×08 4 14 quad 2-input AND gate     SN74LS08
LI2 ЛИ2 09 75×08 4 14 quad 2-input AND gate   open-collector SN74LS09
LI3 ЛИ3 11 74×11 3 14 triple 3-input AND gate     SN74LS11
LI4 ЛИ4 15 74×15 3 14 triple 3-input AND gate   open-collector SN74LS15
LI6 ЛИ6 21 74×21 2 14 dual 4-input AND gate     SN74LS21
LI9 ЛИ9 34 74×34 6 14 hex buffer gate     SN74LS34
LL1 ЛЛ1 32 74×32 4 14 quad 2-input OR gate     SN74LS32
LL3 ЛЛ3 136 74×136 4 14 quad 2-input XOR gate   open-collector SN74LS136
LN1 ЛН1 04 74×04 6 14 hex inverter gate     SN74LS04
LN2 ЛН2 05 74×05 6 14 hex inverter gate   open-collector SN74LS05
LN3 ЛН3 06 74×06 6 14 hex inverter gate   open-collector 30 V / 40 mA SN74LS06
LN4 ЛН4 07 74×07 6 14 hex buffer gate   open-collector 30 V / 40 mA SN74LS07
LN5 ЛН5 16 74×16 6 14 hex inverter gate   open-collector 15 V / 40 mA SN7416
LN6 ЛН6 366 74×366 6 16 hex buffer, inverting outputs   three-state SN74HC366
LP4 ЛП4 17 74×17 6 14 hex buffer gate   open-collector 15 V / 40 mA SN7417
LP5 ЛП5 86 74×86 4 14 quad 2-input XOR gate     SN74LS86A
LP8 ЛП8 125 74×125 4 14 quad bus buffer, negative enable   three-state SN74LS125A
LP10 ЛП10 365 74×365 6 16 hex buffer, non-inverting outputs   three-state SN74LS365A
LP11 ЛП11 367 74×367 6 16 hex buffer, non-inverting outputs   three-state SN74LS367A
LP14 ЛП14 126 74×126 4 14 quad bus buffer, positive enable   three-state SN74LS126A
LR1 ЛР1 50 74×50 2 14 dual 2–2-input AND-OR-Invert gate, one gate expandable     SN7450
LR3 ЛР3 53 7453 1 14 2–2–2–2-input AND-OR-Invert gate, expandable     SN7453
LR4 ЛР4 55 74×55 1 14 4–4-input AND-OR-Invert gate, 74H55 is expandable     SN74LS55
LR9 ЛР9 64 74×64 1 14 4–3–2–2-input AND-OR-Invert gate     SN74S64
LR10 ЛР10 65 74×65 1 14 4–3–2–2 input AND-OR-Invert gate   open-collector SN74S65
LR11 ЛР11 51 74×51 2 14 dual 2–2-input AND-OR-Invert gate     SN7451
LR13 ЛР13 54 7454 1 14 2–2–2–2-input AND-OR-Invert gate     SN7454
PC1 ПЦ1 292 74×292 1 16 programmable frequency divider/digital timer     SN74LS292
PP4 ПП4 49 74×49 1 14 BCD to 7-segment decoder/driver   open-collector SN74LS49
PR6 ПР6 184 74×184 1 16 BCD to binary converter   open-collector SN74184
PR7 ПР7 185 74×185 1 16 6-bit binary to BCD converter   open-collector SN74185A
RE2CH РЕ2Х 187 74×187 1 16 1024-bit ROM (256×4)   open-collector SN74187
RE3 РЕ3 188 74×188 1 16 256-bit PROM (32×8)   open-collector SN74S188
RP1 РП1 170 74×170 1 16 16-bit register file (4×4)   open-collector SN74170
RP3 РП3 172 74×172 1 24 16-bit multiple port register file (8×2)   three-state SN74172
RU1 РУ1 81 74×81 1 14 16-bit RAM     SN7481A
RU2 РУ2 89 74×89 1 16 64-bit RAM (16×4), inverted outputs   open-collector SN7489
RU3 РУ3 84 74×84 1 16 16-bit RAM     SN7484A
RU8 РУ8 189 74×189 1 16 64-bit RAM (16×4), inverting outputs   three-state SN74S189
RU9 РУ9 289 74×289 1 16 64-bit RAM (16×4), inverted outputs   open-collector SN74S289
RU10 РУ10 225 74×225 1 20 80-bit FIFO memory (16×5), asynchronous   three-state SN74S225
SP СП 521 74×521 1 20 8-bit comparator, inverting output     SN74ALS521
SP1 СП1 85 74×85 1 16 4-bit magnitude comparator     SN74LS85
TL1 ТЛ1 13 74×13 2 14 dual 4-input NAND gate Schmitt-trigger   SN74LS13
TL2 ТЛ2 14 74×14 6 14 hex inverter gate Schmitt-trigger   SN74LS14
TL3 ТЛ3 132 74×132 4 14 quad 2-input NAND gate Schmitt-trigger   SN74LS132
TM2 ТМ2 74 74×74 2 14 dual D positive edge triggered flip-flop, asynchronous preset and clear     SN74LS74A
TM5 ТМ5 77 74×77 1 14 4-bit bistable latch     SN74LS77
TM7 ТМ7 75 74×75 2 16 4-bit bistable latch, complementary outputs     SN74LS75
TM8 ТМ8 175 74×175 4 16 quad D edge-triggered flip-flop, complementary outputs and asynchronous clear     SN74175
TM9 ТМ9 174 74×174 6 16 hex D flip-flop, common asynchronous clear     SN74174
TR2 ТР2 279 74×279 4 16 quad set-reset latch     SN74279
TV1 ТВ1 72 74×72 1 14 AND gated J-K master-slave flip-flop, asynchronous preset and clear     SN7472
TV6 ТВ6 107 74×107 2 14 dual J-K flip-flop, clear     SN74107
TV9 ТВ9 112 74×112 2 16 dual J-K negative-edge-triggered flip-flop, clear and preset     SN74LS112A
TV10 ТВ10 113 74×113 2 14 dual J-K negative-edge-triggered flip-flop, preset     SN74LS113A
TV11 ТВ11 114 74×114 2 14 dual J-K negative-edge-triggered flip-flop, preset, common clock and clear     SN74LS114A
TV15 ТВ15 109 74×109 2 16 dual J-Not-K positive-edge-triggered flip-flop, clear and preset     SN74109
VA1 ВА1 226 74×226 1 16 4-bit parallel latched bus transceiver   three-state SN74S226
VG1 ВГ1 482 74×482 1 20 4-bit slice expandable control elements     SN74S482
VS1 ВС1 481 74×481 1 48 4-bit slice cascadable processor elements     SN74S481
VŽ1 ВЖ1 630 74×630 1 28 16-bit error detection and correction (EDAC)   three-state SN74LS630

Spracované na základe zdrojov:

Zaujímavé Linky = ( wiki 7400 ) = ( wiki 74xxx ) = ( IO 74xx RVHP prefixy ) = ( IO 74xx -> RU ) = ( IO RU -> 74xx ) = ( ru ТТЛ )  =
Rozcestnik = TTL - LSTTL - STTL - HTTL = podobné / súvisiace produkty = ( ALSTTL 7403 74ALS03 4x2-NAND-OC MH74ALS03 Tesla ) = ( ALSTTL 7405 74ALS05 6xINV MH74ALS05 Tesla ) = ( ALSTTL 7408 74ALS08 4x2-AND MH74ALS08 Tesla ) = ( ALSTTL 74193 74LS193 4CNT MH74ALS193 Tesla ) = ( ALSTTL 7420 74ALS20 2x4NAND MH74ALS20 Tesla ) = ( ALSTTL 74253 2xMUX4-TO-1 74ALS253 KR1533KP12 КР1533КП12 CCCP ) = ( ALSTTL 7430 1xNAND8 74ALS30 KR1533LA2 КР1533ЛА2 CCCP ) = ( ALSTTL 7438 2x2-NAND-OC MH74ALS38 Tesla ) = ( ALSTTL 7440 74ALS40 2x4-NAND MH74ALS40 Tesla ) = ( ALSTTL 7451 2,3AND-NOR 74ALS51 KR1533LR11 КР1533ЛР11 CCCP ) = ( ECL MC10125 4xECL-TTL K500PU125 K500ПУ125 CCCP ) = ( FTTL 7408 74F08 4x2-AND MC74F08N Motorola ) = ( HTTL 7400 74H00 4x2NAND K131LA3 K131ЛАЗ CCCP ) = ( HTTL 7404 74H04 6xINV K131LN1 K131ЛН1 CCCP ) = ( HTTL 7410 74H10 3x3NAND K131LA4 K131ЛА4 CCCP ) = ( HTTL 7420 74H20 2x4NAND K131LA1 K131ЛА1 CCCP ) = ( HTTL 7430 74H30 1x8NAND K131LA2 K131ЛА2 CCCP ) = ( HTTL 7440 74H40 2x4NAND K131LA6 K131ЛА6 CCCP ) = ( HTTL 7455 74H55 2x4AND-NOR K131LR4 K131ЛР4 CCCP ) = ( HTTL 7472 74H72 2xJK-FF K131TV1 K131TВ1 CCCP ) = ( HTTL 7474 74H74 2xD K131TM2 K131TM2 CCCP ) = ( LSTTL 7400 74LS00 4x2NAND K555LA3 K555ЛАЗ CCCP ) = ( LSTTL 7402 74LS02 4x2NOR K555LE1 K555ЛЕ1 CCCP ) = ( LSTTL 7404 74LS04 6xINV K555LN1 K555ЛН1 CCCP ) = ( LSTTL 7405 74LS05 6xINV K555LN2 K555ЛН2 CCCP ) = ( LSTTL 7408 74LS08 4x2-AND SN74LS08N TI ) = ( LSTTL 7410 74LS10 3x3NAND K555LA4 K555ЛА4 CCCP ) = ( LSTTL 74107 74LS107 2xJK K555TV6 K555ТВ6 CCCP ) = ( LSTTL 7411 74LS11 3x3AND K555LI3 K555ЛИ3 CCCP ) = ( LSTTL 74112 74LS112 2xJK K555TV9 K555ТВ9 CCCP ) = ( LSTTL 74123 74LS123 2xMONO-MULT KM555AG3 KM555АГ3 CCCP ) = ( LSTTL 741279 74LS279 4xSR K555TR2 K555TP2 CCCP ) = ( LSTTL 74138 74LS138 3-DEC-8 K555ID7 K555ИД7 CCCP ) = ( LSTTL 7414 74LS14 6xINV K555TL2 K555TЛ2 CCCP ) = ( LSTTL 74145 74LS145 BCD-DEC K555ID10 K555ИД10 CCCP ) = ( LSTTL 7415 74LS15 3x3AND K555LI4 K555ЛИ4 CCCP ) = ( LSTTL 74155 74LS155 2x2-DEC-4 K555ID4 K555ИД4 CCCP ) = ( LSTTL 74165 74LS165 8PISO-REG K555IR9 K555ИР9 CCCP ) = ( LSTTL 74174 74LS174 6xD K555TM9 K555TM9 CCCP ) = ( LSTTL 74175 74LS175 4xD K555TM8 K555TM8 CCCP ) = ( LSTTL 74192 74LS192 4CNT K555IE6 K555ИE6 CCCP ) = ( LSTTL 74193 74LS193 4CNT K555IE7 K555ИE7 CCCP ) = ( LSTTL 7420 74LS20 2x4NAND K555LA1 K555ЛА1 CCCP ) = ( LSTTL 7421 74LS21 2x4AND K555LI6 K555ЛИ6 CCCP ) = ( LSTTL 74251 74LS251 4x2-MUX-1 K555KP15 K555КП15 CCCP ) = ( LSTTL 74253 74LS253 2x4-MUX-1 K555KP12 K555КП12 CCCP ) = ( LSTTL 74257 74LS257 4x2-MUX-1 K555KP11 K555КП11 CCCP ) = ( LSTTL 74258 74LS258 4x2-MUX-1 K555KP14 K555КП14 CCCP ) = ( LSTTL 7427 74LS27 3x3NOR K555LE4 K555ЛE4 CCCP ) = ( LSTTL 74280 74LS280 PARITY K555IP5 K555ИП5 CCCP ) = ( LSTTL 74295 74LS295 4SHIFT-REG K555IR16 K555ИР16 CCCP ) = ( LSTTL 74298 74LS298 4x2-MUX-1 K555KP13 K555КП13 CCCP ) = ( LSTTL 7430 74LS30 1x8NAND K555LA2 K555ЛА2 CCCP ) = ( LSTTL 7430 74LS30 1x8NAND KM555LA2 KM555ЛА2 CCCP ) = ( LSTTL 7432 74LS32 4x2OR K555LL1 K555ЛЛ1 CCCP ) = ( LSTTL 7437 74LS37 2x4-NAND EL74LS37 Elcap ) = ( LSTTL 7437 74LS37 4x2NAND K555LA12 K555ЛА12 CCCP ) = ( LSTTL 74375 74LS375 4xD SN74LS375N TI ) = ( LSTTL 74378 74LS378 6xD SN74LS378N TI ) = ( LSTTL 7438 74LS38 4x2NAND-OC K555LA13 K555ЛА13 CCCP ) = ( LSTTL 7440 74LS40 2x4NAND K555LA6 K555ЛА6 CCCP ) = ( LSTTL 7451 74LS51 2x3AND-NOR K555LR11 K555ЛР11 CCCP ) = ( LSTTL 7455 74LS55 2x4AND-NOR K555LR4 K555ЛР4 CCCP ) = ( LSTTL 74612 MEM-MAP SN74LS612 Texas ) = ( LSTTL 74670 74LS670 4x4REG K555IR26 K555ИР26 CCCP ) = ( LSTTL 7486 74LS86 4x2XOR K555LP5 K555ЛП5 CCCP ) = ( LTTL 7400 74L00 4x2NAND K158LA3 K158ЛАЗ CCCP ) = ( LTTL 7472 74L72 2xJK-FF K158TV1 K158TВ1 CCCP ) = ( STTL 7400 74S00 4x2NAND K531LA3P K531ЛАЗП CCCP ) = ( STTL 7402 74S02 4x2NOR K531LE1P К531ЛЕ1П CCCP ) = ( STTL 7402 74S02 4x2NOR KR531LE1 КР531ЛЕ1 CCCP ) = ( STTL 7404 74S04 6xINV K531LN1P K531ЛН1П CCCP ) = ( STTL 7405 74S05 6xINV-OC K531LN2P K531ЛН2П CCCP ) = ( STTL 7408 74S08 4x2-AND K531LI1P K531ЛИ1П CCCP ) = ( STTL 7408 74S08 4x2-AND KS531LI1 KС531ЛИ1 CCCP ) = ( STTL 7408 74S08 4x2-AND SN74S08N TI ) = ( STTL 7411 74S11 3x3AND K531LI3P К531ЛИ3П CCCP ) = ( STTL 7411 74S11 3x3AND KR531LI3 КР531ЛИ3 CCCP ) = ( STTL 74140 74S140 2x4-NAND K531LA16P K531ЛА16П CCCP ) = ( STTL 74151 74S151 8-MUX-1 K531KP7P K531КП7П CCCP ) = ( STTL 74153 74S153 2x4-MUX-1 K531KP2P К531КП2П CCCP ) = ( STTL 74174 74S174 6xD KR531TM9 КР531TM9 CCCP ) = ( STTL 74175 74S175 4xD K531TM8P K531TM8П CCCP ) = ( STTL 74182 74S182 ALU LA-CARRY K531IP4P K531ИП4П CCCP ) = ( STTL 74194 74S194 4SHIFT-REG K531IR11P K531ИР11П CCCP ) = ( STTL 7422 74S22 4x2NAND-OC KR531LA7 КР531ЛА7 CCCP ) = ( STTL 74257 74S257 4x2-MUX-1 K531KP11P K531КП11П CCCP ) = ( STTL 74258 74S258 4x2-MUX-1 K531KP14P K531КП14П CCCP ) = ( STTL 74280 74S280 PARITY K531IP5P К531ИП5П CCCP ) = ( STTL 74280 74S280 PARITY KR531IP5 КР531ИП5 CCCP ) = ( STTL 7430 74S30 1x8NAND K531LA2P K531ЛА2П CCCP ) = ( STTL 7432 74S32 4x2-OR KR531LL1 КР531ЛЛ1 CCCP ) = ( STTL 7464 74S64 4-2-3-2-AND-NOR K531LR9P K531ЛР9П CCCP ) = ( STTL 7485 74S85 4-BIT-MAG-COMP K531SP1P K531СП1П CCCP ) = ( STTL 7485 74S85 4-BIT-MAG-COMP KR531SP1 KР531СП1 CCCP ) = ( STTL 7486 74S86 4x2-XOR K531LP5P К531ЛП5П CCCP ) = ( STTL 7486 74S86 4x2-XOR KR531LP5 КР531ЛП5 CCCP ) = ( TTL 2-ANDx4-OR/NOR-EXP K599LK4 К599ЛК4 CCCP ) = ( TTL 2632 4xDIFF-LINE-REC 26LS32 Am26LS32 Amd ) = ( TTL 2x2-AND-OR/NOR K599LK3 К599ЛК3 CCCP ) = ( TTL 7400 4x2NAND 9N00 / 7400 Fairchild ) = ( TTL 7400 4x2NAND K155LA3 K155ЛА3 CCCP ) = ( TTL 7400 4x2NAND K1LB553 К1ЛБ553 K155LА3 K155ЛА3 CCCP ) = ( TTL 7401 4x2NAND-OC K155LA8 K155ЛА8 CCCP ) = ( TTL 7402 4xNOR2 K155LE1 К155ЛЕ1 CCCP ) = ( TTL 7403 4x2NAND-OC 9N03 / 7403 Fairchild ) = ( TTL 7404 6xINV 9N04 / 7404 Fairchild ) = ( TTL 7404 6xINV K155LN1 K155ЛН1 CCCP ) = ( TTL 7405 6xINV-OC 9N05 / 7405 Fairchild ITT ) = ( TTL 7406 6xINV-HV-OC 7406PC UCY7406 CEMI ) = ( TTL 7406 6xINV-HV-OC 9N06 S7406 7406PC Fairchild Signetics ) = ( TTL 7406 6xINV-OC K155LN3 K155ЛН3 CCCP ) = ( TTL 7407 6xBUF-HV-OC UCY7407 CEMI ) = ( TTL 7408 4x2-AND K155LI1 K155ЛИ1 CCCP ) = ( TTL 7408 4x2-AND UCY7408 CEMI ) = ( TTL 7410 3x3NAND 9N10 / 7410 DM7410N Fairchild NatSemi ) = ( TTL 7410 3x3NAND K155LA4 K155ЛА4 CCCP ) = ( TTL 7410 3x3NAND K1LB554 К1ЛБ554 K155LA4 K155ЛА4 CCCP ) = ( TTL 74121 MONO-MULT K155AG1 K155АГ1 CCCP ) = ( TTL 74123 MONO-MULT K155AG3 K155АГ3 CCCP ) = ( TTL 74125 4xBUF-3S K155LP8 K155ЛП8 CCCP ) = ( TTL 7413 2x4-NAND K155TL1 K155TЛ1 CCCP ) = ( TTL 7414 6xINV K155TL2 K155TЛ2 CCCP ) = ( TTL 74141 BCD-DEC NIXIE MH74141 Tesla ) = ( TTL 74150 16-MUX-1 K155KP1 K155КП1 CCCP ) = ( TTL 74151 8-MUX-1 K155KP7 K155КП7 CCCP ) = ( TTL 74153 2x4-MUX-1 K155KP2 K155КП2 CCCP ) = ( TTL 74153 2x4-MUX-1 KM155KP2 KM155КП2 CCCP ) = ( TTL 74155 2x2-DEC-4 K155ID4 K155ИД4 CCCP ) = ( TTL 74173 4-BIT-D K155IR15 K155ИР15 CCCP ) = ( TTL 74175 4xD K155TM8 K155TM8 CCCP ) = ( TTL 74175 4xD KM155TM8 KM155TM8 CCCP ) = ( TTL 74181 ALU K155IP3 K155ИП3 CCCP ) = ( TTL 74182 ALU LA-CARRY K155IP4 K155ИП4 CCCP ) = ( TTL 74195 4BIT-SHIFT-REG SN74195N TI ) = ( TTL 7420 2x4NAND 1LB551 1ЛБ551 K155LA1 K155ЛА1 CCCP ) = ( TTL 7420 2x4NAND K155LA1 K155ЛА1 CCCP ) = ( TTL 7422 4x2NAND-OC K155LA7 K155ЛА7 CCCP ) = ( TTL 7423 2x4NOR-EXP K155LE2 K155ЛЕ2 CCCP ) = ( TTL 7425 2x4NOR K155LE3 K155ЛЕ3 CCCP ) = ( TTL 7426 4x2NAND-OC K155LA11 K155ЛА11 CCCP ) = ( TTL 7427 3x3NOR K155LE4 K155ЛE4 CCCP ) = ( TTL 7430 1x8NAND K155LA2 K155ЛА2 CCCP ) = ( TTL 7432 4x2OR K155LL1 K155ЛЛ1 CCCP ) = ( TTL 7438 2x2-NAND-OC MH7438 Tesla ) = ( TTL 7438 4x2NAND-OC K155LA13 K155ЛА13 CCCP ) = ( TTL 7440 2x4NAND D140D RFT DDR ) = ( TTL 7440 2x4NAND K155LA6 K155ЛА6 CCCP ) = ( TTL 7450 2x2-AND-NOR+1X 1LR551 1ЛР551 K155LR1 K155ЛP1 CCCP ) = ( TTL 7450 2x2-AND-NOR+1X K155LR1 K155ЛP1 CCCP ) = ( TTL 7450 2x2-AND-NOR+1X MH7450 Tesla ) = ( TTL 7453 2x4-AND-NOR+1X K1LR553 K1ЛP553 K155LR3 K155ЛP3 CCCP ) = ( TTL 7453 2x4-AND-NOR+1X KM155LR3 KM155ЛP3 CCCP ) = ( TTL 7460 2x4-EXP K155LD1 K155ЛД1 CCCP ) = ( TTL 7472 2xJK-FF 9N72 / 7472 Fairchild ) = ( TTL 7472 2xJK-FF K155TV1 K155TВ1 CCCP ) = ( TTL 7474 2xD KM155TM2 KM155TM2 CCCP ) = ( TTL 7475 4-BIT-LATCH 9375 / 7475 Fairchild ) = ( TTL 7475 4-BIT-LATCH K155TM7 K155TM7 CCCP ) = ( TTL 7475 4-BIT-LATCH KM155TM7 KM155TM7 CCCP ) = ( TTL 7483 4-BIT-BIN-ADD K155IM3 K155ИM3 CCCP ) = ( TTL 7486 4x2-XOR K155LP5 K155ЛП5 CCCP ) = ( TTL 7493 4-BIT-BIN-CNT K155IE5 K155ИE5 CCCP ) = ( TTL 7495 4-BIT-SHIFT-REG K155IR1 K155ИР1 CCCP ) = ( TTL 75107 2xDIFF-LINE-REC K170UP1 K170УП1 CCCP ) = ( TTL 75110 2xAND-DRV-CC K170AP1 K170АП1 CCCP ) = ( TTL 75150 2xNAND-DRV K170AP2 K170АП2 CCCP ) = ( TTL 7522 2xMEM-AMP-OC K170UL2 K170УЛ2 CCCP ) = ( TTL 75450 2xAND+T K155LP7 K155ЛП7 CCCP ) = ( TTL 75453 2xNOR-DRV K170AA4 K170АА4 CCCP ) = ( TTL 75453 2xNOR-DRV-OC K170AA2 K170АА2 CCCP ) = ( TTL 8-AND-OR/NOR-EXP K599LK5 К599ЛК5 CCCP ) = ( TTL DIFF-COMP-MONO-MULT N8T20N Signetics ) = ( TTL DRIVER 5xINV OC M54521P Mitsubishi ) = ( TTL N-TAP-DELAY-LINE SR01-XX ШР01-20 ШР01-30 ШР01-50 ШР01-100 ШР01-200 Pravetz ) = ( TTL RS422 RS485 DIFF-LINE-RX-TX SN75176AP TI )  =