1983 Ic Master Volume 1 [PDF]

Zitiervorschau

~TCIC VOLUME B

Engineering design

begi~s

with the

Ie MASTER

Publisher. Jerry Eimbinder Associate Publisher. James W. Graham Editorial Director. Frank Egan Editor. Dave Howell Assistant Editor. Gall LoBue Assistant Editor, Kathy Schmidt Technical Editor. Paul Seamon Production Director. Dan Chillak Typographical Consultant. Joe Finazzo Circulation Manager. Garry Mayes Coordinator. Joanne HlII Manager. Catalog Production. Lanny Levin Catalog Design Director. Michelle Arnold Catalog Design Assistant. Bill Hennessey Art/Production SupeNisor. Charlotte Newman Art Staff. Edith Cyran, Carol Hansen, Mary Koczanowski Production Manager. Martha Gaska Production Assistant. Brenda Buff Marketing SeNices Manager. Georgeann Johnson Sales Administration SupeNisor. Addie Bisignano Sales Billing SupeNisor. Aline Lewin HEARST BUSINESS COMMUNICATIONS, INC.! UTP DIVISION

President. Manley P. Ludwig Vice President. Theodore Breuer Vice President. Robert J. Males Chairman. Executive Committee. Arthur I. Rabb HEARST BUSINESS COMMUNICATIONS, INC. President. Robert J. Males THE HEARST CORPORATION President. Frank A. Bennack, Jr. Chairman. Randolph A. Hearst Group Vice President. Books and Business Publishing. Gordon L. Jones Publishing Consultant. Richard E. Deems HEARST BUSINESS COMMUNICATIONS, INC.! UTP DIVISION East Coast: 645 Stewart Avenue Garden City, NY 11530 Tel: (516) 222-2500 TWX: 510-222-1673 (UTP GRCY) West Coast: 1333 Lawrence Expressway. Suite 101 Santa Clara. CA 95051 Tel: (408) 248-8044 TWX: 910-338-0272 IMPORTANT NOTICE Considerable effort has been expended to make IC MASTER accurate and complete. but IC MASTER cannot assume responsibility for inaccuracies. ommisions. manufacturers' claims. or their representations. No portion of this book may be reproduced without express written permission of the publisher. © IC MASTER. solely owned by Hearst Business Communications Inc./UTP Division. 1983. CMOS Static RAM (Integrated DeVice Tecllnology Photo)

2

©

Ie MASTER 1983

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rJiUI1.UVAImV lPAllil'lTS rrDUrmaigital Modulator

Disk Memory Drivers Fault Detector

See Mixer

Microprocessor-System Components; 6800 .

Digital to Analog Converters Diode Arrays

Interface-Digital to Analog Converters Linear-Arrays

Diode Matrix, Programmable

Digital-Special

Interface-Memory and Peripheral Drivers Interface-Memory and Peripheral Drivers

Head Read/Write Circuit Interface-Memory and Peripheral Drivers Head Selector

Interface-Memory and Peripheral Drivers

Video Amplifier

Interface-Memory and Peripheral Drivers

Winchester Read/Write Circuit

Interface-Memory and Peripheral Drivers

Display Controller

Digital-TTL, Miscellaneous; Other Digital Devices Microprocessor-System Components; Macrologic Bipolar, 6800, 8080 Data Link Controller Microprocessor-System Components; 6800 Digital-CMOS, Arithmetic Functions Data Path Switch Linear-Analog Switches ' Microprocessor-System Components; Macrologic Bipolar, Macrologic CMOS Data Security Digital-Special Device Microprocessor-System Components; 6800 Data Selector/ Multiplexer See Multiplexers Decade Sequencer Digital-TTL, Miscellaneous Decoder Digital-CMOS, Decoders Digital-CMOS, Drivers Digital-ECl 10000, Decoders Digital-ECl 100K, Decoders . Digital-TTL, Decoders Digital-CMOS, Drivers Digital-Special Interface-Display Drivers Microprocessor-System Components FM Stereo Linear-Consumer Circuits Keyboard Interface~Keyboard Encoders, Decoders Tone Linear-Phase locked loop Circuits

14

Function

Display Drivers

Microprocessor-System Components; Macrologic Bipolar, PPS-4, 8080, Peripheral Controllers Interface-Display Drivers Also See Drivers

Dividers

DMA Address Generator DMA Controller

Double Balanced Mixer

Digital-CMOS, Oscillators/Dividers Digital-TTL, Miscellaneous Digital-Special Linear-Phase locked loop Circuits Linear-Other Devices Microprocessor-System Components Microprocessor-System Components; F8, PPS-4, Z80, 1600, 1610, 6800, 8000, 8080, 8085A, 9900, General Purpose Linear-Phase locked loop Circuits

DPDT Switches

Interface-Analog Switches

DPST Switches

Interface-Analog Switches

Drivers

Digital-CMOS, Drivers Digital-CMOS, Miscellaneous Digital-ECl 10000, Drivers . Digital-ECl 100K, Drivers Digital-HNIL/HTl, Drivers Digital-TTL, Decoders Digital-TTL, Drivers Digital-TTL, Miscellaneous Interface-Analog Switches, Drivers Interface-Display Drivers Interface-Line Circuits Interface-Memory and Peripheral Drivers

Audio

Linear-Consumer Circuits

Counter Display

Digital-Special

DVMs

Dynamic Memory Interface Dynamic Memory Refresh Controller

Digital-Special Interface-Analog to Digital Converters, Decimal Output Interface-Memory and Peripheral Drivers Microprocessor-System Components; F8 Digital-TTL, Miscellaneous Interface-Memory and Peripheral Drivers Microprocessor-System Components; 6800, 8080

E Encoders

Keyboard

Digital-CMOS, Miscellaneous Digital-ECl 10000, Miscellaneous Digital-ECl 100K, Miscellaneous Digital-TTL, Miscellaneous Digital-Special Interface-Keyboard Encoder-Decoders

© Ie MASTER 1983

MASTER SELECTION GUIDE-INDE)( "'"-~1

§ Function Keyboard to Binary Tone Error Checking Circuits

Error Pattern Register Expander

Expander (Compander) Extender

Section

Function

Four Channel Sound Linear-Consumer Circuits Digital-CMOS, Miscellaneous Digital-CMOS, Miscellaneous Linear-Telecommunications Circuits

Fourier Transform Circuit Frequency Divider

Digital-ECl10000, Miscellaneous Interface-Error Checking Circuits Microprocessor-System Components 2900

Frequency Sensitive Switch Linear-Telecommunication Circuits Linear-Other Devices Frequency to Voltage Converter Linear-Other Devices

Interface-Error Checking Circuits Digital-TTL-Gates, AND-OR/ AND-OR Invert Digital-TTL, Miscellaneous

. FSK Modulator/ Demodulator

Games, Video

F

Gates Linear-Consumer Circuits

Fast Carry Extender Digital-TTL, Arithmetic Functions

Floating Point Arithmetic

Digital-TTL, Miscellaneous Linear-Other Devices . Microprocessor-9900

Linear-Other Devices Digital-CMOS, Flip-Flops Digital-ECl 10000, Flip-Flops Digital-ECl 95000, Flip-Flops Digital-ECl 100K, Flip-Flops Digital-ECl III, Flip-Flops Digital-HNILlHTl, Flip-Flops Digital-TTL, Flip-Flops Digital-Special

Ie MASTER 1983

Linear-Phase locked loop Circuits

Linear-Consumer Circuits Interface-Display Drivers Digital-CMOS, Gates, Miscellaneous Digital-HNILlHTl, Gates, Miscellaneous Digital-TTL, Gates, Miscellaneous Digital-CMOS, Gates, AND/NAND Digital-ECl 10000, Gates, AND/NAND Digital-HNILlHTl, Gates, AND/NAND Digital-TTL, Gates, AND/NAND

AND-OR/ AND-OR Invert Digital-CMOS, Gates, AND-OR/ AND-OR Invert Digital-ECl 10000, Gates, AND-OR/ AND-OR Invert Digital-ECl 100K, Gates, AND-OR/ AND-OR Invert Digital-HNILlHTl, Gates, AND-OR/ AND-OR Invert Digital-TTL, Gates, AND-OR/ AND-OR Invert Complex Gate w/ Persistance Detector Digital-Special Exclusive OR/NOR

Microprocessor-System Components; 8080

Floppy Disc Amplifier System Linear-Amplifiers - Special Purpose Floppy Disc Controller Microprocessor-System Components; PPS-4, 1600, 6800, 8000, 8048, 8080, 8085A, 9900, Peripheral Controllers Linear-Other Devices Fluid Detector Fluorescent Display Drivers Interface-Display Drivers FM Muting/Tuning Point System Linear-Consumer Circuits FM Radio Circuits Linear-Consumer Circuits FM RF/IF Amplifier Linear-Consumer Circuits Linear-Followers Followers

©

AND/NAND

Linear-Telecommunication Circuits

Fiber Optics Data Link linear-Other Devices Field Programmable Array logic Digital-TTL, Miscellaneous Memory-PlAs Field Programmable logic Array Memory-PlAs Microprocessor-System Components First In First Out Memory-FIFO Memory Microprocessor-System Components Flasher (lED) Flip-Flops

Digital-Special Linear-Consumer Circuits

Linear-Telecommunication Circuits Digital---"TTl-Gates, AND-OR/ AND-OR Invert

Facsimile, Frequency Generator

Fiber Optics Transm itter / Receiver

Microprocessor-Peripheral Controllers

Function Generator Linear-Phase locked loop Circuits

Gas Discharge Display Drivers

Fast Fourier Transformer

Section

Digital-CMOS, Gates, Exclusive OR/NOR Digital-ECl 10000, Gates, Exclusive OR/NOR Digital-ECl 100K, Gates, Exclusive OR/NOR Digital-ECl III, Gates, Exclusive OR/NOR Digital-HNILlHTl, Gates, Exclusive OR/NOR Digital-TTL, Gates, Exclusive OR/NOR

Majority logic

Digital-CMOS, Gates, Miscellaneous Digital-TTL, Gates, Miscellaneous

OR/NOR

Digital-CMOS, Gates, OR/NOR Digital-ECl 10000, Gates, OR/NOR Digital-ECl 95000, Gates, OR/NOR Digital-ECl 100K, Gates, OR/NOR Digital-ECl III, Gates, OR/NOR Digital-TTL, Gates, OR/NOR Digital-Special

Gate Expander

Digital-HNILlHTl, Gates, Miscellaneous

General Purpose Data Transceiver Digital-TTL, Miscellaneous

Ie MASTER Function General Purpose Interface Circuit General Purpose Input/Output General Purpose. Interface Bus Controller General Purpose Keyboard and Display

Section Microprocessor-System Components; 6800, General Purpose Microprocessor-System Components; PPS-4, TlCS-12, 1600, 4004

Microprocessor-8080, 8085A, 9900

Interface-Memory and Peripheral Drivers

Digital-TTL, Miscellaneous Interface-Error Checking Circuits

Identity Comparator Digital-TTL, Arithmetic Functions Image Sensor Impedance

Linear-Other Devices

Converter Input/Output Control Unit Interface latch

Linear-Other Devices

Element Interrupt Control Unit Interrupt Controllers, Programmable

Microprocessor-System Components

I/O Transceiver

Microprocessor-System Components; MicroNOVA

I/O Transceiver Buffer I R Transmitter / Receiver

Microprocessor-System Components; MicroNOVA Linear-Telecommunicat!on Circuits

Keyboard/ Disp lay Controller

Microprocessor-System Components; 8008, 8048, 8080, 8085 Keyboard Encoders Interface-Keyboard Encoders, Decoders Keyboard Interface, Programmable Microprocessor.-:....8085A

lamp Driver last In First Out Memory latches

Interface-Display Drivers

lED Display Drivers level Detector level Meter level Shifter

Interface-Display Drivers Linear-Other Devices Linear-Other Devices Digital-CMOS, Translators Digital-ECl-10000, Translators Digital-HNILlHTl, Translators Digital-TTL, Translators Interface-Memory and Peripheral Drivers

Memory-UFOs Digital-CMOS, latches Digital-CMOS, Drivers Digital-ECl 10000, latches Digital-ECl 95000, latches Digital-ECl 100K, latches Digital-ECl III, latches Digital-HNILlHTl, latches Digital-TTL, latches Microprocessor-System Components LCD Display Drivers Interface-Display Drivers

Microprocessor-System Components; PACE Microprocessor-System Components; 3000 Microprocessor-System Components, Various Families

Interrupt Controller Microprocessor-General Purpose Interrupter, Ground Linear-Consumer Circuits Fault Interval Timer

Linear-Timers Microprocessor-System Components; PPS-4, 8008, 8048, 8080, 8085

Inverters

Digital-CMOS, Buffers/Inverters Digital-HNILlHTl, Buffers/ Inverters Digital-HNILlHTl, Gates, Miscellaneous Digital-TTL, Buffers/ Inverters Digital-Special

I/O Buffer

Microprocessor-System Components; 1600, 8000

I/O Expander

Microprocessor-System Components 1000, 8048, 8080, 8085

I/O Port

Digital-TTl,Miscellaneous Microprocessor-System Components; SC/MP, 1800, 6100, 8X300, 8008, 8048, 8080,8005

16

Digital-TTL, Miscellaneous

L

Hall Effect Devices Digital-Special Linear-Other Devices Hamming Code Detector and Generator

I/O Register Array

Linear-Telecommunications Circuits

H Hammer Driver

Section

K Microprocessor-System Components; PPS-4

GPIB Talker Listener Interface Microprocessor-System Components; 8080, 8085 Ground Fault Linear-Consumer Circuits Interrupter Gyrator

Function

Light Activated SwitchLight Dimmer Light Detector Light to Current Converter

Linear-Other Devices Linear-Consumer Circuits Linear-Other Devices Linear-Other Devices

Light to Frequency Linear-Other Devices Converter Interface-Line Circuits, Single Ended Line Drivers Interface-Line Circuits, Differential Digital-ECl 10000, Miscellaneous Line Receivers Digital-ECl 100K, Miscellaneous Digital-ECl III. Misce.llaneous Interface-Line Circuits, Single Ended Interface-Line Circuits, Differential Interface-Line Circuits, Transceivers Line Transceiver Interface-Serial Transmitter-Receivers Link Controller Microprocessor-System Components; logic Processor 8000 look Ahead Carry Digital-CMOS, Arithmetic Functions Generator Digital-ECl 10000, Arithmetic Functions Digital-TTL, Arithmetic Functions Microprocessor-System Components; 2900, 3000

©

Ie MASTER 1983

MASTER SELECTION GUIDE-INDE}( Function loop Disconnect Dialer low Battery Indicator

Section Linear-Telecommunication Circuits Linear-Other Devices

Function Memory Refresh logic Circuits Micro Address Generator Microcomputer

Macroprogram Sequencer Magnitude Comparator

Microprocessor-System Components; 2900 Digital-CMOS, Arithmetic Functions Digital-TTL, Arithmetic Functions

Manchester Code Identification System

See Code Identification System

Mask Merge

Digital-ECl100l'< e~5

* 54179

Dlsa lIur.:bBr

480-104 478-41 478-47 478-53 896 478-67 501-103 3488-64 54195 896 501-108 896 3488-87 501-110 3488-65 897 501-118 897 3488-88 508-153 54196 508-155 508-158 508-160 508-164 54197 897 509-2

TI TI SSS Fairchild Motorola National Signetics TI

81154187 SN54188A SCL5419 54190 MC54190 OM54190 54190 81154190

Fairchild Ferranti Motorola National Signetics TI

54191 ZN54191 MC54191 OM54191 54191 Srl54191

Fairchild Ferranti Motorola National TI

54192 ZN54192 MC54192 OM54192 81154192

Fairchild Ferranti Motorola National Signetics 11

54193 ZN54193 MC54193 OM54193 54193 Sll54193

Fairchild

54194

Ferranti Motorola

ZN54194 MC54194

tJational

OM54194

Signetics

54194

TI

81154194

*

*

*

*

*

* *

Fairchild

54195

Motorola

MC54195

National

OM54195

Signetics TI

54195 81154195

* *

Fairchild Motorola National TI

54196 MC54196 OM54196 SU54196

Fairchild Motorola

54197 MC54197

*

Blsa II ur.-.tBr

Scurea

Davlca

54197

National TI

01.154197 SII54197

54198

Fairchild

54198

54199

542

National

OM54198

TI

8U54198

Fairchild

54199

National

OM54199

Signetics TI

54199 Sfl54199

AD

AD542J

AD542K

AD542L

AD5428

Dal&1

M.I-542r.1C

Ar.I-5421.!:.1

Oatel

AM-542MR

Dattl

Al.1542

HybridSys

AOC542B-8 AOC542C-8 STK542 [lE542

Sanyo 81gncllcs

TI

5420 ZN5420 LSI-5420 MC5420 OM5420 5420 SII5420

Fairchild Signetics FairChild TI

5421 5421 5422 8115422

54221

Signetics TI

54221 81154221

5423

Fairchild Motorola National TI

5423 MC5423 OM5423 8!15423

54240 54246

National TI

MM54240 81154246

54247

TI

81154247

54248

TI

81154248

54249

TI

81154249

5425

FairChild Ferranti Motorola National

5425 ZN5425 MC5425 OM5425 MM5425 5425 SN5425 OM54251

5420

Fairchild Ferranti LSILogic Motorola National (";,.. .... ,,+: .......

.... ,~IIUU ... .,)

5421 5422

54251

Signetics TI National

Pi~8-Llr.a

478-54 * 904 478-68 502-47 3490-2 502-50 3490-8 * 904 502-52 * 904 3490-13 502-54 3490-3 502-57 3490-9 502-59 * 905 502-61 * 905 3490-14 *3153 2921-42 \I 266-7 *3153 2920-32 \I 266-7 *3153 2918-6 \I 266-7 *3153 2920-31 \I 266-7 *2623 2887-92 2915-9 *2620 2887-93 2915-4 2887-94 2915-5 *2613 *2614 2426-53 2426-54 2955-77 *3393 2898-10 490-82 490-84 4140-148 490-87 490-89

Blsa lIur.:bBr

Sourca

Davlca

54251

TI

SII54251

54259

5426

54265 5427

54273 54276 54278 54279

5428

54283

54284

54285 54290

54293

*

54298

~:;Q-92

* 839 543 490-94 488-165 488-167 490-~6

* 840 490-49 500-138 * 906 500-140 494-4 494-7 494-9 * 840 494-11 2486-14 * 913 2464-14 * 913 2463-171 * 914 2463-130 * 914 2463-96 493-172 493-174 493-177 493-179 2902-20 493-181 494-2 500-31

Pa.a-Llna

* 915 500-33 National OM54259 496-25 TI 81154259 * 917 496-31 Fairchild 5426 484-78 Motorola MC5426 484-81 National OM5426 484-83 Signetics 5426 484-89 TI 8U5426 * 841 484-91 SU54265 TI * 918 507-114 494-30 Fairchild 5427 Ferranti ZN5427 494-32 Motorola MC5427 494-35 National OM5427 494-37 494-39 Signetics 5427 TI SII5427 * 842 494-41 SII54273 TI * !ll!1 TI 8rJ54276 * 920 488-161 81154278 TI * 921 508-56 Fairchild 54279 495-161 Signetics 54279 495-164 81154279 TI * 921 495-166 494-84 Ferranti ZN5428 Signetics 5428 494-93 TI 8tl5423 * 842 494-97 54283 476-44 Fairchild 476-48 Ferranti ZN54283A 81:54283 TI * 922 476-60 01.154284 475-111 National TI 81J54284 * !l23 475-112 81:54235 TI * 923 475-109 Motorola MC54290 480-44 TI 81154290 * 924 480-52 Fairchild 54293 479-23 Motorola MC54293 479-33 TI SII54293 925 479-41 Fairchild 54298 499-68 Motorola MC54298 499-70 499-72 Signetics 54298 8U54298 TI * 926 499-74 Ar.1-543r.~C *2623 Dalel 2887-95 2914-45 AU-5431.m *2620 2887-96 2914-43 AM-543MR 2887-97 Oatel 2914-44 Dalel Ar.1543 *2614 Fairchild 5430 492-60 492-62 Ferranti ZN5430 492-65 Motorola MC5430 National OM5430 492-67 MM5430 2900-111 2904-74 Panasonic AN5430 492-69 Signetics 5430 8115430 TI * 842 492-71 SCL54301 2899-143 SSS MM5431 2900-112 National 2904-75 Panasonic AtJ5431 493-120 Fairchild 5432 Ferranti ZN5432 493-122 493-125 National 01.15432 493-127 Signetics 5432 8::5432 TI * 843 493-129 494-63 Signetics 5433 8rl5433 TI * 843 494-65 2904-76 Panasonic AN5435 476-157 National 01.154365

5430

54301 5431 5432

5433

5435 54365

\I Indicates page number in Application Note Oirectory. * Indicates additional data is provided on the page. noted. ©

Ie

r~~ASTER

1983

101

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(7:: (1T1

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:;;) -'

~'

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r.;,

r. ~

'---

Ie MASTER BISI

Sou rca

Davlea

54365

Signetics

54365A

TI

8N54365A

54366

54367

National

5437

54366A

TI

81154366A

National

DM54367

Signetics

54367A

8N54367A

National

DM54368

Signetics

54368A

TI

8"54368A

Fairchild Ferranti Motorola National Signetics TI

8H5437

TI

8N54376

5438

Fairchild Ferranti Motorola National TI

5438 ZN5438 MC5438 DM5438

54390

Signetics TI TI

165 485-18

* 935

*

*

*

5437 ZN5437 MC5437 DM5437 MM5437 5437

54376

5439

Plga-Lln.

DM54366

Signetics

TI

54368

Bua

BUI

Number

8N5438

8N54390

5443

TI

8N5443A

5444

Fairchild Motorola TI

5444 MC5444

5445

935 117 485-23 158 485-16 166 485-20

936 170 485-24 706 485-15 114 485-19

*

118 485-23 491-82 491-84 491-87 491-89 2896-42 491-93

54452 54453 54454 54455 54456 5446

491-46

943 481-40 943 479-8

8N54393

*

AD544J

*3153 2921-45 \I 266-7

482-137 481-66 479-6 482-20 480-35 474-5 2464-5 2464-10 2464-12 \I 259-15

National

MI.15446

MC54460 MC54468

5447

Fairchild Motorola National

5447 MC5447 DM5447A

IIltlonal

~m5447

* 735

TI

8N5448

* 847

8N5440

5449

545

Fairchild Motorola TI

8"5449

* 847

TI

8N54490

* 955

AD

8N5442A

* 845 * 946

54426

TI

8N54426

* 946

AD545J AD545K

*3153

AD545L

*3153

AD545M

*3153

5450

Fairchild Motorola

5443 MC5443

*3327

1.11.15457

*3327

5465 5466

5470

* 735 . 2464-92 492-153 5473 2899-144

8N5450

* 848

LS5451 5451

492-155 492-165 492-167 492-170 492-172 5474

* 735 2464-93 493-5 492-174

* 848

5452

tlatlonal

"""5452

* 735

5453

Fairchild Ferranti Motorola National

5453 ZN5453 MC5453 DM5453

492-176 2466-2 493-75 493-77 493-80 493-82

5475

Fairchild Ferranti Motorola National

5476 ZN5476 MC5476 DM5476 MM5476 5476

5476

Signetics TI 5477

National lIatlonal

1,u15458 • * 735 SCL5458

MI.15459

2899-24

* 735

MD545C239 uPD546 5460 MC5460 DM5460 5460

8N5460

454-54 1088-70 493-19 493-22 493-24 493-26 493-27 2899-10 2899-11 2899-71

5482

5483

*3327 2899-12 2899-13

MM5465

JAr,15466

5481

* 852

MM5462 MM5463 SCL5463

1.\1,15464

548 5480

2899-14

AD

AD547J

5475

Fairchild Motorola National TI National SSS NEC-Micro Fairchild Motorola TI SSS TI Fairchild Ferranti SSS TI Fairchild Ferranti Motorola National

* 735 Signetics SSS TI

*3151 *3153

8N5475

Plga-Llna

495-126

* 858 495-128 488-36 488-38 488-41 488-43 2464-89 488-45

8115476

* 858 488-47 495-149 495-150 2464-90

5477 MC5477 MM5477

8115477

* 859 495-152 2464-91 2899-145 1088-73 474-141 474-142

MM5478 SCL5478 uPD548 5480 MC5480

8115480 SCL5481

8115481 5482 ZN5482 SCL5482

8115482

* 860

*

AD547K

*3151 *3153

AD547L

*3151 *3153

5484

National SSS TI

5485

~airchild

NEC-Micro uPD547 uPD547L Fairchild 5470 Ferranti ZN5470 Motorola MC5470 National DM5470 SSS SCL5470 8115470 TI SSS Fairchild Ferranti Motorola National SSS TI Fairchild Ferranti Motorola National Signetics TI Fairchild Ferranti Motorola National

SCL5471 5472 ZN5472 MC5472 DM5472 SCL5472

8N5472 5473 ZN5473 MC5473 DM5473 5473

8115473 5474 ZN5474 MC5474 DM5474 MM5474 5474 SCL5474

Signetics SSS TI

8N5474

Fairchild Ferranti Motorola National

5475 ZN5475 MC5475 DM5475

*3151 *3153 2917-56 1088-71 1088-72 487-59 487-61 5486 487-63 487-65 2899-175

Ferranti Motorola National Signetics SSS TI Fairchild Ferranti Motorola National

* 855

*

*

487-68 2899-176 487-72 487-74 487-77 5488 487-79 5489 2899-177

856 487-81 5490 487-163 487-167 487-173 487-177 487-161

Signetics SSS TI TI AMD Ferranti Fairchild Ferranti Motorola National Signetics TI

* 857

MM5483 5483 SCL5483

8115483A

* 861

MM5484 SCL5484

8115484 5485 ZN5485 MC5485 DM5485 MM5485 5485 SCL5485

8N5485

*

8"5486 8115488 AM5489 AM5489-1 ZN5489 5490 ZN5490A MC5490 DM5490 5490

8115490A

485-65 495-117 495-119 495-122 495-124

5491

Ferranti

ZN5491A

Motorola

Signetics

MC5491 MC5491A DM5491A SN5491A 5491

TI

8N5491A

476-61 2465-144 2899-103

861 474-35 474-41 474-45 474-51 2465-134 474-57 2899-171

* 862 474-62 495-6 495-8 495-11 495-15 2463-54 495-20 2899-172

5486 ZN5486 MC5486 DM5486 MM5486 5486 SCL5486

Fairchild

National

860 474-157 474-159 2899-146

474-162 476-45 476-49 476-54 476-56 \I 228-7 2466-14 476-58 2899-147

5483 ZN5483A MC5483 DM5483

* 862

.*

*

856 487-185 5491 485-54 485-56 485-59 485-61 2464-88 485-63 2899-72

474-144 2899-170

* 860

2920-35

2917-21

r.1"'5450

8115451

Signetics TI

2899-9 503-108 5478

SN545740

AD5478

2917-13 5471 2896-55 5472 492-143 492-145 492-148 492-150

SGS Signetics TI

5475

2917-55

5450 SCL5450

1.11.15451

Davlee

2899-8

Signetics SSS TI

5451 ZN5451 MC5451 DM5451

493-72 2899-7 2899-70

1.11.15456

NE545B 5450 ZN5450 MC5450 DM5450

Fairchild Ferranti Motorola National National

Source

* 850

Natlonll

Signetics Fairchild Ferranti Motorola National Nallonal

476-140

5443

8N5454

493-84 493-63 493-65 493-68 493-70

5457

2917-47

483-23

476-114 482-100 482-103

*3153

Number

* 849

5456

2920-12

.490-7 508-101 5451 2464-66 507-22 482-153 483-3 483-6 483-10 483-18

8N54425

5449 MC5449

* 735

MM5455 SCL5455

2463-131 2463-79 2463-85

2920-13

* 845

TI

5454 ZN5454 MC5454 DM5454

Plge-Llna

National SSS Ilatlonil

5455

481-41

1765-6 2906-113 489-186 489-188 489-191 490-2 490-5

54425

Fairchild Ferranti Motorola National TI

2463-97 54490

*3153

MC54408 DM5441A SN544167 5442 ZN5442 MC5442 DM5442 5442

MM5453 8N5453

2464-97

*3153

Motorola National TI Fairchild Ferranti Motorola National Signetics TI

5454

2463-172 547 2463-104 2463-113 2463-121

M1.15448

2918-1

54408 5441 544167 5442

* 847

5448 MC5448 DM5448

\I 266-7

5440

* 735

Fairchild Motorola National Hatlonal

2920-27

2920-30

8115447A

Nillonil TI

545740 TI 5458 Nltlonal SSS 5459 lIallonll 545C239 Mitel 546 NEC-Micro * 735 5460 Fairchild 2464-95 Motorola * 847 National 2464-15 Signetics 506-3 TI 505-130 2485-50 National 2463-147 5462 National 2463-157 5463 SSS 2463-163 Natlonll 5464 \I 259-15 2464-96

TI

Davlea

* 735

MC54452 MC54453 MC54454 MC54455 MC54456 5446 MC5446 DM5446A

8115446A

Blae

Source

2466-3

482-97 482-129 482-132 482-134

Motorola Motorola Motorola Motorola Motorola Fairchild Motorola National

*3153

\I 266-7

* 846

* 846

\I 266-7

iSBC544 NE544 5440 ZN5440 MC5440 DM5440 5440

482-105 482-93 482-95

8N5445

Motorola Motorola

* 844

AD

Intel Signetics Fairchild Ferranti Motorola National Signetics TI

rm5445

Numblr

* 846

TI

TI

491-45 491-42

TI

AD5448

5445 MC5445 DM5445

54460 54468

491-95 939 488-159 491-32 491-35 5448 491-38 491-40

544

AD544L

8N5444A

Plga-Llna

2464-94

* 844

*

Fairchild Motorola National Nltlonal

Davlea

936

54393

AD544K

Sourea

* 844

5439

8115439

169 485-22 105 485-15 113 485-19

Number

*

495-22

863 3471-75 3471-39 497-36 480-37 480-40 480-45 480-48 480-50

864 480-53 502-121 3491-3 502-123 3491-5 502-126 3491-7 502-128 3491-9 502-130 3491-11 8~4 502-132

* 864 3491-13

Arranged alphanumerically from left to right.

102

©

Ie MASTER

1983

PART NUM8ER Basa Ilcmber

Sourca

5492

5493

5494

5492 ZN5492A MC5492 DM5492A SN5492A 5492 SII5492A

Fairchild Ferranti Motorola National Signetics TI

5493 ZN5493A MC5493 DM5493A 5493 SII5493A

Fairchild

5494

Ferranti Molorola

ZN5494 MC5494

Signetics TI

5494 SII5494

5495

Ferranti

ZN5495A

Molorola

MC5495A

National

5496

PIGe-Line

Fairchild Ferranti Motorola National RIFA Signetics 11

Fairchild

5495

Davlce

DM5495

Signetics

5495A

TI

SII5495A

Fairchild

5496

Ferranti

ZN5496

Molorola

MC5496

Nalional

DM5496

Signelics

5496

TI

SII5496

482-26 482-28 482-31 482-33 482-35 482-36 * 864 482-38 479-24 479-29 479-34 479-37 479-39 * 865 479-42 501-131 3489-77 3489-79 501-134 3489-81 3489-83 * 865 501-137 * 865 3489-85 501-77 3488-67 501-80 3488-72 501-83 3489-27 501-85 3488-79 501-87 3488-83 * 866 501-89 * 866 3488-90 501-178 3489-101 501-180 3489-103 501-183 3489-106 501-185 3489-108 501-187 3489-110 * 866 502-2 * 866

Dasa /lumbar

Davlce

Source

54ALS05 1,1010ro13

SII54ALS05 * 732 477-68 Sfl54ALS05 * 834 477-70

TI

Fairchild Molorola TI

5497 MC5497 SII5497

508-75 508-77 * 866 508-79

54ALSOO I.lolorola National TI 54ALSOl Uolcrola TI 54ALS02 I.!nlorola National TI 54ALS03 r,lclcrcla TI

SII54ALSOO * 732 492-11 492-13 DM54ALSOO SII54ALSOO * 833 492-15

1,1010ro13

National TI

54ALS1242 TI

S!l54ALS08 * 732 54ALS1243 489-135 TI DM54ALS08 489-139 SU54ALS08 * 835 54ALS1244 TI 489-143

National TI 54ALS09 1,1010rola

SII54ALS09 * 732 489-97 SII54ALS09 * 836 489-99

TI

54ALS1245 TI

I,lolorola TI 54ALS1000 TI 54ALS1002 TI

S1154ALS1002* 1013 54ALS137 494-107 TI

54ALS1003 TI

S1l54ALS100l* 1014 . 54ALS138 491-151 !.Iolorola

54ALS1004 TI

Srl54AlSl00h 1014 477-173

54ALS1005 TI

S!l54ALS1005* 1014 477-71

54ALS1008 TI

SI154ALS100h 1015 489-144

TI 54ALS139 I,\olorola TI

54ALS14 I.lolorola S1154ALS10l0* 1015 490-185 54ALS15 I.lolorola S1I54ALS1011 * 1015 11 489-45

54ALS1010 TI 54ALS1011 TI 54ALS1020 TI

Srl54ALS1020 * 1016 490-99

54ALS1032 TI

SII54ALS1032 * 1016 493-135

54ALS1034 TI

SIi54ALS103h 1017 174 485-25

54ALS1035 TI

54ALS151 1.1010rola TI 54ALS153 1.lolorola TI

S1I54ALS1035* 1017 54ALS157 476-155 1.1010rola

54ALS109 I.lolerola

SII54ALS109 * 732 TI 487-121 DM54ALS109 487-123 54ALS158 SU54ALS109 * 870 1,1010rela 487-125

IJational TI

54ALSl1 I.lolorola S:154ALSOI * 732 491-145 TI S!l54ALSOl * 033 491-149 54ALS112 TI SIl54ALS02 * 732 494-100 54ALS113 DM54ALS02 494-104 National S!l54ALS02 * 833 11 494-106 54ALSl14 Srl54ALS03 * 732 TI 491-146 SU54ALS03 * '834 54ALS12 1,:~lcral~ 491-150

SII54ALSll * 732 489-43 SU54ALSll * 836 489-46 SU54ALS112 * 871 488~ 104

DM54ALSl13 488-70 SII54ALS113 * 871 488-71 SU54ALS114 * 872 488-135

TI 54ALS160 1,1010ro13 National TI 54ALS161 r.lolerala National TI

54ALS1616 TI SU54ALS12 * 732 490-151 54ALS162 1,1 olcrc la SII54ALS12 * 837 490-153 National TI SU54ALS1240* 1018 503-120

SU54ALS04 * 732 TI 477-168 477-170 54ALS1240 DM54ALS04 TI SII54ALS04 834 477-172

*

'11

Page-Line

Davlce

Sl154ALS1241 * 1018 504-25 SII54ALS1242* 1018 503-39 SII54ALS1243* 1019 503-40 SI154ALS124h 1019 504-26 SI154ALS124h 1019 504-167

54ALS13

1,lolcrola SII54ALS10 * 732 54ALS131 490-182 TI SII54ALS10 * 836 490-184 54ALS132 1,lolorola Srl54ALS1000 * 1013 54ALS133 492-16 TI

54ALS10

54ALS04 1.lalcrola

Source

54ALS1241 TI

54ALS08

::J~:;3-11';

5497

PIGs-Lina

Basa Ilumbor

SII54ALS13 * 732

BISI lIumbor

Source

54ALS1620 TI 54ALS1621 11 54ALS1622 TI 54ALS1623 TI 54ALS163 r,lolorola National TI

SII54ALS131 * 876 484-18

54ALS1638 11

SII54ALS132 * 732

54ALS1639 TI

SII54ALS133 * 877 492-117 54ALS164 I.lolorola SII54ALS137 * 879 484-11 11 SII54ALS138 * 732 54ALS1640 483-148 TI SII54ALS138* 880 ~ 483-152 54ALS1641 TI 54ALS1642 SII54ALS139 * 732 TI 483-54 S!l54ALS139 * 880 483-56 54ALS1643 11 Sfl54ALS14 * 732 54ALS1644 TI SII54ALS15 * 732 489-11 54ALS1645 SII54ALS15 * 838 11 489-13 SII54ALS151 * 732 499-155 54ALS165 SII54ALS151 * 884 TI 499-157 SII54ALS153 * 732 498-27 SII54ALS153 * 884 498-29 SU54ALS157 * 732 499-24 SII54ALS157 * 887 499-26

54ALS166 TI 54ALS168 !.lolorola TI

Devlca

Pita-Lin a

S1I54ALS1620* 1021 505-103 SII54ALS1621 * 1021 505-83 Sl154ALS1622* 1021 505-84 SU54ALS162l* 1021 505-104 SII54ALS163 * 732 478-169 DM54ALS163 478-171 SII54ALS163 * 890 478-173

i~olorola

SII54ALS161 * 732 54ALS16R8 478-122 TI DM54ALS161 478-124 _SII54ALS161 * 889 54ALS174 478-126 Motorola TI S::54ALS 1616 1020 54ALS175 SU54ALS162 * 732 TI 480-187 DM54ALS162 481-2 54ALS190 I,laterola SU54ALSI62 * 890 481-8

Sfl54ALS 1639 * 1022 504-84 SII54ALS164 * 732 502-26 SII54ALS164 * 891 502-28 SN54ALS 1640 * 1023 504-117

Ie

[\~ASTER

1983

§ ~

r.::

S g ~

SN54ALSl641

504-149

S1I54ALS1642* 1023 504-97

ffi' ?':"";

~,

S1I54ALS1643 * 1023 504-118 ~

Srl54ALS 1644 * 1023 505-30 Sfl54ALS1645 * 1023 504-168 *1023 2478-43 SII54ALS165 * 891 502-77 SII54ALS166 * 891 502-97 SII54ALS168 * 732 481-94 SII54ALS168 * 892 481-96 Sii54ALS169 * 732 479-93 SII54ALS169 * 092 479-95 FP54AlS 16LB

506-91

506-93 3457-1 Srl54ALS16Rh 1025 FP54AlS16R4

FP54AlS 16R6

506-94 3457-2

FP54AlS16RB

506-95 3457-3

MC54ALS174 486-56 Srl54ALS174 * 095 486-58 SU54ALS175 * BllS 485-124 SII54ALS190 * 732 481-174

Indicates page number in Application Note Directory.

* Indicates additional data is provided on the page noted. ©

--

Srl54ALS1638* 1022 504-83

54ALS169 _

SII54ALS158 * 732 TI 498-118 SII54ALS158 * 807 54ALS16L8 498-120 TI 54ALS16R4 S!l54ALS160 * 732 TI 480-145 DM54ALS160 480-147 TI SU54ALS160 * 089 54ALS16R6 480-149 TI

*

I~JDE)(

103

Ie

MASTER

Ban Number

Source

54ALS190 TI 54ALS191 Motorola TI 54ALS192 Motorola TI 54ALS193 l.Iotorola TI

Davlce

SN54ALS190

Pagl-line

*

* . SII54ALS191 * SN54ALS191

* SII54ALS192 * SII54ALS192

901 481-176 732 479-135 901 479-144 732 481-138 902 481-140

* 732 480-3 SII54ALS193 * 902 SI154ALS193

Basa Number

l.Iotorola

SII54ALS20

TI

SII54ALS20

* *

TI

SII54ALS21

*

54ALS21

54ALS217 TI

54ALS218 TI

SII54ALS217

SII54ALS218

54ALS22 "'otorola TI 54ALS238 l.1otorola 54ALS239 I,totorola 54ALS240 Motorola National TI

SII54ALS22 SI154ALS22

Page-line

54ALS245 TI

SH54ALS245

504-169 54ALS37 Motorola 913 2478-44

54ALS251 Uotorola

SII54ALS251

TI 54ALS253 l.Iotorola TI

TI

54ALS242 Uotorola

SI154ALS242

National TI

DM54ALS242 SII54ALS242

54ALS245 Uotorola National TI

440 905 497-69 440 906 497-65 732 490-51 840 490-53 732

S1I54ALS243 DM54ALS243 SH54ALS243

SII54ALS244

*

54ALS258 I,totorola TI

* *

* * * * * * *

732 503-31 503-35 911 503-41 911 2476-35 732 503-32 503-36 912 503-42 912 2476-36

54ALS260 TI 54ALS27 I,totorola

* *

* 732 497-139 SII54ALS253 * .915 SII54ALS253

* 732 498-156 SI154ALS257 * 916 SII54ALS257

* 732 498-78 SI154ALS258 * 917 SI154ALS258

TI

SII54ALS259

SI154ALS27 SII54ALS27

SII54ALS273

National TI

DM54ALS273 SII54ALS273

54ALS28 r,totorola

SII54ALS28

TI

SII54ALS28

TI 54ALS318 TI

SII54ALS299

SII54ALS30

SII54ALS317

SII54ALS318

54ALS32 l.1oterela National

TI

SII54ALS32 DM54ALS32 SII54ALS32

54ALS323

TI

SH54ALS323

54ALS33 Uotorola

SII54ALS33

TI

SI154ALS33

54ALS352 l.1otorola

*

SN54ALS260

54ALS273 l.1otorola

732 TI 503-110 DM54ALS244 503-112 54ALS353 Uotorola S1I54ALS244 912 503-165 TI 912 2470-51 54ALS366 SII54ALS245 732 TI 504-163 54ALS367 DM54ALS245 504-165 TI SII54ALS245 913

* *

TI 732 500-35 915 500-37

54ALS373 Motorola

* * * * * *

* * * *

* * * * *

* *

917 496-33

SII54ALS37

SH54ALS373

*

DM54ALS373 SN54ALS373

National TI 54ALS377 ',totorola

DM54ALS374 SN54ALS374

National

DM54ALS377

I,totorola

SII54ALS38

TI

SII54ALS38

SII54ALS374

SII54ALS377

54ALS38

54ALS40 Motorola

SII54ALS40

494-13

TI

S1I54ALS40

732 494-43 842 494-45

54ALS465 TI 54ALS466

TI

54ALS467 732 TI 486-146 54ALS468 486-148 TI 54ALS474 919 TI 486-150 54ALS518 TI 732 494-101 54ALS519 842 TI 494-108

SN54ALS366 SN54ALS367

* *

* * * * *

* SII54ALS466 * SI154ALS467 * SII54ALS468 * SII54ALS465

SN54ALS474

SII54ALS519

*

54ALS520 927 TI 502-144

SII54ALS520

*

842 492-74

54ALS521 TI

SII54ALS521

*

440 928 497-67

54ALS522 TI

SII54ALS522

*

440 928 497-63

54ALS533 Uotcrel3

TI

54ALS534 732 l.1otorola 493-131 493-133 TI 843 493-136 54ALS537 J.1otorola 930 502-145 54ALS538 Uotorela 732 494-67 843 494-69

TI 54ALS539 ,",otorola

TI

497-117 54ALS540 l.1otorola TI 732 54ALS541 497-84 Motorola 933 TI 497-85 54ALS560 r,totorela 477-52 175 485-25

TI

732 491-97 844 491-99 732 496-48 496-52 496-56

* SII54ALS533 * SIl54ALS533

Base Number

Source

54ALS561 Motorola TI 54ALS563 Motorola

TI 54ALS564 Motorola

732 486-171 TI 486-175 486-179 54ALS568 !.!otorola 732 487-38 TI 487-40 54ALS569 Motorola 732 491-49 TI 844 491-51 54ALS573 Motorola 732 490-9 National 845 490-11 TI 952

952 952

956 474-94 956 474-95

S1I54ALS561

PIUI-lInl

*

SN54ALS561

* SN54ALS563 * SI154ALS563

* SN54ALS564 * SH54ALS564

* SII54ALS568 * SII54ALS568

* SI154ALS569 * SII54ALS569

*

DM54ALS573 SII54ALS573

*

54ALS574 Motorola

SN54ALS574

*

National TI

DM54ALS574 SII54ALS574

*

54ALS575 TI

SI154ALS575

*

54ALS576 Motorola

SII54ALS576

*

National TI

DM54ALS576 SI154ALS576

*

SII54ALS577

*

956 474-80

54ALS577

956 474-81

54ALS580 ,",otorola

956 474-82

National

TI

TI

54ALS620 732 l.1oterela 496-106 957 National 496-114

* 732 486-115 SII54ALS534 * 957

Davlee

SII54ALS573

952

1094-106

*

* 732 497-115 SII54ALS352 * 932

SII54ALS353

*

SII54ALS518

SII54ALS352

SII54ALS353

Plge-Llne

* *

SH54ALS37

National TI 54ALS374 I,'otorola

498-80 54ALS259 TI

732

732 504-21 504-23 911 504-27 911 2470-50

* SII54ALS251 *

Davlce

498-158

* *

DM54ALS241 SII54ALS241

National TI

839 488-169

*

Source

497-140 54ALS257 Motorola

732 503-116 54ALS299 TI DM54ALS240 503-118 SI154ALS240 910 503-121 54ALS30 TI 910 2471-20 54ALS317

National TI

54ALS244 Motorola

* *

* SI154ALS239 * SH54ALS240 *

SI154ALS241

National TI

* *

SI154ALS238

54ALS241 Motorola

54ALS243 Motorola

* *

732 490-97 839 490-100

Basa Number

Davlce

480-5 54ALS20

Source

TI

SI154ALS580

*

DM54ALS580 SH54ALS580

*

S1I54ALS620

*

DM54ALS620 SII54ALS620

*

SII54ALS534

54ALS621 Uoterela

486-119

* SII54ALS538 * SII54ALS538 * SII54ALS537

* SII54ALS539 * SII54ALS539

* * SII54ALS541 * SII54ALS541 * SII54ALS560 * SII54ALS560 * SII54ALS540 SII54ALS540

TI 732 732 483-149 958 483-153 732 483-50 959 483-52 732 960 732 960 732 481-68 961 481-70

* S1I54ALS621 *

SII54ALS621

54ALS622 Motorola

SII54ALS622

*

National TI

DM54ALS622 S1I54ALS622

*

54ALS623 l.1otorola

SH54ALS623

*

DM54ALS623 S1I54ALS623

*

National TI 54ALS632 TI 54ALS633 TI 54ALS634

732 482-78 482-80 732 496-107 962 496-115 732 486-116 962 486-120 732 481-90 963 481-92 732 479-86 963 479-87 732 496-49 496-53 964 496-57 732 486-172 486-176 964 486-180 964 486-181 732 489-136 489-140 965 486-121 965 486-182 732 496-108 496-112 966 496-116 732 505-93 505-97 976 505-105 732 505-81 976 505-85 732 505-79 505-98 976 505-86 732 505-94 505-99 976

SN54ALS632

509-49

SN54ALS633

509-50

TI

SN54ALS634

509-51

54ALS635 TI 54ALS636

SN54ALS635

509-52

TI

SN54ALS636

508-95

Arranged alphanumerlcally from left to right.

104

~:

~':""".

~

I

~•.~-:"~~.r,

I

%~~";/' ·::':;~t.

..

~

:' 'l,: ;

.

,.,':,'"

.

",~,

,

-.:...-

Device

Paga-L1na

3474-4 3474-7 3474-8 3474-59 3474-36 3473-111 65X61 Intel Intersil 3474-30 3473-112 3473-113 3474-5 3474-6 3474-57 3474-31 2930-11 66 MicroEng 1088-120 Rockwell Siliconix 2481-39 Molorola 660 729 472-76 Ilational Clr.1-660 *1955 4007-4 PC/M 660 2903-174 Signetics TCA660B 2906-141 Telefunken SAS660 ~ 274-5 Unllroda PIC660 *3446 2961-88 6600 " Harris H06600-2 *3745 507-116 H06600-5 *3745 507-117 2906-142 Telefunken SAS6600 66016 Synarlek SY66016 *1549 475-119 Motorola MC661 472-77 661 Plessey 2901-38 TAA661 2905-12 Unltroda PIC66! *3446 2961-89 Telefunken SAS6610 2906-143 6610 Harris HM6611 460-137 6611 HM6611-2 3460-12 HM6611-9 3460-13 HI,16616-2 * 669 6616 Harris *1333 *3786 3464-121 HM6616-9 * 669 *1333 *3786 3464-122 662 Motorola MC662 472-44 Unllroda PIC662 *3446 2961-90 472-64 663 Motorola MC663 6632 Motorola MCM6632-15 3469-51 MCM6632-20 3469-56 MCM6632-25 3469-62 MCM6632A-12 3469-46 MCM6632A-15 3469-52 MCM6632A-20 3469-57 MCM6633-15 3469-53 6633 Motorola MCM6633-20 3469-58 MCM6633-25 3469-63 472":65 664 Motorola MC664 6640 Plessey 2901-79 SL6640 ~ 271-12 6641 Harris HM6641 * 669 *1333 *3783 " 460-110 ~ 286-2 HM6641-2 * 669 * 1333 *3783 3461-91 If 286-2 H..,6641-9 * 669 *1333 *3783 3461-92 If 286-2 Motorola MCM6641-20 3482-31 MCM6641-25 3482-45 MCM6641-30 3482-74 MCM6641-45 3482-101 6646 Harris HM6646 3466-11 Motorola 473-33 665 MC665 65X51

~" ','t"!t'

Source Intersil

IM65X51-1M IM65X51A IM65X51AM IM65X51C IM65X51M IM65X61-1 IM65X61 IM65X61-1 IM65X61-1M IM65X61A IM65X61AM IM65X61C IM65X61M MCE66 A66XX VN66AF MC660 *

Basa Number

Source

Davlca

6650

Plessey

SL6650

6654

Inlersil

6657

Intersil

6658

Inlel

666 6661

Motorola Harris

6664

1.1010rola

Paga-L1na

2901-80 ~. 271-12 3461-96 IM6654 IM6654-1 3461-95 3461-93 IM6654A IM6654M 3461-97 3464-40 IM6657 3464-41 IM6657M 3463-75 IM6658 3463-76 IM6658M 473-34 MC666 3460-14 HM6661 3460-15 HM6661-5 r,ICM6664-15 * 3839 *3842 3469-92 ~ 287-17 ~ 287-18 UCI.l6664-20 * 3839 *3842 "3470-17 ~ 287-17 ~ 287-18 /.ICr,16664-25 * 3839 *3842 3470-29 ~ 287-17 ~ 287-18 1.ICI.I6664A-12 3839 *3842 3469-71 ~ 287-17 ~ 287-18 1.1W6664A-!5 3839 *3842 3469-93 ~ 287-17 ~ 287-18 1.lCI,16664A-ZO 3839 *3842 3470-18 ~ 287-17 ~ 287-18 1.1Cr.l6665-15 * 3839 *3843 3470-1 r.ICI.16665-20 * 3839 *3843 3470-19 /.lCr,16665A-12 3839 *3843 3469-78 I.lCr.16665A-15 3839 *3843 3470-2 r.ICI.16665A-20 3839 *3843 3470-20 473-12 MC667 1,ICU6670 *3840 3453-16 r,ICr.166700 *3840 3453-43 1.1Cr.166710 *3840 3453-44 MCI.166714 *3840 3453-45 I.1C1.166720 *3840 3453-46 MCI.!66730 *3840 3453-47 I.tCM66734 *3840 3453-48 rml6674 *3840 3453-17 r.tCr.166740 *3840 3453-49 ml.166750 *3840 3453-50 MCM66751 3453-51 1,1Cf.l66760 *3840 3453-52 r.tC 1.16677 0 *3840 3453-53 1.ICI.I66780 *3840 3453:S4

Basa Number

Source

Devlca

66790

Molorola

668 6688

Motorola AI,10

MCM66790 *3840 68 3453-55 472-97 MC668 AM6688 *3109 2965-147 A1.16688L-6 *3109 2965-148 Af,16688L-7 *3109 2965-149 AI.16688L-8 *3109 2965-150 AP.16688r.1-6 * 3109 2965-151 AI,166881,1-7 *3109 2965-152 Ar,16688U-8 *3109 2965-153 MC669 473-4 SL6690 2901-81 ~ 271-12 MCM66L41-20 3482-32 MCM66L41-25 3482-46 MCM66L41-30 3482-75 MCM66L41-45 3482-102 472-18 MC67B 680 472-88 MC670 2906-144 SAS670 PIC670 *3446 2961-91 2906-145 6800 SAS6700 1049-11 6701 472-89 MC671 TCA671 2889-24 PIC671 *3446 2961-92 2906-146 SAS6710 HM6716-2 3465-33 HM6716-9 3465-34 NMC6716 3465-81 3465-41 N~C6716-1 NMC6716-2 3465-50 MC672 472-98 PIC672 *3446 2961-93 A0673J *3174 2428-6 A0673S *3174 2428-7 MC673 472-116 ~ 276-9 2967-36 TBA673 2967-37 TBA673 MC674 472-117 3456-53 67401A C67401 * 722 3456-42 C67401A * 722 3456-43 C67401B * 722 3456-44 C67402 * 722 3456-50 C67402A * 722 3456-51 3456-54 C6'7402B * 722 3456-52 2929-20 CA6741 R675B-1 2966-140 R675B-3 2967-3 R675B-4 2966-141 R675B-5 2966-142 R675C-1 2966-143 R675C-3 2967-4 R675C-5 2966-144 MC675 473-41 475-152 67558 67558-1 475-153 HM6758-9 3463-69 MC676 472-35 2465-116 MC677 472-8 MC678 472·4 472-17 2951-5 AN6780 ACS/68 1759-16

669 6690

Motorola Plessey.

66L41

Motorola

67 670

Motorola Motorola Telefunken Unllroda

6700 6701 671

Telefunken MMI Motorola Siemens Unllroda

6710 6716

Telefunken Harris

* *

. 6665

r,lolorola

*

National

672

673

674 67401

*

667 6670

Motorola 1.lolorola

66700

1.1010rola

66710

I.lolorola

66714

Molorola

66720

l.Iolorola

66730

1,lolorola

66734

MOlorola

6674

I.lolorola

66740

',Iolorola

66750

I.lolorola

66751 66760

Motorola ',Iolorola

66770

1,lolerola

66780

1.1010rola

AD

Motorola

* *

Motorola Unitroda

Plessey Signetics Motorola MMI 1,11.11

67402

1.1P.11

6741 675

RCA HybridSys

67558

Motorola MMI

6758 676

Harris Motorola

677 678

Motorola Motorola

6780 68

Panasonic ApplSys

page-L1na

Basa Number

Sourca

Device

Fairchild

PEP68

Heurikon l.Iotorola

Page-Line

*1718 1622-3 MLZ-68 1769-4 P.168BSAC * 1729 M68BSAE *1729 r,168EOJTI.1 *1736 P.168KEXOR * 1733 I,!6BKOFORTRNH 1734 1,~6BKOPASCALH 1734 r.168KOUDOSH * 1734 r.168KOVDOS * 1936 U68r.1DOC *1736 1.l68XOOC *1736 MEX68KDM 1767-34 I.1EX68RR *1940 VMC68K/15 1767-31 1761-8 CMC68/04 CMC68/04A 1761-9 CMC68/15 1759-20 CMC68/15B 1759-30 CMC68/15C 1759-21 CMC68/15G 1759-22 ZAP-68 *4107 ZAP68 4009-3 SSC680 1100-51 MC680 472-12 SL680 2963-2 MS680 2899-133 S6800 1091-133 1059-20 DK-68DO 1759-15 F6800 *1253 * 1269 *1278 1091-136 * 1253 * 1269 1278 1061-12 MBL6800 1091-139 1061-24 H06800 *1345 1091-140 . * 1345 1063-35 MK6800 1100-16 1.16800 *1351 r.16800EXOR * 1735 1,16800UPDWHlD 1736 '.IC6800 *1351 1091-143 I ~ 286-13 ~ 238-15 ~ 239-5 ~ 243-5 ~ 244-15 ~ 245-3 ~ 248-2 *1351 1067-25 ~ 286-13 ~ 238-15 ~ 239-5 ~ 243-5 ~ 244-15 ~ 245-3 ~ 248-2 f,lC6800f.1 *1351 1091-144 If 286-13 ~ 238-15 If 239-5 ~ 243-5 ~ 244-15 ~ 245-3 If 248-2 r.1C68001lS *1351 1091-145 ~ 286-13 ~ 238-15 ~ 239-5 ~ 243-5 ~ 244-15

* *

Molorola 1.lolorola National RClData

Sunrlsa Sunrise AWl Motorola Plessey RTC AMI Digitek Fairchild

*

Fujitsu Hitachi

Mostek r.lolorola

*

Arranged alphanumerlcally from left to right.

126

©

Ie MASTER

1983

PART NUMBER IND!2}{ Basa Plumhor

Source

Device

6800

Motorola

68000

Siemens Hitachi Hitachi

MC6800NS ~I 24S-3 ~ 248-2 2906-139 SAS6800 H068000 1100-19 H068000·10 * 1345 1100·20 H068000·4 *1345 1100·21 11068000·6 *1345 1100-22 11068000·8 *1345 1100-23 H068000R-l0 1079-4 H068000R-4 1079-S H068000R·6 1079-6 H068000R·8 1079·7 MK68000 1079-20 MK68000-10 1100-24 MK68000-4 1100·2S MK68000-6 . 1100·26 MK68000-8 1100-27 MKB68000 1079·22 1.168000 *1354 *1731 1627-3 1,IC68000·10 * 1355 *1730 1100·28 ~ 287·18 ~ 239·4 ~ 241·3 ~ 241-4 ~ 241·11 ~ 241-.12 1.IC6BOOO·12 * 1355 *1730 1100-29 ~ 287·18 ~ 239·4 ~ 241·3 ~ 241-4 11 241·11 ~ 241-12 r.\C68000·4 *1355 *1730 1100-30 11 287·18 11 239-4 ~ 241-3 ~ 241·4 11 241·11 ~ 241-12 r,\C68000·6 *1355 *1730 1100-31 ~ 287·18 II 239-4 11 241-3 11 241·4 11 241-11 II 241·12 f!.C68000·8 *1355 *1730 1100-32 11 287·18 11 239·4 11 241-3 II 241-4 ~ 241·11 II 241·12 1.1C68000!.IPU * 1935 1100-33 R68000 S68000 *1975 SCII68000 *1524 1081-9

Hitachi

Mostek

1.lolorola

Rockwell Signalics

68000110 Motorola 68000112 Motorola 6800014 Motorola 6800016 Motorola 6800018 Motorola 68008 I.lolorola

P!.a-line

MC68000l10

1079-23

MC68000l12

1079·24

MC68000l4

1079-2S

MC68000l6

1079·26

MC68000l8 1079·27 1,IC6800S *1356

Basa /lumber

Sourca

Duvlce

68008

Motorola

MC68008

6801

AMI

S6801

Fairchild

F6801

F6801E Hitachi

H06801

fololorola

1.16801 1.IC6801

1.IC6801·1

1.IC6801C

68010

MRC r,lclcrcla

68010S3S1 r,lolorola 6&01S0 Hilachi 6801SS Hitachi 6801U4 Motorola

680lYO Hitachi 680lYS Hitachi 6802 AMI

Fairchild

Fujitsu Hitachi

r.lolorola

68020

1,lolerola

r,IEX6801 MBK6801 1.1C68010

Page-line

1100-17 * 1356 1067-26 1091-72 10S9·21 *1270 1091-74 *1270 1061·13 *1270 1091-61 1091·7S 106S-1 *1351 *1351 *1730 1091·77 ~ 238-S ~ 240-3 ~ 241-2 *1351 *1730 1067-27 ~ 238·S ~ 240-3 ~ 241·2 *1351 *1730 1091·78 ~ 238-S ~ 240-3 ~ 241-2 *1351 *1730 1067·28 ~ 238-S ~ 240·3 ~ 241·2 *1351 * 1730 1091-79 ~ 238-5 ~ 240-3, ~ 241-2 *1737 17S9·32 *1356 1100·18 *1356 1079·28

Basa Numbar

Source

Device

6803

AMI

1091-63 10S9-23 1091-64 * 1270 1091-6S * 1270 1061-1S H06803 *1345 1091·62 *1345 106S-3 H06803·1 *1345 1,IC6803 *1351 1091-66 ~ 241-2 *1351 1067-32 ~ 241-2 1.IC6003·1 *1351 1091-67 ~ 241-2 * 1351 1067·33 ~ 241-2 1.IC6803C *1351 1091-68 ~ 241·2 1,IC6803E * 1351 1067·34 ~ 241-2 1.IC6803E·l *1351 1067·3S ~ 241·2 1091-81 MC6803U4 1067-36 MC6803U4·1 1067·37 1.IC6804 *1351 S68045 *1250 1092-21 SY68045 *1535 1092-36 2906-44 S68047 ~ 238·1 1092-146 1101-106 11 238·1 1067-38 MC6804P2 S6805 *1248 1091·73 * 1248 10S9-24 H0680S 1091·76 106S-4 IIIUUU .... *1:;:;1 1.!6805FIF.! *1737 1,IC6805 *1351 r,IEX6805 *1737 COP6805 *1487 CPU-680S 1757·18 S68051 *1249 2486-2 COP6805E2 1073-9 COP680SF2 1073·10 COP680SG2 1073·11 MC6805P2 1091-82 1069·1 MC680SP4 1091·83 1069·2 MC680SP6 1069-3 MC680SR2 1091·71 1069·4 r,IEX6805R2 * 1737 MC680SR3 1069-5 H06805S1 *1345 MC680ST2 1091·51 1069·6 1I06805Ul *1345 1091-84 MC6805U2 1069·7 MC6805U3 1069·8 il06805Vl *1345

Fairchild

Hitachi

1.lolorola

6803U4 Motorola 6804 6804S

Molorola AUI Synsrlak

68047

AMI

6804P2 Motorola 680S AUI

Hitachi M6S01 OS35111 * 1735 iiuuiiillSiI *1345 11D6801S5 *1345 MC6801U4 1091-80 1067·29 MC6801U4-1 1067-30 H06801VO *1345 11D6801V5 *1345 1091-98 S6802 11 240-17 " 244·9 10S9-22 II 240-17 II 244·9 F6S02 *1278 1091·101 *1278 1061·14 MBl6802 ' 1091-104 1061·25 H06802 *1345 1091·106 *1345 1065-2 H06802\'1 *1345 r,IC6802 *1351 1091-107 II 243·6 *1351 1067·31 II 243·6 /.IC68020 *1356 1083-7

r.~u1ur{,:a

680S1

RCA Synapse AUI

680SE2 680SF2 680SG2 6805P2

RCA RCA RCA Motorola

680SP4 Motorola 680SP6 Motorola 680SR2 Motorola r.lolorola 680SR3 Motorola 680SS1 Ililachl 680ST2 Motorola 680SUl Hitachi 6805U2 Motorola 6805U3 Motorola 6805V 1 Hitachi 6805WO Ilitachl 680SXO Ilitachi 6808 AMI Fairchild

Page-line

S6803

Basa Humber

Source

Davie.

6808

Fairchild

F6808

S6803N1R F6803

H06805\'/0 *1345 1I06005XO *1345 S6808 1091·125 F6808 *1278

6809

"

681

6810

6811 68120

Page-line

1091-128 *1278 1061-16 Hitachi H06808 1091-129 106S·S 1,lolorola MC6808 *1351 1091-130 *1351 1069-9 1,IEX6808·22 * 1940 AUI S6809 * 1247 1091-110 *1247 10S9-2S S6809(E) *1247 1091-89 Fairchild F6809 *1272 1091-113 * 1272 1061·17 F6809E *1272 * 1274 1091·92 * 1272 *1274 1061·18 Fujitsu MBl6809 1091-116 1061-26 Hitachi H06009 *1345 1091-119 *1345 106S-6 H06809E *1345 106S·7 Molorola 1.16809 *1352 r.1680geASI,\R * 1736 r,16809EXOR * 1735 r.16809FORTRH * 1736 r,160091.1PL *1736 fA6809PASClC * 1736 F.l6809SA *1737 1.16809SETPAS * 1735 1,:6809UPDOWXlD * 1736 MC6809 *1352 1091-122 11 238-7 11 241·7 * 1352 1069-10 11 238-7 11 241·7 MC6S09E *1352 10:l1-CS 11 238·7 11 241·7 *1352 1069-11 11 238·7 11 241·7 1761-13 IMS SBC681 472-S Motorola MC681 RTC MS681 2899·134 S6810 3472·S9 AMI 3472-59 3472-53 S6810·1 3472-53 Fairchild F6810 *1278 3472·60 3472-60 r.tC1.1681 0 *1351 1.lolorola *3839 3472-62 3472-62 Siemens SAS6810 2906·140 Panasonic AN6811 510·77 I.\olorola 1,'C68120 *1352 *1357 *1730 1100-37 *1352 *1357 *1730 1069·12 1.1C68120·1 *1352 *1357

II Indicates page number in Application Note Directory.

* Indicates additional data is provided on the page noted. ©

Ie MASTER

1983

127

r----; j

~

I ..

::l

ffi1

~ e' '---

Ie MASTER

I

n':{;J1't L' \;'r-

~

i;=

:~ r-:- '

:,.;~~;,

;!i"~"

~(-i;,

I';'i!;;;:!,': tl';,';;': -:::~. ,,,,.,~

~

r';'~" '".

"""-

Bue Number

Source

68120

1.lolorola

DIvlce

Page·lIne

1.IC68120·1 *1730 1069·13 Signolics SCII68120C * 1524 1100·39 1.IC68121 68121 1.1010rola * 1357 1100·38 * 1357 1069·14 1.IC68121·1 * 1357 1069·15 1092·19 68122 Motorola MC68122 1100·34 MC68122·1 1092·20 1100·35 1,1010rola 1,IEX6816·1HR * 1940 6816 1,IEX6816·22D * 1940 1,IEX6816·22S* 1940 RCA CDP6818 6818 *1491 Motorola MC682 682 473·9 1.1010rola r.wr,IC682·114 1942 I.IVMC682·114H 1942 1.1VI.lC682·118 1942 1,1VI.~C6B2·11 BH 1942 RTC MS682 2899·135 6820 Fairchild F6820 1092·83 1102·53 1,IEX6820 *1940 I.lolorola 510·122 Panasonic AN6820 Synorlek SY6820 * 1527 1092·95 MC68200 1081·1 68200 Motorola AMI S6821 1092·80 6821 1102·48 Fairchild F6821 *1279 1092·,4 1102·54 Hllachl H06821 *1345 1092·87 1,\C6821 I.lolorola *1351 1092·91 1102·57 11 239·5 11 246·5 I.lEX6821·2 *1940 Panasonic AN6821 510·123 Synerlolc SY6821 *1528 1092·96 r.tolorola 1.1C6822 6822 *1351 1092·69 6823 RCA CPP6823 *1491 1.1C68230 *1357 68230 1.1010rola Signslics SCII68230C *1524 1100·47 68230llO Motorola MC68230l10 1100·45 6823018 Motorola MC68230l8 1100-46 68230Pl0 Moslek MK68230Pl0 1100·43 68230P8 Mostek MK68230P8 1100·44 1.1C6828 6828 Molorola *1351 1092·100 1102·67 1,IC6829 I.lolorola 6829 *1351 1092·73 683 Motorola MC683 473·1 RTC MS683 2899·136 S6831B 3485-34 6831 AMI 68316 Fairchild F68316 *1281 3485-18 Motorola MCM68316 3454·4 6832 Oalol ST·6832 *1933 1,1010rola rm6B32·1 HR * 1940 1.1EX6832·22 * 1940 68332 AUI S68332 *3612 3485·121 Fairchild F68332 *1282 3486·21 l.Ioiorol3 r.1C6835 6835 *1351 1092·29 Panasonic DN6835 511·56 2963·121 68364 Molorola I.1Cr.168364 *3840 3486-30

* * * *

Basa Numbar

Sourca

68364

1,1010rola

68365

68366

Davlca

Plga·Llna

1.1CI,168364-25 * 3840 3486·52 l,lCI,168364·30 3840 3486·83 1,lolorola r.;cr,16B365-25 3840 3486·53 rm,16B365·35 3840 3486·101 1,ICr,168366·25 * 3840 I.'olorola 3486·54 1,1cr.l6B366·35 3840 3486·102 Panasonic DN6837 511·57 2963·122 Panasonic DN6838 511·58 I.lolorola 1,IC6839 *1351 1092·53 Panasonic DN6839 511·59 Motorola MC684 472·29 AMI S6840 1092·102 Fairchild F6840 * 1279 1092·105 Hllachl 1106840 * 1345 1092·108 I.lolorola MC6840 *1351 1092·111 l,lC68401.1 *1351 1092·112 MPQ6842 Motorola 1092·12 Hllachl 1106843 *1345 1092·57 1,1010rola 1.1C6843 *1351 1092·59 Signalics B68430 *1525 SCB68430 * 1525 Fairchild F6844 * 1279 1092·42 Imachl 1106844 *1345 1092·43 1.;C6344 Molorola *1351 1092·46 11 241·7 1.\C68441.1 .,35, 1092·47 II 241·7 1.lolorola 1.1C68440 * 1358 1101·128 Fairchild F6845 *1276 1092·25 F6845A *1276 lIilachl H06845 *1345 1092·26 1,1010rola 1,\C6845 *1351 1092·30 1.1C6845 1,1 *1351 1092·31 SynerlBk SY6845R *1532 1092-37 Hilachl 11068450 *1345 1100-36 I.lolorola l,lC68450 *1358 l,lC68451 1.1010rola *1358 1100-41 Signolics 1168451 *1525 SCIl68451 *1525 I.\olorola I.lC68452 *1359 AMI S6846 1092·117 ~ 244·9 Fairchild F6846 *1280 1092-118 Hitachi H06846 *1345 1.1010rol3 r.IC6846 ' *1351 1092·119 11 243-6 r.IC68461.1 *1351 1092-120 II 243·6 Fairchild F6847 1101·107 r,IC6847 F.lolorola *1351 2906-45 If 238·5 ~ 238·7 ~ 241-13 *1351 1092-147 1100-49

6838 6839 684 6840

6842 6843

68430 6844

68440 6845

68450

68451

68452 6846

6847

Sourca

Davlce

6847

Motorola

MC6847

* * * *

6837

Basa Number

68478 6848

Motorola 1,lolorola

68488

AMI Fairchild 1.1010rola

685

AMD

6850

Motorola AMI Fairchild

-

Hllachl I,\olorola

6852

AMI Fairchild

Hllachl I.lolorola

6854

AMI Fairchild I.lolorola

6855 6856

Motorola Fairchild

68562 68564 6859

1,1010rola Mostek Molorola r.lolorola

68590

Mostek

Page·Llne

1101·109 ~ 238·5 ~ 238·7 ~ 241·13 I.1C6847Y *1351 1100·50 11 238·5 11 238·7 11 241·13 MC68478 1092·148 I.IEX6848·1 HR * 1940 1.1EX6848·22 * 1940 S68488 1092·62 1102·43 II 245·12 F68488 *1280 1092·63 r,IC68488 *1351 1092·64 F.1C684881.1 *1351 1092·65 685l 2891·18 II 270·15 685M 2891·19 11 270·15 MC685 472·20 S6850 2486·3 1091·159 1102·25 F6850 *1280 2486·4 *1280 1091·163 1102·28 H06850 *1345 1092·3 1.1C6850 *1351 2486·5 11 258·1 II 241·3 *1351 1092·5 1102·30 11 258·1 11 241·3 1.1C6850P.1 *1351 1092·6 ~ 258·1 ~ 241·3 I.1EX6850 *1940 UEX6850·2 *1940 S6852 1092·134 F6852 *1281 1092·137 1102·78 H06852 *1345 1092·140 I.1C6852 *1351 2487-23 ~ 241·12 * 1351 1092·142 1102·79 II 241·12 UC68521.1 *1351 1092-143 II 241·12 S6854 1091·148 F6854 *1281 1091·152 I.tC6854 *1351 1091·156 MC6855 1092·50 F6856 *1277 2487·21 *1277 1091·153 1.1C68562 *1359 MK68564 1100-48 1,IC68564 *1359 1,IC6859 *1351 510-66 *1351 1092·40 MK68590 1100·40 1101-62

Bau Number

Source

Davlce

686

AMD

686C

Page·Llne

507·26 270·15 2891·36 ~ 270·15 686M 507·27 11 270·15 2891·20 II 270·15 MC686 473·17 3489·88 MC6860 *1351 *3298 2486·63 II 258·8 II 258·9 * 1351 *3298 2948·134 II 258·8 II 258·9 * 1351 *3298 1092·75 II 258·8 II 258·9 I.1C6860l *1351 *3298 1092·76 II 258·8 II 258·9 F.1C6862 *1351 2948·133 * 1351 1092·41 1.1EX6864·1 HR * 1940 1.1EX6864·22 * 1940 1,\C68652 *1359 2486·95 1,\C68652·2 * 1359 2486·96 68652 * 1520 1,IC68653 *1360 2467·30 68653 * 1520 I.1C68661A *1360 2486·71 * 1360 1100·104 1,1C68661B * 1360 2486·73 *1360 1100·105 I.lC68661C * 1360 2486·72 * 1360 1100·106 68661 *1521 MC6B6Bl *1360 2487·79 68681 2486·67 SCII686B1C *1525 1100·52 687Al 2893·12 11 270-15 687AM 2892·58 11 270-15 687l 2893-13 11 270·15 687M 2892·59 II 270-15 MC6870 1092-17 MC68701 * 1351 * 1730 1091·55 ~ 241·2 ~ 243-4 *1351 * 1730 ,1069·16 \I 241-2 11 243·4 MC68701·1 *1351 *1730 1091-56 II 241·2 If 243·4 ~

Motorola 6860

Molorola

6862

l.Iolorola

6864

1.lolorola

68652

Molorola

68653

Signolics 1,1010rola

68661

Signolics 1.lolorola

68681

Signolics I.lolorola Signetics Signelics

687

AMD

6870 68701

Motorola 1.I010roia

Arranged alphanumerically from left to right.

128

©

Ie MASTER

1983

PART NUMBER INDEX Dasa Numbar

Source

Davlee

68701

I,tolorola

l,lC68701-1

Page-line

.,35, .,730 1069-17 If 241-2 If 243-4 l,lC68701C *1351 *1730 1091-57 If 241-2 If 243-4 r.lC68701C-l * 1351 *1730 • 1091-58 If 241-2 If 243-4

Basa Humber

Source

Device

68AOI

I.tolorola

l,tC68AOl

68A02

68A03

AMI Fairchild Motorola Uolorola

68A045 AUI 68A08

AMI

68A09

Motorola M.II

68701U4 Motorola 68705

1,1010rola

MC68701U4 1069-18 MC68701U4-1 1069-19 l,lC68705 *1351 *1730

68705P3 Motorola

MC68705P3

1091-59 1069-20

68705R3

Fairchild

1091-54 1069-21

Motorola

MC68705R3

Motorola

1091-60 1069-22 3463-82 F68708 3463-84 MCM68708 1092-18 MC6871 3465-66 F68716 MCM6874-35 3466-103 MC6875 1092-13 If 244-15 If 246-4 MC6875A 1092-14 If 244-15 ~ 246-4 2463-6 AN6875 1,1CM68764 *3839 3467-3 UCI.168766 *3839 3467-4 1,ICI.I68766-35 * 3839 3466-104 472-59 MC688 If 276-9 2477-13 MC6880 1092-10 MC6880A 2967-164 AN6880 MC6881 507-106 1092-149 F6882 *1278 1091-102 r.lC6882A *2752 1092-157 MC6882B *2752 1092-158 497-82 MC6883 1092-131 1092-151 MC6885 1092-152 MC6886 1092-153 MC6887 1092-154 MC6888 1,lC68881 *1357 508-24 MC6889 2477-27 1092-11 472-6 MC689 1,IC6890 *2758 2442-12 *2758 1092-38 I.1C6890A *2758 2441-38 *2758 1092-39 1100-42 MK68901 !.lC68901 *1360 1091-134 S68AOO 1091-137 F68AOO 1I06BAOO *1345 1091-141 1091-146 MC68AOO

68705U3

68708 6871 68716 6874 6875

Fairchild Motorola Motorola Fairchild Motorola Motorola

68764

Panasonic I.totorola

68766

l.Iolorola

688

Motorola

6880

Motorola

6881

Panasonic Motorola

6882

Fairchild !,'olorola

6883

Motorola

6885 6886 6887 6888 68881 6889

Motorola Motorola Motorola Motorola 1,lolorol3 Motorola

689 6890

68901 68AOO

Motorola I,'olorola

Mostek !,Iolorola AMI Fairchild IIl1achl Motorola

MC68705U3

Fujitsu lIilachi

Motorola 68Al0

AMI Fairchild I•• otorola

68A21

AMI Fairchild lIilachl Motorola

68A29 Motorola 68A30 Motorola 68A308 Molorola 68A308P7 Motorola 68A316 AUI I.'olorola

Page-line

*1351 1091-85 *1351 1069-23 1091-99 S68A02 1059-26 1091-103 F68A02 MC68A02 1091-108 1.1C68A03 *1351 1091-69 *1351 1069-24 S68A045 *1250 1092-22 S68A08 J091-126 1059-27 1091-131 MC68A08 S68A09 *1247 1091-111 *1247 1059-28 S68A09(E) *1247 1091-90 F68A09 *1272 1091-114 *1272 1061-19 F68A09E *1272 *1274 1091-93 *1272 *1274 1061-20 1091-117 M8L68A09 1061-27 1I068A09 *1345 1091-120 H068A09E *1345 1091-123 MC68A09 MC68A09E 1091-96 S68Al0 3472-54 3472-54 F68Al0 3472-55 3472-55 r.lCF.168Al0 *3839 3472-57 3472-57 1092-81 S68A21 1102-49 1092-85 F68A21 1102-55 H068A21 *1345 1092-88 1092-92 MC68A21 1102-58 1092-72 C68A29 MCM68A30A 3484-71 1,ICI.I68A308 *3840 3484-73

BasI 'lumber

68A39 68A40

Source

Device

Motorola AMI Fairchild Hilachl

MC68A39 S68A40 F68A40 H068MO

68A43

Motorola llilachl

68A44

Hilachl

68A45

Motorola Hilachl

Motorola 68A46 Motorola 68A488 Motorola 68A50 AMI Fairchild Hilachl Motorola 68A52

AMI Fairchild Hilachl

Motorola AMI Fairchild Motorola 68A708 Motorola 68800 AMI Fairchild Hilachl 68A54

68801

Motorola Uolorola I

68802 68803

AMI Motorola Molorola

688045 AMI 68808

AMI Motorola

68809

!;~~I

Fairchild

MCM68A308P7 3484-74 S68A316 *3611 3485-35 UCM6BA316A * 3840 3485-21 MCI,'6BA316E * 3840 3485-22 I.lCr~68A316E-91

* 3840 3454-5 68A316EP91 Motorola 68A332 AMI Fairchild 1.1010rol3 68A332P2 r.tolorola 68A35 Motorola 68A364 AI.II Motorola 68A364P3 Motorola

Fujitsu

MCM68A316EP91

Hilachl

3485-23 S68A332 3485-96 F68A332 3485-100 UCr.168A332 * 3840 3485-103

Motorola

UClA68A332P2 * 3840 3485-104 68810 1092-32 MC68A35 S68A364 *3613 3486-95 MCM68A364 3486-103 MCM68A364P3 3486-104

AMI Fairchild I,Iolorola

1092-54 1092-103 1092-106 *1345 1092-109 1092-113 MC68A40 H068M3 *1345 1092-58 H068M4 *1345 1092-44 MC68A44 1092-48 H068M5 *1345 1092-27 1092-33 MC68A45 1092-121 MC68A46 1092-66 MC68A488 1091-160 S68A50 1102-26 1092-1 F68A50 1102-29 H068A50 *1345 1092-4 MC68A50 1092-7 1102-31 1092-135 S68A52 1092-138 F68A52 H068A52 *1345 1092-141 1092-144 MC68A52 1091-149 S68A54 1091-154 F68A54 1091-157 MC68A54 MCM68A708 3463-71 S68800 1091-135 F68BOO 1091-138 H068BOO *1345 1091-142 1091-147 MC68800 !.IC68001 *1351 1091-86 * 1351 1069-25 1091-100 S68802 1091-109 MC68B02 r.1C68B03 *1351 1091-70 *1351 1069-26 S68B045 *1250 1092-23 1091-127 S68808 1091-132 MC68808 S6~~!!!l *12H 1091-112 *1247 1059-29 S68B09(E) *1247 1091-91 F68B09 *1272 1091-115 *1272 1061-21 F68B09E *1272 *1274 1091-94 *1272 *1274 1061-22 M8L68809 1091-118 1061-28 H068B09 *1345 1091-121 HD68B09E *1345 1091-124 MC68809 If 248-10 1091-97 MC68809E If 248-10 If 248-10 3472-49 S68810 3472-49 3472-50 F68810 3472-50 li'CI,t68BI0 *3839 3472-51 3472-51

If Indicates page number In Application Note Directory. * Indicates additional data is provided on the page noted. ©

Ie MASTER

1983

Plge-Llne

Blu Ilumbsr

Source

Davlee

68B20

Synerlak

SY68020

68B21

AMI Fairchild llilachl Motorola Synarlak

68B29 Motorola 68B30 Motorola 68B308 Fairchild r.tolorola 68B316 AMI 68B35 Motorola 688364 AMI

68839 68840

Motorola Motorola AMI Fairchild Hilachl

68844

Motorola Hilachl

68845

Motorola lIilachl

Motorola 68846 Motorola 688488 Motorola 68850 AMI Fairchild Motorola AMI Fairchild Motorola 68854 AMI Fairchild Molorola 688ASR010 Molorola 688SA 1 Uolorola 688SA2 1,'010roI3 688SA4 1,1010rola 68BSA5 i~oloroi4 688SA6 1"010ro13 68DSK2 l.Iolerola 68DSK3 I,'olorola 68FTNR012 I,'olorola 68Kl Omnibyte 68KEXOR16 1.1010rola 68KEXOR32 Molorola 68KEXOR96 !.tolorola 68KFDll02 I.lolorola 68KHDS16 1,1olorola 68KHDS32 !,'olorola 68KHDS96 I,'olorola 68KORMS68 1.I010roia 68KVMOI rAolorola 68KVM02 Molorola 68B52

68KVM10 1,lolcrol3 68KVMll 1.I010roia 68KVM20 I,tolorola

Plge-lInl

*'527 1092-97 S68B21 1092-82 1102-50 F68B21 1092-86 1102-56 H068B21 *1345 1092-89 MC68B21 1092-93 1102-59 SY68021 *1528 1092-98 1092-74 MC68B29 MCM68B30A 3484-56 F68B308 3484-54 1,1CF.l68B308 * 3B40 3484-55 3485-36 S68B316 1092-34 MC68835 460-145 S688364 3486-47 MCM688364 3486-55 1092-55 MC68839 1092-104 S68840 1092-107 F68840 H068B40 *1345 1092-110 1092-114 MC68840 11068044 *1345 1092-45 1092-49 MC68844 H068045 *1345 1092-28 1092-35 MC68845 1092-122 MC68846 1092-67 MC688488 1091-161 S68B50 1102-27 F68B50 1092-2 MC68850 1092-8 1102-32 S68B52 1092-136 1092-139 F68B52 1092-145 MC68852 1091-150 S68B54 1091-155 F68B54 1091-158 MC68854 1~6BBASROI

au *

1A68BSAl 1,'68DSA2 l,l68BSM

1736 *1729 *1729 *1729

i"uuiiS,,5

... 1iZ~

1,168BSA6 1,I680SK2 U680SK3

*1729 *1738 *1738

1~68FTKR0121A

* 1736 1765-32

0868Kl

1oI68KEXOR16 * 1733 1.t68KEXOR32 * 1733 I,I68KEXOR96 * 1733 1,'68KFOll02 * 1738 1.l68KHDS16-1 * 1738 tl68KHDS32-1 * 1738 1,!68KHDS96-1 * 1738 1,168KOR!.IS68K * 1936 1,16BKV1.l01A * 1937 1.16BKVF.l02 *1937 1767-33 1,16BKVI,I1 0 *1938 1.168KVIll1 *1938 1,168KVUZO *1938

r----: I

~

._'

I ~ g

L-

Ie MASTER" Source

68KVM21 1,1010ro13 68KVM30 /,lolorola 68KVM31 Molorola 68KVM40 Molorola 68KVM60 Molorola 68KVM80 1,1010rola 68L764 Motorola

Pagl-Llne

Devlca

1,1010rola

68MM01A2 I.1olorola 68MM01Bl 1,1010rola

('),

r~'i

'i~;

i~='i~ ;'~'

\'1-'

""~ I":; ,"':::,.

l:':~' ,.""~.,,

Et

Source

1,168KV/,I31 *1938 /,168KVI,140 *1938 I,168KVP.l60 *1938 1,168KV1.180 * 1938 MCM68L764-35 3466-105 1,168/,11.101

*1939 1759·17 l,t68m101B *1939 1761-5 1,1 68P,IIW1 0 *1939 1759·19 1,1681,1I,101A2 * 1939 1759-18 l.l68m,101BIA* 1939 1761-6 1,1681.11,t03

I,lolorola

101681,11,104 *1940 M68f,1I,104·A * 1940

*1940

68MM04

68MM05

/,1681,11.1010 *1939

1,1010rola 68MMSCI 1,10lorola 68MPLR020 r.1olorola 68POI Hitachi 68P01S0 Hllachl 68POlV05 llilachl 68POlV07 IIlIachl 68P05 Hitachi 68P05V05 Hitachi 68P05V07 IIlIachl 68PP3 I,tolorola 68RADI 1,lolorola 68RFDCl 1,1010rola 68RIOI Molorola 68RMS68 1,1010rola 68RSC 1 I,lolorola 68RTFR02 I,lolorola 68RWINI 1.1010rola

f,1681,1I,IS1·1 * 1940

U681,",105A *1940 I,168m,105B *1940 1,1681.H.l05C *1940

68SA2 I,toiorola 68SC02 Mitel

68MM06 Uolorola

1,1681,11,106

*1940

1.1010rola

1,1681,1/,107

*1940

1,1010rola

101681,11,109

*1940

Molorola

mOl.tr,tll

*1940

"'olorola

1,1681,11,112 *1940 1,168f.II,112·1 *1940 1,1681.11,112A * 1940

68MM07 68MM09 68MMll 68MM12

68MM13 P.168mmA 1,1681,11.1138 1.168/,lImC 1.168UP.1130

*1940 *1940 *1940 *1940

68MM15 I.lolorola

1.1681,n.115A *1940 1,168f.1P.115B * 1940 I.168/,1P.115BEX * 1940 1.1 68 1.1f.115 CI 1940 l,t681,tr.115CV * 1940

*

68MM15Al Molorola 68MM16 Molorola

1,1681,1I,115A 1 * 1940 1.168P.1P.116·1 *1940 r,168',1I.116·2 * 1940 1.16Br,1I.116·3 * 1940

68MM17 Uolorola

P,168f,tr.117

*1939 1761·21

1,1010rola

1,168"".118

*1940

Motorola Molorola

M68MM19 1761·22 1,168r.t1.119·1 * 1939 1,1681;11.n9A * 1939 1761-32

',!olorola

r,lB8r,Ir.121 *1940 "'681,11,121-1 * 1940

68MM18

68SC21 Mitel 68SC40 Mitel 68SC49 Mitel 68SETDS351 1,1010rola 68SP702Cl0 I,lolorola 68SXD10155 I.lolorola 68UCANAI 1,1010rola RClData 69

690 691 6910 6912 6917 693 696 697 699 60V12 60V15 60V24 60V28 60V5 60V6 7

68MM19

68MM21 70

68MM22 '.lolorola 68MMCC05 Motorola 68MMCC10 r.1olorola 68MMFLCI Molorola 68MMLCI Molorola

Page-Llna

Bua

Number

Source

Device

700

Signelics

C700 SCC700

68MMSI /,168KVI,130 *1938

1,lolorola

I.lolorola

Devlca

1.I010roia

I.l68 KVI.12I *1938

68MM03

I,Iolorola

Kumbar 68MMOI

68MMOI

It,

Bua

BISB

Ban

Number

l,t68/.1I.122

*1940

US8f.IF.1CCD5 * 1940 r.168 1.11,1 CC 10 * 1940 1.168P.lP;IFlCl * 1940 700 ~168"'mC1

* 1940

ToledynaS

1,16B/,mSCI * 1940 I,:68!.IPLR0201,1 HD68POI

* 1736

7000

1065·8

H068POISO * 1345

TI Holt Panasonic Rockwell Signetics TI

H068P01V05 * 1345 H068P01V07 * 1345 HD68P05 1065-9

70003

1,llcroEng

:ID68P05V07 * 1345 /,m8PP3 * 1737

7001

NEC-Micro

1,168RAOI

*1941

70014

1,1IcroEng

1,168RFOCI 1.168RIOI

*1941 *1941

H068P05V05 * 1345

7002

NEC·Micro

7004 7005 7010

SMC MasterLogic MasterLogic Signetics Sanyo MasterLogic NEC-Electron

l,t68RI,1S68K * 1935 1.168RSCI *1938 I,168nTFR021,1 * 1736

I,168nY/IIII·1 * 1941 I,168RWIIII·2 * 1941 7011 l,tEX68SA2 *17377015 MD68SC02 1091-87 702 1067·5 MD68SC21 1092-99 1092-150 MD68SC40 MD68SC49 1092·9 I,16BSETOS351

* 1735

I,168SP702CIO * 1738 I,~6BSXOIOI55

!.l6DUCAIiAl CMC69/04 CMC69/04A CMC69/15 MC690 MC691 1,1SI,16910 r.lSI,16912 AN6912 mr.16917 MC693

S,GS TI

7020

* 1738

* 1737 1761-31 1763-2 1761-30 Motorola 472-13 70200 Motorola 473·37 7027 OKI *3873 OKI *3873 Panasonic 2895-23 703 7030 OKI *3873 Motorola 472-94 2483-98 7031 Motorola 473-29 MC696 472-14 7033 Motorola MC697 Motorola MC699 472·43 Lambda L60V12 2965-53 Lambda L60V15 2965-54 Lambda L60V24 2965-55 70360 Lambda 2965-56 7038 L60V28 Lambda L60V5 2965-57 Lambda L60V6 2965-58 . Crommco OT7A *1922 SIII,I·mC Oatel *2622 2967-73 SHM-7MR Datel 2967-74 SHm Oalel *2614 Supertex DC-7 464-67 TeledyneC CAG7 2418-34 7040 CAG7-10 2418-35 Burr·Brown DAC70/CCD 2462-21 DAC70/COB 2462-11 DAC70/CSB 2462·9 DAC70C/CCD 2462-22 DAC70C/COB 2462-12 DAC70C/CSB 2462-10 7041 8PK70 Inlsl *3808 3468-3 MicroEng MCE70 2934-22 AnalogSys MA700 2933-45 2898-52 7045 ITT TCA700

Holt MasterLogic Signetics TI

IMI Intersil

"'olorola lSIComp lSIComp NCR Nitron

IMI Intersil

Fairchild lSIComp TI

TI

Intersil

Page-Llnl

*4524 *4524 4141·115 TSC700A *2846 2464·133 STL700 * 438 2899·155 HI1000 2900·125 AN1000 RC7000 1088·113 SAA7000 2896·39 TI.1S7000 *1556 1093-2 *1556 1075-19 l,mOO03 *4440 4141-25 *4440 464·9 uPD7001 2429·28 1094·55 1102-14 1.1T70014 *4440 4141-26 *4440 464-10 2435-20 uPD7002 1094-56 1102-15 CRT7004 3453-57 ML7005 4140·159 4140·160 ML7010 2896-40 SAA7010 LA7011 2968·39 4140-161 ML7015 uPC702 2913-118 2929-47 L702 2889·92 TL702C 2913·119 2933-50 2913-120 TL702M 2929-48 2923-8 uA702M 2899-159 HI7020 ML7020 4140·162 SAA7020 2896-41 Tr.tS7020 *1556 1093·3 *1556 1075·20 4141-155 G70200 IM7027-1 3468·14 IM7027-3 3468-24 IM7027-4 3468-36 MPRIIIT703 *1738 lS7030 * 696 510-58 lS7031 * 696 510-55 3455-4 NCR7033 3455-5 NC7033 II 285·3 II 243-9 G70360 4141-156 462-85 ICM7038A 2898-143 462-86 ICM7038B 2898-144 462-87 ICM7038C 462-88 ICM7038D 462-90 ICM7038E ICM7038F 462·91 462-92 ICM7038G 2906-49 FCM7040 lS7040 696 510-45 Tl.tS7040 *1556 1092-123 1093-4 *1556 1075-21 U1S7041 *1556 1093-6 *1556 1075-22 511-49 ICM7045

*

Number

Source

Device

7045

Intersil

ICM7045

7047

1049 7050

7051

7052 7055

7060

7061

7062 7063 7064 70640 7069 707 7070 7071 7072

7073 7074 7075 7076 7080 7085 7089 709

7090 7091 7092 7093 7094 7095 7096 7097 7098 7099 70C20

Plgl-LiRI

2899·74 2899·90 ICM7045A 511·47 2951·17 Intersil ICM7047 2899·95 Intersil ICM7049A 462·103 2898·145 IPI IPI7050 2964·14 ICM7050 Intersil 462·104 2898-146 lS7050 lSIComp * 696 510-49 Inter~iI ICM7051A 462·83 2899-30 ICM7051B 462-105 2899-31 Nitron NC7051 3455·8 TA7051 Toshiba 2905·48 ICM7052 462-106 Intersil 2899-32 lSIComp lS7055/56 * 696 510-50 NC7055 3455-16 Nitron lSIComp lS7060 * 696 510-61 II 260-5 lSIComp lS7061 * 696 510-62 II 260·5 Toshiba TA7061A 2888-116 lSIComp lS7062 * 696 510·46 TA7063 2897-172 Toshiba IPI IPI7064 2964-15 IMI G70640 4141-157 Toshiba TA7069 2906-10 4141-29 MicroTech MC707 2896-69 Panasonic AN7070 TA7070 2903-31 Toshiba Panasonic AN7071 2896·62 U87072E Fujitsu *3681 469-5 *3681 3473-48 1,1870721' *3681 469-6 *3681 3473·52 2905-49 Toshiba TA7072 Toshiba TA7073A 2905-50 2906-11 TA7074 Toshiba TA7075 2906-12 Toshiba TA7076 2906-13 Toshiba LSILogic LSI-7080 4140-150 Toshiba TA7085A 2960-33 TA7089 2959-57 Toshiba 2924-9 Fairchild uA709AM 2932-9 uA709C uA709M 2929-4 MHW709 2888-52 Motorola LM709 2929-6 National 2924-11 LM709A 2932-10 LM709C Raytheon RC709 2932-11 2925-41 RM709 2921-19 RM709A uA709AM 2924-13 TI uA709C 2932-5 uA709M 2929-38 National DM7090 495-87 National DM7091 491-90 ACF7092C 2962-20 GI 490-142 National DM7092 DM7093 476-134 National II 236-15 DM7094 476-109 National National' DM7095 159 485-16 National DM7096 107 485-15 National DM7097 160 485-16 National DM7098 108 485-15 491-80 National DM7099 TP.IS70C20 *1556 TI

Arranged alphanumerically from left to right.

130

©

Ie MASTER" 1983

PART NUrv1BER ;NOE)( BlSa Numbor

70C95 70C96 70C97 70C98 70E40

70L22 71

Source

Device

Paue-Llne

450-103 450-171 450-104 450-172 *1556 1093-1 *'556 1075-23 1093-5 TI TMS70L22 1075-24 ADADC71J *3173 AD 2436-45 ADADC71K *3173 2436-39 ADDAC71-C08-1 3166 2461-25 ADDAC71-COB-V 3166 2461-37 ADDAC71-CS8-1 3166 2461-26 ADDAC71-CSB-h 3166 2461-38 2437-4 Burr-Brown ADC71J 2436-47 ADC71K DAC71/CCD 2462-27 DAC71/COB 2462-1 DAC71/CSB 2462-2 Datel DAC-71-CCD-1 2462-23 DAC-71-CCD-V 2462-25 DAC-71-C08-1 2461-20 DAC-71-C08-V 2461-33 DAC-71·CS8-1 2461-21 DAC-71-CS8-V 2461-34 NEC-Electron uPC71 2892·18 2892-15 Fairchild uA710C uA710M 2891·24 Motorola 2888·53 MHW710 I LImo lIational *3317 2891·26 LIm DC *3317 2892-17 SiliconG 2891·27 SG710 2892·19 SG710C 2892-34 TI TL710C 2892-21 TL710M 2891-28 uA710M IPI IPI7100 2964·16 LSIComp LS71DD * 696 2464-46 2427-27 MicroNet MN7100 2963·22 2427·28 MN7100H 2963·23 Synerlsk 7100 *4536 SY71DO *4536 4141·118 IMI G71000 4141·158 LSILogic LSI·71000 4140·151 TI 2902·68 VM71001 2902·69 TI VM71002 TI VI.I71003 *1563 2902·70 TI V1.171 004 *'563 TI VI.171005 *'563 Intersil ICL7101 2438·23 Intersil 2438-24 ICL7103 ICL7103A 2438·42 11 253·16 \I 276·11 11 277-1 Intersil 2436-20 ICL7104·12 If 253-16 11 256·16 11 248·1 ICL7104·14 2436·28 11 253·16 11 256·16 11 248·1 ICL7104-16 2437·5 11 253·16 11 256-16 11 248·1 511-43 MicroPwr MP7104A Intersil ICL7106 2438·1 11 256·20 11 257·1 National National National National TI

MM70C95 MM70C96 MM70C97 MM70C98 T!.lS70E40

* * *

710

7100

71000 71001 71002 71003 71004 71005 7101 7103

7104

7106

Base Nurnbsr

Source

Device

7106

Intersil

ICL7106

7107

TeledyneS Intersil

TSC7106 ICL7107

7109

Nitron TeledyneS Intersil

Telodyne3

NC7107 TSC7107 ICL7109

TSC7109C TSC71 091.1

711

Datel Fairchild !latlonal

ST-711 uA711C uA711M LIm 1 W711C

SiliconG

7110

TI AD Intel LSIComp

7111

SG711 SG711C uA711C AD711DK 7110 LS711D

Panasonic Synerlsk

AN7110 7110 SY7110

AD

AD7111K AD7111L AD711IT AD7111U

Synarlek

7111 SY7111

7114 7115

Panasonic AD

AN7114 AD7115K

PanJ~onic

7116

Intersil

AN7115 ICL7116

7117

TeledyneS Intersil

TSC7116 ICL7117

7118

TeledyneS AD

TSC7117 AD7118K AD7118L A07118T AD7118U

711RLY16 Dalol

ST·711RLYI6D

Page-Llna

11 276-15 11 277-5 11 277-10 2438-13 2438-2 11 256-20 11 257-1 11 277-10 510-51 2438-14 2435-25 11 253-16 11 257-1 *2847 2435-26 *2847 2435-27 *1933 2893-47 2893-28 *3317 2893-29 *3317 2893-49 2893-30 2893-50 2893-51 *3166 2896-27 3468-2 * 696 511·95 * 696 2424·96 2896-99 *4537 *4537 4141·119 *3166 2896-21 *3166 2896·22 *3166 2896-23 *3166 2896-24 *4537 *4537 4141-120 2896·100 *3163 2896·20 2895·101 2438·3 11 256-20 2438·15 2438·4 11 256-20 2438·16 *3166 2896·28 *3166 2896-29 *3166 2896·25 *3166 2896·26

* 1933

oase Number

Source

Device

7122

Fujitsu

1,107122E

7123

7124

7125 7126

7127 7128

7129 7130

7131

7132

7133 7134

7135

711RLY8 712 7120

Dalel TI MicroNet

7121

Panasonic Sanyo Toshiba Fujitsu

National

ST·711RLY8D * 1933 TL712 2965·154 MN7120 2427·29 2963-24 7136 MN7120H 2427·30 2963·25 AN7120 2896-102 LC7120 2898·125 7137 TA7120 2897·173 UB7121E *3679 3461·115 3461·115 1,IB712111 *3679 3461·103 7138 3461·103 DM7121 500·1

Page-Line

*3679 3461-118 3461-118 1.\0712211 *3679 3461-105 3461-105 2897-174 Toshiba TA7122A TA7122B 2897-175 1,\07123E Fujitsu *3679 3461-5 !.I0712311 *3679 3460-117 National DM7123 499-66 Fujitsu 1.1B7124E *3679 3461-10 1,18712411 *3679 3460-120 Toshiba TA7124 2906-14 Toshiba TA7125 2905-74 2438-5, Intersil ICL7126 11 256-20 TeledyneS TSC7126 *2848 2438-17 Toshiba TA7126 2904-133 1.18712711 '*3679 Fujitsu 3463-105 1,187128 Fujllsu *3679 497-77 1,187128E *3679 3463-117 1,!07128E·\'1 * 3679 3463·118 1.10712811 *3679 3463·107 IPI7128 IPI 2964·17 Toshiba TA7129 2897·176 TA7129A 2897·177 Fujitsu MB7130E 3484·30 M87130H 3484-31 MicroNet MN7130 2967·107 11 253·7 MN7130H 2967-108 11 253-7 National DM7130 474·135 Panasonic AN7130 2896·103 TA7130 Toshiba 2905·51 Fujitsu 1.187131 *3679 497·71 l.lB7131E *3679 3462·87 I.IB713111 *3679 3462·73 National DM7131 474·76 Sanyo LC7131 2898·132 Fujitsu I.IB7132 *3679 497·72 I.lB7132E *3679 3462-88 I.IB713211 *3679 3462·76 UB7132Y *3679 3462-67 Toshiba TA7133 2946·7 1.1B7134E Fujitsu *3679 3485·67 UB713411 *3679 3485·66 Toshiba TA7134 2904·134 Intersil ICL7135 2438·40 Sanyo LC7135 2898·133 TslsdynaS TSC7135 *2850 2438·41 Toshiba TA7135 2904·135 Fujitsu MB7136E 3484·109 MB7136H 3484·108 National DM7136 474·78 Toshiba TA7136A 2897-178 Fujitsu I.1B713711 *3679 3464·59 Toshiba TA7137 2902·102 TA7137·ST 2902·103 TDA7137 2896·18 TDA7137·ST 2896·19 I.lB7138E Fujllsu *3679 3464-90 I.lB7138E·\'1 * 3679

Base Ilumbar

Source

Davlce

7138

Fujitsu

MB7138E-W

1,lIcroPwr

7139 714

MicroPwr Fairchild

7140

LSILogic MicroNet

7141

Toshiba Fujllsu

Intersil

7142

Toshiba Fujllsu

7143

Fujitsu

7144

Fujllsu

71440 7145

IMI Panasonic

7146

Toshiba Panasonic

7147 7148 7149

Tpshiba Toshiba Toshiba MicroPwr

715

Toshiba Fairchild

7150

7151 7152 7154 7155 7156

MicroPwr Panasonic Toshiba Panasonic Toshiba Panasonic Toshiba Panasonic Panasonic MicroPwr Panasonic

7157 7158 716 7160 7161 7162

Toshiba Toshiba Dalal MicroPwr National Toshiba MicroPwr Toshiba

Page-Line

497-78 *3679 3484-110 1,\0713811 *3679 3464-62 1,IP7138 * 401 *2749 2438-6 1.1P7138A * 401 *2749 2438-7 2898-126 MP7139 uA714 2911-56 2915-27 2911-107 uA714C 2916-34 2915-33 uA714E LSI-7140 4140-152 MN7140 2963-26 2963-27 MN7140H 2896-137 TA7140 1.IB7141E *3679 3466-21 1,18714111 *3679 3466-19 3482-98 IM7141 3482-25 IM7141-2 IM7141-2M 3482-26 IM7141-3 3482-67 IM7141-3M 3482-68 3482·99 IM7141L IM7141L·2 3482·27 3482·69 IM7141L·3 IM7141M 3482·100 2904·22 TA7141A 1.IB7142E *3679 3466·22 UB7142E·\y *3679 497-79 *3679 3466·24 3485·69 1,18714211 *3679 3466·20 1,IB714311 *3678 3466·77 1.1B714411 *3678 3466·78 G71440 4141·159 2897·129 AN7145H AN7145L 2897·100 AN7145M 2897-113 TA7145 2906·15 2897-130 AN7146H AN7146M 2897·101 2905·52 TA7146 2906-16 TA7147 TA7148 2904·23 2898·127 MP7149 2945·141 TA7149 2904·24 uA715C 2913·144 2932·4 2913·145 uA715M 2929·40 MP7150 2899·165 AN7150 2897·31 2904·25 TA7150 AN7151 2897·32 2904·118 TA7151 AN7152 2897·33 2905·119 TA7152 AN7154 2897·34 AN7155 2897·35 2898·124 MP7156 2945·84 AN7156 2897·114 2897·131 AN7156N 2901·153 TA7157A 2965·2 TA7158 ST·716 *1933 2899·149 MP7160 474·70 DM7160 2904·26 TA7161 MP7162 2906·116 TA7162 2906·17

11 Indicates page number in Application Note Directory. * Indicates additional data is provided on the page noted. ©

Ie MASTER

1983

131

r--:

§ e

I • c,

II

(.'::111

~:

... ~ ~

?1 ~,

-

Ie Bin Number

MASTER Source

ITT 7163 7164 ITT 7165 Toshiba Toshiba 7167 71671L70 IDT 7168 IDT Toshiba 71681L 100 IDT

71681L45 IDT

71681L55 IDT

71681L70 lOT 71681L85 IDT

71681S100 IDT

71681S45 IDT

71681S55 IDT

71681S70 IDT

Device

ITT7163 ITT7164 TA7165 TA7167

PagB-Llne

2481-54 2481-55 2907-9 2904-27

Bue Number

Source

, Device

72

AD

' ADDAC72-COB-V

IDT11671L70 * 3805 IDT7168 *38D5 2904-28 TA7168 IDT716811100'* 3805 3483-38 3483-39 1DT11681L45 * 3805 3482-118 3483-1 1DT11681 L55 * 3805 3483-9 3483-10 1DT71681L70 3483-17 3483-18 1DT11681 L85* 3805 3483-31 3483-32 1DT71681S100 * 3805 3483-40 3483-41

720

7200

7201

1DT11681 S45 * 3805 3483-2 3483-3 1DT11681S55 * 3805 3483-11 3483-12

7203 7205

IDT11681S70 * 3805 3483-19 3483-20

7206

71681S85 IDT

1DT11681 S85 * 3805 3483-33 3483-34 Toshiba 2904-29 7169 TA7169 MicroTech MC717 4141-30 717 7171 Toshiba 2903-89 TA7171 7172 Toshiba 2903-90 TA7172 7173 Toshiba 2904-30 TA7173 Toshiba 7174 TA7174 2904-31 Toshiba 2905-53 7176 TA7176A Toshiba 2903-91 7177 TA7177 Toshiba 2903-92 7178 TA7178 7179 Toshiba 2958-81 TA7179 7180 Spraguo UOII-7180 *2843 2465-115 7181 Sanyo 2898-121 LC7181 Spragus 7183 UDII-7183 *2843 2464-118 7184 Sanyo 2898-122 LC7184 Spraguo UDlI-7184 *2843 .2464-119 Spragus 7186 UDN-7186 *2843 2464-120 7189 MicroPwr MP7189 2898-128 7191 Sanyo 2898-123 LC7191 Toshiba 7192 TA7192 2904-32 Toshiba 7193 TA7193 2904-33 71960 IMI G71960 4141-160 71LS95 AMD 477-38 DM71LS95 National 477-42 DM71LS95 478-27 71LS96 AMD DM71LS96 71LS97 AMD DM71LS97 477-39 National 477-43 DM71LS97 71LS98 AMD 478-28 DM71LS98 71S96 National 478-31 DM71S96 71S98 National DM7,1S98 478-32 72 AD ADADC72J *3173 2436-46 ADADC72K *3173 2436-40 ADDAC72-C08-1 * 3166 2461-27

7207

7208

7209 721 7210

7211

7212

Page-Line

* 3166

2461-39 ADDAC72-CSB-1 * 3166 2461-28 AODAC72-CSB-V * 3166 2461-40 2436-48 Burr-Brown ADC72 DAC72/COB 2462-3 DAC72/CSB 2462-4 Datel DAC-72C-CCD-1 2462-24 DAC-72C-CCD-V 2462-26 DAC-72C-COB-1 2461-22 DAC-72C-COB-V 2461-35 DAC-72C-CSB-1 2461-23 DAC-72C-CSB-V 2461-36 Dalal DAC72 *2615 Inial BPK72 *3809 2940-25 MicroEng MCE72 2907-13 ITT TCA720 Reticon 2963-150 R0720A Universal HCM720 4141-126 LSILogic LSI-7200 4140-153 National 474-32 DM7200 Sanyo LC7200 2900-148 Intersil 2964-112 ICM7201 2486-97 NEC-Electron uPD7201 NEC-Micro uPD7201 1094-145 1096-58 1098-30 1101-61 2900-149 Sanyo LC7201 Sanyo 2900-150 LC7203 2897-106 Toshiba TA7203 Intersil ICM7205 2899-92 Toshiba 2897-87 TA7205A Intersil ICM7206A 2949-139 2949-140 ICM7206B 2949-141 ICM7206C 2949-142 ICM7206D Intersil 462-80 ICM7207 462-81 ICM7207A ~ 277-2 Sanyo LC7207 2900-151 Toshiba TA7207 2896-138 452-100 Intersil ICM7208 ~ 277-2 Toshiba 2896-139 TA7208 Intersil ICM7209 462-77 2480-7 2965-155 TI TL721 2899-112 Intersil ICM7210 2899-113 ICM7210C 2899-114 ICM7210M ICM7210MC 2899-115 LSICornp LS7210 * 696 464-64 * 696 2951-26 National 500-6 DM7210 ~ 235-12 NEC-Micro uPD7210 1102-46 2900-90 Sanyo LC7210 2945-130 -Toshiba 2897-7 TA7210 Intersil ICM7211 455-26 2464-122 455-27 ICM7211A 2464-123 ICM7211AM 455-21 2464-111 ICM7211M 455-22 2464-112 500-7 National DM7211 2464-110 SSS SCL7211 TolBdynaS TSC7211A *2852 2464-132 455-37 Intersil ICM7212 2464-114 455-38 ICM7212A 2464-115

Base Number

Source

Devlca

7212

Intersil

ICM7212AM

7213 7214

7215

7216

7217

7218

7219 722 7220

7221 7222 7223

7224

7225

7226

7227

Page-Line

455-39 2464-116 ICM7212M 455-40 2464-117 TeledynaS TSC7212 *2852 Intersil ICM7213 462-82 Panasonic AN7213 2900-156 Intersil ICM7214 2899-178 ICM7214A 2899-179 National DM7214 497-137 ~ 236-15 Toshiba TA7214 2897-107 Intersil ICM7215 511-48 2899-93 Toshiba TA7215 2897-108 Intersil ICM7216 453-108 ICM7216A 510-40 ICM7216B 510-41 ICM7216C 510-56 ICM7216D 510-57 MicroPwr MP7216 2899-156 Intersil ICM7217 453-63 ICM7217A 453-64 ICM7217B 453-65 2951-95 ICM7217C 453-66 2951-96 Toshiba TA7217A 2897-88 Intersil ICM7218A 511-90 2463-57 ICM7218B 511-91 2463-58 ICM7218C 511-92 2463-59 ICM7218D 511-93 2463-60 ICM7218E 511-94 2463-61 Panasonic AN7218 2900-107 National DM7219 500-89 Burr-Brown 722 2960-85 7220 Intel 1100-64 7220-1 2962-113 Intersil ICM7220 2899-116 ICM7220A 2899-160 ~ 275-3 ICM7220B 2899-117 ICM7220C 2899-148 ICM7220FA 2899-161 ICM7220M 2899-118 ICM7220MA 2899-119 ICM7220MC 2899-120 ICM7220MFA 2899-162 LSICornp LS7220 * 696 2906-50 ~ 231-10 National DM7220 509-26 Sanyo LC7220 2900-91 2945-131 Intersil ICM7221 2899-163 Intersil ICM7222 2899-164 Toshiba TA7222A 2897-89 Intersil ICM7223 2899-2 2899~3 ICM7223A ICM7223VF 2899-4 National DM7223 483-146 Toshiba TA7223 2902-98 ICM7224 Intersil 453-52 ICM7224A 453-53 Toshiba TA7224 2902-124 Intersil ICM7225 453-54 ICM7225A 453-55 LSIComp LS7225 * 696 2906-51 Sanyo LC7225 2900-92 2945-132 Toshiba TA7225 2902-123 Intersil' ICM7226 453-109 ICM7226A 510-42 ICM7226B 510-43 Intersil ICM7227 453-67 ICM7227A 453-68 ICM7227B 453-69 2951-97

Bue Humber

Source

Device

7227

Intersil

ICM7227C

7229 723

7230

7231 7232 7233 7234 7235

7236

7238 724 7240 7241 7242

7243 7245 725

7250

7253

Plge-Llne

453-70 2951-98 Toshiba TA7227 2897-128 LSIComp LS7229 * 696 Toshiba TA7229 2902-125 Fairchild uA723C 2959-90 uA723M 2959-91 Intersil uA723 2959-92 Lambda LAS723 2959-119 LAS723B 2960-14 National LM723 2959-95 LM723C 2959-96 Raytheon RC723 2959-97 RM723 2959-98 RCA CA723 2959-99 CA723C 2959-100 Signetics uA723 2959-101 uA723C 2959-102 SiliconG SG723 2959-103 SG723C 2959-104 TI uA723C 2959-105 uA723M 2959-106 Intel 7230 2962-114 National DM7230 482-91 ~ 236-15 Intersil ICM7231 2465-98 LSIComp LS7231 2906-154 Intersil ICM7232 2465-133 LSIComp LS7232 2906-155 Intersil ICM7233 2464-103 LSIComp LS7233 2906-156 Intersil ICM7234 2465-8 LSIComp LS7234 2906-157 Intersil ICM7235 2464-104 ICM7235A 2464-105 ICM7235AM 2464-106 ICM7235M 2464-107 LSIComp LS7235 2906-158 Intersil ICM7236 453-57 ICM?236A 453-51 LSIComp LS7236 2906-159 Toshiba TA7238 2897-90 Burr-Brown 724 2960-86 Intersil ICM7240 2951-22 LSIComp LS7240 510-25 Motorola MC7241 495-12 Intel 7242 2485-47 2962-119 2962-120 Intersil ICM7242 2951-23 Motorola MC7242 495-64 Toshiba TA7242 2905-120 Toshiba TA7243 2905-54 Intersil ICM7245 2899-96 AMD SSS725A 2911-53 2915-54 SSS725B 2920-7 Fairchild uA725A 2911-77 uA725AM 2919-41 uA725C 2924-27 uA725E 2911-78 .uA725M 2921-17 National LM725 2921-18 LM725A 2911-64 2921-34 LM725C 2924-28 NEC-Electron uPC725 2924-29 PMI PM725 2921-15 ~ 271-2 PM725C 2924-30 ~ 271-2 SSS725 2919-42 ~ 266-2 2915-53 S~S725A ~ 266-2 SSS725C 2911-106 2921-29 ~ 266-2 Raytheon RC725 2924-31 RM725 2921-16 Intersil 2951-24 ICM7250 Motorola MC7250 482-112 Sanyo LC7250 2900-152 Siliconix SI7250 *2830 2962-117 Sanyo LC7253 2900-95

Arranged alphanumerically from left to right.

132

©

Ie MASTER

1983

PART NUMBER INL nasa

Basa

Paas-Llne

Number

Source

Davlea

7254 7255 7256 7257 7258 726

Siliconix NEC-Micro IPI Sanyo Sanyo Fairchild

7260

Intersil Motorola Motorola

VQ7254 uP07255 IP17256 LC7257 lC7258 uA726C uA726M ICM7260 MC7260 MC7261

lSICcr.tp lSIComp

lS7262 lS7263

7261 7262 7263 7266 7267 7269 727

7270

MC72GG AN72GG MC72G7 ICM7269 IIA727C lIA727M MicroTcch MC727 ICM7270 Intersil lS7270 lSIComp Me7270 Motorol3

Motorola Panasonic Motorola Intersil Fairchild

SGS 7271

Intersil Motorola

TDA7270 ICM7271 MC7271

2483-75 2466-13 2964-18 2900-96 2900-97 2968-9 2968-10 2951-25 474·168 474·137 696 696 498-68 2900-108 499-62 2899-121 2888-30 2888-31 4141-31 2899-122 1102-70 501-104 3488-55 2902-122 ~ 272-13 2899-173 501·W

*

*

llur.1her

Source

733

Intersil

7330 7331 7332

7335 734 7343 736 7364 737 738 739

7392

7404 2888-73 2888·74 2888-82 2888-104 2888·105 2888-110 2888-111 7405 2888·114 2888·115 2902-131 2902·126 2896-140 3485-86 3485·6 2906-109 7406 2901·2 2892·22 2891-37 2901·157 2461-11 3486·100 7407 4141·32 2900-15 2897·183 2897-184 2940·8 2906-Gg

uA733 uA733C National lM733 Signetics uA733 uA733C SG733 SiliconG SG733C uA733C TI uA733M TA7330 Toshiba TA7331 TOShiba uA7332 Fairchild IM7332 Intersil IM7332C Toshiba TA7332 Toshiba TA7335 FairChild uA734C uA734M Toshiba TA7343 Burr-Brown DAC736 Intersil IM73G4C MicroTcch MC737 SGS M738 FairChild UA739 uA739 Fairchild

uA7392

296·1-12~

3488-~G

7272 7273 728 7280

Intersil Intersil

ICM7272 ICM7273

Dalsl

ST-728

Motorola National 7281 Motorola National 7288 National 7290 National 7291 National 72C19 National 72HM185 Intersil Burr-BIOII'll 73

730

7301 7302

730-1

7306 7307 7308 731 7310 7311 7312 73128 7314 7315 7316 7317 7318

732 7320 7322 7324 7325 7326 7327 733

©

Ie

Si(}lIdics Unilloda

MC7280 OM7280 MC728 I OMntll O~17:'!lB OMi;'~l() [)I.I/;'~ll

MM/2C19

12111.1 185C AOC73J AOC73K DAC73 OAC73C TCA730A

PIC730

3484-105 2436·43 2436-37 2461-13 2461-14 2896·35

*3446

ACF7301C ACF7302C GI TA7302 Toshiba AM7303 MID National DP7303 Toshiba TA7303 AMO AM7304B National DP7304 DP73048 Toshiba TA7306 AMD AM7307 National DP7307 AMD AM7308 National OP7301l Burr·Brown ADC731.J ADC7:lIK National DP73 10 National DP7311 Panasonic AN7:)11 Toshiba TA7:lL' lIPDt:lt:'H NEC-EA Toshib;l T"lJ J.I TMJI~. Toshlb,l 1"1:11(; Toshl!!,l flallon~1 1.11.11317 Toshlll,l 1A1:!1l IAl311l Toshib,l , Datel ST-7n I :;l-/J;'O lSILogiG Toshib,l I M;I:';' Toshib,l IA/:{;'-I TOShiba IAn'!, Toshiba I M,L'ti Toshiba IAn;', Toshiba uMJ:lC Fairchild

MASTER

2899-1:':1 2899- 1].1 '" 1933 ·I(IO-tl7 ·HlO-92 478-49 478·55 482-24 480-93 478-56 462-6

2961-9,1 2962-;>1

lIalional 8igntlics SPI 740

TI In11174116 ZN:4118 ZII74119 ;':12 7M7.1?

HOi-II,'

SN74 12 MC-74120 SN74120

!

836

490·181 457-81 495-108

867 495·110 487·164 487·168 ,1U7-liO 487·17·1 487·178 487·182

869 488·1 ,187·116 487-118

:/( 870

*

487·120 870

247.~-1!,

·I;i'l ;Ii ,lU'l-·HJ

/.!ll

74111

,~L741CH; ;':1.1, U

2925-;:lr :'90"

*

81174107

n

29t- g

2909-32

*

74107 ZN74107 HD74107 r.IC7,11U7 0M74107 14107

74110

f

2929·12 2925-34

*

81174100

National Signetics

fell":ti

2924-8

LA"'., ,I

TC7410B MC74100

Fairchi/,' Nation,1I Si!1I1I'1IC ~,

*3153

UPC7.11

Toshiba Motorola TI

OM7411 7411 8;mtlO

."I,II'i

\1"

SII7410

Fairchild

7411

489-96 2923-19 2928-20

ICL741Cl :':1.':1_ fIJ ICL74 f:; 2929·2

TI

S117 ,11 !l9A

835

11,\/-\1,\'-1 ,Jl1-'1c

National, ,'" ',i -Iv! /,1 II:

SG741C SG741S SG741SC uA741C TI uA741M Thomson·CSF SFC741C Fairchild 7410 Ferranti ZN7410 Hitachi HD7410 Motorola MC7410 National DM7410 SiaJlctics 7410

Ferranti

,1::'1 !IO ,1iI:192 ,109-94

'" 3153,

,,833

uA741C SG741

HiLtchi I.\n\olol:l tJ.ltion,ll :;lgneUc:; TI

.1Ii!1 II!I

AD741S

Intersil

SiliconG

290 292S 2930 290929292930-: 2929·:' 2931-9 2930-51 2929-17 2930-57 490-16-_ 490-169 490-170 490-173 490·175 490·178

489-1J.1 489 Hi

*31l'S t919-39

IIJJ

uA741

835

A0741l

11M-II

Signetics

74107

290~-27

Fairchild

741

74100

485-6 484-135 484·136 484-13B 484- Hll 48,1-J.ll 035 .ltl4·143 489-123 489-125 489-126 489-128 489·130 489·132

2!1:'9-8

A0741C

Pag.

7410

835

*

*

Davlel

·\77-67 ·1Il4·159 484·160 485·1 485·3 485·4

7,101I

Fairchild Ferranti Hitachi Motorola National TI

Source

834

833

4"1 !II

.:.l

477·167 451·17 477-56 477·58 477·59 477-61 477-63 477-64

-I


-'~~ A (r;t"7}v

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7

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354

0

© Ie MASTER 1983

MILITARY DEVICE TESTING

IC MASTER

MANUFACTURER Advanced Micro Devices American Microsystems, Inc. Analog Devices Burr-Brown Research 9herry Semiconductor Datel-lntersil EMM/Semi Exar Integrated Systems Fairchild Semiconductor General Instrument Harris Semiconductor Hughes Aircraft Hybrid Systems ILC - Data Device Integrated Device Technology Intel Interdesign International Microcircuits Intersil LSI Computer Systems Micro Networks Micropac Micro Power Systems Monolithic Memories Mostek Motorola Semiconductor National Semiconductor NEC-Electronic Arrays NEC Microcomputers Nitron Nortec ~ptical Electronics Plessey Semiconductor Precision Monolithics ~_aytheon Semiconductor RCA Solid State Rockwell SGS-ATES Signetics Silicon General Siliconix Solid State Scientific

Linear X

MIL-M-38S10 QPL Other Bipolar TTL X

MIL-STD-883 SCREENING CMOS

X

Class B

Class C

Class S

X

X

X

X X

X

limited

X X

X X X X X X

X

X X X

X

X

DTL

X

PROM

X X X

X ,uP

X

X X X X X X X X X X X

X X

-----

X

PROM

X X

ECL,,uP

X X X X

--

X X

X

X X

X

X

X

X

X

X

X X X

X

X

X X

-

X X - - r----- -

X

----

X

X

X X

Solitron

X

X

Sprague Electric

X

X

X X

Standard Microsystems Corp.

X

X

X

Synertek

X

Teledyne Crystalonics

X

X X

X-

Teledyne Philbrick

X

X

X

X

--

Teledyne Semiconductor Texas Instruments

--

X

X

X

RAM

X

TRW LSI

X

Zilog

X

X X X X

--

X X X X

X X X X

-- r---

---- f - - - - - - - -

X X

Q)

"0 ::J

-

X

X X X --1--------X X X X X X ----. X X - ------ .---X X - - - - - - ----.--_ .._-X X X X X - - - -X- X X X X

X

X X

--

Analog Switches

X X

X X X X X X X X X X X X

X

X X X

PROM

X

X X

X X X X

X

X

X X X X X X X X X X X X X --_.X __ ._X

X X

X

X

X X X X X X X X

X X X.

X X X X

DAC

X

--f----

X

X X X X X X X

X X

X X X X X X X X X X X X

X X X

X X

OTHER SCREENING Industrial Military

--

.

X X X X X

X X X X X f---X f-----X

X

X

X X X

X X X X-------X

X

X ------- - - - - X

X

EXPLANATION: The "MIL-M-38510" section indicates the IC manufacturers currently providing Q.P.L. ICs. More detailed information on the specific devices is given in the Qualified Products lists which follow. The "MIL-STD-883 Screening" section lists those manufacturers who are both set up and actively want to screen devices to the levels indicated. "Other Screening" shows those who report that they want business calling for special military and industrial environment screening procedures. © IC MASTER 1983

355

CD

c::

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.......

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en

IC MASTER

MILITARY PARTS INDEX -' DEVICE/QPL

CROSS REFERENCE -

Q)

"C ::::l

(!J C

o ...... u Q) Q)

C/)

Device

M3851D/

AM91L30AF AM91L30ADM AM91L30AFM AM91L30CDM AM91L30CF AM91L30CFM AM91L40ADM AM91L40AFC AM91L40AFM AM91L40CDM AM91L40CFC AM91L40CFM AM9130ADM AM9130AFC AM9130CDM AM9130AFM AM9130CFC AM9130CFM AM9140ADM AM9140AFC AM9140AFM AM9140CDM AM9140CFC AM9140CFM DAC-08 DAC-08A OG181 OG182 OG184 DG185 DG187 DG188 OG190 OG191 DG300 OG301 DG302 DG303 DG304 DG305 DG306 DG307 HA-2500 HA-2510 HA-2520 HA-2600 HA-2620 HA-4741 HPROM0512 IM5603A IM5623 LF147 LF151 LF153 LH2101A HM7602-2 HM7603-2 HM7610-2 HM7611-2 HM76160-2 HM76161-2 HM7620-2 HM7621-2 HM7640-2 HM7641-2 HM7642-2 HM7643-2 HM7644-2 HM7680-2 HM7681-2 HM7684-2 HM7685-2 LH2110 LH2111 LM101A LMI02 LMI06 LM108A LM109 LMll0 LM111 LM118 LM120H-05 LM120H-12 LM120H-15 LM120H-24 LM120K-05 LM120K-12 LM120K-15 LM120K-24

23706 23708 23708 23707 23705 23707 23716 23714 23716 23715 23713 23715 23704 23702 23703 23704 23701 23703 23712 23710 23712 23711 23709 23711 11301 11302 11101 11102 11103 11104 11105 11106 11107 11108 11601 11602 11603 11604 11605 11606 11607 11608 12204 12205 12206 12202 12203 11003 20101 20201 20202 11906 11904 11905 10105 20701 20702 20301 20302 21001 21002 20401 20402 20801 20802 20601 20602 20603 20903 20904 20901 20902 10603 10305 10103 10601 10303 10104 10701 10602 10304 10107 11501 11502 11503 11504 11505 11506 11507 11508

OPL

X X

X X

X X X X

X X

X X X X

X X X X X

X X X

X X

X X X X X X X X X X

X X

X X X

X X X

X

COMMERCIAL TO MILITARY Device

M3851D/

LM124 11005 LM139 11201 LM140K-05 10706 LM140K-12 10707 LM140K-15 10708 LM140K-24 10709 LM141H-05 10702 LM141H-12 10703 10704 LM141H-15 LM141H-24 10705 LM148 11001 LM149 11002 LM193 11202 LM723 10201 MCM5303 20101 MCM5304 20102 MCM6604A* 23602 MCM6604At 23604 MCM6605* 23601 MCM6605t 23603 MH0026 03501 MK84096* 23602 MK84096t 23604 MM5280* 23505 MM5280t 23506 PM155 11401 PM155A 11404 PM156 11402 PM156A 11405 PM157 11403 PM157A 11406 PM2108A 10106 Special 15504 TMS4050* 23502 TMS4050t 23504 TMS4060* 23501 TMS4060t 23503 061 11901 062 11902 064 11903 071 11904 072 11905 074 11906 10501 06001 10502 06002 10504 06201 10505 06003 10506 06004 10507 06005 10509 06006 10524 06301 10525 06302 10531 06101 10535 06104 10576 06103 10597 06202 10631 06102 1558 10108 1802 47001 2117 24001 2117 24002 2147H 23801 2147H 23803 2147H 23805 2147H 23807 2148H 23806 25LS174 33106 25LS175 33107 2708 ' 22001 2901A 44001 2905 44101 2906 44102 2907 44103 2915 44104 2916 44105 2917 44106 2918 44201 3018A 10801 3045 10802 4000A 05201 40008 05251 4001A 05202 40018 05252 4002A 05203 40028 05253 4006A 05701 4007A 05301 4008A 05401 4009A 05501 4010A 05502

OPL X

X X

X X X X X

X X X

X X X

X X X X

X X

X X X X X X X X X X X X X X X

X X X

X X X X

X X

Device

M3851D/

401068 401078 401098 4011A 40118 4012A 40128 4013A 40138 4014A 4015A 4016A 4017A 401748 4018A 4019A 40198 4020A 4021A 4022A 4023A 40238 4024A 4025A 40258 402578 4027A 40278 4028A 4030A 4031A 4034A 4041A 4043A 40438 4048A 4049A 4050A 4066A 40678 4069U8 40708 40718 40728 40738 40758 40768 40778 40818 40828 40858 40868 40938 40958 40968 40978 40988 40998 4116 4116 4136 4156 45028 45088 45148 45158 45328 45558 45568 53S1680 53S1681 5300-1 5301-1 5305-1 5306-1 5330 5331 5340-1 5341-1 5348-1 5349-1 5352-1 5353-1 5380-1 5381-1 54C929 54C930 54HOO 54H01 54H04

17702 17402 17404 05001 05051 05002 05052 05101 05151 05702 05703 05801 05601 17505 05602 05302 05352 05603 05704 05604 05003 05053 05605 05204 05254 17803 05102 05152 05901 05303 05705 05706 05505 05103 05153 05304 05503 05504 05802 17801 17401 17203 17101 17102 17003 17103 17501 17204 17001 17002 17201 17202 17701 17502 17503 17802 17504 17601 24001 24002 11004 11003 17403 17602 17301 17302 17303 17304 17305 21001 21002 20301 20302 20401 20402 20701 20702 20801 20802 20804 20805 20601 20602 20903 20904 23901 23902 02304 02306 02305

NOTE: Items marked X in the QPL column are listed on QPL-38510-54 with at least one source.

356

* 85°C Max.

OPL

X X X

X X

X X

X X

X X

X X X

X

X X X

X X

X X X X

X X X X

X X

X X X X

X X X X

X X X

X X X

t 100°C

Device

M3851D/

54H08 54H10 54H101 54HI03 54H11 54H20 54H21 54H22 54H30 54H40 54H50 54H51 54H53 54H54 54H55 54H72 54H73 54H74 54H76 54LSOO 54LS02 54LS03 54LS04 54LS05 54LS08 54LS09 54LS10 54LS107 54LS109 54LSll 54LS112 54LSl13 54LS114 54LS12 54LS122 54LS123 54LS125 54LS126 54LS13 54LS132 54LS138 54LS139 54LS14 54LS148 54LS15 54LS151 54LS153 54LS155 54LS156 54LS157 54LS158 54LS160 54LS161 54LS162 54LS163 54LS164 54LS165 54LS166 54LS168 54LS169 54LS170 54LS174 54LS175 54LS181 54LS190 54LS191 54LS192 54LS193 54LS194 54LS195 54LS196 54LS197 54LS20 54LS21 54LS22 54LS221 54LS240 54LS241 54LS242 54LS243 54LS244 54LS245 54LS251 54LS253 54LS257 54LS258 54LS259 54LS26 54LS261 54LS266

15501 02303 02205 02206 15502 02302 15503 02307 02301 02401 04001 04002 04003 04004 04005 02201 02202 02203 02204 30001 30301 30002 30003 30004 31004 31005 30005 30108 30109 31001 30103 30104 30105 30006 31403 31401 32301 32302 31301 31303 30701 30702 31302 36001 31002 30901 30902 32601 32602 30903 30904 31503 31504 31511 31512 30605 30608 30609 31505 31506 31902 30106 30107 30801 31513 31509 31507 31508 30601 30602 32001 32002 30007 31003 30008 31402 32401 32402 32801 32802 32403 32803 30905 30908 30906 30907 31603 32102 31801 30303

OPL

X X X X

X X

X X X

X X X X X

X X X· X

X X X X X X X X X X

X X X X

X X X X X X X X

X X X X X X

X X X

X X X X X X X

X

X X X X X X X X X X X X X X

X X X

X X X

X X X X

X

Max.

© Ie MASTER 1983

ARROW ELECTRONICS, INC. ELECTRONICS DISTRIBUTION DIVISION

900 BROAD HOLLOW ROAD FARMINGDALE. NEW YORK 11735 516/694/6800 510/224/6126- TWX

The Arrow Lines of Military Semiconductors

AMD Fairchild General Electric General Instrument Inmos Intel International Rectifier Intersil Microsemiconductor MMI Mostek Raytheon RCA Signetics Texas Instruments

TRW Unitrode

NORTHWEST Denver. Colorado (303) 758-2100 Salt Lake City. Utah (801) 539-1135 San Francisco, California (408) 745-6600 Seattle, Washington (206) 643-4800 SOUTHWEST Albuquerque, New Mexico (505) 243-4566 Los Angeles, California (213) 701-7500 Newport Beach, California (714) 851-8961 San Diego, California (714) 565-4800 NORTH CENTRAL Cedar Rapids, Iowa (319) 395-7230 Chicago, Illinois (312) 397-3440 Madison, Wisconsin (608) 273-4977 Milwaukee, Wisconsin (414) 764-6600 Minneapolis, Minnesota (612) 830-1800 SOUTH CENTRAL Austin, Texas (512) 835-4180 Dallas, Texas (214) 386-7500 Houston, Texas (713) 491-4100 Tulsa. Oklahoma (918) 665-7700

@

Ie .MASTER 1983

For applications ranging from shipboard and ground communication systems to avionics and missile control, Arrow inventories quality hi-rei products within a separate military warehouse system. Strict warehousing procedures, full traceability control and trained personnel support Arrow's multi-million dollar commitment to a growing demand for military electronic components. Arrow's broad inventory base meets or exceeds standards for MIL-3851 0 and 19500 and our on-line real time computerized inventory system quickly processes your order so we can ship it to you on time.

MIDWEST Cleveland, Ohio (216) 248-3990 Detroit, Michigan (313) 971-8220 Grand Rapids, Michigan (616) 243-0912 Pittsburgh, Pennsylvania (412) 856-7000 TRI-STATE Dayton, Ohio (513) 435-5563 Indianapolis. Indiana (317) 243-9353 SI. Louis, Missouri (314) 567-6888 NORTHEAST Boston, Massachusetts (617) 933-8130 Manchester, New Hampshire (603) 668-6968 EMPIRE Hauppauge, New York (516)231-1000 Rochester, New York (716) 275-0300 Syracuse, New York (315) 652-1000 Wallingford, Connecticut (203) 265-7741 MID-ATLANTIC Baltimore. Maryland (301) 247-5200 Fairfield, New Jersey (201) 575-5300 Moorestown, New Jersey (609) 235-1900 Richmond, Virginia (804) 282-0413

SOUTHEAST Atlanta, Georgia (404) 449-8252 Fort Lauderdale, Florida (305) 776-7790 Huntsville, Alabama (205) 882-2730 Melbourne, Florida (305) 725-1480 Raleigh, North Carolina (919) 876-3132 Winston Salem, North Carolina (919) 725-8711 International, TWX (510) 224-6021

Arrow. Gain strategic advantage

357

MILITARY PARTS INDEX -

IC MASTER CROSS REFERENCE Device

Q)

'0 :J (!) C

o

..... o Q)

Q)

en

54LS27 54LS273 54LS279 54LS28 54LS280 54LS283 54LS290 54LS293 54LS295 54LS298 54LS30 54LS32 54LS348 54LS365 54LS366 54LS367 54LS368 54LS37 54LS373 54LS374 54LS375 54LS377 54LS38 54LS390 54LS393 54LS395 54LS40 54LS42 54LS47 54LS490 54LS51 54LS54 54LS670 54LS73 54LS74 54LS75 54LS76 54LS83A 54LS85 54LS86 54LS90 54LS92 54LS93 54LS95 54LS96 54LOO 54LOI 54L02 54L03 54L04 ' 54LI0 54L121 54L122 54L164 54L193 54L20 54L30 54L42 54L43 54L44 54L46 54L47 54L51 54L54 54L55 54L71 54L72 54L73 54L74 54L78 54L86 54L90 54L93 54L95 54500 54S02 54S03 54S04 54S05 54S08 54S09 54S10 54S11 54S112 54S113 54S114 54S133 54S134 54S135 54S138

M38510/

30302 32501 31602 30204 32901 31202 32003 32004 30606 30909 30009 30501 36002 32201 32202 32203 32204 30202 32502 32503 31604 32504 30203 32701 32702 30607 30201 30703 30704 32703 30401 30402 31901 30101 30102 31601 30110 31201 31101 30502 31501 31510 31502 30603 30604 02004 02006 02701 02006 ,02005 02003 04201 04202 02802 02503 02002 02001 02901 02902 02903 02904 02905 04101 04102 04103 02101 02102 02103 02105 02104 02601 02501 02502 02801 07001 07301 07002 07003 07004 08003 08004 07005 08001 07102 07103 07104 07009 07010 07502 07701

-

COMMERCIAL TO MILITARY (Continued)

QPL

Device

X X X X X X X X X X X, X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

54S139 54S140 54S15 54S151 54S153 54S157 54S158 54S174 54S175 54S181 54S182 54S194 54S195 54S20 54S22 54S251, 54S253 54S257 54S258 54S30 54S40 54S412 54S51 54S64 54S65 54S74 54S85 54S86 5400 5401 5402 5403 5404 5405 5406 5407 5408 5409 5410 54107 54116 5412 54121 54122 54123 54125 54126 5413 54132 5414 54145 54147 54148 54150 54151 54153 54154 54155 54156 54157 5416 54160 54161 54162 54163 54164 54165 5417 54170 54174 54175 54180 54181 54182 54186 54192 54193 54194 54195 5420 5423 5425 5426 5427 5428 5430 5432 54365 54366 54367

X X

X X

X X X X X X X X X X X X X X X X X X X X X

M38510/

07702 08101 08002 07901 07902 07903 07904 07105 07106 07801 07802 07601 07602 07006 07007 07905 07908 07906 07907 07008 07201 42101 07401 07402 _ 07403 07101 08201 07501 00104 00107 00401 00109 00105 00108 00801 00803 01601 01602 00103 00203 01503 00106 01201 01202 01203 15301 15302 15101 15103 15102 01005 15601 15602 01401 01406 01403 15201 15202 15203 01405 00802 01303 01306 01305 01304 00903 00904 00804 01801 01701 01702 01901 01101 01102 20101 01308 01309 00905 00906 00102 00402 00403 00805 00404 16201 00101 16101 16301 16302 16303

QPL

Device

X X

54368 5437 5438' 5440 5442 5443 5444 5445 5446 5447 5448 5449 5450 5451 5453 5454 5470 5472 5473 5474 5475 5476 5477 5479 5480 5482 5483 5485 5486 5490 5492 5493 5495 5496 55107 55108 55113 55114 55115 555 556 558 6508 6518 6800 710 711 723 741 '747 76L70 76L42A 771 772 774 78M05 78M12 78M15 78M24 7805 7812 7815 7824 7831 7832 79M05 79M12 79M15 79M24 7905 7912 7915 7924 8080A 8086 82S10 82S11 82S115 82S123 82S126 82S129 83S130 82S131 82S136 82S137 82S140 82S141 82S180 82S181 82S184

X X X X X X X

X X

X X X X X X X X X X X X X X X X X X X X X X X

X X X X

X X X X X X X X X X X X X X

X X X X X X X X

X X X X

X X

X X X X X X X X

NOTE: Items marked X in the QPL column are listed on QPL-38510-54 with at least one source.

358

DEVICE/QPL

M38510/

16304 00302 00303 00301 01001 01002 01003 01004 01006 01007 01008 01009 00501 00502 00503 00504 00206 00201 00202 00205 01501 00204 01502 00207 00604 00601 00602 15001 00701 01307 01301 01302 00901 00902 10401 10402 10405 10403 10404 10901 10902 10903 23901 23902 40001 10301 10302 10201 10101 10102 02805 02906 11904 11905 11906 10702 10703 10704 10705 10706 10707 10708 10709 10406 10407 11501 11502 11503 11504 11505 11506 11507 11508 42001 53001 23101 23102 20803 20702 20301 20302 20401 20402 20601 20602 20801 20802 20903 20904 20901 * 85°C Max.

QPL X X X X X X

X X X X X

X X X X

X X X X X X

X X X

X X X X X X X X X X X X X X X X X

X X X X

X X X X X X X X X X X X X X X X X X X X X

X X

Device

M38510/

82S185 82S190 82S191 82S23 82S2708 8212 8224 8228 8250 8251 8252 9LS51 9LS54 9093 93LOO 93L01 93L08 93L09 93L10 93L12 93L14 93L16 93L18 93L22 93L24 93L28 93L415 93L422 93L422A 93L420 93L425 93Z511 930 9300 9301 9304 9308 9309 9311 9312 9314 9317 9318 9321 9322 9324 9328 9'32 933 9334 9338 9341 93410 93411 93415 93417 9342 93421 93425 93425 93425A 93427 93436 93438 93446 93448 93450 93451 93452 93453 93460 93461 935 93510 93511 936 940 944 945 946 948 950 951 957 958 9601 9602 9614 9615 962 9900A

20902 21001 21002 20701 20905 42101 42201 42301 15204 15205 15206 30401 30402 03304 02804 02907 04502 04601 02504 04602 04501 02505 04301 04603 04401 02803 23103 23112 23115 23004 23104 21004 03001 15901 15206 00603 01503 01404 15201 01402 01504 15802 15603 15801 01405 15002 15902 03101 03105 16001 15701 01101 23001 23003 23101 20301 01102 23002 23102 23106 23108 20302 20401 20801 20402 20802 20903 20904 20601 20602 20906 20905 03002 21001 21002 03003 03002 03102 03301 03004 03302 03303 03201 03103 03104 01204 01205 10403 10404 03005 46001

QPL X X X X

X X X X X X X X X X X X X X

X X X

X

X

X X X

X X X

X

X X X X X

t 100°C Max. © Ie MASTER 1983

MILITARY PARTS INDEX -

IC MASTER CROSS REFERENCE M3851D/

00101 00102 00103 00104 00105 00106 00107 00108 00109 00201 00202 00203 00204 00205 00206 00207 00301 00302 00303 00401 00402 00403 00404 00501 00502 00503 00504 00601 00602 00603 00604 00701 00801 00802 00803 00804 00805 00901 00902 00903 00904 00905 00906 01001 01002 01003 01004 01005 01006 01007 01008 01009 01101 01101 01102 01102 01201 01202 01203 01204 01205 01301 01302 01303 01304 01305 01306 01307 01308 01309 01401 01402 01403 01404 01405 01405 01406 01501 01502 01503 01503 01504 01601 01602 01701 01702 01801 01901 02001 02002

Device 5430 5420 5410 5400 5404 5412 5401 5405 5403 5472 5473 54107 5476 5474 5470 5479 5540 5437 5438 5402 5423 5425 5427 5450 5451 5453 5454 5482 5483 9304 5480 5486 5406 5416 5407 5417 5426 5495 5496 54164 54165 54194 54195 5442 5443 5444 5445 54145 5446 5447 5448 5449 54181 9341 54182 9342 54121 54122 54123 9601 9602 5492 5493 54160 54163 64162 54161 5490 54192 54193 54150 9312 54153 9309 9322 54157 54151 5475 5477 9308 54116 9314 5408 5409 54174 54175 54170 54180 54L30 54L20

QPL X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

X X X X X X

X X X X X X X X X X X X X X X X X X X X

X X X

MILITARY TO COMMERCIAL M3851D/

02003 02004 02005 02q06 02006 02101 02102 02103 02104 02105 02201 02202 02203 02204 02205 02206 02301 02302 02303 02304 02305 02306 02307 02401 02501 02502 02503 02504 . 02505 02601 02701 02801 02802 02803 02804 02805 02901 02902 02903 02904 02905 02906 02907 03001 03002 03002 03003 03004 03005 03101 03102 03103 03104 03105 03201 03301 03302 03303 03304 03501 04001 04002 04003 04004 04005 04101 04102 04103 04201 04202 04301 04401 04501 04502 04601 04602 04603 05001 05002 05003 05051 05052 05053 05101 05102 05103 05151 05152 05153 05201

Device

QPL

54L10 54LOO 54L04 54L03 54L01 54L71 54L72 54L73 54L78 54L74 54H72 54H73 54H74 54H76 54H101 54H103 54H30 54H20 54H10 54HOO 54H04 54H01 54H22 54H40 54L90 54L93 54L193 93L10 93L16 54L86 54L02 54L95 54L164 93L28 93LOO 76L70 54L42 54L43 54L44 54L46 54L47 76L42A 93L01 930 940 935 936 946 962 932 944 957 958 933 951 945 948 950 9093 MH0026 54H50 54H51 54H53 54H54 54H55 54L51 54L54 54L55 54L121 54L122 93L18 93L24 93L14 93L08 93L09 93L12 93L22 4011A 4012A 4023A 4011B 4012B 40238 4013A 4027A 4043A 40138 40278 40438 4000A

X X X X X X X X X X X X X X X

X X X X X X X X X X

X X X

X X X X X X

X

X X X X

X X X

X X X

X

M3851D/

05202 05203 05204 05251 05252 05253 05254 05301 05302 05303 05304 05352 05401 05501 05502 05503 05504 05505 05601 05602 05603 05604 05605 05701 05702 05703 05704 05705 05706 05801 05802 05901 06001 06002 06003 06004 06005 06006 06101 06102 06103 06104 06201 06202 06301 06302 07001 07002 07003 07004 07005 07006 07007 07008 07009 07010 07101 07102 07103 07104 07105 07106 07201 07301 07401 07402 07403 07501 07502 07601 07602 07701 07702 07801 07802 07901 07902 07903 07904 07905 07906 07907 07908 08001 08002 08003 08004 08101 08201 10101

NOTE: Items marked X in the QPL column are listed on QPL-38510-54 with at least one source.

© Ie MASTER 1983

QPL/DEVICE

Device

QPL

4001A 4002A 4025A 4000B 4001B 4002B 4025B 4007A 4019A 4030A 4048A 4019B 4008A 4009A 4010A 4049A 4050A 4041A 4017A 4018A 4020A 4022A 4024A 4006A 4014A 4015A 4021A 4031A 4034A 4016A 4066A ·4028A 10501 10502 10505 10506 10507 10509 10531 10631 10576 10535 10504 10597 10524 10525 54S00 54S03 54S04 54S05 54S10 54S20 54S22 54S30 54S133 54S134 54S74 54S112 54S113 54S114 54S174 54S175 54S40 54S02 54S51 54S64 54S65 54S86 54S135 54S194 54S195 54S138 54S139 54S181 54S182 54S151 54S153 54S157 54S158 54S251 54S257 54S258 54S253 54S11 54S15 54S08 54S09 54S140 54S85 741

X X X

* 85°C Max.

X X X X X X X X X

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

X X X

X X X X

X X

X X X X

X X X X X X

M3851D/

Device

10102 10103 10104 10105 10106 10107 10108 10201 10301 10302 10303 10304 10305 10401 10402 10403 10403 10404 10404 10405 10406 10407 10601 10602 10603 10701 10702 10702 10703 10703 10704 10704 10705 10705 10706 10706 10707 10707 10708 10708 10709 10709 10801 10802 10901 10902 10903 11001 11002 11003

747 LM101A LM108A LH2101A PM2108A LM118 1558 LM723 710 711 LM106 LM111 LH2111 55107 55108 55114 9614 55115 9615 55113 7831 7832 LM102 LM110 LH2110 LM109 LM141H-05 78M05 LM141H-12 78M12 LM141H-15 78M15 LM141H-24 78M24 LM140K-05 7805 LM140K-12 7812 LM140K-15 7815 LM140K-24 7824 3018A 3045 555 556 558 LM148 LM149 HA4741. 4156 4136 LM124 DG181A DG182A DG184A DG185A DG187A DG188A DG190A DG191A LM139 LM193 DAC-08 DAC-08A PM155 PM156 PM157 PM155A PM156A PM157A LM120H-05 79M05 LM120H-12 79M12 LM120H-15 79M15 LM120H-24 79M24 LM120K-05 7905 LM120K-12 7912 LM120K-15 7915 LM120K-24 7924 DG300 DG301 DG302

11004 11005 11101 11102 11103 11104 11105 11106 11107 11108 11201 11202 11301 11302 11401 11402 11403 11404 11405 11406 11501 11501 11502 11502 11503 11503 11504 11504 11505 11505 11506 11506 11507 11507 11508 11508 11601 11602 11603

QPL X X X X X X X X X X X X X

X X X X X

Q)

:Q :J

(!J

c:: o ofoJ

(,) Q)

Q)

X

X X

X X

X X

X X X X X X X X X X

X X X

X X X X

X X X X X X X X X

X X

X

X X X

X X

t lOooC Max.

359

en

MILITARY PARTS INDEX -

Ie MASTER CROSS REFERENCE M38510/

Q)

'U :::l

(!) C

o :;::. o

Q) Q)

en

11604 11605 11606 11607 11608 11901 11902 11903 11904 11904 11904 11905 11905 11905 11906 11906 11906 12202 12203 12204 12205 12206 15001 15002 15101 15102 15103 15201 15201 15202 15203 15204 15205 15206 15206 15301 15302 15501 15502 15503 15504 15601 15602 15603 15701 15801 15802 15901 15902 16001 16101 16201 16301 16302 16303 16304 17001 17002 17003 17101 17102 17103 17201 17202 17203 17204 17301 17302 17303 17304 17305 17401 17402 17403 17404 17501 17502 17503 17504 17505 17601 17602 17701 17702 17801 17802 17803 20101 20101 20101

Device DG303 DG304 DG305 DG306 DG307 061 062 064 071 771 LF151 072 772 LF153 074 774 LF147 HA·2600 HA·2620 HA·2500 HA·2510 HA·2520 5485 9324 5413 5414 54132 54154 9311 54155 54156 8250 . 8251 8252 9301 54125 54126 54H08 54H11 54H21 Special 54147 54148 9318 9338 9321 9317 9300 9,328 9334 5432 5428 54365 54366 54367 54368 40818 40828 40738 40718 40728 40758 40858 40868 40708 40778 45148 45158 45328 45558 45568 4069U8 401078 45028 401098 40768 40958 40968 40988 401748 40998 45088 40938 401068 40678 40978 402578 HPROM0512 MCM5303 54186

QPL X X X X X

X X X X X X· X X X

X X X X X X X X X X X X X X X X

X X X X X X X X X

X X

X X

X

MILITARY TO COMMERCIAL (Continued) M38510/

Device

20102 20201 20202 20301 20301 20301 20301 20302 20302 20302 20302 20401 20401 20401 20401 20402 20402 20402 20402 20601 20601 20601 20601 20602 20602 20602 20602 20603 20701 20701 20701 20702 20702 20702 20801 20801 20801 20801 20802 20802 20802 20802 20803 20804 20805 20901 20901 20902 20902 20903 20903 20903 20903 20904 20904 20904 20904 20905 20905 20906 21001 21001 21001 21001 21002 21002 21002 21002 21004 22001 23001 23002 23003 23004 23101 23101 23102 23102 23103 23104 23106 23108 23112 23115 23501 23502 23503 23504 23505 23506

MCM5304 IM5603A IM5623 HM7610·2 5300·1 82S126 93417 HM7611·2 5301·1 82S129 93427 HM7620·2 5305·1 82S130 93436 HM7621·2 5306·1 82S131 93446 HM7642·2 5352·1 82S136 93452 HM7643·2 5353·1 82S137 93453 HM7644·2 HM7602·2 5330 82S23 HM7603·2 5331 82S123 HM7640·2 5340·1 82S140 93438 HM7641·2 5341·1 82S141 93448 82S115 5348·1 5349·1 HM7684·2 82S184 HM7685·2 82S185 HM7680·2 5380·1 825180 93450 HM7681·2 5381·1 825181 93451 82S2708 93461 93460 HM76160·2 5351680 82S190 93510 HM76161·2 53S1681 82S191 93511 93Z511 2708 93410 93421 93411 931420 93415 82S10 93425 82S11 93L415 931425 93425 93425A 93L422 93l422A TMS4060* TMS4050* TMS4060t TMS4050t MM5280* MM5280t

QPL

X X X X X X X X X

X X X X X X X

X X X

X

X X

X X

X X X X X X

M38510/ 23601 23602 23602 23603 23604 23604 23701 23702 23703 23703 23704 23704 23705 23706 23707 23707 23708 23708 23709 23710 23711 23711 23712 23712 23713 23714 23715 23715 23716 23716 23801 23803 23805 23806 23807 23901 23901 23902 23902 24001 24001 24002 24002 30001 30002 30003 30004 30005 30006 30007 30008 • 30009 30101 30102 30103 30104 30105 30106 30107 30108 30109 30110 30201 30202 30203 30204 30301 30302 30303 30401 30401 30402 30402 30501 30502 30601 30602 30603 30604 30605 30606 30607 30608 30609 30701 3070'2 30703 30704 30801 30901

NOTE: Items marked X in the QPL column are listed on QPl·38510·54 with at least one source.

360

QPL/DEVICE

QPL

Device MCM6605* MCM6604A* MK84096* MCM6605t MCM6604At MK84096t AM9130CFC AM9130AFC AM9130CFM AM9130CDM AM9310AFM AM9130ADM AM91L30CF AM91L30AF AM91L30CFM AM91L30CDM AM91L30AFM . AM91L30ADM AM9140CFC AM9140AFC AM9140CFM AM9140CDM AM9140AFM AM9140ADM' AM91L40CFC AM91l40AFC AM91L40CFM AM91L40CDM AM91l40AFM AM91L40ADM 2147H 2147H 2147H 2148H 2147H 6508 54C929 6518 54C930 2117 (200 ns) 4116 (250 ns) 2117 (250 ns) 4116 (250 ns) 54lS00 545L03 54LS04 54LS05 54lSlO 54lS12 54lS20 54lS22 541530 54lS73 54lS74 54lS112 5415113 5415114 54lS174 54lS175 54lS107 54lS109 54lS76 54lS40 54lS37 54lS38 54lS28 54lS02 54lS27 54lS266 9lS51 54L551 54lS54 91551 54lS32 54lS86 54lS194 54lS195 54lS95 54LS96 54lS164 54lS295 54LS395 54lS165 54lS166 54lS138 54LS139 54lS42 54LS47 54lS181 54lS151 * 85°C Max.

X X X X X

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

M38510/ 30902 30903 30904 30905 30906 30907 30908 30909 31001 31002 31003 31004 31005 31101 31201 31202 31301 31302 31303 31401 31402 31403 31501 31502 31503 31504 31505 31506 31507 31508 31509 31510 31511 31512 31513 31601 31602 31603 31604 31801 31901 31902 32001 32002 32003 32004 32102 32201 32202 32203 32204 32301 32302 32401 32402 32403 32501 32502 32503 32504 32601 32602 32701 32702 32703 32801 32802 32803 32901 33106 33107 36001 36002 40001 42001 42101 42101 42201 42301 44001 44101 44102 44103 44104 44105 44106 44201 46001 47001 53001

Device

QPL

54LS153 54LS157 54LS158 54LS251 54LS257 54LS258 54LS253 54LS298 54LS11 54LS15 54LS21 54LS08 , 54LS09 54LS85 54LS83A 54LS283 54LS13 54LS14 54LS132 54LS123 54LS221 54LS122 54LS90 54LS93 54LS160 54LS161 54LS168 54LS169 54LS192 54LS193 54LS191 54LS92 54LS162 54LS163 54LS190 54L575 54L5279 54LS259 54L5375 54L5261 54L5670 54L5170 54LS196 54L5197 54L5290 54L5293 54lS26 5415365 5415366 54lS367 5415368 5415125 5415126 54lS240 54lS241 5415244 5415273 54lS373 54lS374 54lS377 54lS155 54lS156 5415390 5415393 54lS490 54LS242 54lS243 54lS245 54lS280 25lS174 25lS175 54lS148 54lS348 6800 8080A 8212 54S412 8224 8228 2901A 2905 2906 2907 2915 2916 2917 2918 9900A 1802 8086

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

X

t 100°C Max.

© Ie MASTER 1983

MILITARY PARTS DIRECTORY BUFFERS (coni) Detailed Product Information Provided by: Micro Power Systems National Semiconductor

on Military Parts

401 402 406 410 424

RCA ....... .

Signetics Synertek. Texas Instruments

433

DIGITAL· ARITHMETIC FUNCTIONS Device

M38510/

4008A 5480· 5482 5483

05401 00604 00601 00602

5485

15001

54181, 9341 54182

01101

54LS83A 54LS85

31201 31101

54LS283 54S85

31202 08201

54S181 9304 9324

07801 00603 15002

01102

Description 4-Bit Full Adder Gated Full Adder 2-Bit Binary Full Adder 4-Bit Binary Full Adder (Look-Ahead Carry) 4-Bit Magnitude Comparator Arithmetic Logic/ Function Generator Look-Ahead Carry Generator ' 4-Bit Binary Full Adder 4 Bit Magnitude Comparator 4 Bit Binary Full Adder 4-Bit Magnitude Comparator ALU/Function Generator Dual Full Adder 4-8it Magnitude Comparator

Source SSS Motorola Motorola Motoroia, National, Signetics, TI Motorola, Signetics

05301

4009A

05501

40 lOA

05502

4049A

05503

4050A

05504

4069UB 4502B 5404

17401 17403 00105

5405 5437

00108 00302

5438

00303

5440

00301

54126 54365 54366 54367 54368 54H04 54H40

15302 16301 16302 16303 16304 02305 02401

54LS04

30003

Dual Complementary Pair plus Inverter Hex Buffer/Converter, Inverting Hex Buffer/Converter, Non-Inverting Hex Buffer/Converter, Inverting Hex Buffer/Converter, Non-Inverting Hex Inverter Hex Inverter/Buffer Hex Inverter Hex Inverter, O/C Quad 2-lnput NAND Buffer Quad 2-lnput NAND Buffer, O/C Dual 4-lnput NAND Buffer Quad Gated Buffer, TS Hex Buffer, TS Hex Inverter, TS Hex Buffer, Three state Hex Inverter, TS Hex Inverter Dual 4-lnput NAND Buffer Hex Inverter

54LS05

30004

Hex Inverter, O/C

54LS28

30204

54LS37

30202

54LS40

30201

54LS125 54LS126 54LS365 54LS366

32301 32302 32201 32202

Quad 2-lnput NOR Buffer Quad 2-lnput NAND Buffer Dual 4-lnput NAND Buffer Quad Gated Buffer, TS Quad Gated Buffer, TS Hex Buffer, TS Hex Inverter, TS

54LS367

32203

Hex Buffer, TS

54LS368

32204

Hex Inverter, TS

54L04 54S04

02005 07003

Hex Inverter Hex Inverter

M38510/

54S05 54S40

07004 07201

935 936

03002 03003

4017A

05601

4018A

05602

4020A

05603

4022A

05604

4024A

05605

~.~

01307 01301

5493 54160

01302 01303

54161

01306

Fairchild, Motorola, TI Motorola, Signetics, TI

54162

01305

Fairchild, Motorola, TI Signetics

54163

01304

'smT.

Motorola, National, Signetics Motorola

Signetics Motorola Motorola

54193 54LS90 54LS92 54LS93 54LS160

01308 01309 31501 31510 31502 31503

54LS161

31504

54LS162

31511

54LS163

31512

54LS190

31513

54LS191

31509

National, RCA, SSS SSS SSS Motorola, National, RCA,SSS Motorola, National, RCA, SSS RCA RCA Fairchild, Motorola National, Signetics, TI Motorola, National, TI Fairchild, Motorola, National, TI Motoral, National, TI Fairchild, Motorola National, TI Signetics Signetics Signetics Signetics Signetics Fairchild, Motorola, TI Motorola, TI Fairchild, Motorola, National, Raytheon, Signetics, TI Fairchild, Motorola, National, TI Motorola Motoroa, National Raytheon, Signetics, TI Motorola, National, Raytheon, TI Signetics, TI TI Fairchild, Signetics, TI Fairchild, TI Fairchild, Motorola, Signetics, TI Fairchild, Motorola, Signetics, TI National Fairchild, Signetics, TI

Description Hex Inverter, O/C Dual 4-lr1Put NAND Buffer Hex Inverter Hex Inverter

Source TI Fairchild, Signetics Fairchild Fairchild

COUNTERS

5492

BUFFERS, INVERTERS 4007A

Device

54LS192

31507

54LS193

31508

54LS197 54LS290

32002 32003

54LS390

32701

54LS293

32004

54LS393

32702

54LS490

32703

54L90 54L93

02501 02502

Decade Counter / National, RCA, SSS Divider, Decoded Output Presettable Divide-by·N Motorola, National, Counter 14-Bit Binary Counter Motorola, National, RCA Divide-by-8 Counter/ National, RCA, SSS Divider, Decoded Output 7-Bit Binary Counter Motorola, National, RCA, SSS Decade Counter, Ripple Motorola, National Divide-by-12 Counter Motorola (+2, +6) 4-Bit Binary Counter Motorola, Signetics Synchronous Decade Motorola, National, Counter Signetics Synchronous 4-Bit Motorola, National, Signetics Binary Counter Fully Synchronous Motorola, National Decade Counter Fully Synchronous 4-Bit Motorola, National, Binary Counter Signetics Motorola Decade Up/Down Decade Up/Down Motorola, Signetics Motorola, Signetics, TI Decade Counter Divide-by-12 Counter Motorola, Signetics, TI 4-Bit Binary Counter Signetics, TI Motorola, TI Synchronous Decade Counter Mo to rOJa;S iine tics ,lI Synchronous 4-Bit Binary Counter --_. ---" -- - . Motorola, TI Fully Synchronous Decade Counter Fully Synchronous 4-Bit Motorola, Signetics, TI Binary Counter Motorola, Signetics, TI Synchronous Decade Up/Down Counter Motorola, Signetics, TI Synchronous Binary Up/Down Counter Motorola, Signetics, TI Decade Up/Down Counter Motorola, Signetics, TI Binary Up/Down Counter Signetics Binary Up Counter Motorola, Signetics, TI Decade Counter, Divide-by-2 and 5 TI Dual Decade Counter, Ripple Signetics, TI 4-Bit Binary Counter, Ripple Signetics, TI Dual 4-Bit Binary Counter, Ripple Signetics, TI Dual Decade Counter, Ripple Decade Counter, Ripple National National 4-Bit Binary Counter

Q)

"'C ~

(!J C

o

.....() Q) Q)

en

--

DECODERS 5442

01001

5443

01002

5444

01003

5445

01004

5446

01006

5447

01007

5448

01008

5449

01009

54145

01005

54154, 9311

15201

BCD-tO-Decimal Decoder Excess 3-to-Decimal Decoder Excess 3-Gray-toDecimal Decoder BCD-to-Decimal Decoder, O/C BCD-to-Decimal Decoder/Driver,30V Output BCD-to-Decimal Decoder/Driver, 15V Output BCD-to-7 Segment Decoder/Driver with 30V Output BCD-to-7 Segment Decoder,O/C BCD-to-7 Segment Decoder 4-Line to 16-Line Decoder/Demultiplexer

Fairchild, Motorola, National, Signetics Motorola Motorola Motorola National

National Motorola Motorola Motorola Motorola, Signetics

BASED ON QPL-38510·54. 20 SEPTEMBER. 1982

© IC MASTER 1983

361

MILITARY PARTS DIRECTORY DECODERS (cont) Device 54155

M38510/ 15202

54156

15203

54LS138

30701

54LS139

30702

54LS148

36001

54LS155

32601

54LS156

32602

54LS348

36002

54LS42

30703

(!)

54LS47

30704

C

54S139

07702

9301

15206

9317

15802

9318

15603

CD

:Q ::J

....o (.)

CD CD

en

FLlp·FLOPS (cont) Description Dual 2-Line to 4-Line Decoder/Demultiplexer Dual 2-Line to 4-Line Decoder/Demultiplexer 3-to-8-Line Decoder/ Demultiplexer Dual 2-Line to 4-Line Decoder /Demultiplexer 8-lnput Priority Encoder Dual 2·tO-4 Line Decoder/Demultiplexer Dual 2-to-4 Line Decoder/Demultiplexer 8-lnput Priority Encoder BCD to Decimal Decoder BCD t07·Segment Decoder Dual 2-Line to 4-L1ne Decoder/Demultiplexer BCD-to-Decimal Decoder BCD to 7-Segment Decoder/Driver 8-lnput Priority Encoder

Source

Device 54LS112

M38510/ 30103

54LS113

30104

54LS1l4

30105

TI

54lS174

30106

"Motorola, Signetics, TI

54LS175

30107

54LS273

32501

54LS298

30909

54LS373 54LS374

.32502 32503 .

54LS377

32504

54L71

02101

54L72

02102

Motorola Motorola Fairchild, Motorola, Raytheon, Signetics, TI Fairchild, Motorola, TI TI

TI Fairchild, Motorola, Signetics, TI TI Fairchild Motorola Fairchild I

Motorola

J...

2

UJ

ctS

~

DRIVERS 5406

00801

5407

00803

5416

00802

5417

00804

5426

00805

Hex Inverter Buffer/ Driver, O/C High Voltage Output Hex Buffer/Driver, O/C High Voltage Output Hex Inverter Buffer/ Driver, O/C High Voltage Output Hex Buffer/Driver, O/C High Voltage Output Quad 2-lnput NAND Buffer/Driver, O/C, High Voltage Output

Motorola, National, TI

54173

02103

Motorola, TI

54L74 ,

02105

Fairchild, Motorola, National, TI

54L78

02104

54S74 54S112

07101 07102

54S113

07103

54S174 54S175 10531

07105 07106 06101

10576

06103

10535

06104

10631

06102

Fairchild, Motorola, TI Signetics

FLlp·FLOPS 25LS174 25LS175 4013A

33106 33107 05101

4027A

05102

5470

00206

5472

00201

5473

00202

5474

00205

5476

00204

54107

00203

54174

01701

Hex D-Type Flip-Flop Quad D-Type Flip-Flop Dual "0" Flip-Flop with Set/Reset Dual J-K Master-Slave Flip-Flop Positive EdgeTriggered J-K Flip-Flop J·K Master Slave Flip-Flop (AND Inputs) Flip-Flop Dual J-K Master Slave Duai D-Type EdgeTriggered Flip-Flop Dual J-K Master Slave Flip-Flop with Preset and Clear Dual J-K Master Slave Flip-Flop Hex D-Type Flip-Flop

54175

01702

Quad D-Type Flip-Flop

54H72

02201

J-K Master-Slave FlipFlop (AND Inputs) Dual J-K Master-Slave Flip-Flop Dual J-K Flip-Flop J-K Negative EdgeTriggered Flip-Flop (AND-OR Inputs) Dual J-K Negative EdgeTriggered Flip-Flop Dual J-K Master Slave Flip-Flop Dual D-Type Positive Edge-Triggered FlipFlop with Preset and Clear Dual J-K-Master Slave Flip-Flop with Preset and Clear Dual Master Slave Flip-Flop Dual J-K Positive EdgeTriggered Flip-Flop with Preset and Clear

54H73

02202

54H76 54H101

02204 02205

54HI03

02206

54LS73

30101

54LS74

30102

54LS76

30110

54LS107

30108

54LS109

30109

Motorola, TI Motorola Motorola, National, RCA, SSS Motorola, National, RCA,SSS Motorola, TI National, TI Motorola, National, Signetics, TI Fairchild, Motorola, National, Signetics, TI National, Signetics, TI

GATES , AND/NAND 4011A

05001

4012A

05002

4023A

05003

Motorola, National, TI Fairchild, Motorola, Signetics Fairchild, Motorola, Signetics Motorola

4073B 40818 4082B 5400

17003 17001 17002 00104

5401

00107

Motorola

5403

00109

TI Motorola

5408

01601

5409

01602

5410

00103

5412

00106

5420

00102

5426

00805

5430

00101

54HOO

02304

54HOI

02306

Motorola Signetics, TI Fairchild, Motorola, Signetics, TI Signetics, TI Motorola, Signetics, TI Fairchild, Motorola, Signetics, TI

Description Source Dual J-K Negaive Edge- Fairchild, Motorola, Triggered Flip-Flop Signetics, TI with Preset and Clear Dual J-K Negative Edge-. Fairchild, Motorola, Triggered Flip-Flop Signetics, TI with Separate Preset and Clock Dual J-K Negative Edge- Fairchild, Motorola, TI Triggered Flip-Flop with Clock, Clear, and Preset Hex D-Type Flip-Flop Fairchild, Motorola, Signetlcs, TI Fairchild, Motorola, Quad D-Type Ed~eRaytheon, Signetlcs, TI Triggered Fllp-F op with Clear Octal D-Type EdgeTI Tri~gered Flip-Flop wit Clear Quad D-Type Flip-Flop Signetlcs with Multiplexed Dual Inputs Octal Transparent Latch TI Octal D-Type EdgeTl Triggered Flip-Flop, Three State Octal D-Type Flip-Flop TI with Enable J-K Master-Slave FlipNational Flop (AND-OR Inputs) National J-K Master-Slave FlipFlop (AND Inputs) Dual J-K Master-Slave National Flip-Flop Dual D-Type EdgeNational Triggered Flip-Flop Dual J-K Master-Slave National Flip-Flop Fairchild, Signetics Dual Flip-Flop Dual J-K Negative Edge- Signetics Triggered Flip-Flop Dual J-K Negative Edge- Signetics Triggered Flip-Flop Separate Preset and Clock AMD, Fairchild Hex D-Type Flip-Flop AMD, Fairchild Quad D-Type Flip-Flop Dual "0" Master Slave Motorola Flip-Flop Hex "0" Master Slave Motorola Flip-Flop Motorola Dual J-K Master-Slave Flip-Flop Dual "0" Master Slave Motorola Flip-Flop

Quad 2-lnput NAND Gate Dual 4-lnput NAND Gate Triple 3-lnput NAND Gate Triple 3-lnput AND Gate Quad-2-lnput AND Gate Dual 4-lnput AND Gate Quad 2-lnput NAND Gate Quad-2-lnput NAND Gate, O/C Quad 2-Ir'lput NAND Gate, O/C Quad 2-lnput AND Gate

Motorola, National, RCA,SSS Motorola, National, RCA, SSS Motorola, National, RCA, SSS Motorola, RCA Motorola, RCA, SSS Motorola, RCA Fairchild, Motorola, National, Signetics, TI Motorola, National, TI Motorola, National, TI

Fairchild, Motorola, National . Quad 2-lnput AND Gate, Fairchild, Motorola O/C Fairchild, Motorola Triple 3-lnput NAND National, Signetics, TI Gate Triple 3-lnput NAND TI Gate, O/C Fairchild, Motorola, Dual 4-lnput NAND National,Signetics, TI Gate Signetics Quad 2-lnput NAND Gate, O/C Fairchild, Motorola, 8·lnput NAND Gate National, TI Fairchild, Motorola, TI Quad 2-lnput NAND Gate Motorola, TI Quad 2-lnput NAND Gate,O/C

BASED ON QPL·38510-54, 20 SEPTEMBER 1982

362

© IC MASTER 1983

MILITARY PARTS DIRECTORY GATES, AND/NAND Device

M3851D/

54HOB Special 54HI0

15501 15504 02303

54Hll 54H20

15502 02302

54H21 54H22

15503 02307

54H30 54LSOO

02301 30001

54LS03

30002

54LSOB

31004

54LSlO

30005

54LS11

31001

54LS12

30006

54LS15

31002

54LS20

30007

54LS21

31003

54LS22

3000B

54LS26

32102

54LS30

30009

54LS3B

30203

54LOO

02004

54L03

02006

54L10

02003

GATES, AND-ORI AND-OR-INVERT (cant) .

~onQ Source

Description Quad 2-lnput AND Gate Quad 2-1 nput AND Gate Triple 3-1 nput NAND Gate Triple 3-lnput AND Gate Dual 4-1 nput NAND Gate Dual 4-lnput AND Gate Dual 4-lnput NAND Gate,O/e B-Input NAND Gate Quad 2-lnput NAND Gate

Motorola Motorola Fairchi Id, Motorola, TI Motorola Fairchild, Motorola, TI

Motorola

Fairchild, Motorola, TI Fairchild, Motorola, National, Signetics, TI

Fairchild, Motorola, National, TI Fairchild, Motorola, National, Raytheon, Signetics, TI NAND Fairchild, Motorola, National, Signetics, TI AND Gate Fairchild, Motorola, National, Raytheon, TI Motorola, National, NAND· Signetics, TI Motorola, National, TI AND

Quad 2-lnput NAND Gate,O/e Quad 2-lnput AND Gate Triple 3-lnput Gate Triple 3-lnput

Triple 3-lnput Gate,O/e Triple 3-lnput Gate,O/e Dual 4-lnput NAND Gate Dual 4-lnput AND Gate

5454 54H50

00504 04001

54H51 54H53

04002 04003

54H54 54H55

04004 04005

54lS51

30401

54LS54

30402

2-2-2-2-lnput AOI Gate, Expandable 2-2-2-2-lnput AOI Gate 2-2-lnput AOI Gate, Expandable Dual 2-2-lnput AOI Gate 2-2·2-3-lnput AOI Gate, Expandable 2-2-2-3-lnput AOI Gate 4-4-lnput AOI Gate, Expandable Dual 2-2-lnput AOI Gate 2-2-2-3-lnput AOI Gate

54S51 54S64

07401 07402

2-2-lnput AOI Gate 4-2-3-2-lnput AOI Gate

/

4030A 4070B 4077B

54B6

05303 17203 17204 00701

54lB6

02601 30502

54lS266

30303

Dual 4-lnput NAND Gate,O/e

Fairchild, Motorola, National, TI

54SB6

07501

Quad 2-lnput NAND o/e to 15V B-Input NAND Gate

Motorola, TI 10507

06005

Fairchild, Motorola, National, TI

Quad 2-lnput NAND Gate,O/e Quad 2-lnput NAND Gate

Motorola, National, TI

Quad 2-lnput NAND Gate,O/e Triple 3-lnput NAND Gate

National

Dual 4-lnput NAND Gate National B-1 nput NAND Gate

National

54S00

07001

Fairchild,Signetics, TI

54S03

07002

54S0B 54S09

OB003 OB004

Quad 2-lnput NAND Gate Quad 2-lnput NAND Gate,O/C Quad 2-lnput AND Gate

54S10

07005

54S11

OB001

54S20

07006

Dual 4-lnput NAND Gate Fairchild, TI

54S22

07007

Dual 4-lnput NAND Gate,O/C

TI

B Input NAND Gate

TI

Motorola Motorola Motorola Motorola Fairchild, Motorola, National, Raytheon, TI Fairchild, Motorola, National, Raytheon, TI Fairchild, Signetics Fairchild·

RCA, SSS

Motorola, National, Signetics, TI Fairchild, Motorola, National, Signetics, TI Signetics Motorola

05201

4001A

05202

Dual 3-lnput NOR Gate· plus Inverter Quad-2-lnput NOR Gate

4002A

05203

Dual 4-lnput NOR Gate

4025A'

05204

Motorola, National, ReA, SSS Motorola, National, ReA, SSS Triple 3-lnput NOR Gate Motorola, National, RCA, SSS RCA, SSS Quad 2-lnput OR Gate

4071B

17101 17102

4075B

17103

Dual 4-lnput OR Gate Triple 3-lnput OR Gate

TI

5402

00401

Quad 2-lnput NOR Gate

Fairchild, Signetics

5423

00402

Dual 4-lnput NOR Gate with Strobe, Expandable

5425

00403

5427 5432

00404 16101

54LS02

30301

Dual 4-lnput NOR Gate Motorola, TI with Strobe Triple 3-lnput NOR Gate Fairchild, Motorola, TI Signetics Quad 2-lnput OR Gate Quad 2-lnput NOR Gate Fairchild, Motorola, National, Signetics, TI

54lS27

30302

Triple 3-lnput NOR Gate Fairchild, Motorola, National, Raytheon, TI

54lS32

30501

Quad 2-lnput OR Gate

Fairchild, Motorola, National, Raytheon, Signetics, TI

Quad 2-lnput NOR Gate Quad 2-lnput NOR Gate

National Fai rch i Id, Signetics

54S133

07009

13-lnput NAND Gate

Fai rch i Id,Signetics

930

03001

Dual 4-lnput NAND Gate, Expandable, DTL

Fairchild

935 940

03002

DTl Hex Inverter

Fairchild

54102

03002

DTl Logic Gate

Fairchild

54S02

02701 07301

946

03004

Fairchild

10501

06001

962

03005

Fairchild

10502

06002

10504

06201

Motorola

10505

06003

10597

06202

Quad 2-lnput NAND Gate, DTl Triple 3-1 nput NAND Gate, DTL Quad 2-lnput NAND Gate Hex AND Gate

Motorola

10506

06004

10509

06006

GATES, AND;.OR/AND-OR-INVERT

Quad 2-lnput OR/NOR Gate Quad 2-lnput Gate (3 NOR, lOR/NOR)

RCA RCA Fairchild, Motorola, National, TI Motorola, TI

Motorola Motorola

2-3-2-lnput OR/NOR Gate 4-3-3 Input OR/NOR Gate 4-5-lnput OR/NOR Gate

Motorola

ReA

Motorola Motorola

4019A

05302

Quad AND-OR Select Gate

National, ReA, SSS

4019B

05352

SSS

4099B

40B5

17201

Quad and/or Select Gate Dual 2-Wide 2-lnput AOI

ReA

4043A

05103

8-Bit Addressable latch Quad NOR R/S latch

5475

01501

Complementary Output

SSS Motorola, Signetics

LATCHES 17601

40B6

17202

4-Wide 2-lnput AOI Gate, Expandable

ReA

5477

01502

Quad Bistable latch

Motorola

5450

00501

2-2-lnput AOI Gate, Expandable

Motorola, National, TI

54116

01503

Dua I 4-Bit latch with Clear

Signetics

Motorola, National, TI

54lS75 54LS259

31601

Signetics, TI Quad Bistable latch 8-Bit Addressable Latch TI

5451

00502

2-2-lnput AOI Gate, Expandable

::::J (!J

Motorola, National, SSS Motorola, ReA RCA Fairchild, Motorola, National, Signetics, TI National

4072B

Quad 2-lnput AND Fairchild Gate, O/C Triple 3-lnput NAND Fairchild, Signetics, TI Gate Triple 3-lnput AND Gate Fairch i Id,Signetics

Q)

~

Quad Exclusive OR Gate Quad Exclusive OR Gate Quad Exclusive OR Gate Quad 2-lnput Exclusive OR Gate Quad 2-1 nput Exclusive OR Gate Quad 2-lnput Exclusive OR Quad 2-lnput Exclusive NOR Gate, o/e Quad 2-lnput Exclusive OR Gate Triple 2-1 nput Exclusive OR/NOR Gate

4000A

National

02001

Motorola, National, TI Motorola

GATES, OR/NOR

National

02002

Motorola, National, TI

GATES, EXCLUSIVE OR/NOR

54LSB6

54130

0700B

00503

Fairchild, Motorola, National, Signetics, TI Fairchild, Motorola, National, Raytheon, TI

54120

54S30

M3851D/

5453

Motorola Fairc~ild,

Source

Description

Device

31603

BASED ON OPL-3851 0·54, 20 SEPTEMBER 1982

© IC MASTER 1983

363

c

.Q +-'

C,) Q)

Q)

C/}

MILITARY PARTS DIRECTORY MISCELLANEOUS (cont)

LATCHES (cont) Souree

Device

M38510/

54LS241

32402

Signetics, TI Motorola

54LS242 54LS243 54LS244

32801 32802 32403

Motorola

54LS245

32803

Fairchild, Motorola, National, Signetics

54lS132

31303

Fairchild, Motorola, National, Signetics Fairchild, Motorola, National, TI Fairchild, Motorola, National, Signetics, TI Fairchild, Motorola, National, Raytheon, TI

54LS280

32901

10524

06301

10525

06302

Description

Device

M38510/

54LS279 54LS373

31602 32502

8-Bit Latch, TransparTI ent D-Type, Three State

54LS375 9314

31604 01504

Quad Bistable Latch Quad Multifunction Latch

16·Channel Data Selector/Multiplexer 8·lnput Multiplexer

Quad set Reset Latch

Fairchild, Signetics, TI

MULTIPLEXERS

(I,)

"0

::s

54150

01401

54151

01406

54153

01403

54LS151

30901

(!J

54LS153

30902

c

54LS157

30903

+oJ

54LS158

30904

54LS251

30905

o

o

(I,) (I,)

(J) 54lS253

30908

54LS257

30906

54lS258

30907

54S151 54S153

07901 07902

54S157

07903

54S158

07904

9309

01404

9312

01402

54157, 9322

01405

Dual 4·Channel Data Selector/Multiplexer 8-lnput Multiplexer Dual 4·Channel Data Selector/Multiplexer Quad 2·lnput Multiplexer, Non-Inverting Quad 2·lnput Multiplexer, Inverting 8-lnput Multiplexer, Complemetary Input, Strobe, TS Dual 4-lnput Multi· plexer, TS Quad 2·lnput Multi· plexer, Non·lnverting, TS Quad 2·lnput Multi· plexer, Inverting, TS 8-lnput Multiplexer Dual 4·Channel Data Selector/Multiplexer Quad 2·lnput Multi· plexer, Non·lnverting Quad 2·lnput Multi· plexer, Inverting Dual4-lnput Multiplexer 8·Channel Data Selector/Multiplexer Quad 2-lnput Data Selector/Multiplexer (Non·lnverting)

Fairchild, Motorola, Raytheon, TI TI

Fairchild, Motorola, Signetics, TI Fairchild, Signetics, TI Fairchild, Signetics Fairchild, Signetics Fairchild, Signetics Fairchild, Signetics Fairchild, Motorola, Signetics Motorola Fairchild, Motorola, National, Signetics

4098B

17504

54121

01201

54122,

01202

54123

01203

54LS122

31403

54lS123

31401

54LS221

31402

9601 9602

01204 01205

15101

5414

15102

54132

15103

54180

01901

54LS13

31301

54LS14

31302

54LS240

BASED

364

32401

Motorola, Signetics, TI

TI Motorola Motorola

DG182

11101 11102

DG184 DG185

11103 11104

DG187 DG188

11105

DG190 DG191 DG300 DG302 DG303 DG304 DG305 DG306 DG307 4016A 4066A

11106 11107 11108 11601 11603 11604 11605 11606 11607 11608 05801 05802

2xSPST, 2xSPST, 2xDPST, 2xDPST,

JFET JFET JFET JFET

SPDT, JFET SPDT, JFET 2xSPDT, JFET 2xSPDT, JFET 2 x SPST, CMOS '

Siliconix Siliconix Siliconix Siliconix Siliconix Siliconix Intersil, Siliconix Intersil, Siliconix

2 x DPST, CMOS

Siliconix Siliconix

2 x SPDT, CMOS

Siliconix

2 x SPSTi CMOS SPDT, CMOS 2 x DPST, CMOS

Siliconix Siliconix

2 x SPDT, CMOS 4 x SPST, CMOS 4xSPST, CMOS

Siliconix Siliconix Motorola, SSS Motorola

D/A CONVERTERS 11302 11301

D/A Converter, 8·Bit D/A Converter, 8-Bit

PMI PMI

RCA

LINE DRIVERS AND RECEIVERS Fairchild, Motorola, Signetics Fairchild, Motorola

Fairchild, Motorola, Signetics

54S140

08101

55107

10401

55108

10402

55113

10405

55114, 9614 55115, 9615

10403

Motorola, TI

Motorola, TI

10404

Dual 4·1 nput Positive NAND Line Driver Differential Line Receiver Differential Line Receiver ' Dual Differential Line Driver, Three·State Dual Differential Line Driver Dual Differential Line Receiver

Fairchild, Signetics Fairchild, Motorola, TI TI

TI Fairchild, TI Fairchild, TI

Motorola, TI

Fairchild, Motorola Fairchild, Motorola

MISCELLANEOUS 5413

TI

INTERFACE

DAC·08 Dual Monostable Multi· vibrator, Retriggerable Monostable Multivibrator Retriggerable Mono· stable Multivibrator with Clear RetriggerablEi Mono· stable Multivibrator with Clear Dual Retriggerable Monostable Multi· vibrator with Clear Dual Retriggerable Monostable Multi· vibrator with Clear Dual Monostable Multi· vibrator, Schmitt Trigger Input One Shot Multivibrator Dual One Shot Multivibrator

Quad TTL to ECL OR/ NOR Translator Quad ECL to TTL Translator

TI TI Motorola, TI

ANALOG SWITCHES

DAC·08A

MULTIVIBRATORS

Octal Bus Transceiver, Three'State Quad 2·lnput NAND Schmitt Trigger 9·Bit Odd/Even Parity Generator Checker

Motorola, TI

\ DG181

Fairchild, Motorola, National, TI

Source

Description Octal Bus Driver, Schmitt Trigger, Non·lnverting Quad Bus Transceiver Quad Bus Transceiver Octal Bus Driver, Schmitt Trigger, Non·lnverting, Three , State

Dual 4·lnput NAND Schmitt Trigger Hex Schmitt Trigger, Inverting Quad 2-lnput NAND Schmitt Trigger 9-Bit Odd/Even Parity Generator/Checker Dual4·lnput NAND Schmitt Trigger Hex Schmitt Trigger, Inverting

,Motorola

Octal Bus Driver, Schmitt Trigger, Inverting

TI

LINEAR AMPLIFIERS lM101A

10103

Operational Amplifier

LM108A LM118 1558

10104 10107 10108

Operational Amplifier

741

10101

747

10102

LH2101A

10105

HA2500

12204

HA2510 HA2520

12205 12206

HA2600 HA2620

12202 12203

Motorola

Operational Amplifier Dual Operational Amplifier Operational Amplifier

Motorola, Signetics Motorola, National, Signetics Motorola, TI Motorola, Signetics, TI

Dual Operational Amplifier Dual Operational Amplifier Operational Amplifier Operational Amplifier Operational Amplifier Operational Amplifier Operational Amolifier

Fairchild, National, Raytheon, Signetics Fairchild, National National Fairchild Fairchild, National, Raytheon Fairchild, National, Raytheon Raytheon, Signetics Harris Harris Harris Harris Harris

ON QPL·3851 0-54, 20 SEPTEMBER 1982 © IC MASTER 1983

MILITARY PARTS DIRECTORY PROMs (cont)

AMPLIFIERS (cont) Description

Source

Device

M38510/

4136

11004

Quad Operational Amplifier

Fairchild, Raytheon

PM2108A

10106

Dual Operational Amplifier

PMI

lM124

11005

Quad Operational Amplifier

Fairchild

lM148

11001

Quad Operational Amplifier

Raytheon

PM155

11401

Operational Amplifier

PMI

PM155A

11404 11402

Operational Amplifier

PMI PMI PMI

PM156 PM156A

Device

M38510/

HM7642-2

20601

HM7643-2 HM7640-2

Source

Descripti on 1024x4,OC

Harris

20602

1024x4, TS

Harris

20801

512x8,OC

Harris

HM7641-2

20802

512x8, TS

Harris

93Z511

21004

2048x8, TS 45 nsec

Fairchild

4116 (200 ns)

24001

16384x1, TS

Mostek

4116 (250 ns)

24002

16384x1, TS

Mostek

2147H (85 ns)

23801

4096 xl, TS

Intel

RAMs

11405

Operational Amplifier Operational Amplifier

PM157

11403

Operational Amplifier

PMI

PM157A

11406

Operational Amplifier

PMI

4156

11003

Quad Operational Amplifier

Raytheon

2147H (70 ns)

23803

4096 x 1, IS

Intel

HA4741

11003

Quad Operational Amplifier

Harris

2147H (55 ns)

23805

4096 xl, TS

Intel

2147H (45 ns)

23807

4096 x 1, TS

Intel

2148H

23806

RAM, 1024x4, TS

Intel

COMPARATORS 111

10304

Voltage Comparator

Fairchild, Raytheon, National

931415

23103

RAM, 1024x1-Bit, OC

Fairchild

139

11201

Quad Voltage Comparator

Raytheon

93425

23102

RAM, 1024x1-Bit, TS

Fairchild

931425

23104

RAM, 1024x1-Bit, TS

Fairchild

93425

23106

RAM, 1024x1-Bit, TS

Fairchild

93425A

23108

RAM, 1024xl-Bit, TS

Fairchild

931422

23112

RAM, 256x4, T.S

Fairchild

93l422A

23115

RAM, 256x4, T.S

Fairchild

Motorola, National, RCA Motorola, National, RCA

710

10301

Voltage Comparator

Fairchild

lH2111

10305

Dual Voltage Comparator

Raytheon

TIMERS

I 555

10901

Timer

I

TRANSISTOR ARRAYS 10802

Transistor Array

4006A

05701

18-Bit Static S.R.

4014A

05702

18-Bit Static S.R. (Synchronous)

4015A

05703

Dual 4·Bit Static S.R.

Motorola, National, RCA, SSS

4021A

05704

8·Bit Static S.R. Asynchronous

Motorola, National, RCA, SSS

lM723

10201

Voltage Regulator

Fairchild

lM109

10701

Voltage Regulator

Fairchild

4031A

05705

64-Bit Static S.R.

National, RCA

7812

10707

Voltage Regulator

Fairchild

54195

02801

4·Bit Parallel Access S.R.

National

5495

00901

4·Bit Parallel Access S.R.

Motorola, National

5496

00902

5·Bit S.R.

Motorola, National, Signetics

54164

00903

8·Bit Serial-I n Parallel·Out S.R.

National, Signetics

8·Bit Parallel-Serial S.R. 4·Bit Universal S.R.

Motorola

7805

10706

Voltage Regulator

Fairchild

78M12

10703

Voltage Regulator

78M15

Voltage Regulator

Fairchild Fairchild

7815

10704 10708

Voltage Regulator

Fairchild

7824

10709

Voltage Regulator

Fairchild

79M05

11501

Voltage Regulator

7905

Voltage Regulator

54165

00904

7912

11505 11506

Fairchild Fairchild

Voltage Regulator

Fairchild

54194

00905

7915

11507

Voltage Regulator

Fairchild

79M12

11502 11503

Voltage Regulator Voltage Regulator

Fairchi Id

54195

00906

4·Bit Parallel Access S.R.

Motorola

54lS95

30603

4·Bit Parallel Access S.R.

Fairchild, Signetics, TI

54lS96

. 30604

Fairchild

MEMORY· 20701

32x8,OC

Signetics

32x8, TS

Signetics

82S123

20702

82S115

20803

512x8, TS PROM

Signetics

82S126

20301

256x4,OC

Signetics

82S129

20302

256x4, TS

Signetics

82S185

20902

82S130

20401

2048x4 PROM PROM, 512x4, OC

82S131

20402

PROM, 512x4, TS

Signetics Signetics Signetics

82S137 82S141

20602

1024x4, TS

Signetics

20802

512x8, TS

Signetics

82S181

20904

1024x8, TS

Signetics

82S191

21002

2048x8, TS

Signetics

82S2708 HM7602·2

20905 20701

1024x8, TS 32x8,OC

~ignetics

32x8, TS

HM7603·2

o ...... u Q) Q)

C/)

Harris

20702 HPROM512 20101 HM7610·2 20301

64x8 PROM

Harris Harris

256x4,OC

Harris

HM7611-2

20302

256x4, TS

Harris

HM7620·2 HM7621-2

20401 20402

PROM, 512x4, OC PROM, 512x4, TS

Harris Harris

Motorola, National, Signetics

5·Bit S.R .

Signetics, TI

54lS164

30605

8·Bit Serial In, Parallel Out, S.R.

Motorola, Signetics, TI

54lS165

30608

8·Bit Parallel load S.R., Complementary Outputs

Motorola

54lS166

30609

8·Bit Parallel-In, Serial·Out S.R.

Motorola, TI

54lS194

30601

4·Bit Universal Bidirectional S.R.

Motorola, TI

54lS195

30602

4·Bit Parallel In, Parallel Out, S.R.

Signetics, TI

54lS295

30606

4·Bit Parallel In, Paraliel Out, Right! left S.R.

Signetics, TI

54lS395

30607

4·Bit Paraliel In. Paraliel Out. Cascadable S.R.

Signetics, TI

54lS670

31901

4x4 Register File, TS

Motoro!a

9300

15901

Universal 4·Bit S.R.

Motorola

9328

15902

Dual 8·Bit S.R.

Motorola

PROMs 82S23

C

SHIFT REGISTERS

Fairchild

VOLTAGE REGULATORS

79M15

::J

CJ

. Fairchild, Signetics

1f-5"-'5:....:6'_____ _-=1.::.o~90:....:2'_____ __=D:. .: u:. : a.:. . 1T.:.:.i.:. :.m:. : e. :. . r_ _ _ _~Si,gnetics 558 10903 Quad Timer Signetics

13045

Q)

"0

MICROPROCESSORS 8080A

42001

Microprocessor

Intel

8086

53001

Microprocessor

Intel

BASED ON QPl-3851 0-54, 20 SEPTEMBER 1982

© IC MASTER 1983

Last Page This Section. Next Page 401.

365

ABBREVIATIONS OF COMPANY NAMES Action Ins AD ADT Adapt Sci Advent Alphatron AMA AMD AMI Amperex Analogic Analog Sys APC Apex APM ApplSys APT Aptek Array Tech AWl

Action Instruments Analog Devices Advanced Digital Technology Adaptive Science COfp. Advent Products, Inc. Alphatron American Automation Advanced Micro Devices American Microsystems, Inc. Amperex Electronic Corp. Analogic Analog Systems Applied Micro Circuits Apex Microtechnology Applied Microsystems Corp. Applied Systems Corp. Applied Microtechnology Aptek Microsystems Array Technology Analog West

Bedford Burr·Brown

Bedford Computer Systems Inc. Burr·Brown Research

CAE Cal Devices Cent Data Cermetek CGRS Cherry CIC Citel Comlinear CMA Comark Comdial Comp Auto Compas Cont Logic Control Sys CreMicro Cromemco CSG Cubit Curtis Cybernetic Cybersys Cybertek

Computer Aided Engineering California Devices Central Data Corp. Cermetek CGRS Microtech Inc. Cherry Semiconductor Custom Integrated Circuits Citel, Inc. Com linear Corporation Custom MOS Arrays Comark Corp. Comdial Semiconductor Computer Automation Com pas Microsystems Control Logic Inc. Control Systems Microsystems Div. Creative Micro Systems Cromemco, Inc. Commodore Semiconductor Group Cubit Inc. Curtis Electro Devices, Inc. Cybernetic Micro Systems Cybersystems Cybertek Inc.

Data General Data I/O Data Trans Datel Datricon DDC DEC Delco DGM Digelec Digitek Dionics Dist Comp Divers Tech

Data General Data I/O Data Translation Datel·lntersil Datricon Corporation Data Devices Corporation Digital Equipment Corporation Delco Electronics Digital Microsystems Digelec Corp. Digitek, Inc. Dionics Inc. Distributed Computer Systems Diversified Technology

E·HI Elind EL Instr EMM Emulogic Epson ETI Micro Exar

E·H International, Inc. Elind Elettronica Industriale E & L Instruments EMM Emulogic Inc. Epson America, Inc. HI Micro Exar Integrated Systems

Fairchild Ferranti Fujitsu A Fujitsu

Fairchild Ferranti Electric Fujitsu America Fujitsu Microelectronics, Inc.

GI GMS GTE Micro

General Instrument General Microsystems GTE Microcircuits

Harris Heurikon Hilevel Hitachi Holt HP Hughes

Harris Semiconductor Heurikon Corp. Hilevel Technology, Inc. Hitachi America, ltd. Holt Inc. Hewlett·Packard Hughes Aircraft, Solid State Products Hybrid Systems Hycom Incorporated

Hybrid Sys Hycom

IMS Inconix Ind Tech Inmos IntCirEng IntCirSys IntCompSys IntCyber Int Micro Int Tech Intech/FMI Intel Interdesign Intersil Intronics IPI ITT

Integrated Device Technology International Microcircuits, Inc. International Microelectronic Products Industrial Micro·systems Inc. Inconix Corporation Inductive Technology Inmos Integrated Circuit Engineering Integrated Circuit Systems Integrated Computer Systems International Cybernetics International Microsystems Integrated Technology Corp. Intech/Function Modules Inc. Intel Interdesign Intersil Intronics Integrated Photomatrix Inc. ITT Semiconductors

Kinetic Sys Kontron

Kinetic Systems Kontron Electronics

Lambda Laserdyne LSI Comp LSI Logic

Lambda Semiconductor Laserdyne LSI Computer Systems LSI Logic Corporation

Master Logic Matrix Matrox MCC Micrel Micro Eng Micro Innov Micropac Micro Net Micro Pwr Micro Sci Micro Tech Micro·Link Micron MilerTron Miller Mitel Mitsubishi MMI Monosil MonSys Mostek Motorola MRC Murray

Master Logic Corporation Matrix Corp. Matrox Electronic Systems Microcomputer Control Micrel Micro Circuit Engineering Micro Innovators M:cropac Industries Micro Networks Micro Power Systems Micro Sciences Corp. Microcircuits Technology Micro·Link Corporation Micron Technology MilerTronics Miller Technology Mitel Semiconductor Mitsubishi Electronics Monolithic Memories, Inc. Monosil Monolithic Systems Corp. Mostek Motorola Semiconductor MRC Systems Murray Consulting

National NCR

National Semiconductor NCR Corp., Microelectronics Division NEC / Electronic Arrays Division NEC / Electron Division NEC/ Microcomputer Division Nitron Nortek

IDT IMI IMP

NEC·EA NEC Electron NEC Micro Nitron Nortek

OAE Octagon OEI Ohio Sci OKI Omnibyte Oscar

Oliver Advanced Engineering Octagon Systems Corp. Optical Electronics Inc. Ohio Scientific OKI Semiconductor Omnibyte Corp. I. S. Oscar Assoc.

Panasonic PC/M Percom Phoenix Pico Design Polycore Plessey PMI PragDes PREMA Pro·Log

Panasonic Pacific / Cyber Metrix Percom Data Co. Phoenix Digital Corp. Pico Design Polycore Electronics Plessy Semiconductors Precision Monolithics, Inc. Pragmatic Design Inc. PREMA GmbH Pro·Log Corp.

Quay

Quay Corp.

Raytheon RCA RCI Data RElMS Reticon RIFA Rockwell RTC

Raytheon Semiconductor RCA Solid State Division RCI Data Relational Memory Systems Reticon RFIA Rockwell, Microelectronic Devices Riehl Time Corporation

Sank en Sanyo SEEQ Semi Proc Siemens Signetics SGS Sharp Silicon G Siliconix Silicon Sys Siltronics SMC Solarise Solitron Sprague SSM SSS Stag Struc. Des. Stynetic Sunrise Sunshine Supertex Symtek Synapse Synertek Sys Innov

Sanken Electric Sanyo SEEQ Technology, Inc. Semi Processes Siemens Signetics SGS·ATES Semiconductor Sharp Silicon General Siliconix Silicon Systems Inc. Siltronics Standard Microsystems Corp. Solarise Enterprises Solitron Devices Sprague Electric Company Solid State Micro Technology for Music Solid State Scientific Stag Microsystems Structured Design Inc. Stynetic Systems Sunrise Electronics Sunshine Semiconductor Supertex Inc. Symtek Corp. Synapse Corp. Synertek Systems Innovations

Tau Zero Tektronix Telaris Teledyne C Teledyne P Teledyne S Telefunken Telephonics Telmos Teltone TI Thomson·CSF TMX Topanga Toshiba Trans·Data TRW

Tau Zero Inc. Tektronix (See Laserdyne) Teledyne Crystalonics Teledyne Philbrick Teledyne Semiconductor Telefunken Telephonics LSI Telmos Teltone Corporation Texas Instruments Thompson·CSF Components Corp. TMX Topanga Data Systems Toshiba America Trans·Data TRW·LSI Products

Unitrode Universal

Unitrode Universal Semiconductor, Inc.

Vantage VTI Votrax

Vantage Data Products VLSI Technology, Inc. Votrax

Weitek Western Wintek

Weitek Corporation Western Digital Wintek Corp.

Xicor Xycom

Xicor, Inc. Xycom

Zendex Zilog Zymos

Zendex Corp. Zilog Zymos Corporation ©

Ie MASTER 1983

MICRO

•

PO\NER SYSTEMS

. Mill-tary Ie's

, ,' ....

Note: See other MPS parts in Interface and Linear Sections.

MICRO POWER SYSTEMS - HIGH RELIABILITY (HI-REL) Micro Power Systems has established standard procedures for manufacturing, screening, qualification, and quality conformance, and is incorporating the requirements of both MILSTD883 and MILQ-9858. Devices meeting Class B screening requirements of MILSTD-883 are available as standard catalog items. Requests for devices with other special requirements are invited. MPS standard "/883B" parts designate devices which have been subjected to 100% screening in

accordance with Method 5004 of MILSTD-883, Class B. Quality Conformance Testing (Groups A, B, C, D) in accordance with Method 5005 of MILSTD-'B83 is available on special order. Additionally, a complete line of monolithic dual transistors, both field effect and bipolar types, screened to the requirements of MILS-19500, MIL STD-750, and MIlrSTD-202 are also available as standard catalog items.

en

E

a> ......

en

~

en L-

a>

;: o

a...

o

L-

1000/0 SCREENING PROCEDURE

(,)

~

MILITARY PROGRAMS MIL-STD-883 METHOD/COND.

SCREEN 1. Internal Visual

2. 3. 4. 5.

Stabilization Bake Temperature Cycling Constant Acceleration Seal: (A) Fine (B) Gross 6. Initial Electrical 7. Bum-In Test

8. Final Electrical 100% go-no-go 9. External Visual 10. Lot Acceptance

2010 Condo B. 1080 Condo C (24 hrs. min.) 1010 Condo C 2001 Condo E; Y1 plane 1014 Condo A or B 1014 Condo C MPS Specifications 1015 Condo A or B 168' hrs. @ +125°C Subgroups AI, A2, A3, A7, Functional tests per Table 1 2009 Sample Inspection Table 1, Group A Elect. Tests

o Space Shuttle o LAMPS CIt Cruise Missile o AWACS o NEARTIP • ALQl19, ALQ131 , o IR Maverick • QF100/A300 Airbus • HG480/280 o Alpha Jet

The following MPS parts are available for "Hi-ReI" Military Applications: Digital-to-Analog Converters MP370 MP377-18 MP562 MP3140 MP5520 MPDAC100 MP7520 MP7521 MP7522 MP7523 MP7524

MP7530 MP7531 MP7533 MP7541 MP7614 MP7616 MP7621 MP7622 MP7623 MP9377-16

Analog-to-Digital Converters MP7138 MP7550 MP7570

Precision Voltage References

Analog Multiplexers* MP7501 MP7502 MP7503 MP7506 MP7507 MP7508DI MP7509DI

MP5010 MP5532/REF 01 MP5531/REF 02

Precision Operational Amplifiers MP5501/0P 01 MP5502/0P 02 MP5505/0P 05

MP5507 lOP 07 MP5508/0P 08 MP5509/0P 09 MP551010P 10

MP5511/0P 11 MP5512/0P 12 MP5524/0P 24

Analog Switches*

MP5527 lOP 27 MP5534/0P 34

MP5537 lOP 37

MP7510DI MP7511DI MP7512DI MP200DI MP201DI

MP7574 MP7581

*Note: Dielectrically isolated Multiplexers and switches are indicated by "DI" suffix.

INA.

MICRO

~POWER

SYSTEMS

©

Ie MASTER 1983

3100 Alfred Street Santa Clara, CA 95050 (408) 727-5350

401

NATIONAL SEMICONDUCTOR MIL-AERO National Semiconductor offers six basic categories of Military/Aerospace Products. Our support of military standardization is demonstrated in the number of MIL-M-38510 qualified devices we offer. To provide devices of comparable quality and reliability where no MIL-M-38510 specifications exist, we offer a complete line of 883B/RETSTM devices, tested to the most compliant in-house screening program in the industry. The heart of this program is the RETS (Rei Electrical Test Specification) a fully documented and controlled electrical test specification. Our customers can tell exactly what we test. None of our competitors provide this level of visibility. To meet the more extensive reliability needs of the space community, we offer MIL-M-38510 Class S devices and 883S/RETSTM devices, many of them radiation hardened. We have the products and the screening most major programs need. Let us show how we can meet your needs. ~

o ...... o

::J 'U

NATIONAL SEMICONDUCTOR RELIABILITY SCREENING FLOWS

c: o

JM38510 Class S

o E Q)

en C\l

c: o

...... C\l

Z

883SIRETS™ Monolithic

883S/RETS Hybrid

JM38510 Class B

883B/RETSTM

883BIRETS™

Hybrid

X

Line Certification

X

Wafer Lot Acceptance

X

X

SEM only

On Shore Assembly

X

X

from seal onward

X

Assembly Die·Shear

X

X

X

X

100% Non-Destructive Bond Pull

X

X

X

Destructive Bond Pull Sample

X

X

X

X

X

X

2010A

2010A

2017

2010B

2010B

2017

Internal Visual

X

X

Stabilization Bake, 1008C

X

X

X

X

X

X

Temperature Cycle, 1010C

X

X

X

X

X

X

Constant Acceleration, 2001E

X

X

relaxed for some packages

X

X

X

Fine Leak, 1014B

optional

optional

optional

X

X

X

Cross Leak, 1014C

optional

optional

optional

X

X

X

some devices

PIND,2020

X

X

Serialization

X

X

X

Controlled Electrical Test Specifications

X

X

X

X

X

X

X

X

X

optional

optional

optional

240 hrs

240 hrs

240 hrs

160 hrs

160 hrs

160 hrs

X

X

X

Interim Electricals, 25°C Burn-in, 125°C, 1015* PDA~

10%*

5%

5%

X

Drift Measurement (A's)

X

X

X

Fine Leak, 1014B

X

X

X

optional

optional

optional

Cross Leak, 1014C

X

X

X

optici'nal

optional

optional

Final Electricals (3 temp DC, 25°C AC)

X

X

X

X

X

X

X-Ray, 2012

X

X

X

X

X

X

X

X

X

every lot

every lot

every lot

every lot

every lot

not required

not required

not required

every 90 days

every 90 days

every 6 months per package

ever/6 months per package

every 6 months per package

every 6 months per package

every 6 months per package

every lot every 90 days for quality

X

X

X

X

X

Group A, 5005 Table I Group B, 5005 Table 11* * Group C, 5005, Table III

Note: hybrids use Method 5008 for Quality

Group 0, 5005, Table IV External Visual, 2009

X

* CMOS devices receive 2 static burn-ins of 24 hours each and a dynamic burn-in of 240 hours with PDA's of 5% on the statics (combined) and

5% on the dynamic.

* * For lot definitions, see MI L-M-3851 O. * * * Some devices are tested to other conditions. I

402

@

Ie MASTER 1983

NATIONAL SEMICONDUCTOR MILITARY/AEROSPACE PRODUCTS (X Available, F Future, S Submitted for Qualification)

=

883B ADC0800 ADC0808 ADC0816 ADC1210 ADC1211 AF100-1 AF100-2 AF120 AHOO14 AHOO15 AHOO19 AH0126 AH0129 AH0133 AH0134 AH0139 AH0140 AH0141 AH0142 AH0143 AH0144 AH0145 AH0146 AH0151 AH0152 AH0153 AH0154 AH0161 AH0162 AH0163 AH0164 AH2114 AM3705 CD4000 CD4001 CD4002 CD4006 CD4007 CD4008 CD4009 CD4010 CD4011 CD4012 CD4013 CD4014 CD4015 CD4016 CD4017 CD4018 CD4019 CD4020 CD4021 CD4022 CD4023 CD4024 CD4025 CD4027 CD4028 CD4029 . CD4030 CD4031 CD4034 CD4035 CD4040 CD4041 CD4042 CD4043 CD4044 CD4046 CD4047 CD4048 CD4049 CD4050 CD4051 CD4052 CD4053 CD4060 CD4066 CD4069 CD4070 CD4071 CD4072 CD4073 CD4075 CD4076 CD4081 CD4082 CD4089 CD4093 CD4099 CD40106 CD40160 CD40161 CD40162 CD40163 CD40174

@

38510B

X X X X X X X X X X X X X X X X X X X X X X X X X X X X

x

X X

X X X X F

X X X X X F X X X X X X X F X X F X X

F

F

X X

F F F F F F F F F

X

X X X X X X X X X

385105

X X X X X X X X X X X X X X X X X X X X

x

X X X X F X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

8835

=

RAD HARD

F F F

F

Ie MASTER 1983

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X F X X X X X X X X X

F F F F F

F F F F F F F F F F F F F F F F F F F

F

F F

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

F F F F F F F F F

X X X X X X X X X

F F F

X

F

X

X

=

883B CD40175 CD40192 CD40193 CD40195 CD4503 CD4507 CD4510 CD4511 CD4512 CD4514 CD4515 CD4516 CD4518 CD4519 CD4520 CD4522 CD4526 CD4527 CD4528 CD4529 CD4543 CD4584 CD4723 CD4724 COP320C COP402L COP498 COP499 DAC0800 DAC0808 D'AC1020 DAC1021 DAC1022 DAC1200 DAC1201 DAC1202 DAC1203 DAC1220 DAC1221 DAC1222 DAC1285 DAC1286 DHOOO6 DHOOO8 DHOO11 DHOO34 DHOO35 DM2502 DM2503 DM2504 DM5400 DM5401 DM5402 DM5403 DM5404 DM5405 DM5406 DM5407 DM5408 DM5409 DM5410 DM5411 DM5413 DM5414 DM5416 DM5417 DM5420 DM5423 DM5425 DM5426 DM5427 DM5430 DM5432 DM5437 DM5438 DM5440 DM5441A DM5442 DM5445 DM5446A DM5447A DM5448 DM5450 DM5451 DM5453 DM5454 DM5460 DM5470 DM5472 DM5473 DM5474 DM5475 DM5476 DM5483 DM5485 DM5486

X X X X X X X X X X X X X X X X X X

38510B

F F

x

X X X X X F F F F X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

8835

X X X X X F X X F F F X X X X F F X F F F F X X

385105

RAD HARD

X X

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X X X

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X X X X

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X

X

X X X X X X X X X X X X X X X X X

X X X X X X X X X X X X X X X X X

X X X X X X X X X X

S

883B DM5490A DM5492A DM5493A DM5495 DM5496 DM54107 DM54109 DM54121 DM54123 DM54125 DM54126 DM54132 DM54142 DM54145 DM54147 DM54148 DM54150 DM54151A DM54153 DM54154 DM54155 DM54156 DM54157 DM54160A DM54161A DM54162A DM54163A DM54164 DM54165 DM54166 DM54173 DM54174 DM54175 DM54176 DM54177 DM54180 DM54181 DM54184 DM54185A DM54190 DM54191 DM54192 DM54193 DM54194 DM54195 DM54196 DM54197 DM54198 DM54199 DM54251 DM54284 DM54285 DM54365 DM54366 DM54367 DM54368 DM54LOO DM54L01 DM54L02 DM54L03 DM54L04 DM54L05 DM54L08 DM54L09 DM54L10 DM54L11 DM54L20 DM54L26 DM54L30 DM54L32 DM54L42A DM54L51 DM54L54 DM54L55 DM54L71 DM54L72 DM54L73 DM54L74 DM54L75 DM54L78 DM54L85 DM54L86 DM54L90 DM54L91 DM54L93 DM54L95 DM54L98 DM54L123A DM54L154A DM54L157A DM54L164A DM54L165A DM54L192 DM54L 193 DM54LSOO DM54LS01

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

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X X X X X X

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403

NATIONAL SEMICONDUCTOR MILITARY/AEROSPACE PRODUCTS (X = Available, F = Future, S = Submitted for Qualification) 8838

~

.....00

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0 0

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DM54LS02 DM54LS03 DM54LS04 DM54LS05 DM54LS08 DM54LS09 DM54LS10 DM54LS11 DM54LS12 DM54LS13 DM54LS14 DM54LS15 DM54LS20 DM54LS21 DM54LS22 DM54LS26 DM54LS27 DM54LS30 DM54LS32 DM54LS37 DM54LS38 DM54LS40 DM54LS42 DM54LS47 DM54LS48 DM54LS49 DM54LS51 DM54LS54 DM54LS55 DM54LS73 DM54LS74 DM54LS75 DM54LS76 DM54LS77 DM54LS78 DM54LS83 DM54LS85 DM54LS86 DM54LS90 DM54LS93 DM54LS107 DM54LS109 DM54LS112 DM54LS113 DM54LS114 DM54LS122 DM54LS123 DM54LS125 DM54LS126 DM54LS132 DM54LS138 DM54LS139 DM54LS151 DM54LS153 DM54LS154 DM54LS155 DM54LS156 DM54LS157 DM54LS158 DM54LS160 DM54LS161 DM54LS162 DM54LS163 DM54LS164 DM54LS168 DM54LS169 DM54LS170 DM54LS173 DM54LS174 DM54LS175 DM54LS190 DM54LS191 DM54LS192 DM54LS193 DM54LS194 DM54LS196 DM54LS197 DM54LS240 DM54LS241 DM54LS242 DM54LS243 DM54LS244 DM54LS247 DM54LS248 DM54LS249 DM54LS251 DM54LS253 DM54LS257 DM54LS258 DM54LS266 DM54LS279 DM54LS283 DM54LS352 DM54LS353 DM54LS365 DM54LS366 DM54LS367 DM54LS368 DM54LS373 DM54LS374 DM54LS386 DM54LS670 DM54S00

404

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

x X

x X X X X

x X

385108

883S

385105

X

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

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X X X X X X X X X X

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385108

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385105

X X X X X X X X X

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X X X X X X X X X X X X X X X X

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X X X X X X X X X X X X X X X X X X X X X

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385108

X

385105

RAD HARD

X X X X X X X X X X X X X X X X X X X X

X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X

x x X X X

x X X X X X X X X X

x

X X X X X X X

F X X X X X X X X X X X X X X X X X X X X X

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F F F F

X X X X X X X X X

F F X X X X X X X X X X X X X X X X X

F X F F X

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© Ie MASTER 1983

NATIONAL SEMICONDUCTOR MILITARY/AEROSPACE PRODUCTS (X = Available, F = Future, S = Submitted for Qualification) 0855115 0855121 0855122 0855180 0855182 0855183 0555325 0855450 0855451 0855452 0855453 0855454 0855460 0855461 0855462 0555463 0855464 0855493 0855494 087800 087803 087811 087812 087819 087820A 087830 087831 087832 087833 087834 087835 087836 087837 087838 087839 087856 087858 087880 087889 0878C20 0878C120 0878L 12 0878L8120 088T26A 088T28 IOM2901A IOM2901A-1 IOM2909A IOM2911A IDM29750 IDM29751 IDM29760 IDM29761 IOM29803 IOM29811 IDM29901 IDM29903 IDM29908 IN58048 IN88049 IN880C48 IN88080A IN882C06 IN882L805 LF111 LF151 LF151A LF153 LF155 LF155A LF156 LF156A LF157 LF157A LF198 LFl1201 LFl1202 LFl1331 LFl1332 LFl1333 LFl1508 LHOOO2 LHOOO3 LHOO04 LHOO05 LHOO05A LH0020 LH0021 LH0022 LH0023 LH0024 LH0032 LH0033 LH0036 LH0037 LH0038 LH0041 LH0042 LH0043 LH0044 LH0044A

©

883B

38510B

BB3S

385105

X X X X X X X X X X X X X X X X X X X X X X

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X X X X X X X X X X X X

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X X X X X X X

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Ie MASTER 1983

X X X X X X

F

RAD HARD

883B LH0045 LH0052 LH0053 LH0061 LH0062 LH0063 LH0070-0 LH0070-1 LH0070-2 LH0075 LH0076 LH0082 LHOO84 LH0086 LHOO91 LH0094 LH1605 LH740A LH2101A LH2108 LH2108A LH2110 LH2111 LH24250 LM10 LM11 LM101A LM102 LM103 LM104 LM105 LM106 LM107 LM108 LM108A LM109 LM110 LM111 LMl12 LMl13 LMl17 LMl18 LMl19 LM120 LM121 LM122 LM124 LM124A LM125 LM126 LM129A LM129B LM131 LM131A LM134 LM135 LM136 LM137 LM138 LM139 LM139A LM140 LM143 LM144 LM145 LM146 LM148 LM149 LM150 LM158 LM158A LM159 LM160 LM161 LM185 LM192 LM193 LM193A LM194 LM195 LM199 LM199A LM555 LM556 LM567 LM709 LM709A LM710 LM711 LM723 LM725 LM725A LM733 LM741 LM741A LM747 l.M747A LM748 LM1514 LM1524 LM1536

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X X X X X X X X X X X X X X X

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385105

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883B LM1558 LM1596 LM4250 MF10 MHOO07 MHOO09 MHOO12 MHOO13 MM2114 MM2147 MM2708' MM2716 MM4723 MM4724 MM5290 MM5298 MM54COO MM54C02 MM54C04 MM54C08 MM54C10 MM54C14 MM54C20 MM54C30 MM54C32 MM54C42 MM54C48 MM54C73 MM54C74 MM54C76 MM54C83 MM54C85 MM54C86 MM54C89 MM54C90 MM54C93 MM54C95 MM54C107 MM54C150 MM54C154 MM54C157 MM54C160 MM54C161 MM54C162 MM54C163 MM54C164 MM54C165 MM54C173 MM54C174 MM54C175 MM54C192 MM54C193 MM54C195 MM54C200 MM54C201 MM54C204 MM54C221 MM54C240 MM54C244 MM54C373 MM54C374 MM54C901 MM54C902 MM54C903 MM54C904 MM54C905 MM54C906 MM54C907 MM54C908 MM54C909 MM54C910 MM54C914 MM54C915 MM54C920 MM54C921 MM54C922 MM54C923 MM54C929 MM54C930 MM54C941 MM54C948 MM54C949 MM70C95 MM70C96 MM70C97 MM70C98 MM72C19 MM78C29 MM78C30 N8C800 N8C810 N8C830 NSC831 NS80C48 NS80C49 NMC6504 NMC6514 MM82PC08 MM82PC12

3B510B

X X X

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r----------------------------

nell ~f~~~

RCA MIL-STD-883 Slash-Series CMOS IC's RCA high-reliability slash-series CMOS products include both CD4000-series digital logic types and CDP1800-series microprocessor and memory-system types. The CD4000series parts are provided to three screening levels-/1 S, 13, and 13W-that correspond to MIL-STD-883, Method 5004, Classes Sand 8 requirements. The CDP1800-series parts are supplied to levels 13 and 13W. Equivalent aerospace level screening may be negotiated on a custom basis. RCA also

supplies high--reliability chips. These chips are provided to two screening levels, IS (or IR for LSI types) and 1M. RCA CD4000-series level 11 S packaged devices and IS chips are also available in radiation-hardened versions. These parts are processed to either 105 or 106 rads(Si) and are identified by addition of a " Z" or a "J" suffix letter, respectively, to the device type number (see nomenclature diagram below).

1 x 10" rads(Si)/second

© Ie MASTER 1983

~-------------------------Rcn

SOlid_ State

RCA High-Reliability IC's Emulating and Programmable Integrated Circuit (EPIC) 8-Bit Slice Microcomputer Family (GP Series) Nomenclature Guide G P Type No.

GP001ADL GP201ACL GP301ADL GP302ADL QP501ADL GP504ADL GP505ADL GP507ADL

Description

CMOS 8-bit general-processor unit (CPU) CMOS 1024 X 4 RAM CMOS 4096-bit mask-programmabie static ROM CMOS 4096-bit mask-programmabie static ROM Emulating controller Address select unit Register select unit Interrupt control unit

000

A

No. of Leads

48 18 32

C

Try : L

3

W

z

« U

High-Rei Designator Package Designator

a:

L=Leadless D=DIC

-

32 48 48 48 48

Rad Hard Designator

-

, Product Designator GPfor "General Processor"

Voltage Designator c=s V, 0=10 V Iteration Designator Part Number 1st Digit

2nd, 3rd Digit

o Processor

Specific

2 RAM

Part

3 ROM

Number

4 EPROM SilO, Misc.

RCA MIL-STD-883 Slash-Series Linear IC's The RCA CA3000 slash-series of high-reliability linear integrated circuits includes a broad range of types for use in satellites and other aerospace, military, and critical industrial applications in which maintenance is extremely difficult. These integrated circuits are processed and screened in accordance with MIL-STD-883, Method 5004 format. The RCA CA3000 slash-series types are supplied to three

screening levels (/1, /3, and /3W) that meet the electrical, mechanical, and environmental test methods and procedures established for microelectronics in MIL-STD-883. RCA CA3000-series Ie products listed below are commercial products that can be supplied to standard RCA screening levels or to specialized customer requirements on a custom basis.

CA3000-Series Linear IC's and MOS/FET's Type No. CA101A CA723 CA741 CA747 CA748 CA1558 CA3000 CA3001 CA3002 CA3004 CA3006 CA3015A CA3018A CA3019 CA3020A CA3026 CA3028S CA3039 CA3045 CA3049 CA3058 CA3078 CA3080 CA3081 CA3082 CA3085

Description Operational Amplifiers Voltage Regulators Operational Amplifiers Dual Operational Amplifiers Operational Amplifiers Dual Operational Amplifiers Differential Amplifiers Differential Amplifiers Differential Amplifiers Differential Amplifiers (RF) Differential Amplifiers (RF) Operational Amplifiers Transistor Arrays Diode Arrays Wide-Sand Power Amplifiers Dual Differential Amplifier Arrays Differential Amplifiers (RF) Diode Arrays Transistor Arrays Dual Differential Amplifier Arrays Zero-Voltage Switches Micropower Operational Amplifiers Variable Operational Amplifiers Transistor Arrays Transistor Arrays Voltage Regulators

No. of Leads 8 10 8 10 8 8 10 12 10 12 12 12 12 10 12 12 8 12 14 12 14 8 8 16 16 8

Type No. CA3085A CA3085S CA3094 CA3094A CA3094S CA3100 CA3118 CA3118A CA3130 CA3130A CA3140 CA3140A CA3160 CA3160A CA3260T CA3260AT CA3290

Description Voltage Regulators Voltage Regulators Programmable Power Switch/ Amplifier Programmable Power Switch/ Amplifier Programmable Power Switch/ Amplifier SiMOS Operational Amplifiers Transistor Arrays Transistor Arrays SiMOS Operational Amplifiers SiMOS Operational Amplifiers SiMOS Operational Amplifiers SiMOS Operational Amplifiers SiMOS Operational Amplifiers SiMOS Operational Amplifiers SiMOS Operational Amplifier SiMOS Operational Amplifier SiMOS Dual Voltage Comparators

No. of Leads 8 8 8 8 8 8 12 12 8 8 8 8 8 8 8 8 8

MOS/FET's HR3N187 HR3N200

Dual-Gate MOS Field-Effect Transistor Dual-Gate MOS Field-Effect Transistor

4 4

Note: High-reliability versions of most commercially available CA3000-series linear IC's not listed above can also be supplied on a custom basis.

©

Ie MASTER 1983

409

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE MILITARY PRODUCTS/ PROCESS LEVELS The Signetics MIL 38510/883 Program is organized to provide a broad selection of processing options, structured around the most commonly requested customer flows .. The program is designed to provide our customers: • Fully compliant 883B flows on all products.

en CJ +:: CD

• Standard processing flows to help minimize the need for custom specs.

JAN CASE OUTLINE AND LEAD FINISH PB CB EB JB DB FB RB GC IC VB

C/)

•

The followi;1g explains the different processing options available to you. Special device marking clearly distinguishes the type of screening performed. Refer to Tables 2, 3, 4 and 5.

JAN .QUALIFIED (JS and JB) JAN Qualified product is designed to give you the optimum in quality and reliability. The JAN processing level is offered as the result of the government's product standardization programs, and is monitored by the Defense Electronic Supply Center (DESC), through the use of industry-wide procedures and specifications. JAN Qualified products are manufactured, processed and tested in a government certified facility to Mil-M-38510, and appropriate device slash sheet specifications. Design documentation, lot sampling plans, electrical test data and qualification data for each specific part type has been approved by the Defense Electronic Supply Center (DESC) and products appear on the DESC Qualified Products List (QPL 38510).

10-PIN

8-PIN

14-PIN

16-PIN

18-PIN

20-PIN

24-PIN

-

-

FE

-

-

-

-

-F

-

-

-

-

-

-W

H

-

-

-F

F

--

-

-

~

W

--

-

F

--

--

H

-

'"""':

-

F -

-

--

-

-

All productl lilted are allo available In Ole form.

Table 1 MILITARY PACKAGE AVAILABILITY

Cost savings realized by using standard processing flows in lieu of custom flows.

• Better delivery lead times by minimizing spec negotiation time, plus allow customers to buy product off-the-shelf or in various stages of production rather than waiting for devices started specifically to custom specs.

CERAMIC

8-PIN

--.

r::::: 0)

SIGNETICS MILITARY PACKAGE TYPES METAL CAN

RB

JB

JS

883B

JAN Qualified 54 54LS 54S 82 8T 93XX 96XX Analog Bipolar Memory Microprocessor

X X X

-

X X X X X X X X X X

X X X

-

-X -

X X

-

Table 2 MILITARY SUMMARY

In addition to .the common specs used throughout the industry for processing and testing, JAN Qualified products also possess a requirement for a standard marking used throughout the IC industry. By implementing this space-oriented government standardization program, Signetics complies with the trend of reducing the numerous similar Source Control Drawings (SCD's). This standardized trend results in a single complete and comprehensive specification, single product flow, and a single administrative effort-for both the aerospace community and for Signetics. This effort will also result in a single lower price. Because the list of Signetics' qualified products will change periodically, you may wish to contact your nearest Signetics' Sales Office or refer to the Products Qualified under Military SpeCification from DESC for our current update.

a

Quality conformance inspection testing, per - JAN Class S orders will be quoted with unit MIL-STD-883, Method 5005, is performed price only (similar to present Class B proaccording to Mil-M-38510 as follows: grams). There will be no lot charges for SEM inspection, electrical testing, or Group B or • Group A; each sublot. D qualification. All additional charges are . amortized in the unit price. • Group B; one sublot for each package type every week. Package types currently qualified are: 1) Cerdip-ceramic dual-in-line • Group C; one sublot for each microcircuit 2) Cerpac-ceramic flat pack group every 13 weeks. 3) Metal can packages • Group D; one sublot for each package Government Source Inspection (GSI) is a type every 26 weeks. required portion of the JAN 38510 Class S specification. No alterations to this specifiNOTE: This category of part conforms to cation may be instituted. Therefore, the only Quality Level B-1 (Tro = 3.0) of MILHDBK-2170.

customer source inspection option is at . pre-ship (verification only). Additional program data options (such as wafer lot acceptance, attributes, Group B, D, and others) are available upon request for a . nominal fee.

MIL-STD-883, LEVEL B Processing to this option is ideal when no . JAN slash sheets are released on devices required. Product is' processed to MIL-STD883 Method 5004, and is 100% electrically tested to Signetics data sheets. Generic quality conformance inspection testing, per MIL-STD-883, Method 5005, is performed as follows: • Group A; each sublot. • Group B; one sublot for each package type every week. • Group C; one sublot for each microcircuit group every 52 weeks (JAN data is applicable). • Group D; one sublot for each package type every 52 weeks. NOTE: This category of part conforms to Quality Level B (Tro = 1.0) of MILHDBK-217D. Copies of generic data, as defined above, are available to thos customers who require this data specifically on their purchase orders.

Signetics

410

@

IC MASTER 1983

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE -

PROCESS LEVEL AND MARKETING

PRE-CAP VISUAL

BURNIN

FUNCTIONAL TEST

DC/AC

DC/AC

@25° C

@TEMP

JS/JS JM38510XXXXX RS SXXXX883S

2010, Condo S

Yes

100%

100%

2010, Condo S

Yes

100%

100%

QPL

OFFSHORE

100%

Yes

No

100%

No

Yes

en

()

+-'

Q)

JAN Class S Product Inventory

c

.Ql (J)

Wafer Lot 24 Wafers

~

Wafer Lot Acceptance (Includes S EM and GSI)

# Wafers Required for

Purchase Order

Ship Purchase Order

+Inventory Overbuild The Signetics' JAN Class S inventory program will reduce delivery time and shipment delinquencies. As continuing orders from customers are processed to this specification, inventories will be established for products in the ferm of pre-qualified wafers and finished parts. As the program matures, this will allow immediate delivery of JAN Class S parts.

---I=1

L...-_ _ _

Field Sale,

Wafer Bank: 1 or 2 Wafers (Wafer Lot Accepted)

-

Balance to Finished Goods Inventory

Balance to Support JAN Class "B" Production

1-1.....-___. . • Agency Certification • Wafer Lot Acceptance (GSI) • Baseline Flow • Traceability to Silicon

Jan Class S Product Flow

• Agency Certification • Tightened Lot Control (Ref: Class B) • Wirebond and Die Sheer Monitor • Condition "A" Precap (GSI) • 100% NonDestructive Bond Pull

Extended Burn-In (240 Hours) • Tightened PDA's (Ref: Class B) • Catastrophic Failure Analysis Requirements • GSI

Signetics © Ie MASTER 1983

411

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE

PROCESSING LEVELS DESCRIPTION OF REQUIREMENTS AND SCREENS General Mil-M-38510 1. Pre-Certification A. Product Assurance Program B. Manufacturer's Certification

en o

:;= Q)

MIL-M-38510 AND MIL-STD-883 REQUIREMENTS, METHODS AND TEST CONDITIONS

REQUIREMENT

CLASS S

JAN QUALIFIED (JB)

883B (RB)

The Manufacturer shall establish and implement a Products Assurance Program Plan and provide for a manufacturer survey by the qualifying act ivity, Para. 3.4.1.1

-

X

X

N/A

c::

2. Certification

Received after manufacturer has completed a successful survey, Para. 3.4.1.2

-

X

X

N/A

en

3. Device Qualification

Device qualification shall consist of subjecting the desired device to groups A, B, C & D of method 5005, Para. 3.4.1.2

-

X

X

N/A

4. Traceability

Traceability maintained back to a production lot Para. 3.4.6

-

X

X

X

5. Country of Origin Devices must be fl1anufactured, assembled, and tested within the U.S. or its territories, Para. 3.2.1

-

X

X

N/A

C>

Screening Per Method 5004 of MII-Std-883 6. Internal Visual (Precap)

2010, Condo A or B

100%

XA

XB

XB

7. Stabilization Bake

1008, Condo C Min; (24 Hrs @ 150°C)

100%

X

X

X

8. Temperature. Cycling

1010, condo C; (10 cycles, -65°C to +150°C)

1005

X

X

X

9. Constant Acceleration

2001, Condo E; (30kg in VI Plane)

100%

X

X

X

There is no test method for this screen; it is intended only for the removal of "Catastrophic Failures" defined as "Missing Leads, Broken Packages or Lids Off,"

100%

X

X

X

Condo A or B (5.0 x 10-8 CC/Sec) Condo C Min.

100% 100%

X X

X X

X X

12. Interim Electricals (Pre Burn-In)

Per applicable device specification

100%

X

Optional

Optional

13. Burn-In

1015, Condo as specified (160 hrs. Min at 125°C)

100%

240 hrs.

X

X

14. Final Electricals

Per applicable Device Specification

100%

Slash Sheet

Data Sheet

Sub Group 1

100% Read & Record X

X

X

Sub Group 2

X

X

\X

Sub Group 3

X

X

X

10. Visual Inspection

11. Seal (Hermeticity) A. Fine B. Gross

I

A. Static Tests @25°C B. Static Tests @ +125°C C. Static Tests @-55°C

Table 5 REQUIREMENTS AND SCREENING FLOWS FOR STANDARD PRODUCTS

Signetics 412

@

Ie MASTER 1983

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE

PROCESSING LEVELS DESCRIPTION OF REQUIREMENTS AND SCREENS

D. Dynamic Test @25°C E. Functional Test @25°C F. Switching Test @25°C

MIL-M-38510 AND MIL-STD-883 REQUIREMENTS, METHODS AND TEST CONDITIONS

S

JAN QUALIFIED (JB)

883B (RB)

Sub Group 4 (for Linear Products mainly)

X

X

X

Sub Group 7

X

X

X

Sub Group 9

X

X

X

10% 3% Funct'l

5%

X

X

100%

As Req'd

JM385101

SXXXX883B 883B

REQUIREMENT

CLASS

en

(,.)

+-'

15. Percent Defective Allowable (PDA)

A PDA of 10% is a normal requirement applied against the static tests @25°C (A-1). This is controlled by the slash sheets for JB products. For RB 10% is standard.

16. Marking

Fungus Inhibiting Paint

XXXX Slash

(])

C Ol C/)

Sheet # 17. X-Ray

2012

18. External Visual

2009

100%

N/A

N/A

100%

X

X

X

Quality Conformance Inspection per Method 5005 of MII-Std 883

19. Group A

Electrical Tests-Final Electricals (#14 above) repeated on a sample basis. (Sub Groups 1 thru 12 as specified.)

Each sublot

X

X

X

20. Group B

Package functional and constructional related test I.E. package dimensions, resistance to solvents, internal visual &mechanical, bond strength & solderability.

Every week per pkg. type

Each sublot

X

X

21. Group C

Die related tests I.E. 1,000 hr. operating life, temperature cycling, & constant acceleration.

Every 13 weeks per J-lcircuit group

N/A

X

Generic

22. Group D

Every Package related tests I.E. physcial dimensions, lead fatigue, thermal shock, temperature cycle, 26 weeks moisture resistance, mechanical shock, vibration, per package type variable frequency, constant acceleration & salt atmosphere.

X

X

Generic

Table 5 REQUIREMENTS AND SCREENING FLOWS FOR STANDARD PRODUCTS

(Cont'd)

Signetics © Ie MASTER 1983

413

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE LINEAR DEVICES PACKAGE DEVICE

en

(,)

+oJ

Q)

C

0>

en

DESCRIPTION

DIP

CAN

LF155 LF156 LF198 LH2101A LM101/A LM124 LM158 SE532 SE5512 SE5532A SE5534 SE5534A SE5537 SE5539 J.lA747

OPERATIONAL AMPLIFIERS JFET Op Amp JFET Op Amp Sample and Hold Amp Dual Op Amp Hi Perf Op Amp Quad Op Amp Dual Op Amp Dual Op Amp Dual Op Amp Dual Op Amp Lo Noise Op Amp Lo Noise Op Amp Sample and Hold Amp High Freq Op Amp Dual Op Amp

SE521 SE522 SE527 SE529 LH2111 LM111 LM119 LM139/A LM193/A

COMPARATORS Dual Differential Comparator Dual Differential Comparator Voltage Comparator Voltage Comparator Dual Voltage Comparator Voltage Comparator Dual Voltage Comparator Quad Voltage Comparator Dual Voltage Comparator

F F F F F F F F F

SE592 J.lA733

DIFFERENTIAL AMPLIFIERS Video Amplifier Video Amplifier

F F

H

SE564 SE567

PHASE LOCKED LOOPS Phase Locked Loop Tone Decoder PLL

F F

H H

SE555 SE556-1

TIMERS Timer Dual Timer

F, FE F

H

FE F F F FE FE FE FE FE FE FE F F

H H H H H H H H H H H

PACKAGE DEVICE

DESCRIPTION

DIP

DAC-08 SE5008 SE5009 SE5018 SE5019 SE5118 SE5119

D to A CONVERTERS 8-Bit Mult DAC 8-Bit Mult DAC 8-Bit Mult DAC 8-Bit J.lP-Comp DAC 8-Bit J..LP-Comp DAC 8-Bit J..LP-Comp DAC 8-Bit J..LP-Comp DAC

F F F F F F F

SE5560

SMPS CONTROL CIRCUITS SMPS Controller

F

CAN

H

JAN M-38S10 DEVICE H H H H

SE555 SE555 SE556-1 LH2101A LM101A LM101A LM124

SLASH SHEET 10903BC8 10903BPB 10902BCB 10105BEB 10103BCB 10103BPB 11005BCB

PKG

QUAL STATUS

F FE F F F FE F

QPL 1 QPL1 QPL 1 QPL1 QPL 1 QPL 1 1982

H NOTE F

=

Cerdlp

Signetics 414

© Ie MASTER 1983

OCTOBER 1982

MILITARY DIVISION

MILITARY PRODUCT GUIDE LINEAR INDUSTRY CROSS REFERENCE SIGNETICS

FAIRCHILD pA 111 pA139 pA733 pAF155/156 pAl0l pAl01A MC1556 pA747 MC1555 pA556

LMlll LM139 pA733 LF 55/156 LM10l LM101A MC1556 pA747 SE555 SE556-1

SIGNETICS

MOTOROLA MLMlll MC1733 LF155/56 MLM10l MLM101A MC1747 MC3556 MC1508

LMlll pA733 LF155/156 LM10l LM101A pA747 SE556-1 MC1508-8

SE529 LH2111 LMlll LMl19 LM139 LM193/193A pA733 LF155/156 LH2101A LM10l LM101A LM124 LM158 SE532 pA747 SE567 SE555

LM161 LH2111 LMlll LMl19 LM139 LM193 LM733 LF155/56 LH2101A LM101A LM10l LM124 LM158 LM1581 LM747 LM567 LM555

RAYTHEON

SIGNETICS

NATIONAL

LMlll LM139 RM733 LF155/5~/57

LM101 LM101A LM124 RM1556 RM747 RM555

SIGNETICS LM111 LM139 pA733 LF155/156 LM101 LM101A LM124 MC1556 pA747 SE555

en

.~

+""

Q)

C

.~

en

T.!. LMlll SN52733 LF155/56 SN52101A SN52555 SE556

SIGNETICS LMlll pA733 LF155/156 LM101A SE555 SE556-1

SIGNETICS

PMI

SE5008 & DAC-08

DAC-08

BIPOLAR LSI BASE

PACKAGE

8X371 8X372 8X374 8X376 8X382

I I I I I

Memory (RAM)

8X350

F

Microprocessors

3002 8X305

I I,W

1/0 Interface

Semicustom Circuits 8A 8A 8A 8A 8A 8A

1200 1260 1542 1664 1864 2176

I I I I,G,W I,G,W I,G,W

DESCRIPTION 8-Bit Bidirectional 1/0 Port for 8X300/8X305 8-Bit Bidirectional 1/0 Port for 8X300/8X305 8-Bit 1/0 Port with Parity for 8X305 8-Bit Bidirectional 1/0 Port for 8X300/8X305 4-ln/4-0ut 1/0 Port for 8X300/8X305 256X8 Bit Bipolar RAM for 8X300/8X305 2-Bit Central Processing Element 8-Bit MicrocontroHer ISL ISL ISL ISL ISL ISL

Gate Gate Gate Gate Gate Gate

Array Array Array Array Array Array

Sequencers

3001

I

Microprogram Control Unit

Special Purpose Circuits

8X310 8X360 8X60

I I F

Interrupt Control Coprocessor for 8X305 Memory Address Director for 8X305 FI FO RAM Controller

Development Hardware and Kits

I3X300KT1 EZ-PRO Programmer (1/0 Port)

Development Software

8X300AS1

8X305 Evaluation and Prototyping'Kit Development System for 8X300/8X305 available from American Automation Available from Data 1/0 or American Automation 8X300 Cross-assembler (MCCAP) FORTRAN Source Program

Signetics @

Ie MASTER 1983

415

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE LOGIC~5400 SERIES JAN QUALIFIED

DEVICE

en

(,)

0+-'

Q)

C C)

CI)

DESCRIPTION

5400 5404 5420 5426 5432 5473 5474 5475 5476 5477 5485 5493 5496 54121 54123 54126 54151 54153 54161 54163 54164 54165 54174 54175 54180 54190 54191 54193 54279 54365A 54366A 54367A 54368A 9309 NOTE 1 = QPLI

JM38510 SLASH SHEET

Quad 2-lnput NAND Gate Hex Inverter Dual 4-lnput NAND Gate Quad 2-lnput NAND Gate with o/c Quad 2-lnput OR Gate Dual J-K Master-Slave Flip-Flop Dual 0- Type Edge Triggered Flip-Flop Quad Bistable Latch Dual J-K Master-Slave Flip-Flop Quad Bistable Latch 4-Bit Magnitude Comparator 4-Bit Binary Counter 5-Bit Shift Register Monostable Multivibrator Retriggerable Monostable Multivibrator Quad 3-State Buffer 8-Line to 1-Line Mux Dual 4-Line to 1-Line Mux Synchronous 4-Bit Binary Counter Synchronous 4-Bit Binary Counter 8-Bit Parallel-Out Serial Shift Register Parallel-Load 8-Bit Shift Register Hex D-Type Flip-Flop with Clear Quad 0- Type Edge-Triggered Flip-Flop 8-Bit Odd/Even Parity Checker Synchronous Up/Down Counter (BCD) Synchronous Up/Down Counter (Binary) Synchronous 4-Bit Binary Up/Down Counter Quad S-R Latch Hex Buffer w/Common Enable (3-State) Hex Buffer w/Common Enable (3-State) Hex Buffer, 4-Bit and 2-Bit (3-State) Hex Buffer, 4-Bit and 2-Bit (3-State) Dual 4-1 nput Multiplexer 2

= QPLlI

•

/00104 /00105 /00102 /00805 /16101 /00202 /00205 /01501 /00204

/15001 /01302 /00902 /01201 /01203 /15302 /01406 /01403 /01306 /01304 /00903

DIP 1 1 1 1 1 1

FLATPACK 1 1 1 -

1 1

1

1

1

1 1

1

-

-

1 1

1 1 1 1 1 1 1 1 1 1 1

.

-

/01701 /01702 /01901

1 1 1

1 1 1

1

1 1 1 1 1 1 1

.

-

-

-

-

-

-

/01309

/16301 116302 116303 116304 101404

1

1

-

-

1 1 1 1 1

1

MIL-STD 883

DIP

FLATPACK

F F F F F F F F F F F F F F F

W W W W W W W W W W W W W W W W W W W W W W

F F F F F F F

W W W

F F F F F F F F F -

..

..

= In process

Signetics 416

© Ie MASTER 1983

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE LOGIC-54LS SERIES JAN QUALIFIED

DEVICE 54LSOO 54LS02 54LS04 54LS08 54LS10 54LS14 54LS20 54LS28 54LS32 54LS37 54LS42 54LS73 54LS74 54LS75 54LS83A 54LS85 54LS86 54LS90 54LS93 54LS95 54LS96 54LS107 54LS109 54LS112 54LS113 54LS125 54LS138 54LS139 54LS151 54LS153 54LS154 54LS157 54LS161A 54LS163A 54LS164 54LS173 54LS174 54LS175 54LS181 54LS190 54LS191

DESCRIPTION

JM38510 ,SLASH SHEET

DIP

FLATPACK

130001 130301 130003 131004 130005 131302 130007

1 1 1 1 1 1 1

1 1 1 1 1 1 1

-

-

1 1 1 1 1 1

1 1 1 1 1 1

-

-

1 1 1 1 1 1 1 1 1 1 1 1

.

1 1 1 1 1 1 1 1 1 1 1 1

-

-

1

1

-

-

1 1 1

1 . 1 1

-

-

1 1 1 1 1

1 1

Quad 2-lnput NAND Gate Quad 2-lnput NOR Gate Hex Inverter Quad 2-lnput AND Gate Triple 3-lnput NAND Gate Hex Schmitt Trigger Dual 4-lnput NAND Gate Quad 2-lnput NOR Buffer Quad 2-lnput OR Gate Quad 2-lnput NAND Buffer BCD-to-Decimal Decoder Dual J-K Master-Slave Flip-Flop Dual D-Type Edge-Triggered Flip-Flop Quad Bistable Latch 4-Bit Binary Full Adder 4-BitMagnitude Comparator Gate Quad 2-lnput Exclusive-OR Gate Decade Counter 4-Bit Binary Counter 4-Bit Left-Right Shift Register 5-Bit Shift Register Dual J-K Master-Slave Flip-Flop Dual J-K Positive Edge-Triggered Flip-Flop Dual J-K Negative Edge-Triggered Flip-Flop Dual J-K Negative Edge-Triggered Flip-Flop Quad Bus Buffer Gate w/3-State Outputs 3-to-8 Line DecoderlDemux Dual 2-to-4 Line DecoderlDemux 8-Line to 1-Line Mux Dual 4-Line to 1-Line Mux 4-Line to 16-Line DecoderlDemux Quad 2-lnput Data Selector (non-inv,) Synchronous 4-Bit Binary Counter Synchronous·4-Bit Binary Counter 8-Bit Parallel-Out Serial Shift Register Quad D-Type Flip-Flop (3-State) (8T10) Hex D-Type Flip-Flop with Clear Quad D-Type Edge-Triggered Flip-Flop 4-Bit Arithmetic Logic Unit Synchronous UplDown Counter (BCD) Synchronous UplDown Counter (Binary)

NOTE 1 = Level 1 Qualification LCC = Leadless Chip Carrier JEDEC standard 20-Pin

2 = Level 2 Qualification

130501 130202 130703 130101 130102 131601

131101 130502 131501 131502 130603 130604 130108 130109 130103 130104 132301 130701 130702 130901 130902

-

131504 131512 130605

130106 130107 130801 131513 131509

.

1 1

MIL-STD

883

DIP

LCC

F F F F F F F F F F F F F F F F F F F F F F F F F F F F

G G G G G

.

G

1

-

G -

-

G

-

G G

FLATPACK

W W W W W W W W W W W W W W W W W W W W W W W W W W W W

-

.

G

W

-

-

-

W W W W W W W W W W

F 1 F F

-

F F F F F F F F

-

-

• = In process

Signetics ©

Ie MASTER 1983

417

en

(.)

...... CD C

C')

CI)

MILITARY DIVISION

OCiTOBER 1982

MILITARV.PRODUCT GUIDE LOGIC-54LS SERIES (Cont'd) JAN QUALIFIED

DEVICE

en o +-'

Q)

C

0> U)

54LS192 54LS193 54LS194A 54LS195A 54LS197 54LS221 54LS240 54LS241 54LS242 54LS243 54LS244 54LS251 54LS253 54LS257A 54LS258A 54LS261 54LS266 54LS273 54LS283 54LS290 54LS293 54LS295B 54LS298 54LS363 54LS364 54LS365A 54LS367A 54LS368A 54LS373 54LS374 54LS375 54LS377 54LS378 54LS393 54LS395A 54LS490 54LS670

JM38510 SLASH SHEET

DESCRIPTION Synchronous Decade UplDown Counter Synchronous 4-Bit Binary UplDown Counter 4-Bit Bidirectional Universal Shift Register 4-Bit Parallel-Access Shift Register Presettable Binary Counter/Latch (8291) Dual Monostable Multivibrator Octal I nverter Buffer 3-State Octal Buffer 3-State Quad Inverting TCRS 3-State Quad TCRS 3-State Octal Buffer 3-State Data Selector/Mux with 3-State Outputs Dual 4-Line to 1-Line Data Selector/Mux Quad 2-Line to 1-Line Data Selector/Mux Quad 2-Line to 1-Line Data Selector/Mux 2X4 Parallel Binary Multiplier Quad Exclusive-NOR Gate Octal D Flip-Flop 4-Bit Adder Decade Counter 4-Bit Binary Counter 4-Bit Right-Shift Left-Shift Register Quad 2-:lnput Mux with Storage Octal Latch for MaS Interface (3-State) Octal Flip-Flop for MaS Interface (3-State) Hex Buffer w/Common Enable (3-State) Hex Buffer, 4-Bit and 2-Bit (3-State) Hex Buffer, 4-Bit and 2-Bit (3-State) Octal Transparent Latch (3-State) Octal D Flip-Flop (3-State) Quad Latch Octal D Flip-FlOp Clock Enable Hex.o Flip-Flop with Enable Dual Binary Ripple Counter 4-Bit Cascadeable Shift Register (3-State) Dual Decade Ripple Counter 4X4 Register File (3-State)

NOTE 1 = Level 1 Qualification LCC = Leadless Chip Carrier JEDEC standard 20-Pin

2 = Level 2 Qualification

131507 131508 130601 130602 132002

132401 132402 132801 132802 132403

130906 130907

130303 132501 131202 132003 132004 130606

DIP

FLATPACK

1 1

1 1

·

·

-

·· ···

-

·

·

l' 1

-

1 1

1 1

·

1 1

-

··

-

-

1 1 1

··

-

-

1 1 1 -

-

-

-

-

-

132201 132203 132204 132502 132503 131604

1 1 1 1 1 1 -

1

-

130607 132703 131901

1 1 1

1 1

1

-

-

-

-

1 1

1 1

·

·

MIL-STD 883

DIP

LCC

F F F F F

G G G -

·

F F F F F

· ··

F

F F F F F F F F F F F F F F F F F F ·F F 'F F

G

G

-

G

-

FLATPACK

W W W W W

·

-

W W

-

·

W

··

W W

W W W W W

-

-

W W W

G

-

-

-

-

-

W W W W W W

• = In process

Signetics 418

@

Ie MASTER 1983

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE LOGIC-54S SERIES JAN QUALIFIED

DEVICE 54S00 54S02 54S04 54S08 54S10 54S11 54S20 54S40 54S51 54S74 54S85 54S86 54S112 54S113 54S133 54S135 54S138 54S139 54S140 54S151 54S153 54S157 54S158 54S174 54S181 54S182 54S253 54S273 545258 54S26C 545280 545374

DESCRIPTION

JM38510 SLASH SHEET

DIP

107001 107301 107003 108003 107005 108001

1 1 1 1 1 1

Quad 2-lnput NAND Gate Quad 2-lnput NOR Gate Hex Inverter Quad 2-lnput AND Gate Triple 3-lnput NAND Gate Triple 3-lnput NAND Gate Dual 4-lnput NAND Gate Dual 4-lnput NAND Buffer Dual 2~Wide 2-lnput A01 Gate Dual. D-Type Edge-Triggered Flip-Flop 4-Bit Magnitude Comparator Quad 2-lnput Exclusive-OR Gate Dua, J-K Negative Edge-Triggered Flip-Flop Dual J-K Negative Edge-Triggered Flip-Flop 13-lnput NAND Gate Quad Exclusive-OR/NOR Gate 3-to-8 Line Decoder/Demux Dual 2-to-4 Line Decoder/Demux Dual 4-lnput NAND Line Driver 8-Line to 1-Line Mux Dual 4-Line to 1-Line Mux Quad 2-lnput Data Selector (non-inv.) Quad 2-lnput Data Selector (inv.) Hex D-Type Flip-Flop with Clear 4-Bit Arithmetic Logic Unit Look-Ahead Carry Generator Dual 4-Line to 1-Line Data Selector/Mux Octal D-Type Flip-Flop with Reset Quad 2-Line to 1-Line Data Selector/Mux Dual 5-lnput NOR Gate 9-Bit Odd/Even Parity Generator/Checker Octal D-Type Flip-Flop (3-5tate)

NOTE 1 = Levell Qualification LCC = Leadless Chip Carrier JEDEC standard 20-Pin

2

= Level 2 Qualification

107201 107401 107101 108201 107501 107102 107103 107009

.

1 1 1 1 1 1 2 1 1 1 1 1 1 1 -

FLATPACK 1 1 1 1 1 1 1 1 1 1 1 2 1

-

/07702 /08101 /07901 /07902 /07903 /07904 /07801 -

-

-

-

-

-

-

-

-

-

-

-

-

-

1 1 1 1 1 -

-

MIL-STD 883

DIP

LCC

F F F F F F F F F

G G G G -

F

F F F

F

-

G G -

F F F F

-

F

G

F F F F F

.

F F F F

-

-

-

-

FLATPACK W W W W W W W W W W W W W W W W W W W W W

..

W W -

-

• = In process

Signetics © Ie MASTER 1983

419

en (J ...... Q)

C 0)

CJ)

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE LOGIC-ST INTERFACE SERIES MIL-STD 883 DEVICE 8T05 8T09 8T13 8T16 8T18 8T26A 8T28 8T30 8T38 8T80 8T90 8T97 8T98 8T126 8T127 8T128 8T129

en

o

+-'

Q)

C C>

en

DESCRIPTION 7-Segment Decoder Display Driver (Active-Hi Outputs) Quad Bus Driver with 3-State Outputs Dual Line Driver Dual Communications EIA/MIL Receiver with Hysteresis Dual 2-lnput NAND (High Voltage to TTL Interface) Quad Bus Driver/Receiver (3-State OutP.uts) Quad Non-Inverting Bus Driver/Receiver (3-State Outputs) Dual TTLlDTL to MOS Transceiver/Port Controller Quad Bus Transceiver (Open Collector) (DM8838) Quad 2-lnput NAND Gate (High Voltage) Hex Inverter (High Voltage) High Speed Hex Buffers/Inverters (74367/DM8097) High Speed Hex Buffers/Inverters (74368/DM8098) Quad 3-State Transceivers Quad 3-State Transceivers Quad 3-State Transceivers Quad 3-State Transceivers

FLAT PACK

DIP

W W W W

F F F F F F F F F F F F F F F F

R

W

W W W R R

W W W W

LOGIC-S2XX SERIES MIL-STD 883 DEVICE 8202 8250 8266 8273 8280 8281

DESCRIPTION Buffer Register Binary-to-Octal Decoder 2-input 4-Bit Digital Multiplexer 10-Bit Serial-In Parallel-Out Shift Register BCD Decade Counter/Storage Element 4-Bit Binary Counter/Storage Element

DIP

FLAT PACK

F F F F F F

W W W W W W

Signetics 420

@

Ie MASTER 1983

OCTOBER 1982

MILITARY DIVISION

MILITARY PRODUCT GUIDE BIPOLAR MEMORY DEVICE

ORGANIZATION PACKAGE·

JAN M-38S10

OUTPUT NUMBER CIRCUIT OF PINS

PROMs

32X8 512X8 32X8 256X4 256X4 512X4 512X4 1024X4 512X8 512X8 1024X8 2048X4 1024X8 1024X8 2048X8

82S23 82S115 82S123 82S126 82S129 82S130 82S131 82S137 82S141 82S147 82S181 82S185 82S2708 82LS2708 82S191

F I F F F F F F,I F,r F F,I I F,I F I

R R W W R R R R R R R,G R R R R,G

OC TS TS

OC TS

OC TS TS TS TS TS TS TS TS TS

16 24 16 16 16 16 16 18 24 20 24 18 24 24 24

+

DEVICE

SLASH SHEET

PKG

QUAL STATUS

82S23 82S123 82S126 82S129 82S130 82S131 82S137 82S141 82S115 82S181 82S185 82S2708 82S 191 82S100

120701 120702 120301 120302 120401 120402 120602 120802 120803 120904 120902 120905 121002

F F F F F F F F F F I, F I

QPLI QPLI QPLI QPLI QPLI QPL.I QPLI QPL I QPL II QPLI QPLI QPL II QPL II Planned

I{Draft)

en

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Per OPL M38510-38 dated June 1982

FPLF

82S100 82S101 82S102 82S103 82S104 82S105 82S106 82S107 82S150 82S151 82S152 82S153 82S154 82S155 82S156 82S157 82S158 82S159

16X48X8 16X48X8 16X9 16X9 16X48X8 16X48X8 16X48X8 16X48X8 . 18X12 18X12 18X32X10 18X32X10 16X32X12 16X32X12 16X32X12 16X32X12 16X32X12 16X32X12

R,G R R R R R R R R R R R R R R R R R

TS

OC OC TS

OC TS

OC OC OC TS

OC TS

OC TS

OC TS

OC TS

28 28 28 28 28 28 28 28 20 20 20 20 20 20 20 20 20 20

RAMs

54S189 54S301 82S09 82S19 82S16 82S25 82S210 82S212 8X350

16X4 256X1 64X9 64X9 256X1 16X4 256X9 256X9 256X8

F F I I

F F I I r

R R R R R R R R

r

TS

OC OC OC TS

OC TS TS TS

16 16 28 28 16 16 24 22 22

OR = BeD Flat Pack F = Cerdip I = Ceramic Dip G = Leadless 28 PINS W = Ceramic Flat Pack

Signetics © Ie MASTER 1983

421

MILITARY DIVISION

OCTOBER 1982

MILITARY PRODUCT GUIDE BIPOLAR MEMORY CROSS REFERENCE AMD

2700/27L800 27808/27L808

27809/27L809 27510 27811 3101

00. ' (,)

CD s::::: .2>

en

FAIRCHILD

93403 93417 93419 93421 93427 93431 . 93436 93441 93446 93448 93453 93457 93467 93451

--

HARRIS

0064 HM7602-2 HM7603-2 HM7608-2 HM7610-2 HM7611-2 HM7620-2 HM7621-2 HM7641-2 HM7643-2 HM7647-2 HM7681-2 HM7685-2 HM76161

SIGNE-TICS

82816 82823 828123 825126 828129 82825

SIGNETICS

82825 828126 82809 82816 828129 828130 828130 ' 828131 828131 828141 828137 828126 828129 828181 825191

INTEL

8282708 82825 82816 828126 825130 828136 828131 828141 828137 828181 825191

3106/A

3601 3602 3605 3622 3624 3625 3628 3636

INTER81L

SIGNETICS

MMI

SIGNETICS

2708' 3101

828126 828129 828130 828131 82523 825123 825141 825137 825181 8252708 82516 82525

5300-1 5301-1 5305-1 5306-1 5330 5331 5341 5353 5381 5385 5531 5560

SIGNETICS NATIONAL

5501 5523A 5533 5600 5603A 5604 5610 5623A 5624 5625 56526

SIGNETICS

MOTOROLA

SIGNETICS

4064 4256 5005

82825 82816 828126

82523 825129 825123 825126 825130 825131 825137 82525 825141 825181 828191

545188 545287 545288 545387 545570 545571 545573 86L99 875296 878181 875191

82825 82816 548301 82823 825126 828130 828123 828129 828131 828141 825137

82525 82823 828123 8282708 828126 828129 828130 828131 828141 828137 828115 828181 828185 828191

SIGNETICS

T.I.

SIGNETICS

82523 548189 825129 828123 548301 828126 828141 828137 828181

545188 548189 548287 548288 548301 545387 545474 545476 548478 NOTE

ParIs are pin for pin functional replacements except where noted .

Signetics 422

@

Ie MASTER 1983

OCTOBER 1982

MILITARY DIVISION

MILITARY PRODUCT GUIDE BIPOLAR MICROPROCESSORS AVAILABILITY DESCRIPTION

PRODUCT

3001 3002

8X300

*

Microprogram Control Unit Central Processing Element (2-bit slice) Interpreter / Microcontroller

DIP

FLAT PACK

I I I

R R

en

Under development

(,)

+""

Q)

MICROPROCESSOR SUPPORT CIRCUITS

c:

C>

AVAILABILITY DESCRIPTION

DIP

FLAT PACK

Retriggerable Monostable Multivibrator 8-Bit Odd / Even Parity Checker 4-Bit Bidirectional Shift Register 4-Bit Parallel-Access Shift Register High Speed Hex .3-State Buffer High Speed Hex 3-State Buffer High Speed Hex 3-State Buffer High Speed Hex 3-State Buffer INTERFACE Quad Bus Driver with 3-State Output Dual Line Driver Quad Bus Driver / Receiver (3-State) Quad Bus Non-Inverting Driver / Receiver (3-State) Programmable 8-Bit I/O Port (3-State), IV Byte Asynchronous Programmable 8-Bit I/O Port (Open Collector) High Speed Hex Buffer (3-State) High Speed Hex Buffer (3-State) High Speed Hex Inverter (3-State) Quad 3-State Transceivers Quad 3-State Transceivers Quad 3-Slate Transceivers Quad 3-State Transceivers

F F I I F F F F

R R

PRODUCT LOGIC 54123 54180 54LS194 54LS195 54LS365 54LS366 54LS367 54LS368

8T09 8T13 8T26A 8T28 8T32 8T35 8T95 8T97 8T98 8T126 8T127 8T128 8T129

*

en

W W W W

F F F F I I

W W W W

F F F F F F F

R R R

W W W W

Under development

Signetics © Ie MASTER 1983

423

STATIC RANDOM ACCESS MEMORIES Military Part Number

. Organization

Access Time Ins I

(TA = ·5.5°C to +125°CI

Maximum Current ImAI Standby Operating

----

Package Type INote 11

Power Supply IVoltsl

Number 01 Pins 18 18 18 18 18 18 18 18 18

C. C. C. C. C. C. C. C. C.

SYM2114A-3 SYM2114A-4 SYM2114A-5 SYM2148H-3 SYM2148H SYM2148H-6 SYM2149H-3 SYM2149H SYM2149H-6

1024 x 4 1024 x 4 1024 x 4 1024 x 4 1024 x 4 1024 x 4 1024 x 4 1024 x 4 1024 x 4

150 200 250 55 70 85 55 70 85

70 70 70 150 150 150 150 150 150

30 30 30

----

+5 +5 +5 ·5 ·5 ·5 ·5 ·5 ·5

SYM2147-3 SYM2147 SYM2147-6

4096 x 1 4096 x 1 4096 x 1

55 70 85

180 180 180

30 30 30

·5 ·5 ·5

18 18 18

C. D. F C. D. F C. D. F

SYM2128-3 SYM2128-4 SYM2129-3 SYM2129-4

2048 2048 2048 2048

x8 x8 x8 x8

150 200 150 200

100 100 100 100

30 30

·5 ·5 ·5 ·5

24 24 24 24

C,D,K C,D, K C, 0, K C, 0, K

16,384 x 1 4096 x 4 4096 x 4

70 70 70

+5 +5 +5

24 24 24

C, 0, K C, 0, K C, 0, K

SYM2167[2j SYM2168[2j SYM2169[2j

--Note 3 Note 3

Note 3 Note 3 Note 3

-

D. D. D. D. D. D. D. D. D.

F F F F F F F F F

READ ONLY MEMORIES (ROMs) Military (TA = ·55°C to +125°CI SYM3316 SYM3316A

2048 x 8 2048 x 8

100 100

150 150

SYM2332 SYM2333

4096 x 8 4096 x 8

450 450

100 100

SYM2364 SYM2364A SYM2365 SYM2365A

8192 8192 8192 8192

x8 x8 x8 x8

450 450 450 450

100 100 100 100

16,384 x 8 16,384 x 8 16,384 x 8 16,384 x 8

450 300 450 300

100 100 100 100

SYM23128 SYM23128-3 SYM23128A SYM23128A·3

-30

---12

-12

10 10

+5 +5

24 24

82S191 82S191

C. 0 C. 0

+5 +5

24 24

TMS2532 2732/A

C. 0 C. 0

+5 +5 +5 +5

24 24 28 28

TMS2564 TMS2564 2764 2764

C,D,K C,D,K C,D,K C, D,K

+5 +5 +5 +5

28 28 28 28

27128 27128 27128 27128

C, 0, C, 0, C, 0, C,D,

K K K K

Notes: 1. C = Ceramic, 0 = Cerdip, F = Flatpack, P= Plastic, K = Leadless Chip Carrier. 2. Advanced Information. 3. Not Available.

Swertek SYNERTEK INC. • A SUBSIDIARY OF HONEYWELL, 3001 STENDER WAY, SANTA CLARA, CA 95054 TELEPHONE (408) 988-5600 • TWX: 910-388-0135

424

©

Ie MASTER 1983

Svnertek. ..

SYM2114A Military 1024 x 4 Static Random Access Memory Extended Temperature Range (-55° C t9 +125° C)

Features •

Totally TTL Compatible: All Inputs, Outputs, and Power Supply

• • •

Common Data I/O 400 mV Noise Immunity High Density 18 Pin Package

150ns Maximum Access Low Operating Power -385 mW Max. • No Clocks or Strobes Required .• Identical Cycle and Access Times • •

•

~

.....Q) :I...

Q)

Single +5V Supply

C

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en

Description The SYM2114A is a 4096- Bit static Ra ndom Access Memory organized 1024 words by 4-bits and is fabricated using Synertek's N-channel Silicon-Gate MOS technology. It is designed using fully DC stable (static) circuitry in both the memory array and the decoding and therefore requires no clock or refreshing to operate. Address setup times are not required and the data is read out nondestructively with the same polarity as the input data. Common Input/Output pins are provided to simplify design of the bus oriented systems, and can drive 1 TIL load.

The SYM2114A is designed for memory applications where high performance, low cost, large bit storage, and simple interfacing are important design objectives. It is totally TIL compatible in all respects: inputs, outputs, and the single +5V supply. A separate Chip Select (CS) input allows easy selection of an individual device when outputs are or-tied. The SYM2114A is packaged in an l8-pin DIP for the highest possible density and is fabricated with N-channel, Ion Implanted, Silicon-Gate technology - a technology providing excellent performance characteristics as well as iJ1lproved protection against contamination.

SYM2147 Military 4096 x 1 Static Random Access Memory Extended Temperature Range (-55°C to +125°C) Features • • • •

55 ns Maximum Access No Clocks or Strobes Required Automatic C1: Power Down Identical Cycle and Access Times

•

Single +5V Supply (±10%)

• • • •

Totally TTL Compatible All I nputs and Outputs Separate Data Input and Output High Density l8-Pin Package Three-State Output

Description The Synertek SYM2l47 is a 4096-8it Static Random Access Memory organized 4096 words by l-bit and is fabricated using Synertek's new N-Channel Silicon-Gate HMOS technology. It is designed using fully static circuitry, therefore requiring no clock or refreshing to operate. Address set-up times are not required and the data is read out nondestructively with the same polarity as the input data. Separate data input and output pins provide maximum design flexibility. The three-state output facilitates memory expansion by allowing the outputs to be OR-tied to other devices.

© Ie MASTER 1983

The SYM2l47 offers an automatic power down feature. Power down is controlled by the Chip Enable input. When Chip Enable(CE) goes high, thus de-selecting the SYM2l47, the device will automatically power down and remain in a standby power mode as long as CE remains high. This unique feature provides system level power savings as much as 80%. The SYM2l47 is packaged in an l8-pin DIP for the highest possible density. The device is fully TIL compatible and has a single +5V power supply.

425

Svnertek.

SYM2148H/SYM2149H Military 1024 x 4 StaticRandom Access Memory

IF

Extended Temperature Range (-55° C to +125° C) Features • • • • •

55 ns Maximum Access No Clocks or Strobes Required Automatic CE Power Down (SYM2148H) Fast Chip Select Access Time: 25 ns Max. (SYM2149H) Identical Cycle and Access Times

• Single +5V Supply (±1'0%) • Industry Standard 2114 Pinou.t • Totally TTL Compatible All Inputs and Outputs • Common Data Input and Output • High Density 18-Pin Package • Three-State Output

Description The Synertek SYM2148H/SYM2149H are 4096-Bit Static Random Access MemorTes organized 1024 words by 4 bits and are fabricated using Synertek's new N-Channel Silicon Gate technology. They are designed using fully static circuitry, therefore requiring no clock or refreshing to operate. Address set-up times are not required and the data is read out nondestructively with the same polarity as the input data. Common data input and output pins provide maximum design flexibility. The three-state output facilitates memory expansion by allowing the outputs to be OR-tied to other devices.

The SYM2149H offers a chip select access that is faster than its address access. In a typical application, the address access begins as soon as the address is valid. At this time, t~e high order addresses are decoded and the desired memory is then selected. With the faster chip select access, this decode time will not add to the overall access time thus significantly improving system performance.

The SYM2148H offers an automatic power down feature. Power down is controlled by the Chip Enable input. When Chip Enable (CE) goes high, thus de-selecting the SYM2148H,

The SYM2148H/SYM2149H is packaged in an 18-pin DIP for . the highest possible density. The device is fully TTL compatible and has a single +5V power supply.

the device will automatically power down and remain in a standby power mode as long as CE remains high. This unique feature provides system level power savings as much as 85%.

Block Diagram

Pin Configuration

~----------------~

-GND

As A6 A7

-Vee.

ROW SELECT

MEMORY ARRAY 64 ROWS 64 COLUMNS

As

SYM2148H/SYM2149H A9

A6

Vee

As

A7 As Ag

A4 A3

I/O,

Ao A,

1/0 2

A2

1/ 0 3

CE/CS

GND

110 1

COLUMN 1/0 CIRCUITS

1/0 2 1/0 3 1/0 4

11 0 4 WE

WE -+-----i

426

© Ie MASTER 1983

Svnertek.

SYM2128/SYM2129 Military 2048 x 8 Static Random Access Memory

~

Extended Temperature Range ( -55°C to +125°C) Features • • • • •

150 nsec Maximum Access Time Fully Static Operation: No Clocks or Strobes Required Fast Chip Select Access Time: 60 ns Max. (SYM2129) Automatic CE Power Down (SYM2128) Identical Cycle and Access Times

• Single +5V Supply (±1 0%) • Pin Compatible with 2716 16K EPROM • Totally TTL Compatible: All Inputs and Outputs • Common Data Input and Output • Three-State Output • JEDEC Approved Pinout

Descri ption The Synertek SYM2128/SYM2129 are 16,384 bit static Random Access Memories organized 2048 words by eight bits and are fabricated using Synertek's new scaled n-channel silicon gate technology. They are designed using fully static circuitry, therefore requiring no clock or refreshing to operate. The common data input and three-state. output pins optimize compatibility with systems utilizing a bidirectional data bus. The SYM2128 offers an automatic power down feature under the control of the chip enable (CE) input. When CE goes high, thus deselecting the chip, the device will automatically power down and remain in a standby power mode as long as CE remains high. This featu·re provides significant system level power savings.

Pin Configuration

The SYM2129 offers a chip select access that is faster than its address access. In a typical application, the address access begins as soon as the address is valid. At this time, the high order addresses are decoded and the desired memory is then selected. With the faster chip select access, this decode time will not add to the overall access time thus significantly improving system performance. The SYM2128/SYM2129 are configured in the JEDEC approved pinout for 24 pin byte organized memories and are pin compatible with 16K ROMs, EPROMs and EEPROMs. This offers the user the flexibility of being able to switch between RAM, ROM, EPROM, or EEPROM as his needs dictate with a minimum of board changes.

Block Diagram

SYM2128/SYM2129

A7

Vee

As A5

Aa Ag

AO A3 A5 A6 A7 As

ROW ADDRESS DECODER DRIVER

16.384

BIT ARRAY (128)( 128)

A9

A4

WE

A3

DE

A2

AlO

A1

CS

Ao

I/0a

1/0 1

1/0 7

1/0 2

1/0 6

WE

1/0 3

1/0 5

CS

GND

1/0 4

Al A2

A4 AlO

COLUMN ADDRESS DECODER DRIVER

1/01 1/0 2 1/03

1./0 4 .1/0 5 110 6 1/0 7 I/0s

BE----OII

© Ie MASTER 1983

OUTPUT ENABLE

427

SYM2167

Svnertek.

'j

Military 16,384 x1 Static Random Access Memory

ADVANCED INFORMATION OCTOBER 1982

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.

Extended Temperature Range (-55°C to +125°C)

Features

•

• 70 ns Maximum Access • No Clocks or Strobes Required • Automatic CE Power Down • Identical Cycle and Access Times • Single +5V Supply

• • • •

Available in Ceramic (C), Cerdip (D), Flat Pack (F) and Leadless Chip Carrier (K) Totally TTL Compatible All Inputs and Outputs Separate Data Input and Output High Density 20 Pin Package Three-State Output

Description The Synertek SY2167 is a 16,384-Bit Static Random Access Memory organized 16,384 words by 1-bit and is fabricated using Synertek's new M-Channel Double Polysilicon Gate HMOS technology. It is designed using fully static circuitry, therefore requiring no clock or refreshing to operate. Address set-up times are not required and the data is read out nondestructively with the same polarity 'as the input data. Separate data input and output pins provide maximum design flexibility. The three-state output facilitates memory expansion by allowing the outputs to be OR-tied to other devices.

The SY2167 offers an automatic power down feature. Power .down is controlled by the Chip Enable input. When Chip Enable (CE) goes high, thus de-selecting the SY2167, the device will automatically power down and remain in a standby power mode as long as CE remains high. This unique feature . provides system level power savings as much as 80%. The SY2167 is packaged in a 20-pin DIP for the highest possible density. The device is fully TIL compatible and has a single +5V power supply.

Block Diagram

Pin Configuration

--vee --GND

Vee

AO Al

2

A13

A2

3

A12

A3 A4

4

An

5

AlO

A5

6

Ag

A6

7

As

DO

8

A7

WE

9

DIN

10

CE

GND

MEMORY ARRAY 128 ROWS 128 COLUMNS

Ag

DOUl

WE

428

@

Ie MASTER 1983

SYM2168/SYM2169 Military 4096 x 4 Static Random Access Memory

Advanced Information

Extended Temperature Range (-55°C to +125°C)

October 1982 Features o

70 ns Maximum Access Time

•

o

No Clocks or Strobes Required

o

o

Fast Chip Select Access Time: 50 ns Max. (SY2169) Automatic CE Power Down (SY2168) Identical Cycle and Access Times

• • o

Single +5V Supply (±1 0%) JEDEC Standard Pinout o Totally TIL Compatible All Inputs and Outputs • Common Data Input andOutput • High Density 20-Pin Package o Three-State Output

Available in Ceramic (C), Cerdip (D), Flatpack (F) and Leadless Chip Carrier (K)

Description The Synertek SY2168/SY2169 is a 16,384-Bit Static Random Access Memories organized 4096 words by 4 bits and are fabricated using Synertek's scaled n-channel double poly silicon gate technology. They are designed using fully static circuitry, therefore requiring no clock or refreshing to operate. Address set-up times are not required and the data is read out non-destructively with the same polarity as the input data. Common data input and output pins provide maximum design flexibility. The three-state output facilitates memory expansion by allowing the outputs to be OR-tied to other devices. The SY2168 offers an automatic power down feature. Power down is controlled by the Chip Enable input. When Chip Enable (CE) goes high, thus de-selecting the SY2168, the device will automatically power down and remain in a standby power mode as long as CE remains high. This unique feature provides system level power savings as much as 85%.

The SY2169 offers a chip select access that is faster than its address access. In a typical application, the address access begins as soon as the address is valid. At this time, the high order addresses are decoded and the desired memory is then selected. With the faster chip select access, this decode time will not add to the overall access time thus significantly improving system performance. Both parts are packaged in a 20-pin DIP for the highest possible density. Both devices are fully TIL compatible and have a single +5V power supply.

Block Diagram - - Vee

- - GNO

AS

Pin Configuration

ROW SELECT

MEMORY ARRAY 64 ROWS 64 COLUMNS

Ag

AlO

SYM2168/SYM2169

A7

Vcc

A6 As

As Ag

A4

A,o

A3

Al1 I/O,

Ao A, A2 CE/CS

GND

COLUMN 1/0 CIRCUITS

1/02 1/03 1/04

CE/~ ----~-""

WE WE

©

Ie MASTER 1983

429

Svnertek.

SYM2316B 2048 x 8 Static Read Only Memory

Pj

Features • • • • •

Access Time 200/300/450 ns (max) 2048 x 8 Bit Organization Single +5 Volt Supply Totally Static Operation JEDEC Approved Pinout

• • • • •

Completely TTL Compatible Three-State Outputs for Wire-OR Expansion Three Programmable Chip Selects Pin Compatible with 2116 EPROM Replacement for Two 2708s

Description The SY2316B high performance Read Only Memories are organized 2048 words by8 bits with access times from 200 to 450 ns. The ROMs are designed to be compatible with all microprocessor and similar applications where high performance. large bit storage ansi simple interfacing are important design considerations. This device offers TTL input and output levals with a minimum of 0.4 Volt noise immunity in conjunction with a +5 Volt power supply.

The SY2316B operates totally asynchronously. No clock input is required. The three programmable Chip Select inputs allow eight 16K ROMs to be OR-tied without external decoding. The device offers three-state output buffers for memory expansion. Designed to replace the 2716 EPROM. the SY2316B can eliminate the need to redesign printed circuit boards for volume mask programmed ROMs after prototyping with EPROMs.

SYM2332/SYM2333 Military 4096 x 8 Static Random Access Memory Extended Temperature Range (-55°C to +125°C) Features • • • • • •

SYM2333-273 EPROM Pin Compatible 4092 x 8 Bit Organizations Single +5 Volt Supply (±1 0%) Access Time - 450 ns (max.) Totally Static Operation Completely TTL Compatible

• • • •

SYM2332-2532 EPROM Pin Compatible Three-State Outputs for Wire-OR Expansion Two Programmable Chip Selects EPROMS Accepted as Program Data Inputs

Description The SYM2332 and. SYM2333 high performance read only memories are organized 4096 words by 8 bits with access times of less than 450 ns. They are designed to be compatible with all microprocessor and similar applications where high performance. large bit storage and simple interfacing are important design considerations. These devices offer TTL input and output levels with a minimum of 0.4 Volt noise immunity in conjunction with a +5 Volt power supply.

430

The SYM2332 and SYM2333 operate totally asynchronously. No clock input is required. The two programmable Chip Select inputs allow four 32K ROMs to be OR-tied without external decoding. Both devices offer three-state output buffers for memory expansion. Designed to replace 32K EPROMs. the SYM2332 and SYM2333 can eliminate the need to redesign printed circuit boards for volume mask programmed ROMs after prototyping with EPROMs.

©

Ie MASTER 1983

Svnertek. w-:

SYM2364/SYM2364A Military 8192 x 8 Static Random Access Memory Extended Temperature Range (-55°C to +125°C)

Features • • • • • •

2564 EPROM Pin Compatible 8192 x 8 Bit Organization Single +5 Volt Supply Access Time - 450 ns (max) Totally Static Operation Completely TTL Compatible

• 24 Pin JEDEC Approved Pinout • SYM2364A - Automatic Power Down (CE) • SYM2364 _ Non Power Down Version - Programmable Chip Select • Three State Outputs for Wire-OR Expansion" • EPROMs Accepted as Program Data Input

Description The SYM2364 and SYM2364A high performance Read Only Memories are organized 8192 words by 8 bits with an access time of 450. ns. The ROMs are designed to be compatible with all microprocessor and similar applications where high performance, large bit storage and simple interfacing are important design considerations. Both ROMs conform to the JEDEC approved pinout for 24 pin 64'K ROMs. The SYM2364 offers the simplest operation (no power down:) Its programmable chip select allows two 64K ROMs to be OR-tied without external decoding.

The SYM2364A offers an automatic power down feature. Power down is controlled by the Chip Enable (CE) inpu,t. When CE goes high, the device will automatically power down and remain in 'a low power standby mode as long as CE remains high. This unique feature provides system level power savings as much as 90%. ' Both the SYM2364 and SYM2364A are pin compatible with the 2564 EPROM thus eliminating' the need to redesign printed circuit boards for volume mask programmed ROMs after prototyping with EPROMs.

SYM2365/SYM2365A Military 8192 x 8 Static Random Access Memory Extended Temperature Range (-55°C to +125°C) Features • • • • • • •

2764 EPROM Pin Compatible 8192 x 8 Bit Organization Single +5 Volt Supply Access Time - 450 ns (max) Totally Static Operation Completely,TTL Compatible 28 PinJEDEC Approved Pinout

• SYM2365A - Automatic Power Down (CE) - Output Enable Function (OE) - Two Programmable Chip Selects • SYM2365 - Non. Power Down Version - Four Programmable Chip Selects' • Three State Outputs for Wire-OR Expansion • EPROMs Accepted as Program Data Input

Description The SYM2365 and SYM2365A high performance Read Only Memories are organized 8192 words by 8 bits with an access time of 450 ns. The ROMs are designed to be compatible with all microprocessor and similar applications where high performance, large bit storage and simple interfacing are important design considerations. Both ROMs conform to the JEDEC approved pinout for 28 pin 64K ROMs. The SYM2365 offers the simplest operation (no power down.) Its four programmable chip selects allow up to sixteen 64K ROMs to be OR-tied without external decoding. The SYM2365A offers an automatic power down feature. Power down is controlled by the Chip Enable (CE) input.

© Ie MASTER 1983

When CE goes high, the device will automatically power down and remain in a low power standby mode as long as CE remains high. This unique feature provides 'system level power savings as much as 90%. An additional feature of the SYM2365A is the Output Enable (OE) function. This eliminates bus contention in multiple bus microprocessor . systems. The two programmable chip selects allow up to four 64K ROMs to be OR-tied without external, decoding, Both the SYM2365 and SYM2365A are pin compatible with the 2764 EPROM thus eliminating the need to redesign printed circuit boards for volume mask programmed ROMs' after prototyping with EPROMs.

431

Synertek.

SYM3316/SYM3316A 2048 x 8 High Speed Read Only Memory Extended Temperature Range (-55°C to +125°C)

Features ~

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• Access Time - lOOns (max.) • Single +5 Volt Supply (± 10%) • Contact Programming • Four Week Prototype Turnaround • Completely TIL Compatible • Totally Static Operation

• •

SYM 3316A - AutomCJtic Power Down (GE) Pin Compatible with 16K Bipolar PROMs Replaces 3636 or 825191 • Three-State Outputs for Wire-OR Expansion • Three Programmable Chip Selects (two on SYM 3316A) • 16K Bipolar PROMs Accepted as Program Data Inputs

Description The SYM 3316 and SYM3316A are high speed 16,384 bit static mask programmable Read Only Memories organized 2048 words by 8 bits. Designed to be pin compatible with 16K bipolar PROMs, they eliminate the need to redesign printed circuit boards for volume production after prototyping with PROMs.

power savings of as much as 80%. The two programmable chip selects (CS) allow as many as four ROMs to be OR-tied without external decoding. The SYM3316 offers somewhat simpler operation than the SYM3316A. It's three programmable chip selects allow up to eight ROMs to be OR-tied without external decoding.

The SYM3316A offers an automatic power down feature. Power down is controlled by the Chip Enable (CE) input. When CE goes high, the device will automatically power down and remain in a standby power mode as long as CE remains high. This unique feature provides system level

Both devices are fabricated using Synertek's scaled high performance N-channel MOS technology. This, combined with innovative design techniques, provides the high performance and "ease-of-use features associated with static memories.

Pin Configurqtions

Block Diagram

SYM3316

Vee

GND

!

r

SYM3316A

A7

Vee

A7

Vee

AI

As

AI

As

As

A,

As

A,

A4

A10

A4

A10

, A3

CS1

A3

CE

As

Az

CSz

Az

CS1

A7

A1

CS3

A1

CSz

As

Ao

De

Ao

De

A,

01

07

01

07

Oz

O.

Oz

06

03

Os

03

05

GND

04

GND

04

A3

A.c As 16,384 BIT ROM CELL ARRAY

Ao

432

A1

Az

A10

CS1 CSz CS3

@

CE

Ie MASTER 1983

•

TEXAS INSTRUMENTS MILITARY PRODUCTS

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Texas Instruments Military program offers high reliability integrated circuits covering a complete product spectrum. The program is designed to meet and support Military processing requirements. Processing to JM-38510 (JANB) and MIL-Standard-883 Class B assures the user of quality products and reliable performance.

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C1009JM TDC1010JM MPY-8HJM MPY-12HJM MPY-16HJM MPY-24HJM HD15530 828101 828100 PAL10H8 PAL12H6 PAL14H4 PAL16H2 PAL16C1 PAL10L8 PAL12L6 PAL14L4 PAL16L2 28001 28002 28001A 28002A 8086

AMax85°C • Max 100°C • • Faster access time

®Flat pack only #DIPonly

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

436

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Ie MASTER 1983

TEXAS INSTRUMENTS MILITARY PRODUCTS ADVANCED LOW POWER SCHOTTKY TTL

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54ALSOOA

Quadruple 2-lnput NAND Gates

54ALS02

Quadruple 2-lnput NOR Gates

54ALS03A

Quadruple 2-lnput NAND Gates with OIC Output

54ALS04

HEX Inverter

54ALS05

HEX Inverter With OIC Output

54ALS08

Quadruple 2-lnput And Gate

54ALS09

Quadruple 2-lnput And Gate With OIC Output

54ALS10

Triple 3-lnput NAND Gates

54ALS11

Triple 3-lnput AND Gates

54ALS12

Triple 3-lnput NAND Gates with OIC Output

54ALS15

Triple 3-lnput AND Gates With OIC Output

54ALS20A

Dual 4-lnput NAND Gates

54ALS21

Dual 4-lnput AND Gates

54ALS22A

Dual4-lnput NAND Gates With OIC Output

54ALS27

Triple 3-lnput NOR Gates

54ALS28

Triple 3-lnput NOR Buffers

54ALS30

8-lnput NAND Gates

54ALS32 54ALS33 ·54ALS37 54ALS38 54ALS74 54ALS109 54ALS112A 54ALS114A 54ALS240 54ALS241 54ALS244 54ALS245 54ALS573 54ALS574 54ALS576 54ALS580 54ALS874·

Quadruple 2-lnput OR Gates Quadruple 2-lnput NOR Buffers With O/C Output Quadruple 2-lnput NAND Buffers Quadruple 2-lnput NAND Buffers with O/C Output Dual D-Type Flip-Flop With PRESET And CLEAR Dual J-K Flip-Flop (Positive Edge Triggered) Dual J-K Flip-Flop (Negative Edge Triggered) Dual J-K Flip-Flop Octal Buffers/Line Drivers/Line Receivers Octal Buffers/Line Drivers/Line Receivers Octal Buffers/Line Drivers/Line Receivers Octal Bus Tranceivers Octal D-Type Transparent Latches Octal D-Type Edge-Triggered Flip-Flops .Octal D-Type Flip-Flop With Inverted Outputs Octal D-Type Latches With Inverted Outputs Dual 4-Bit D-Type Flip-Flop

LOGIC PRODUCT SPECTRUM CROSS REFERENCE AND NOMENCLATURE LOGIC PRODUCT SPECTRUM* TTL FAMILY

EXAMPLE:

CHIP CARRIER

DUAL-IN-L1NE (J)

FLAT-PACK (W)

54

X

X

54H

X

X

54L

X

X

54LS

X

X

X

X

54S

X

X

X

X

(FH)

(FK) )

LOGIC NOMENCLATURE SNJ· 54LSOO

1. PREFIX---'----T ..... Must contain three or four letters SNJ-MIL-STD-883B. JEDEC Standard 101 JANB-JM 38510/JANB Qualified* 2. CIRCUIT DESIGNATOR - - - - - - - - - ' Must contain four to nine digits

54ALS

X

X

X

54-Standard TTL Circuits

54AS

X

X

X

54H-High Speed TTL

*SNJ Processing Level

54L-Low-Power TTL 54L5-Low-Power Schottky TTL

LOGIC CROSS REFERENCE GUIDE MANUFACTURER TI Motorola

PREFIX

DUAL-IN-L1NE

FLAT PACK

SNJ XXXX

J

W

54XXBXBJC

L

F

545-Schottky TTL 54AL5-Advanced Low-power Schottky TTL 54A5-Advanced Schottky TTL

National

OM XXXX

J 883B

W883B

Signetics

S XXXX

F883B

W883B

Fairchild

XXXX

DMOB

FMQB

SNXXXX

DMB

FMB

AMD

FH

TEXAS

3.PACKAGETYPE------~--------------------------~

Must contain one or two letters J, W, FH, FK *Where devices are qualified under military specification MIL-M-38510

INSTRUMENTS

INCORPORATED

POST OFFICE BOX 225012- DALLAS. TEXAS 75265

© Ie MASTER 1983

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256 x 4

JBP18S030MJ JBP18SA030MJ JBP24S10MJ JBP24SA10MJ

NATIONAL DM54S288J DM54S188J DM54S287J DM54S387J

256 x 8

JBP28L22MJ

DM54S471J

512 x 8

JBP28S42MJ

DM54S472J

S82S147F

512 x 8

JBP28S46MJ

DM54S474J

S825141F

1024 x 4

JBP24S41MJ

DM54S573J

1024 x 8

JBP28S86MJ

2048 x 4

JBP24S81MJ

32 x 8

SIGNETICS S82S123F S82S23F S82S129F S82S126F

INTEL M3621 M3601

MMI 5331-1J 5330-1J 5301-1J 5300-1J

HARRIS HM7603-8 HM7602-8 HM7611-8 HM7610-8

INTERSIL IM5610MJ IM5600MJ IM5623MJ IM5603MJ

AMD 27S19DMB 27S18DMB 27S21DMB 27S20DMB

FAIRCHILD

RAYTHEON

93427DMQB 93417DMQB

29661DMB 29660DMB

5309-1J

MOTOROLA

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29601DMB

C

5349-1J

HM7649-8

M3624

5341-1J

HM7641-8

S82S137F

M3625

5353-1J

DM77S181J

S82S181F

M3628

5381-1J

DM77S185J

S82S185F

27S29DMB IM5625MJ

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29621DMB

E

27531DMB

93448DMQB

29625DMB

MCM7641

HM7643-8

27S33DMB

93453DMQB

29641DMB

MCM7643

HM7681-8

27S181DMB

93451DMQB

29631DMB

MCM7681

HM7685-8

27S185DMB

29651DMB

MCM7685

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JBP28S156MJ

DM77S191J

S82S191F

HM76161-8

M3636

27S191DMB

93511DMQB

~

29681DMB

..

Note: This IS a functional cross-reference National, Signetics and MMI use "8838" suffix to indicate military processing to MIL-STD-8838.

BIPOLAR MEMORY NOMENCLATURE JBP

PREFIX

T

These two digits comprise the series designation 23 S 86M J

L

PACKAGE TYPE J . FH/FKlFE

JBP-MI L-STD-883B JEDEC Standard 101 JANB-JM 38510/JANB Qualified, Note 1

GENERIC PROGRAMMING FAMILY - - - - - " 1-Single Level 3--0xide Isolated 2-Double Level 4-Other

TEMPERATURE RANGE No Designator E M

OUTPUT WORD WIDTH-------------J 4 OR 8 OUTPUTTYPE----------------' = Standard Three-State = Low-Power Three-State = Power-Down Three-State BIT COMPLEXITY = Registered Three-State 03 = 256 Bits D = Power-Down and Registered Three-State 1 = 1,024 Bits T = Latched Three-State 2 = 2,048 Bits SA = Standard Open-Collector 4 =. 4,096 Bits LA = Low-Power Open-Collector 8 = 8,192 Bits PA = Power-Down Open-Collector 16 = 16,384 Bits RA = Registered Open-Collector 32 =' 32, 768 Bits DA = Power-Down and Registered Open-Collector TA = Latched Open-Collector S L P R

= Ceramic Dual-in-Line = Ceramic Chip Carrier

L..----PACKAGE SIZE* Row Spacing Inches (Millimeters) No. of 0.300 0.400 Pins (7,62) (10,16) 16 0 18 1 20 2 22 3 4 24 5 28 40

O°C to 70°C - 40°C to 85°C - 55°C to 125°C

0.600 (15,24)

6 7 8

:j:Package-size deSignation is not applicable with chip carrier (PH,FK,or FE), and should be . replaced with the letter X for this package type.

Note 1: Where devices are qualified under Military specification MIL-M-38510

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

©

Ie MASTER 1983

441

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TEXAS INSTRUMENTS MILITARY PRODUCTS MOS MEMORY PRODUCTS SELECTION GUIDE AND NOMENCLATURE RAMS

..J 1

MAX. ACCESS TIME. (ns)

M,S,E,L M,S,E,L

1

200,250,450 200,250,450

4164 1 S,E,L 4416tt M,S,E,L

1

DEVICE 2114 4016

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1

1

TEMP.

ORGANIZATION SRAM 1

1K 2K DRAM 150 ,200,250 I 64K 16K 150,200,250 1

1

PACKAGE TYPE CHIP CARRIER C-DIP

xx 48

1

18 Pin ~~~~ 18 Pad ~rw 24 Pin JD 32 Pad FE

x1 x 4

1

16 Pin ~JD~ 28/18 Pad tE/FGl 18 Pin JD 28/18 Pad FE/FG

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TEMP. M,S,E,L M,S,E,L M,S,E,L M,S,E,L M,S,E,L M,S,E,L

DEVICE 2516 2532 25L32 2564 2708 27L08

EPROMS· MAX. ACCESS ORGANITIME (ns) ZATION 2K x 8 350,450 4K x 8 350,450 4K x 8 450 8K x 8 450 . 350,450 1K x 8 1K x 8 350,450

PACKAGE TYPE C-DIP CHIP CARRIER 24 Pin 32 Pad FE 24 Pin Jl 32 Pad FE 24 Pin J 32 Pad FE 28 Pin !JD) 32 Pad FE 24 Pin Jl 32 Pad FE 24 Pin J 32 Pad FE

t

tS temperature range only ttFuture product

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MOSMEMORYCROSS~RE~F~ER~E~NC~E~G~UI~D~E~~~____~______~~~~______~

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SMJ XXXX-XXJX MKB XXXX MXXXXB MCM XXXX BXBA

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MM XXXX XXl883 XXXX DMB XXXX DMQB

TI MOSTEK INTEL MOTOROLA

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NATIONAL AMD FAIRCHILD

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MOS MEMORY NOMENCLATURE

~ 1 E.XApMREPFLIEX: ____________________T_SM_J__-----'J2564 Must contain three letters SMJ-MIL STD-883B, JEDEC Standard 101

- 45

2. CIRCUIT DESIGNATOR Must contain four or five characters All standard types have four digits All low-power versions have five characters Examples: Standard 32K EPROM-2532 Low-power 32K EPROM-25L32

lJD

TL..----------4.

TEMPERATURE RANGE Must contain one letter only M--55 to 125°C· E--40 to 85°C S-- 55 to 100°C L- 0 to 70°C I

' - - - - - - - - - 5. PACKAGE TYPE Must contain one or two letters J, JD, FE, FG

3. ACCESS TIMt---------------------~ Device types are available with various speeds MEMORY MODULE

The high speed, 256K-bit, Dynamic Random Access Memory module is fabricated using state-of-the-art SMOS N-channel technology for very high performance combined with low cost and improved reliability. This new technology permits operation from asingle + 5 volt power supply which reduces system power supply and decoupling requirements making board layout easier. EXAMPLE: 1. PREFIX Must contain three letters SMJ-M Il:STD-883

The module features four 64K DRAMs in Leadless Ceramic Chip Carriers mounted on top of a standard 600-mil, 28 pin dual-in-line substrate package.

MEMORY MODULE NOMENCLATURE 4 -15 4164 SMJ 4

T

I

S

TL.._____ 4. TEMPERATURE RANGE Must contain one letter only S--55 to 100°C E--40 to 85°C L- Oto 70°C

2. WORD WIDTH--------------~ Must contain one digit only 1,2,4,8

L..-_ _ _ _ _ _

3. DEVICES PER UNIT-.- - - - - - - - - - - - - - - - ' Must contain one digit only 2,4,8

5. ACCESS TIME Device types are available with various speeds

L . . - - - - - - - - - - - 6 . CIRCUIT DESIGNATOR Must contain at least four digits

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

442

@

Ie MASTER 1983

TEXAS INSTRUMENTS MILITARY PRODUCTS

..

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MEMORY MODEL DIMENSIONAL OUTLINE

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SBP 9989 MICROPROCESSOR

PRODUCT FEATURES

• 4.4-MHz clock rate, single phase, 50% duty cycle • Designed-in support for advanced multiprocessor system architecture • 16 bit data and address bus • Serial 110 via Communications Register Unit (CRU) • 16 prioritized hardware interrupts/16 software interrupts • 9900 Family instruction set including signed multiply (MPY) and signed divide (DIV). • Direct access to 128K bytes of memory (via new output in MPEN) • Operation over full MIL-TEMP range (- 55°C to 125°C) • Radiation tolerance characteristics of 12L Technology

9989 MICROPROCESSOR NOMENCLATURE EXAMPLE: SBP 9989 T 1. P R E F I X - - - - - - - - -...... Must contain three or four letters SBP-Military Designator JAN B-JM38510/JANB Qualifiedt

N

2. CIRCUIT DESIGNATOR - - - - - - - - - - - ' Must contain four digits 9989-advanced 4.4MHz 16 bit processor 3. TEMPERATURE R A N G E - - - - - - - - - - - - - - I Must contain one letter only N- - 55°C to 125°C 4. PACKAGE TYPE - - - - - - - - - - - - - - - - - - ' Must contain two letters-J, FK tFuture product

PACKAGES AVAILABLE PACKAGE TYPE J. JG JD W.WC U FH FK ' FE FG

DESCRIPTION Ceramic Dip Side Braze Ceramic Dip Ceramic Flat-Pack Ceramic Flat-Pack Single Layer Square Chip Carrier (JEDEC Pin Out) Three Layer Square Chip Carrier (JEDEC Pin Out) Three Layer Rectangular Chip Carrier (28- and 32-Pad) Three Layer Rectangular Chip Carrier (18- and 20-Pad)

PACKAGE TYPE J JG JD W WC U FH FK FE FG

DIGITAL

LINEAR INTERFACE

BIPOLAR MEMORY

MOS MEMORY

X

X X

X

X

X

X X X X X

X

X X

X X X

X X

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

443

INTRODUCTION TODIGITAL The Master Selection Guide provides sufficient information for making initial product selections. All devices that appear in this section, both in ·the initial selection guide and the data pages, are included in all other indexes. The first two pages of the digital section present performance comparisons of the major digital families. These are followed by lists of the devices in each family arranged into functional groups (arithmetic, buffers/ inverters, etc.). The initial selection lists are followed by the device data pages provided by the manufacturers. Page number references to these data pages are given with the initial selection listings. Some digital circuits-calculator, watch chips, and electronic organ circuits~not included in this section are covered in detail in the Linear-Consumer section. Digital circuits not included in one of the major logic families are listed in the heading Digital-Other Devices.

Page Number Index-Digital Devices

Arithmetic Functions Buffers

Inverters

CMOS 449 450 450

Counters Binary Decade Miscellaneous Decoders

Drivers Flip-Flops D-Type

J-K Gates AND NAND AND-OR AND-OR-Invert OR

This section is not complicated by reference to paCkage styles; the package style suffixes are usually deleted. For more information on each companies' suffixes, see the Part Number Guide. Throughout the Master Selection Guide, each full military temperature range (-55°C to 125°C) device is indicated by a dagger (t) before the manufacturer's name. Manufacturers' names are normally spelled out; however, a few are abbreviated and the abbreviations are explained on page 772.

NOR

467 469 470 470 467 469

472 472

467 467

472 472

478 480 482 482 484

455 456

467 469 470 471 467 469

472 472

485 487

456 457 457 457 458 458

467

472 472

470 469 471 471 469 469 470 471 470 470 471 470 468 470 470 471 468 470 469 470 469 471

472 472 472

488 489 492 492 493 493 494 494 495 495 496 497 500

459 459 459 460 461 462 462 462

Exclusive OR/NOR Latches Memories Multiplexers (Digital) Multivibrators Oscillators/Dividers Shift Registers

470 470

467 468 468 468

473 473 473 473 473

469 470 470 471

473

469 470 470 469 470 470 471

473 473

Transceivers, Bus

463 464

Translators Q)

Miscellaneous

'U ::J (!)

TTL 474 476 '477

451 452 453 453 454

OR/NOR Miscellaneous

ECl ECl ECl ECl HNll/ 10K 95K 100K III HTl 467 470 472 467 470 472 467 472

Digital-Special

501 503 505 505 510

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Detailed Product Information provided by:

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Advanced Micro Devices American Microsystems, Inc. Fairchild Harris Semiconductor LSI Computer Mitel Semiconductor Monolithic Memories, Inc. Motorola Semiconductor National Semiconductor

RCA Semi-Process Signetics TRW-LSI Products Texas Instruments Weitek

601 618 619 669 696

697 715 729 734

739 761 773 812 821 1036

The manufacturers listed above have provided detailed information on their latest and most significant products.

444

© Ie MASTER 1983

••

EINFUHRUNG DIGITALSCHALTUNGEN Der Master Selection Guide fur Digitalschaltungen enthalt aIle Informationen, die Sie fur die Erstauswahl Ihres Produkts benotigen. Die Bauteile, die in diesem Abschnitt erscheinen, sowohl im Selection Guide als auch auf den Datenblattern, sind in allen Master Indexes enthalten. Die ersten beiden Seiten des Digital-Teils beinhalten Leistungs-vergleiche der wichtigsten Digitalfamilien. Daran anschlie,Bend find en Sie ein Verzeichnis der Bauteile jeder Familie nach Funktionen (arithmetische Funktionen, Buffers/Inverters usw.). Diesen Listen folgen die Datenblatter der Hersteller. Der Master Selection· Guide verweist jeweils auf das entsprechende Datenblatt. Einige Digital-Schaltungen (Rechner, Uhren-Chips und elektronische Orgel-Schaltungen), die in diesem Teil nicht enthalten sind, werden ausfuhrlich im

Abschnitt Linear-Consumer behandelt. Digital-Schaltungen, die nicht in einer der grof3eren Logik-Familien enthalten sind, finden sich unter der Rubrik "Digital-Sonstige Bauteile" (Digital - Other Devices). Dieser Abschnitt wird nicht durch Hinweise auf Gehauseformen Kompliziert. Die entsprechenden Suffix wurden meistens weggelassen. Weitere Information uber die Suffixe jedes Herstellers erhalten Sie uber das Numerische Typenverzeichnis. 1m ganzen Master Selection Guide sind aIle Bauteile mit mil itarischem Temperaturebereich (-55° bis 125°C) durch ein Kreuz (t) vor dem Namen des Herstellers gekennzeichnet. Die N amen der Hersteller sind normalerweise ausgerschrieben; einige jedoch sind abgekurst. Die Abkurzungen werden auf S. 772 erklart.

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445

INTRODUCTION AUSYSTEME DIGITAL ,

'

Le Guide General de Selection fournit suffisamment de renseignements pour permettre des selections initiales de produits. Tous, les appareils enumeres' dans cette Section, a la fois dans Ie Premier Guide de Selection et Ie feuilles de donnees, apparaissent egalement dans tous les autres index. Les deux premieres pages de lei Section "Digital" pres en tent des comparaisons de performance entre les principaiesfamilles de systeme digital. Suivent ensuite des listes d' appareils de chaque famille, classes par groupes fonctionnels (arithmetique, registres, invertisseurs, etc.). Leslistes de premiere selection sont suivies par des feuilles de donnees parappareil, fournies .par Ies fabricants. Les references de numeros de pages de ces donnees sont communiquees dans les listes de premiere selection. Quelques circuits digitaux - calculatrices, circuits de montre, et circuits electroniques primaires - no si-

gnales dans cette Section, sont etudies en detail dansla Section "Lineaire". Les circuits digitaux non inclus dans l'une des familles princiaples de Legique, sont enum:eres dans la rub rique "Autres Systemes Digitaux" (Digital-Other Devices). Cette Section ne fait pas apparaltre les types de boitier. Les suffixes indiquant les types de boitier sont generalement omis. Pour obtenir des renseignements supplementaires sur les suffixes utilses par chaque societe, veuillez vous reporter au Guide des Numeros de Pieces. Dans, tout Ie Guide General de Selection chaque appareil possedant la variante complete de temperature imposee par I'Armee (-55°C 125°C) est indique par Ie symbole (t) inscrit devant Ie nom du fabric ant. Les noms des fabricants sont generalement ecrits en entier, il arrive cependant que certains soient abreges. Voir page 772 pour obtenir Ia signification de ces abreviations.

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© Ie MASTER 1'983

,

INTRODUCCION A DIGITAL

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La Guia Maestra de Selecci6n provee suficiente informaci6n para hacer selecciones iniciales de producto. Todas las componentes que aparecen en esta secci6n, ya sea en la guia de selecci6n inicial 0 en las paginas de datos, estan incluidas en todos los otros indices.

integrados de relojes, y circuitos de organos electricos - no inclufdas en esta seccion son detalladas en la seccion de Consumidor-Lineal. Los circuitos digitales no incluidos entre las familias logicas mayores aparecen bajo el titulo Digital-Otras Componentes.

Las primeras dos paginas de la secci6n digital preseTlta comparaci6n de funcionamiento entre las familias digitales mayores. Estas estan sequidas por listas de las componentes correspondiente a cada familia y organizadas en grupos funcionales (aritmetico, separadores, invertidores, etc). Las listas de seleccion inicial estan sequidas por las paginas de datos, de las componentes proveidas por los fabricantes. Referencias del numero de la pagina a estaspaginas de datos estan dadas con las listas 'de seleccion incial. Algunos circuitos. digitales - calculadoras, circuitos

Esta seccion no es complicada por referencias al estilo constructivo; los sufijos que denotan estilo constructivo han sido generalmente omitidos. Para informacion adicional sobre sufijos de lascompailias, refierase a la Guia de Numero de Pieza. A 10 largo de la Guia de Selecci6n Maestra, cada intervalo completo de temperatura para uso militar (-55 0 a 125°C) de la componente aparece indicada por el signo fabricantes no son .generalmente deletreados; sin embargo, algunos aparecen abreviados y las abreviaturas son explicadas en la pagina 772.

Ie MASTER 1983

447

-:;' A

~ -~ l/j' ~

3

;/

jj 1

rtl.t'&:iJJV')~Jb~:jRVO:t7t?tV')f:{tt

~M~~~~~o*~Vj'~3;/~V')~l/j'~3;/jj1r~~­ ~V')c7)~~~6~-~~~.~h~~6~~~tl~V')~~V')1;/

~ ~ j"A~ ~ A~ ~~1 ~o ~1~~h~l/~~3;/V').WV')2~~~~tl~~~~1~~

7 ~ I) - V')11:~gltl3(iJ\V') ~ ~\.A ~~ ?XV') ~~ ~i6~ Gtl--tV') 7 7 ~I) -i6\~Mg~ Jv- 7°W~?tm~:h ~~ ~ -t- ( 17IJ~tr7 I) A

Jv 7

0

j71 ~j', ~'~77/1;/~'-~···~~5J:5~)o --tV')?X~ (7)~~~6V')tl%}-ti-V')~~~~-~~~o

~V')~-~~­

~ ~·~-::::>vt6~tl~V!7'~3 ;/jj1 r~V')~~~6~-~'~~< ~~"'F~~o j] JV::f-:;L

v - ~-

m,

V')~j'.~3;/~ii~ ~ V') tH*&tl

~~Jffi l~"'F~~o -:;' A~ - ~ v j' ~

3

;/

jj 1

rV')~~-~,

( - 55°C --- - 1 25°C) V') ~J1 ''i §til VL-::::>vt~~b~~o

" ~'W-

t 6 l (

-ttlvo

j,

~

7r'''

'.Y -}-;/~, -'- jj 1

.~ I) ~ I) -1lill.Mt~lHI

)

~ j ' - j]

.

-15 CO WI

j-j]-l5tljffi*,AAat$1~tll~~~-ttlvo

1ltfj1~~h~\.A6 ~coVL-:J\.A~tll 3 7 ~-~~--tcoIDt~i6~~

AA b~

~o

a>

"C ::J

(!J

c .Q of-'

(.)

a>

i,a>

en

448

© Ie MASTER 1983

MASTER SELECTION GUIDE DIGITAL-CMOS Function

Source

Device

Line Function

Arithmetic Functions

Device

HD14581B MC14581BA MC14581BC CD40181B CD40181BE CD4057A HCC40181B HCF40181B 883/4581B SCL4581B

Adder, NBCD (natural binary coded decimal) MC145S0BA t Motorola MC14560BC Motorola Toshiba TC4560B

Adder. Triple Serial. Negative Logic, with Internal Carry HD14038B Hitachi MC14038BA t Motorola MC14038BC Motorola CD4038A (748) t RCA (748) CD4038AE RCA Look·Ahead Carry Block CD4038B (748) t RCA F4582BC CD4038BE RCA (748) 10 F4582BM HCC4038B tSGS HD14582B HCF4038B SGS MC14582BA CM4038A t SOlitron MC14582BC CM4038AE Solitron CD40182B TC4038B Toshiba CD40182BE Adder, Triple Serial, Positive Logic, with Internal Carry HCC40182 HD14032B Hitachi HCF40182 MC14032BA t Motorola 883/4582B MC14032BC Motorola SCL4582B MSM4032 OKI Magnitude Comparator 4-Bit CD4032A (748) 20 t RCA 54HC85 CD4032AE RCA (748) 74HC85 (748) CD4032B t RCA F40085BC (748) CD4032BE RCA F40085BM HCC4032B tSGS HD14585B HCF4032B SGS MC14585BA CM4032A t Solitron MC14585BC CM4032AE SOlitron MC54HC85 TC4032B Toshiba MC74HC85 Adder, 4-Bit, Full 54HC283 74HC283 F4008BC F4008BM HD14008B MC14008BA MC14008BC CD4008BC CD4008BM MM54C83 MM74C83 CD4008A CD4008AE CD4008B CD4008BE HCC4008B HCF4008B 883/4008B SCL4008B CM4008A CM4008AE TC4008B

t Fllrchlld Fllrchlld Fairchild t Fairchild Hitachi t Motorola Motorola National t National t National National t RCA RCA t RCA RCA tSGS SGS tSSS SSS t Solitron Solitron Toshiba

(667) (667) 30

74HC688

Data Path Switch F4704BC F4704BM

Fairchild t Fairchild

Equality Comparator, 8·Bit CD54HC688 CD74HC688

t RCA RCA

(739) (739)

Full Adder. Gated SP74HC80

SPI

(767)

Fairchild t Fairchild

t Military Temperature Range (- 55° to 125°C)

~

IC MASTER

1983

MM54C85 MM74C85 CD4063B CD4063BE CD4585B CD4585BE CD54HC85 CD74HC85 HCC4063B HCF4063B 883/4585B SCL4585B TC4063B TC4585B

(748) 40 (748) (748) Magnitude Comparator 8·Bit (748) 54HC688

Data Access Register (for memory address arithmetic) F4707BC Fairchild F4707BM t Fairchild

Logic Register Stack F4705BC F4705BM

Source

Line Function

Hitachi t Motorola Motorola t RCA RCA t RCA tSGS SGS tsss SSS Fairchild t Fairchild Hitachi t Motorola Motorola t RCA RCA tSGS SGS tSSS

t Fllrchlld Fllrchlld

Parity Generator/Checker. 9-Bit Odd/Even 54HC280 t Falrcblld 74HC280 Fllrcblld MC54HC280 t Motorola MC74HC280 Motorola 50 MM54HC280 t National National MM74HC280 CD54HC280 t RCA' CD74HC280 RCA SP74HC280 SPI Serial Multiplier, 8·Bit CD54HC384 CD74HC384

t RCA RCA

Nines Complementer MC14561BA MC14561BC TC4561B

t Motorola Motorola Toshiba

2's Complement Multiplier (16x16). Allows unsigned magnitude inputs as well (NMOS) WTL 1016 Weitek

2x2-Bit, Parallel Multiplier, Binary MC14554BA MC14554BC

(749) (749)

Source

Line

t Motorola Motorola

8x8 Bit Multiplier ADSP·l080K ADSP·l080T 8x8 Bit Multiplier/Accumulator . ADSP·l008K ADSP·l008T 70 16x16 Bit Multiplier ADSP·l016K . ADSP·l016T 16x16 Bit Multiplier/Accumulator ADSP·l0l0K ADSP·l0l0T

(749) (749)

AD tAD

(3185) (3185)

AD- (3183.3186) tAD (3183.3186) AD tAD

(3184,3186) (3184.3186)

AD tAD

(3182.3186) 130 (3182.3186)

Buffers Quad Gated, Three·State (inverted control) SP74HC126 SPI 80

SSS t Fllrcblld Fllrcblld Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola t National National t RCA RCA t RCA RCA t RCA RCA tSGS SGS tSSS SSS Toshiba Toshiba

Device

2's Complement Multiplier (1Sx1S) with Accumulator SO (allows unsigned magnitude inputs as well)-NMOS WTL 1010 Weitek

Logic Unit 4-Bit

(667) (667)

Quad Gated, Three-State SP74HC125

SPI

Quad Low Impedance 883/4441UB SCL4441UB

tsss SSS

Quad True/Complement F4041BC F4041BM CD4041C CD4041M 90 CD4041A CD4041AE (748) CD4041UB (748) CD4041UBE (749) HCC4041UB (749) HCF4041UB (739) 883/4041UB (739) SCL4041UB CM4041A CM4041AE 100 Quad Three-State Non-Inverting TC5024 TC5025 Quad Three-State 54HC125 74HC125

(667) (667) (667) (667)

110 (739) (739) (771) (739) (739)

Fairchild t Fairchild National National t RCA RCA t RCA RCA tSGS SGS tSSS sss t Solitron Solitron

(748) 140 (748) (748) (748)

Q)

"0 150

:::J

CJ C

t

Fllrchll~

Fllrchlld

o

..... ()

(667) (667)

Q)

t National National

Hex High Voltage TC5064B TC5065B

Toshiba Toshiba

Hex (Inverting) Three·State 54HC366 54HC368 74HC366 120 74HC368

(768)

Toshiba Toshiba

Hex CMOS Compatible DS1630 DS3630

Hex (Inverting) Three-State, Strobed HD14502B MC14502BA MC14502BC CD4502B CD4502BE HCC4502B HCF4502B 883/4502B SCL4502B

(768)

Hitachi t Motorola Motorola t RCA RCA tSGS SGS tsss sss t Fllrcblld t Fllrchlld Fllrchlld Fllrchlld

Q)

en

160 (749) (749)

(667) (667). (667) (667) 170

• Typical Value Bold flcllndlclles Iddlllonil dill Is provided aD Ibl pigi Dolld.

449

Ie MASTER -DIGITAL-CMOS (Cont'd) Function

Device

Source

Line Function

Buffers (Cont'd)

Device

Source

Line Function

Hex Non-Inverting-Improved

'.' Q)

"0 ::l

CJ C

0 +oJ

() Q)

Q)

en '-

Q)

+oJ

en

CO ~

Hex (Inverting)-Improved 54HC4049 74HC4049 F4049BC F4049BM HD14049B MC14049UBA MC14049UBC CD4049UB MM54HC4049 MM74HC4049 CD4049A CD4049AE CD4049UB CD4049UBE CD54HC4049 CD54HC4099 CD74HC4049 HCC4049UB HCF4049UB 883/4049UB SCL4049UB' CM4049A CM4049AE TC4049B Hex Non-Inverting HD14010B CD4010A CD4010A CD4010AE 'CD4010B CD4010BE 883/4010B SCL4010B CM4010A CM4010AE TC4010B Hex Non-Inverting-Improved 54HC4050 74HC4050 F4050BC F4050BM HD14050B MC14050BA MC14050BC CD4050BC CD4050BM C04050A CD4050AE CD4050B CD4050BE CD54HC4050 CD74HC4050 HCC4050B HCF4050B 883/4050B SCL4050B CM4050A

Hitachi National t National t RCA RCA t RCA RCA tsss SSS t Salitron Salitron Tashiba

t Fairchild Fairchild Fairchild t Fairchild Hitachi t Motorola Motorola National t National National t RCA RCA t RCA RCA t RCA RCA RCA tSGS SGS tSSS

(748) (748) (748) (748)

t National National

Hex Open Drain Active Pull Up MM54C907 MM74C907

t National National

Hex, TTL Input 54HCT07 74itCT07

20

70 Octal Buffer/Line Driver MM54C941 MM74C941 Octal

Hex TTL Inverting (CMOS to TTL) MM54C901 MM74C901

t Fairchild

(667) (667)

Fairchild t National National

(748) (748) (748) (748)

Hex Three-State, Inverting MM54HC366 MM54HC368 MM74HC366 MM74HC368 54HC365 54HC367 74HC365 74HC367 F40097BC F40097BM HD14503B MC14503BA MC14503BC MC54HC367 MC74HC367 CD4503BC CD4503BM MM54HC365 MM54HC367 MM70C95 MM70C97 MM74HC365 MM74HC367 MM80C95 MM80C97 CD4503BD CD4503BE CD54HC365 CD54HC366 CD54HC367 CD54HC368 CD74HC365 CD74HC366 CD74HC367 CD74HC368 TC40H367 TC5012B

t National t National National National

t Filrcblld t Falrcblld Fairchild Fairchild Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola National t National t National t National t National t National National National National National t RCA RCA t RCA t RCA .t RCA t RCA RCA RCA RCA RCA Toshiba Toshiba

t Falrcblld (667) FaIrchild (667) Fairchild 50 t Fairchild Hitachi t Motorola Motorola National National (748) t RCA RCA (748) (748) t RCA RCA (748) 60 (740) t RCA Hex 54HC07 t RCA (740) 74HC07 tSGS MM54HC4050 SGS MM74HC4050 tsss SSS Octal Buffer/Level Translator, Inverting MM54HC4305 {Salitron -(Continued) MM74HC4305

MD54SC540 MD54SC541 MD74SC540 MD74SC541 HS74C540 HS74C541 M54C540 M54C541 S74C540 S74C541

7-Line High Voltage TC5066B TC5067B 80

100

t MIIII t MIIII MIIII MIIII Supertex Supertex t Supertex t Supertex Supertex Supertex

(702) (702) (702) (702)

140

Toshiba Toshiba

Hex Schmitt Trigger 54HC14 74HC14 Hex, TTL Input 54HCT04 74HCT04

150 (748) (748) (748) (748)

160

t Falrclllld Fairchild

(667) (667)

t Fairchild

(667) (667)

Falrcblld

Hex Unbuffered MC54HCU04 MC74HCU04

t Motorola Motorola

Hex Three-State (749) (749) 110 (740) (740) (740) Hex (740) (740) (740) (740) (740) 120 (667) (667)

Fairchild Falrcblld National National National National

(740) (740) (740) (740) 130

t National National

Dual Complementary Pair Plus Inverter F4007UBC Fairchild F4007UBM t Fairchild HD14007B Hitachi MC14007UBA t Motorola MC14007UBC Motorola CD4oo7C National CD4oo7M t National CD4007A t RCA (667) CD4007AE RCA 1(667) CD4007UB t RCA (667) 90 CD4007UBE RCA (667) HCC4oo7UB tSGS HCF4007UB SGS 883/4007UB tSss SCL4oo7UB SSS CM4007A t Solltron CM4007AE Solitron TC4007UB Toshiba

Hex Three-State 30

Line

Inverters

Hex TTL Non-Inverting (CMOS to TTL) MM54C902 t National MM74C902 National

Hitachi National (740,748) t RCA (740,748) 40 RCA (740,748). t RCA (740,748) RCA tSSS t Salitron Salitron Tashiba

Hex Open Drain Active Pull Down MM54C906 MM74C906

Hex PMOS Non-Inverting (PMOS to CMOS or TTL) MM54C904 t National MM74C904 National

(667) (667)

t Salitron Solitron Toshiba

SSS

Solitron Toshiba

10 Hex PMOS Inverting (PMOS to CMOS or TTL) MM54C903 t National MM74C903 National

SSS

t Military Temperature Range (- 55° to 125°C)

450

CM4050AE TC4050B

Source

Octal Buffer/Line Driver, Three State CD54HC540 t RCA CD54HC541 t RCA CD74HC540 RCA CD74HC541 RCA

(Cont'd) Hex (Inverting) HD14009B CD4009AC CD4009AM CD4009A CD4009AE CD4009U8 CD4009U8E 883/4009UB SCL4009UB CM4009A CM4009AE TC4009UB

Device

F40098BC F40098BM MM70C96 MM70C98 MM80C96 MM80C98

Fairchild

t Fairchild

F4069UBC F4069UBM HD14069B MC14069UBA MC14069UBC MC54HC04 MC74HC04 CD4069C CD4069M MM54C04 MM54HC04 MM74C04 MM74HC04 MM74PC04

~

170

t National t National National National Fairchild

t Fairchild Hitachi t Motorola Motorola t Motorola 180 Motorola National t National t National t National National National National (Continued)

• Typical Value Bold faci IndIcates addlllonal data II provl~ld on thl paal notld.

~

IC MASTER

1983

MASTER SELECTION GUIDE DIGITAL-CMOS (Cont'd) Function

Source

Device

Line Function

Inverters (Cont'd) t RCA RCA t RCA RCA Sanyo SPI tSGS SGS tsss tSSS sss SSS t Solitron Solitron Toshiba Toshiba Toshiba

(Cont'd) (748) (748) (740) (740)

C054HC161 C074HC161 SP7.4HC161 HCC40161B HCF40161B 883/4161B SCL4161B TC40161B TCHOH161

(766)

10

Counters, J3inary Clock Generator with 4-Blt TC5018

Toshiba

Divide by 2, 8 or 16 MMS4C93 MM74C93

t National National

Divider with 4-Bit TC5027B

Toshiba

20

Presettable Up/Down 54HC193 54HC4516 54HC569 74HC193 74HC4516 74HC569 F40193BC F40193BM F4516BC F4516BM HD14516B MC14516BA MC14516BC MCS4HC193 MC74HC193 CD40193BC CD40193BM CD4516BC CD4516BM MM54C193 MMS4HC193 MM74C193 MM74HC193 C040193B C040193BE C04516B C045168E C054HC191 C054HC193 C074HC191 C074HC193 SP74HC193 HCC4516B HCF4516B 883/4193B 883/4516B SCL4193B SCL4516B TC40H193 TC4516B

Presettable Fully Synchronous, Synchronous Clear 54HC163 t Fairchild (668) Falrcblld (668) 74HC163 F40163BC Fairchild F40163BM t Fairchild HD14163B Hitachi MC14163BA t Motorola MC14163BC Motorola MCS4HC163 t Motorola MC74HCl63 Motorola 30 CD40163BC National CD40163BM t National MMS4C163 t National MMS4HCl63 t National MM74C163 National National MM74HC163 (749) C0401638 t RCA C0401638E RCA (749) (739) C054HC163 t RCA C074HC163 RCA (739) 40 (770) SP74HC163 SPI HCC40163 tSGS HCF40163 SGS . Presettable 8-Bit Down . 883/4163B tsss C0401038 SCL4163B sss C0401038E , TC40163B Toshiba HCC40103B r TC40H163 Toshiba HCF40103B Presettable Synchronous, Asynchronous Clear Programmable Divide-by-N, 4-Bit F40161BC Fairchild F4526BC F40161BM t Fairchild F4526BM HD14161B Hitachi 50 HD14526B MC14161BA t Motorola MC14526BA MC14161BC Motorola MC14526BC MCS4HC161 t Motorola CD4526BC MC74HC161 Motorola CD4526BM CD40161BC National 883/4526B CD40161BM t National SCL4526B MMS4C161 t National MMS4HC161 t National Dual Synchronous MM74C161 National F4520BC MM74HC161 National 60 F4520BM (749) C0401618 HD14520B t RCA C040161BE RCA (749) MC14520BA (Continued) t Military Temperature Range (- 55° to 125°C)

~

IC MASTER

1983

Source

Line Function

Presettable Synchronous, Asynchronous Clear

Hex C04069UB C04069UBE C054HC04 C074HC04 LC4069UB SP74HC04 HCC4069UB HCF4069UB 883/4069UB 883/4449UB SCL4069UB SCL4449UB CM4069A CM4069AE TC4069UB TC40HOO4 TC7404UB

Device

t RCA RCA SPI tSGS SGS tsss SSS Toshiba Toshiba t Fairchild

Line

(Cont'd) MC14520BC CD4520BC CD4520BM C04520B C04520BE HCC4520B HCF4520B 883/4520B SCL4520B CM4520B CM4520BE TC4520B

Motorola National t National t RCA RCA tSGS SGS tSSS SSS t Solitron Solitron Toshiba

Dual4-Bit

54HC393 74HC393 MMS4HC393 MM74HC393

t Fairchild Fairchild t National National

(668) (668)

Dual,4-Bit

C054HC393 C074HC393

t RCA RCA

(739) (739)

C054HC4520 C074HC4520

t RCA RCA

(739) (739)

4-Bit, Divide by 2 and by 5 SP74HC93

SPI

(768)

5,6,7,8,9-Stage TC5048

Toshiba

70

(668)

(665,668) t Fairchild (668) Fairchild (668) Falrcblld (668) Fairchild (668) Fairchild t Fairchild Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola National t National National t National t National t National National National (749) t RCA RCA (749) (749) t RCA (749) RCA (739) t RCA (739) t RCA RCA (739) RCA (739) SPI (770) tSGS SGS tsss tsss SSS sss Toshiba Toshiba

RCA tSGS SGS

Source

Dual Synchronous (Cont'd) (739) (739) (770)

t Falrcblld

t RCA

Device

80 Dual

7-Stage

90

100

8-Stage Synchronous 883/4404B 110 SCL4404B

(749) (749)

Fairchild t Fairchild Hitachi t Motorola Motorola National t National tsss sss

F4024BC F4024BM HDl4024B MC14024BA MC14024BC MCS4HC4024 MC74HC4024 CD4024BC CD4024BM C04024A C04024AE C04024B C04024BE C054HC4024 C074HC4024 HCC4024B HCF4024B 883/4024B SCL4024B CM4024A CM4024AE TC4024B

120

Fairchild t Fairchild Hitachi t Motorola (Continued)

Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola National t National t RCA RCA t RCA RCA t RCA RCA tSGS SGS tsss SSS . t Solitron Solitron Toshiba

130 (749) (749)

140

(748) (748) (748) (748) (739) (739) Q)

"'C 170

::l

CJ C

0

..... ()

tSSS sss

Q) Q)

12 Stage

MMS4HC4040 MM74HC4040

t National National

12-Stage

54HC4040 74HC4040 F4040BM F404BC HD14040B MC14040BA MC14040BC MCS4HC4040 MC74HC4040 CD4040BC CD4040BM C04040A C04040AE C040408 C04040BE C054HC4040 C074HC4040 HCC4040B

(668) t Falrcblld Fairchild (668) t Fairchild Fairchild 180 Hitachi t Motorola Motorola Motorola Motorola National t National (748) t RCA (748) RCA (748) 190 t RCA RCA (748) (739) t RCA (739) RCA tSGS (Continued)

C/)

t

• Typical Value Bold .ace Indlcales addlllonal dala Is provided on Ibe pagl nDlld.

451

:10-

Q) ..... en

CCS

~

Ie MASTER DIGITAL-CMOS (Cont'd) Function

Device

Line Function

Source

Counters, Binary (Cont'd) (Cont'd)

12-Stage HC.F4040B . 883/4040B SCL4040B CM4040A CM4040AE TC4040B 14 Stage

MM54HC4020 MM54HC4060 MM74HC4020 MM74HC4060

14, 15, 16-Stage (with reset) TC5036

14-Stage with Oscillator MC14060B MC54HC4060 MC74HC4060 CD4060BC CD4060BM C04060A C04060AE C04060B C04060BE C054HC4060 C074HC4060 HCC4060B HCF4060B SCL4060B

Motorola t Motorola Motorola National t National t RCA RCA t RCA RCA t RCA RCA tSGS SGS SSS

~

"0 ::J

(9 C

0 +-'

()

Q) Q)

U) :I.-

Q) +-'

en

CO

~

Toshiba t Fairchild Fairchild Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola National t National t RCA RCA t RCA RCA t RCA RCA tSGS SGS tsss SSS t Solitron Solitron Toshiba

~

Q)

t National t National National National

54HC40Z0 74HC40Z0 F4020BC F4020BM HD14020B MC14020BA MC14020BC MC54HC4020 MC74HC4020 CD4020BC CD4020BM C040Z0A C040Z0AE C040Z0B C04020BE C054HC4020 C074HC4020 HCC4020B HCF4020B 883/4020B SCL4020B CM4020A CM4020AE TC4020B

14-Stage

I i

SGS tsss SSS t Solitron Solitron Toshiba

(668) (668)

Device

Counter/LatchlDisplay Driver ICM7208 40 Divide by 2 and by 5 8P74HC90

Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola National t National t RCA RCA t RCA RCA t RCA RCA tSGS SGS tsss

..

452

Device

Source

Presettable (Sets to 0 or 9, divides by 2, 5 or 10) MM74C90 National

80

SSS

8PI

MM54HC160 MM74C160 MM74HC160 C040160B C040160BE C054HC160 C074HC160 8P74HC160 HCC40160B HCF40160B 883/4160B SCL4160B TC40160B TC40H160

t National National National t RCA RCA t RCA RCA 8PI tSGS SGS tsss SSS Toshiba Toshiba

74HC192 F40192BC F40192BM F4510BC F4510BM HD14510B HCTR0200 MC14510BA MC14510BC MC54HC192 MC74HC192 CD40192BC CD40192BM CD4510BC CD4510BM MM54C192 MM54HC192 MM74C192 MM74HC192 C040192B C040192BE C04510B C04510BE C054HC192 C074HC192 8P74HC192 HCC40192B HCC4510B HCF40192B HCF4510B 883/4192B 883/4510B SCL4192B SCL4510B TC40H192 TC4510B

t Fllrchlld Fairchild Fairchild t Fairchild Fairchild t Fairchild Hitachi Hughes t Motorola Motorola t Motorola Motorola National t National National . t National t National t National National National t RCA RCA 1 t RCA RCA t RCA RCA 8PI tSGS tSGS SGS SGS tSSs tsss SSS SSS Toshiba Toshiba

(748) (748) (748) (748) 90 (739) Presettable Up/Down (739) 54HC192

Intersil

Line

Presettable (sets to 0 or 9, divides by 2, 5 or 10) MM54C90 t National

t Solitron Solitron Toshiba

Presettable Fully Synchronous, Synchronous Clear 54HC162 t Falrcblld Fairchild 74HC162 F40162BC Fairchild F40162BM t Fairchild HD14162B Hitachi MC14162BA t Motorola MC14162BC Motorola MC54HC162 t Motorola Counters, Decade Motorola MC74HC162 National CD40162BC Counter/Divider with 10 Decoded Outputs CD40162BM t National 54HC4017 t Fairchild (668) 50 MM54C162 t National 74HC4017 Fairchild (668) MM54HC162 t National MM54HC4017 t National MM74C162 National MM74HC4017 National MM74HC162 National Counter/Divider, 7 Segment Display Output and Display C04016ZB t RCA Enable C040Z6A (748) t RCA C040162BE RCA C04026AE RCA (748) C054HC162 t RCA . C04026B (748) t RCA C074HC162 RCA C04026BE (748) RCA 8P74HC162 8PI HCC4026B fSGS HCC40162B tSGS HCF4026B SGS HCF40162B SGS 883/4026AB 60 tsss 883/4162B tsss 883/4426AB tsss SCL4162B SSS SCL4026AB SSS TC40162B Toshiba SCL4426AB SSS (Continued) TC40H162 Toshiba t MIlitary Temperature Range (- 55 0 to 125 0 C)

Line Function

Counter/Divider, 7 Segment Display Output and Ripple Presettable Synchronous, Asynchronous Clear Blanking C04033A (748) t RCA 54HC160 t Fllrchlld C04033AE RCA (748) 74HC160 Fllrcblld C04033B (748) t RCA F40160BC Fairchild (748) C04033BE RCA F40160BM t Fairchild HCC4033B 70 tSGS HD14160 Hitachi HCF4033B SGS MC14160BA t Motorola 883/4033AB tsss MC14160BC Motorola 10 883/4433AB tsss MC54HC160 t Motorola SCL4033AB SSS MC74HC160 Motorola SCL4433AB SSS CD40160BC National CM4033A t Solitron CD40160BM t National CM4033AE Solitron MM54C160 t National

Counter/Divider, 10 Line Output F4017BC F4017BM HD14017B MC14017BA MC14017BC 20 MC54HC4017 MC74HC4017 CD4017BC (748) CD4017BM (748) C04017A (748) C04017AE (748) C04017B (739) C04017BE (739) C054HC4017 C074HC4017 30 HCC4017B HCF4017B 883/4017B SCL4017B CM4017A CM4017AE TC4017B

(748) (748) (748) (748) (739) (739)

Source

Counter/Divider, 7 Segment Display Output and Display Enable (Cont'd) CM4026A t Solitron CM4026AE Solitron

100 (768) (668) (668)

110

(749) (749) (739) (739) 120 (770)

Presettable, with Decoder/Driver TC5034

(668) 130 (668)

140

(749) (749) (739) (739) (769) 150

(668) (668)

160

170

(749) (749) (749) (749) (739) 180 (739) (770)

190

Toshiba

• TYPical Value Bald flCI Indlcatls additional dati Is proVldld an thl plgl notld.

~

IC MASTER

1983

MASTER SELECTION GUIDE DIGITAL-CMOS (Cont'd) Function

Device

line Function

Source

'Counters, Decade (Cont'd) Presettable 2-Decade Down, BCD CD40102B CD40102BE HCC40102B HCF40102B

t RCA RCA tSGS SGS

Device

4- 112-Diglt, Programmable TC9122 (749) (749)

Source

line Function

Toshiba

4-Diglt, Multiplexed Output, Left Digit Counts to 2(Maximum count 1999.) MM74C928 National

Device

Source

Line

Phase Comparator and Programmable HD14568B Hitachi MC14568BA t Motorola Motorola MC14568BC

110

Presettable Divlde-by-N F4018BC Fairchild F4018BM t Fairchild Programmable Divlde-by-N, 4-Bit HD14018B Hitachi 60 Fairchild F4522BC MC14018BA t Motorola 4-Diglt Up/Down, Counter/Latch/Decoder Driver, LCD t Fairchild F4522BM MC14018BC Motorola IIltlolIl (735) MM74C945 Hitachi HD14522B CD4018BC National (735) MM74C947 IIltlolll MC14522BA t Motorola CD4018BM t National 4-Diglt Up/Down Counter/Latch/Display Driver Motorola MC14522BC (748) CD4018A t RCA ICM7217 Intersll 10 National CD4522BC (748) CD4018AE RCA ICM7217A Intersil CD4522BM t National (748) CD4018B t RCA ICM7217B Intersil 883/4522B (748) tsss CD4018BE RCA ICM7217C Intersil SCL452'2B SSS HCC4018B tSGS Intersi! ICM7227 HCF4018B SGS Up/Down Counter/Decoder/LatchlDriver (direct 7-segment Intersil ICM7227A 883/4018B tSSS (749) CD40110B driver) t RCA Intersll ICM7227B SCL4018B SSS (749) CD40110BE RCA 70 ICM7227C Intersil CM4018A tSOlitron Up/Down, Programmable 4-Decade, Decoder, Driver CM4018AE Solitron (668) 54HC4510 t Fllrclilld Sanyo LC7961 TC4018B Toshiba (668) Fllrcblld 74HC4510 4-Decade Divider Presettable Up/Down Binary or Decade Up/Down, Three-State RDD1D4 LSI Camp (696) Fairchild F4029BC (668) t F.lrclilld 54HC568 F4029BM t Fairchild 4-Decade Divlde-by-N (668) 74HC568 Filrelll" MC14029BA t Motorola (748) CD4059A t RCA Dual Synchronous Motorola MC14029BC (748) RCA CD4059AE Fairchild 20 F4518BC CD4029BC National 4-Decade, Multiplexed Output (The 926 gives carry at F4518BM t Fairchild CD4029BM t National National 6000.) MM74C925 Hitachi HD14518B (748) CD4029A tRCA MM74C926 National MC14518BA t Motorola (748) CD4029B t RCA 4-Decade Up/Down, with Timer Motorola MCl4518BC (748) RCA CD4029BE Toshiba TC5010 National CD4518BC HCC4029B tSGS CD4518BM t National TC5001 Toshiba 4-Decade HCF4029B SGS (749) CD4518B t RCA Toshiba TC5037 883/4029B tsss (749) RCA CD4518BE Toshiba 80 TC5051 SCL4029B SSS HCC4518B tSGS TC5052 Toshiba CM4029A tSOlitron 30 HCF4518B SGS Toshiba TC5053 CM4029AE SoUtron 883/4518B tsss Toshiba TC5054 TC4029B Toshiba SCL451RB sss 5-Decade, Multiplexed Output Programmable Divlde-by-N CM4518B tSolitron Hitachi Toshiba HD14534B TC5080 Solitron CM4518BE MC14534BA t Motorola See also CMOS Oscillators/Dividers and Digital-Special Toshiba TC4518B Motorola MC14534BC Binary/Decade with Two Reset Functions MM54HC390 t National Dual,4-Blt Toshiba 6-Digit TC5032 Toshiba TC5026B MM74HC390 National Dual Programmable Divide-by-N Binary/Decade (668) t Fllrcllll. Dual 54HC390 Counters, Miscellaneous Hitachi HD14022B (668) Filrelllld 74HC390 Hitachi HD14569B (739) 40 Divlde-by-8 Counter/Divider, Decoded Output CD54HC390 t RCA t Motorola MC14569BC F4022BC Fairchild (739) RCA CD74HC390 F4022BM t Fairchild 3- 112 Digit Counter to BCD Driver 90 Decoders MC14022BA t Motorola Hughes HCTR4010 Motorola MC14022BC Hughes HCTR6010 N-Blt (for I/O Interface) National CD4022BC HCMPl853 Hughes CM4102 t SOlitron CD4022BM t National Hughes HCMP1853C 3-Decade, Decoder, Driver (748) CD4022A t RCA HMMP1853 t Hughes Sanyo LC7960 (748) RCA CD4022AE HMMP1853C t Hughes 3-Decade Multiplexed Output (748) CD4022B t RCA (1468) RCA CDP1853 Fairchild F4553BC (748) RCA CD4022BE (1468) CDP1853C RCA F4553BM t Fairchild HCC4022B tSGS BCD-to-Decimal HD14533B Hitachi HCF4022B SGS (668) 54HC42 t Fllrclill. MC14553BA t Motorola 100 883/4022B tSss 73HC42 Fairchild Motorola 50 MC14553BC SCL4022B SSS Fairchild F4028BC 4- 112 Digit CounterlTlmer CM4022A tSolitron t Fairchild F4028BM ICM7236A Intersil Solitron CM4022AE HD14028B Hitachi Toshiba TC4022B 4- 1/2 Digit Up Counter MC14028BA t Motorola ICM7224 Intersi! Divlde-by-60, BCD Output (industrial time base generator) Motorola MC14028BC ICM7224A Intersi! HD14566B Hitachi t Motorola MC54HC42 Intersil ICM7225 t Motorola MC14566BA Motorola MC74HC42 Intersil ICM7225A Motorola MC14566BC . National CD4028BC 4-112 Digit Up-Down Counter/Latch/Decoder Driver, LCD CD4028BM t National Frequency Counter (735) MM74C946 N.tlolil Intersil ICM7216 MM54C42 t National (Continued) Intersil ICM7226 4-1/2 Digit Intersll ICM7236 t Military Temperature Range (- 55° to 125°C)

~

IC MASTER

1983

4-Digit, Multiplexed Output, Second Digit Counts to 6 (Maximum count 9599.) MM74C927 National

120

130

140

Q)

"'C

:J 150

(!J C

o

........

u

Q) Q)

(f)

160

170

• Typical Value Bold facl ladIClII.,ddlllolll dill II proyldl. 01 1111 pigi aoln.

453

Ie MASTER DIGITAL-CMOS (Cont'd) Function

Device

Source

Line Function

Decoders (Cont'd)" BCD-to-Decimal

C074HC139 SP74HC139 HS74C139 HS74C239 M54C139 M54C239 S74C139 S74C239 TC40H139

(Cont'd)

"

~

= r:~ Q)

"0 :J

C)

c: 0

....... ()

Q) Q)

C/) ~

Q)

....... C/)

CU

~

MM54HC42 MM74C42 MM74HC42 C04028A C04028AE C04028B C04028BE C054HC42 C074HC42 SP74HC42 HCC4028B HCF4028B 883/4028B SCl4028B CM4028A CM4028AE TC4028B TC40H042

Device

Source

Line Function

Dual2-line to 4-line Decoder/Demultiplexer

t National National National t RCA RCA t RCA RCA , t RCA RCA SPI tSGS SG~

tsss SSS j Solitron Solitron Toshiba Toshiba

BCD-to-7 Segment Decoder/Driver . MC14547BA MC14547BC

t Motorola Motorola

BCD-to-7-Segment HD14558B MC14558BA MC14558BC MM54C48 MM74C48 TC5002B

Hitachi tMotorola Motorola t National National Toshiba

Dual Binary to 1 of 4 Decoder/Demultiplexer (high) F4555BC Fairchild F4555BM t Fairchild HD14555B Hitachi MC14555BA t Motorola MC14555BC Motorola C04555B t RCA C04555BE RCA ,tSGS HCC4555B SGS ' HCF4555B 883/4555B tsss SCl4555B SSS TC4555B Toshiba Dual Binary to 1 of 4 Dec~der/DemUltiplexer (low) F4556BC Fairchild F4556BM t Fairchild MC14556BA t Motorola MC14556BC Motorola C04556B t RCA C04556BE RCA HCC4556B tSGS HCF4556B SGS 883/4556B tsss SCl4556B SSS TC4556B Toshiba

RCA SPI Supertex Supertex t Supertex t Supertex Supertex Supertex Toshiba

(Cont'd) (739) (769)

(748) (748) (748) (748) (739) 1 of 8 Strobed 883/4428B tsss (739) SCl4428B SSS (767) 10 3-line to 8-line Decoder/Demultiplexer 54HC138 t Fairchild (666) 74HC138 Fairchild (666) G74SC138 GTE Micro G74SC238 GTE Micro M054SC138 (697) t MUel M054SC238 (697) t Mltel M074SC138 Mltel (697) M074SC238 Mltel (697) MC54HC138 t Motorola MC74HC138 Motorola 20 MM54HC138 t National MM74HC138 National MM74PC138 National C054HC138 (739) t RCA C074HC138 RCA (739) ' COP1873C RCA (1467) SPI ' SP75HC138 HS74C138 Supertex HS74C238 Supertex M54C138 t Supertex M54C238 t Supertex S74C138 Supertex 30 S74C238 Supertex ' Toshiba TC40H138 (749) 3-line to 8-line Decoder/Demultiplexer with Input latches (749) G74SC137 GTE Micro

40

(749) (749)

G74SC237 M054SC137 M054SC237 M074SC137 M074SC237 MV74SC137 MV74SC237 HS74C137 HS74C237 M54C137 .'M54C237 S74C137 S74C237

Device

Source

GTE Micro t Mltel t MUel Mltel Mltel· Plessey Plessey Supertex Supertex t Supertex t Supertex Supertex Supertex .

C04514BE C04515B C04515BE C054HC4514 C074HC4514 HCC4514B HCC4515B HCF4514B HCF4515B 883/4514B 883/4515B SCl4514B SCl4515B CM4514B CM4514BE CM4515B CM4515BE TC4514B TC4515B

70

80

RCA t RCA' RCA t RCA RCA tSGS tSGS SGS SGS SSS tSSs ' SSS SSS Solitron Solitron t Solltron Solitron Toshiba Toshiba

454

(¢ont'd) (749) (749) (749) (739) (739)

140

150

4-line-to-16-line DecoderDemultiplexer 54HC154 t Fairchild 54HC4514 t Fairchild " 7~HC154 Fairchild 74HC4514 Fairchild MM54C154 t National 90 MM54HCl54 t National MM74Cl54 National MM74HCl54 National C054HC154 t RCA C074HC154 RCA 8 to 3-line Priority Encoder SP74HC148 10 to 4-line Priority Encoder MC54HC147 MC74HC147 100 SP74HC147 10-line-to-4-line Priority Encoder C054HC147 C074HC147

(697) (697) (697) (697)

(666) (666) (666) (666)

(739) 160 (739)

SPI

(769)

t Motorola Motorola SPI

(769)

t RCA

(739) (739)

RCA

Drivers Also See: Interface-Display Drivers, Memory and Peripheral Drivers 110 Bus, Bidirectional H06432-2 H06432-9

t Harris Harris

Bus, latching H06431-2 t Harris 4-Bit latch/4-to-,16-line Decoder (high) H06431-9 Hurl. , F4514BC Fairchild H06431A-2 Harris F4514BM t Fairchild H06431A-9 Harris F4515BC Fairchild Bus Separator/Driver F4515BM Dual2-line to 4-line Decoder/Demultiplexer t Fairchild H06433-2 t Harris 54HC139 t Fairchild (666) 50 HD14514B Hitachi H06433-9 Harris 74HC139 Fairchild (666) HD14515B Hitachi G74SC139 GTE Micro MC14514BA t Motorola 120 Fluorescent Display, 4-DigiU8 Segment G74SC239 GTE Micro MC14514BC Motorola COP470 National MD545C239 t Mitel MC14515BA t Motorola lCD, Dot Matrix M054SC139 (697) t Mltel MC14515BC Motorola HlCD0488 Hughes ,t Milel M054SC239 (697) MC54HC4514 t Motorola HlCD0538A Hughes M074SC139 Mllel (697) MC74HC4514 Motorola HlCD0539A Hughes M074SC239 Mllel (697) CD4514BC National HlCD0540 Hughes , MC54HC139 t Motorola CD4514BM ' t National HlCD0541 Hughes MC74HC139 Motorola 60 CD4515BC National HlCD0542 Hughes MM54HC139 t National CD4515BM t National HlCD0548 Hughes ' National , MM74HC139 MM54HC4514 t National 130 HlCD0550 Hughes MV74SC239 ' National Plessey MM74HC4514 HlCD0551 Hughes C054HC139 (739) t RCA C04514B (749) t RCA (Continued) (Continued) HlCD0607 Hughes

t Military Temperature Range (- 55° to 125°C)

Line

4-Bit latch/4-to-16-line Decoder (high)

. (1343) (1343) 170 (1343) (1343) (1343) (1343) (1343) (1343)

180

* TYPical Value , Bold facelndlcales addlllonal dall Is proylded an Ibe paue Rolld.

e IC MASTER

1983

MASTER SELECTION GUIDE DIGITAL-CMOS (Cont'd) Function

Device

Source

Drivers (Cont'd)

Line Function

Device

Source

Line Function

BCD-to-7 -Segment Latch/Decoder/Driver (Cont'd)

LCD, BCD-to-7-Segment Decoder/Driver with "Display Frequency Output" (748) C04055B t RCA (748) C04055BE RCA HCC4055B tSGS HCF4055B SGS Toshiba TC4055B LCD, BCD-to-7-Segment Decoder/Driver with Strobed· Latch Function (748) C04056B t RCA RCA (748) C04056BE HCC4056B 'tSGS HCF4056B SGS Toshiba TC4056B

MC74HC4511 CD4511BC CD4511BM MM54HC4511 MM54HC4543 MM74HC4511 MM74HC4543 C04511B C04511BE C054HC4511 C074HC4511 HCC4511B HCF4511B 883/4511B SCL4511B CM4511B CM4511BE TC4511B TC5022B TC5042B

Motorola National t National t National t National National National t RCA RCA t RCA RCA tSGS SGS tSSS SSS t Solitron Solitron Toshiba Toshiba Toshiba

Device

60 (749) (749) (739) (739)

~

IC MASTER

1983

Line

(Cont'd) HCF4013B 883/4013B SCL4013B CM4013A CM4013AE CM4013B CM4013BE TC4013B TC40H074

Quad Three-State 54HC173 74HC173 F4076BC F4076BM 10 HD14076B LCD, BCD-to-7-Segment Latch/Decoder/Driver MC14076BA Hitachi HD14543B MC14076BC 70 MC14543BA t Motorola MC54HC173 Motorola MC14543BC MC74HC173 MC54HC4543 t Motorola CD4076BC Motorola MC74HC4543 CD4076BM CD4543BC National MM54C173 Dual and Quad line Drivers-See Miscellaneous t National CD4543BM MM74C173 Dual High Voltage, Source 250 MA 883/4543B tSSS C04076B . MM74C908 National SCL4543B SSS C04076BE MM74C918 National Toshiba 20 TC4543B C054HC173 Hex Buffer/Driver, Three-State C074HC173 LCD, 4-Digit, Microprocessor Interlace (1344) H06495-2 t Harris HCC4076B ICM7211AM Intersi! H06495-9 Harris (1344) HCF4076B Intersil ICM7211M One-ot-Eight Decoder/Driver, Latcfied 883/4076B (749) C022105 RCA (1344) H06440-2 t Harris SCL4076B (749) C022105A RCA (1344) 80 H06440-9 Harris CM4076A LCD, 4-Digit Multiplex Input CM4076AE 4-Digit Display (stores segment and address data, drives Hughes HLCD0437 TC4076B 7-8 segment digits) LCD, 4-Digit, Multiplexed BCD to LCD Decoder/Driver, AC Nallonal (735) MM74C911 Quad 54HC175 Intersil ICM7211 Drive 6-Digit BCD Display (stores segment and address data, 74HC175 Intersil ICM7211A drives 7-8 segment digits) F40175BC (749) C022104 RCA Nallonal (735) MM74C912 F40175BM (749) C022104A RCA HD14175B 30 6-Digit Hex Display (stores segment and address data, Siliconix DF412 MC14175BA drives 7-segment digits) LCD, 4-Digit Serial Input (735) MC14175BC MM74C917 Nallonal HLCD0438A Hughes MC54HC175 7-Segment to BCD Converter/Driver (748) LCD,4-line C04054B t RCA MC74HC175 MM54C915 t National (748) C04054BE RCA CD40175B MM74C915 National HCC4054B tSGS MM54C175 HCF4054B SGS MM54HC175 Flip-Flops, D-Type TC4054B Toshiba MM74C175 LED, 4-Digit Multiplexed BCD or Binary to 7-Segment 54HC74 Dual t Fairchild (666) MM74HC175 Decoder/Driver (666) 74HC74 Fairchild C054HC175 Intersil ICM7212 Fairchild F4013BC C074HC175 Intersil ICM7212A SP74HC175 F4013BM t Fairchild LED, 4-Digit BCD or Binary to 7-Segment Decoder/Driver, TC40175B HD14013B Hitachi 90 Data and Digit Select Input Latches tor ~P Interlace TC40H175 MC14013BA t Motorola Intersil ICM7212AM Motorola MC14013BC F40174BC Hex 40 ICM7212M Intersil MC54HC74 t Motorola F40174BM LED, 4-Digit, 17-Segment Alphanumeric. Display with MC74HC74 Motorola HD14174B Memory, Decoder CD4013BC National MC14174BA MM74C956 National CD4013BM t National MC14174BC MM54C74 t National BCD (hexadecimal) to 7-Segment Latch/Decoder/Driver MC54HC174 Motorola MCl4495 MM54HC74 t National MC74HC174 MV4311 Plessey MM74C74 National CD40174BC 100 MM74HC74 National CD40174BM BCD-to-7-Segment Latch/Decoder/Driver National MM74PC74 MM54C174 F4511BC Fairchild (748) C04013A tRCA MM74C174 F4511BM t Fairchild (748) RCA C04013AE C040174B F4734BC t Fairchild (748) C04013B t RCA C040174BE Fairchild F4734BM (748) C04013BE RCA C054HC174 Hitachi HD14511B (739) C054HC74 C074HC174 t RCA MC14511BA t Motorola RCA (739) C074HC74 SP74HC174 MC14511BC Motorola 50 Sanyo HCC40174B LC4013B MC14513BA tMotorola (767) HCF40174B SP74HC74 SPI Motorola MC14513BC 883/4174B 110 HCC4013B MC54HC4511 t Motorola tSGS (Continued) (Continued) t Military Temperature Range (-55° to 125°C)

Source

Dual SGS tsss SSS t Solitron Solitron t Solitron Solitron Toshiba Toshiba

t

Fairchild Fairchild Fairchild t Fairchild Hitachi Motorola Motorola t Motorola Motorola National t National t National National t RCA RCA t RCA RCA tSGS SGS tSSS SSS t Solitron Solitron Toshiba

t

Fairchild Fairchild Fairchild t Fairchild Hitachi fMotorola Motorola t Motorola Motorola National t National t National National National t RCA RCA SPI Toshiba Toshiba

(665) 120 (665)

130

(748) (748) (739) (739)

140

I= ~

(666) (666)

150

Q)

"0

--:::J CJ

(739) (739) (770) 160

C

0 +-'

()

Q) Q)

Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola t Motorola National 170 t National t National National (749) t RCA RCA (749) (739) t RCA (739) t RCA (770) SPI t SGS 180 SGS tSSS (Continued)

• Typical Value Bold faci Indica lis addlllonal dala Is provided on Ihe pagl noled.

455

CI) ~

Q) +-'

(J)

ctS

2

Ie

MASTER

DIGIT AL-CMOS (Cont'd) Function

Device

Source

line Function

Flip-Flops, 0-Type (Cont'd) Hex

Q)

"'0 ~

CJ C

0 -+oJ

() Q)

Q)

en to..

Q) -+oJ

(J)

CU

~

Source

line Function

Flip-Flops, J-K Type (Cont'd)

SCL4174B TC40174B TC40H174

Device

SSS Toshiba Toshiba

AND-Gated Master-Slave CD4095B CD4095BE CD4096B . CD4096BE HCF4095B HCC4095B HCC4096B HCF4096B

t RCA RCA t RCA RCA RCA tSGS tSGS SGS

Octal, TTL Input, Three-State MM54HC4304 MM74HC4304

t National National

Dual Negative Edge-Triggered, Separate Preset and Clock SP74HC113 (768) SPI

Octal, TTL Input, Three-State, Inverting MM54HC4303 t National MM74HC4303 National

Dual Negative Edge-Triggered with Preset and Clear MC54HC112 t Motorola MC74HC112 Motorola SPI SP74HC112 (768)

Octal Three-State, Non-Inverting 54HC374 54HC574 74HC374 74HC574 G74SC374 MD54SC374 MD54SC574 MD74SC374 MD74SC574 MC54HC374 MC54HC574 MC74HC374 MC74HC574 MM54C374 MM54HC374 MM54HC574 MM74C374 MM74HC374 MM74HC574 MV74SC374 MV74SC574 CD54HC374 CD54HC574 CD74HC374 CD74HC574 SP54SC374 SP54SC574 SP74SC374 SP74SC574 HS74C374 HS74C574 M54C374 M54C574 S74C374 S74C574

(666) t Fairchild (666) t Falrcblld Fairchild (666) 30 Fllrcblld (666) GTE Micro (710) t MIIII (710) t Mllel Mllel (710) MII,I (710) t Motorola t Motorola Motorola Motorola 40 t National t National t National National National National Plessey Plessey (739) t RCA (739) 50 t RCA RCA (739) RCA (739) tSPI tSPI SPI (761) SPI (761) Supertex Supertex t Supertex t Supertex 60 Supertex Supertex

Dual

t Military Temperature Range (-55° to 125°C)

456

70

tSGS SGS tsss SSS t SOlitron Solitron Toshiba Toshiba

130

Gates, AND Dual4-lnput

F4082BC F4082BM HD14082B MC14082BA MC14082BC CD4082BC CD4082BM CD4082B CD4082BE HCC4082B HCF4082B 883/4082B SCL4082B TC4082B TC40H021

Fairchild t Fairchild Hitachi t Motorola Motorola National t National t RCA RCA tSGS SGS tSSS SSS Toshiba Toshiba

F4073BC F4073BM HD14073B MC14073BA MC14073BC MC54HC11 MC74HC11 CD4073BC CD4073BM CD4073B CD4073BE CD54HCll CD74HCll SP74HCll HCC4073B HCF4073B 883/4073B SCL4073B CM4073A CM4073AE TC40H011

Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola National t National t RCA RCA t RCA RCA SPI tSGS SGS tsss SSS t Solitron Salltron Toshiba

MC54HC107 MC54HC73 MC74HC107 MC74HC73 MM54C107 MM54C73 MM54HC107 MM74C107 MM74C73 MM74HC107 CD54HC107 CD54HC73 CD74HC107 CD74HC73 SP74HC107 SP74HC73 TC40H107 TC40H107A

t Motorola t Motorola Motorola Motorola t National t National t National National National National t RCA t RCA RCA RCA SPI SPI Toshiba Toshiba

54HC109 54HC112 54HC76 74HC109 74HC112 74HC76 F4027BC F4027BM HD14027B MC14027BA MC14027BC MC54HC109 MC54HC76 MC74HC109 MC74HC76 CD4027BC CD4027BM MM54C76 MM54HC109 MM54HCl12 MM54HC76 MM74C76 MM74HC109 MM74HCl12 MM74HC76 CD4027A CD4027AE CD4027B CD4027BE CD54HC109 CD54HC112 CD54HC76 CD74HC109 CD74HC112 CD74HC76 SP74HC109 SP74HC76

(666) t Fairchild (666) t Fairchild t Fllrcblld (666) Fairchild (666) Fairchild (666) Falrcblld (666) ,Fairchild t Fairchild 100 Hitachi t Motorola Motorola t Motorola Quad 2-lnput 54HC08 t Motorola 74HC08 Motorola F4081BC Motorola F4081BM National HD14081B t National MC14081BA t National 110 t National MC14081BC MC54HC08 t National t National MC74HC08 National CD4081BC National . CD4081BM National MM54C08 National MM54HC08 (748) MM74C08 t RCA RCA (748) MM74HC08 (748) 120 MM74PC08 t RCA RCA (748) CD4081B (739) CD4081BE t RCA (739) t RCA CD54HC08 (739) t RCA CD74HC08 RCA (739) LC4081B RCA (739) HCC4081B RCA (739) HCF4081B SPI (768) 883/4081B SPI (767) SCL4081B (Continued)

80

Triple 3-lnput (739) (739) (739) (739) (768) (767) 90

line

(Cont'd) HCC4027B HCF4027B 883/4027B SCL4027B CM4027A CM4027AE TC4027B TC7476B

(74B) (748) (748) (748)

(665) t Fairchild Fairchild . (665)

t Fairchild (666) 10 Dual wlo Preset t Fairchild (666) Fairchild (666) Falrcblld (666) t National t National National National (739) t RCA . (739) t RCA RCA (739) 20 RCA (739) Supertex Supertex t Supertex t Supertex Supertex Supertex

Source

Dual

Octal Edge-Triggered with Clear 54HC273 74HC273

Octal Three-State, Inverting 54HC534 54HC564 74HC534 74HC564 MM54HC534 MM54HC564 MM74HC534 MM74HC564 CD54HC534 CD54HC564 CD74HC534 CD74HC564 HS74C534 HS74C564 M54C534 M54C564 S74C534 S74C564

Device

140

(748) (748)

150

160 (748) (748) (740) (740) (766)

170

(665)' t Falrcblld Fairchild (665) Fairchild t Fairchild Hitachi t Motorola Motorola 180 t Motorola Motorola National t National t National t National National National National t RCA (748) 190 RCA (748) (740) t RCA RCA (740) Sanyo t SGS SGS tSSS SSS (Continued)

* Typical Value Bold faci Indlcalas additional data Is provided on tbe pagl noted.

e IC MASTER

1983

MASTER SELECTION GUIDE DIGI:T AL-CMOS (Cont'd) Function

Line Function

Source

Device

Gates, AND (Cont'd)

CD40Z3B CD40Z3BE CD40Z3UB CD40Z3UBE CD54HC10 CD74HC10 SP74HC10 HCC4023B HCF4023B 883/4023B SCl4023B CM4023A CM4023AE TC4023B TC40H010 TC7410B

(Cont'd)

t Solitron Solitron Toshiba Toshiba

Gates, NAND Dual2-lnput (Driver) CD40107B CD40107BE HCC40107B HCF40107B

t RCA RCA tSGS SGS

Dual4-lnput Expandable 883/4412B SCl4412B

tSSS SSS

Dual4-lnput

54HCZO 74HCZO F4012BC F4012BM HD14012B MC14012BA MC14012BC MC14012UBA MC14012UBC MC54HC20 MC74HC20 CD4012A CD4012BC CD4012BM MM54C20 MM74C20 CD401ZA CD401ZAE CD401ZB CD40UBE CD4012UB CD4012UBE CD54HCZO CD74HC20 SP74HCZO HCC4012B HCF4012B 883/4012B SCl4012B CM4012A CM4012AE TC4012B TC40H020 TC7420B

t

54HC10 74HC10 F4023BC F4023BM HD14023B MC14023BA MC14023BC MC14023UBA MC14023UBC MC54HC10 MC74HC10 CD4023BC CD4023BM MM54Cl0 MM54HC10 MM54HC20 MM74Cl0 MM74HC10 MM74HC20 CD40Z3A CD40Z3AE

t

Triple 3-lnput

Fairchild Falrcblld Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola t Motorola Motorola National National t National t National National t RCA RCA t RCA RCA t RCA RCA t RCA RCA SPI tSGS SGS tSSS SSS t Solitron SOlitron Toshiba Toshiba Toshiba

t t t t

' t t

t t

t

IC MASTER

1983

10 (665) (665)

Quad 2-lnput (open drain) MC54HC03 MC74HC03 TC5029B TC5030B Quad 2-lnput

20

(748) (748) (748) (748) 30 (748) (748) (740) (740) (766)

40

(665) Fairchild (665) Fairchild Fairchild Fairchild Hitachi 50 Motorola Motorola Motorola Motorola Motorola Motorola National National National 8-lnput National 60 National National National National (748) RCA RCA (748) (Continued)

t Military Temperature Range (- 55° to 125°C)

(C)

(749) (749)

line Function

Source

Triple 3-lnput

Quad 2-lnput CM4081A CM4081AE TC4081B TC40HOO8

Device

t RCA RCA RCA RCA t RCA RCA SPI tSGS SGS tSSS SSS t Solitron Solitron Toshiba Toshiba Toshiba

t

(Cont'd) 8-lnput (748) (748) (748) (748) (740) 70 (740) (766)

80

t Motorola Motorola Toshiba Toshiba

54HCOO 74HCOO F4011BC F4011BM HD14011B MC14011BA MC14011BC MC14011UBA MC14011UBC MC54HCOO MC74HCOO CD4011AC CD4011AM CD4011BC CD4011BM ' MM54COO MM54HCOO MM74COO MM74HCOO MM74PCOO CD4011A CD4011AE CD4011B CD4011BE CD4011UB CD4011UBE CD54HCOO CD74HCOO lC4011B SP74HCOO HCC4011B HCF4011B 883/4011B 883/4011UB SCl4011B SCl4011UB CM4011A CM4011AE CM4011B CM4011BE TC4011B TC4011UB TC40HOOO TC7400B

t Fairchild

54HC30 74HC30 F4068BC F4068BM HD14068B MC14068BA MC14068BC

t Fairchild

Fairchild Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola t Motorola Motorola National t National National t National t National t National National National National RCA RCA t RCA RCA t RCA RCA t RCA RCA Sanyo SPI tSGS SGS tSSS tSSS SSS SSS t Solitron Solitron t Solitron Solitron Toshiba Toshiba Toshiba Toshiba

13-lnput (665) (665)

90

Device

54HC133 74HC133 MM54HC133 MM74HC133 CD54HC133 CD74HC133

(748) (748) (748) (748) (748) 110 (748) (740) (740)

F4019BC F4019BM HD14519B CD4019BC CD4019BM CD4019A CD4019AE CD4019B CD4019BE HCC4019B HCF4019B 883/4019B SCl4019B CM4019A CM4019AE TC4019B

2-Wide, 2-lnpuU2-Wide, 3-lnput MC54HC58 MC74HC58

(766)

t Motorola Motorola t National t National National National t RCA RCA t RCA RCA SPI tSGS SGS tSSS SSS t Solitron Solitron Toshiba

t

140

(748) (748) (740) (740) (767)

150

Fairchild Fairchild t National National t RCA RCA

(665) (665)

t

(748) (748)

(740) (740) 160

Gates, AND-OR

Quad Select 100

Line

(Cont'd) MC54HC30 MC74HC30 MM54C30 MM54HC30 MM74C30 MM74HC30 CD4068B CD4068BE CD54HC30 CD74HC30 SP74HC30 HCC4068B HCF4068B 883/4068B SCl4068B CM4068A CM4068AE TC4068B

Triple Bi-Phase Pairs , CD4037A CD4037AE CM4037A CM4037AE

(733) (733)

Source

RCA RCA t Solitron Solitron

Fairchild t Fairchild Hitachi National t National t RCA RCA t RCA RCA tSGS SGS tSSS SSS t Solitron Solitron Toshiba

(748) (748) (748) (748) Q)

"0 ::::l

(9 C 180

0 +-'

()

Q)

t Motorola Motorola

Q)

(f)

Gates, AND-OR-Invert

lo-

Q)

120

Dual 2-Wide 2-lnput F4085BC F4085BM HD14506B MC14506BA MC14506BC CD4085B CD4085BE HCC4085B HCF4085B (665) 130 883/4085B (665) SCl4085B TC4085B TC40H051

Fairchild Fairchild t Fairchild Hitachi t Motorola Motorola (Continued)

2-Wide, 2-lnput/2-Wide, 3-lnput MC54HC51 MC74HC51

+-'

Fairchild Fairchild Hitachi t Motorola Motorola t RCA RCA tSGS SGS tSSS SSS Toshiba Toshiba

en

('Ij

2 (748) (748) 190

t Motorola Motorola

• Typical Value Bold face Indicates addillonal data Is provided on the page noted.

457

Ie

MASTER

DIGITAL-CMOS (Cont'd) Function

Device

Source

line Function

Gates, AND-OR-Invert (Cont'd) 4-Wide 2-lnput Expandable F4086BC F4086BM CD4086B CD4086BE HCC4086B HCF4086B 883/4086B SCL4086B TC4086B

Fairchild t Fairchild t RCA RCA tSGS SGS tsss SSS Toshiba

(748) (748)

Q)

"0 ::J

(9

Quad 2-lnput

C

0 +-'

()

Q) Q)

en 10....

Q) +-'

C/)

ctS

~

F4072BC F4072BM HD14072B MC14072BA MC14072BC CD4072BC CD4072BM CD4072B CD4072BE HCC4072B HCF4072B 883/4072B SCL4072B TC4072B

Fairchild t Fairchild Hitachi t Motorola Motorola National t National t RCA RCA tSGS SGS tSSS SSS Toshiba

F4075BC F4075BM HD14075B MC14075BA MC14075BC MC54HC4075 MC74HC4075 CD4075BC CD4075BM MM54HC266 MM74HC266 CD4075B CD4075BE HCC4075B HCF4075B 883/4075B SCL4075B TC4075B

Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola National t National t National National t RCA RCA tSGS SGS tSSS SSS Toshiba

54HC32 74HC32 F4071BC F4071BM HD14071B MC14071BA MC14071BC MC54HC32 MC74HC32 CD4071BC CD4071BM MM54C32 MM54HC32 MM74C32 . MM74HC32 CD4071B CD4071BE CD54HC32 CD74HC32 LC4071B SP74HC32 HCC4071B HCF4071B 883/4071B SCL4071B CM4071A

t Fairchild

Solitron Toshiba Toshiba

Dual3-lnput plus Inverter MC14000UBA MC14000UBC CD4000C CD4000M CD4000A CD4000AE CD4000B 10 CD4000BE CD4000UB CD4000UBE HCC4000B HCF4000B 883/4000B SCL4000B . CM4000A CM4000AE 20

Dual4-lnput

70

30

(748) (748)

40

t Motorola

(729) Motorola (729) National t National t RCA (407.748) RCA (407.748) RCA (407,748) Quad 2-lnput RCA (407.748) t RCA (407.748) RCA (407.748) 80 tSGS SGS tSSS SSS Solitron Solitron

F4002BC F4002BM HD14002B MC14002BA MC14002BC MC14002UBA MC14002UBC MC54HC4002 MC74HC4002 CD4002A CD4002BC CD4002BM MM54HC4002 MM74HC4002 CD4002A CD4002AE CD4002B CD4002BE CD4002UB CD4002UBE CD54HC4002 to74HC4002 HCC4002B HCF4oo2B 883/4002B SCL4002B CM4002A CM4002AE TC4002B

Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola' Motorola t Motorola Motorola National National t National t National National t RCA RCA t RCA RCA t RCA RCA t RCA RCA t SGS SGS tSSS SSS t Solitron Solitron Toshiba

54HC27 74HC27 F4025BC F4025BM HD14025B MC14025BA MC14025BC MC14025UBA MC14025UBC MC54HC27 MC74HC27 CD4025A CD4025BC CD4025BM MM54HC27 MM74HC27 CD4025A CD4025AE CD4025B CD4025BE

t Fairchild Fairchild Fairchild

Device

Source

Triple 3-lnput

Gates, NOR

(665) Fairchild (665) Fairchild t Fairchild Hitachi f Motorola Motorola Triple 3-lnput t Motorola Motorola 50 National t National t National t National National National (748) t RCA RCA (748) (740) t RCA RCA (740) 60 Sanyo SPI ' (767) tSGS SGS tsss SSS t Solitron (Continued)

t Military Temperature Range (- 55° to 125°C)

458

(748) (748)

. line Function

Source

(Cont'd) CM4071AE TC4071B TC40H032

Gates, OR Dual4-lnput

Device

Quad 2-lnput

90

100 (748) (748) (748) (748) (748) (748) (740) (740) 110

(665) (665)

tFairch~d

Hitachi 120 t Motorola Motorola t Motorola Motorola t Motorola Motorola National National t National t National 130 National (748) t RCA RCA (748) (748) t RCA RCA (748) (Continued)

8-lnput

CD4025UB CD4025UBE CD54HC27 CD74HC27 SP74HC27 HCC4025B HCF4025B' 883/4025B SCL4025B CM4025A CM4025AE TC4025B TC40H027

t RCA

54HC02 74HC02 F4001BC F4001BM HD14001B MC14001BA MC14001BC MC14001UBA MC14001UBC MC54HC02 MC74HC02 CD4001A CD4001BC CD4001BM MM54C02 MM54HC02 MM74C02 MM74HC02 MM74PC02 CD400lA CD4001AE CD4001B CD4001BE CD4001UB CD4001UBE CD54HC02 CD74HC02 LC4001B SP74HC02 HCC4001B HCF4001B 883/4001B 883/4001UB SCL4001B SCL4001UB CM4oo1A CM4001AE CM4oo1B CM4001BE TC4001B TC4001UB TC40H002

t Fairchild

RCA

t RCA RCA SPI tSGS SGS tSSS SSS Solitron Solitron Toshiba Toshiba

F4078BC F4078BM HD14078B MC14078BA MC14078BC MC54HC407B MC74HC4078 . MM54HC4018 MM74HC4018 CD4078B CD4078BE HCC4078B HCF4078B 883/4078B SCL4078B 883/4402B CM4078A

line

(Cont'd) (748) (748) (740) (740) (766) 140

Fairchild Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola t Motorola Motorola National National t National t National t National National National National t RCA RCA t RCA RCA t RCA RCA t RCA RCA Sanyo SPI tSGS SGS tsss tsss SSS SSS t Solitron Solitron t Solitron SOlitron Toshiba Toshiba Toshiba

(665) (665) 150

160

(748) (748) (748) 170 (748) (748) (748) (740) (740) (766)

180

190

Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola t National National (748) 200 t RCA RCA (748) tSGS SGS tSss SSS t Solitron t Solitron (Continued)

• Typical Value Bold fac. Indlcales additional dall Is provided on lh. plge noled.

~

IC MASTER

1983

. MASTER SELECTION GUIDE DIGITAL-CMOS (Cont'd) Function

line Function

Source

Device

CM4078AE SCl4402B TC4078B

Solitron Solitron Toshiba

t

Fairchild Fairchild Fairchild t Fairchild Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola National National t National National t National t National t National National National t RCA RCA t RCA RCA t RCA RCA t RCA RCA SPI tSGS tSGS SGS SGS tSSS tSSS SSS SSS t Solitron Solitron t Solitron Solitron Toshiba

(665) (665)

Fairchild t Fairchild Hitachi t Motorola Motorola t Motorola Motorola t RCA RCA t RCA RCA SPI tSGS SGS tSSS SSS t Solitron Solitron

t Military Temperature Range (-55° to 125°C)

co IC MASTER

1983

t Motorola Motorola

Source

CM4042AE TC4042B

Solitron Toshiba

F4044BC F4044BM HD14044B MC14044BA MC14044BC CD4044A CD4044BC CD4044BM CD4044A CD4044A/B CD4044A1BE CD4044AE CD4044B HCC4044B HCF4044B 883/4044B SCl4044B . CM4044A TC4044B

Fairchild t Fairchild Hitachi t Motorola Motorola National National t National t RCA t RCA RCA RCA RCA tSGS SGS tSSS SSS t Solitron Toshiba

F4043BC F4043BM HD14043B MC14043BA MC14043BC CD4043A CD4043BC CD4043BM CD4043A CD4043AE C04043B CD4043BE HCC4043B HCF4043B 883/4043B SCl4043B CM4043A CM4043AE TC4043B

Fairchild t Fairchild Hitachi t Motorola Motorola National National t National t RCA RCA t RCA RCA tSGS SGS t SSS SSS t Solitron Solitron Toshiba

Line

Quad NAND R/S

Hex Function (Quad inverter plus 2-input NOR gate plus 2input NAND gate) Hitachi HD14572 MC14572A t Motorola Motorola MC14572C 8-lnput Expandable Multifunction 10 CD4048BC CD4048BM CD4048A CD4048AE CD4048B CD4048BE HCC4048B HCF4048B 883/4402B SCl4402B CM4048A 20 CM4048AE

National t National t RCA RCA t RCA RCA tSGS SGS tsss SSS t Solitron Solitron

70

(748) (748) (748) (748)

80 Quad NOR R/S

Latches (748) Dual 4-Bit Addressable (748) F4723BC (748) F4723BM CD4723BC (748) CD4723BM (748) (748) HD14508B Dual4-Bit (740) 30 MC14508BA MC14508BC (740) MC54HC77 (767) MC74HC77 MN1201 CD4508B CD4508BE HCC4508B HCF4058B 883/4508B SCl4508B 40 CM4508 TC4508B Quad, Bistable TC40H375 Quad Clocked D

Gates, Exclusive NOR F4077BC F4077BM HD14077B MC14077BA MC14077BC MC54HC266 MC74HC266 CD4071B CD4071BE CD54HC266 CD74HC266 SP74HC266 HCC4077B HCF4077B 883/4077B SCl4077B CM4077A CM4077AE

Device

Quad Clocked D

Triple (duaI4-input NAND and 2-input ORINOR) HD14501 Hitachi MC14501UBA t Motorola Motorola MC14501UBC

Gates, Exclusive OR

Quad

Line Function

(Cont'd) Dual 5-lnput Majority logic MC14530BA MC14530BC

(Cont'd)

8-lnput

.54HC86 74HC86 F4030BC F4030BM F4070BC f4070BM HD14070B MC14070BA MC14070BC MC54HC86 MC74HC86 CD4030A CD4070BC CD4070BM CD4507BC CD4507BM MM54C86 MM54HC86 MM74C86 MM74HC86 CD4030A CD4030AE CD4030B CD4030BE CD4070B CD4070BE CD54HC86 CD74HC86 SP74HC86 HCC4030B HCC4070B HCF4030B HCF4070B 883/4030B 883/4070B SCl4030B SCl4070B CM4030A CM4030AE CM4070A CM4070AE TC4030B

Source

Gates, Miscellaneous

Gates, NOR (Cont'd)

Quad

Device

50

(748) (748) (740) (740) (771)

60

54HC75 74HC75 F4042BC . F4042BM HD14042B MC14042BA MC14042BC MC54HC75 MC74HC75 CD4042BC CD4042BM MM54HC75 MM74HC75 CD4042A CD4042AE CD4042B CD4042BE HCC4042B HCF4042B 883/4042B SCl4042B CM4042A

Fairchild t Fairchild National National Hitachi t Motorola Motorola tMotorola Motorola Panasonic t RCA RCA tSGS SGS tSSS SSS Solitron Toshiba

90

(749) (749)

130

(748) (748) (748) (748) (748) 140

150

(748) (748) (748) (748)

160

Octal Transparent, D-Type, Three State 54HC373 t Fairchild (665) (665) 54HC573 t Fairchild (665) 74HC373 Fairchild 100 74HC573 Fairchild (665) G74SC373 GTE Micro Toshiba (710) 170 MD54SC373 t Mltal (710) MD54SC573 t Mltal Mltel (710) MD74SC573 t Fairchild (665) (665) MC54HC373 t Motorola Fairchild MC54HC573 t Motorola Fairchild MC74HC373 Motorola t Fairchild Motorola MC74HC573 Hitachi MM54HC373 t National t Motorola MM54HC573 t National Motorola MM74HC373 National 110 t Motorola 180 MM74HC573 National Motorola Plessey National MV74SC573 (739) CD54HC373 t National t RCA (739) CD54HC573 t RCA t National (739) CD74HC373 RCA National (739) CD74HC573 RCA (748) t RCA (748) SP54SC373 RCA tSPI SP54SC573 (748) tSPI t RCA (761) SP74SC373 SPI RCA (748) (761) SP74SC573 SPI 120 t SGS HS74C373 Supertex 190 SGS Supertex HS74C573 tSSS M54C373 t Supertex SSS M54C573 t Supertex t Solitron (Continued) (Continued)

• Typical Value Bold facelndlcalal addlllonal dala II provided on Iba paga nolad.

459

.......

t)

Q.) Q.)

(f)

Ie MASTER DIGITAL-CMOS (Cont'd) Function

Device

Source

Line Function

Latches (Cont'd) Octal Transparent, D-Type, Three State (Cont'd) S74C373 S74C573 TC40H373

I i

~

!

(1.)

"'0 :::J

(9 C

0

....... ()

Q) (1.)

C/) io-

(1.)

....... en

ro

~

Device

Source

Line Function

8-Blt Addressable (serial in, parallel out)

Supertex Supertex Toshiba

Octal Transparent, Three-State, Inverted Output 54HC533 t Fllrehlld 54HC563 t Fllrehlld 74HC533 Fllrchlld 74HC563 Fllrcblld MD54SC533 t Mltel MD54SC563 t Mltel MD74SC373 Mltel MD74SC533 Mltel MD74SC563 Mltel MC54HC533 t Motorola MC54HC563 t Motorola MC74HC533 Motorola MC74HC563 Motorola MM54HC533 t National MM54HC563 t National MM74HC533 National MM74HC563 National MV74SC533 Plessey MV74SC563 Plessey CD54HC533 t RCA CD54HC563 t RCA CD74HC533 RCA CD74HC563 RCA HS74C533 Supertex HS74C563 Supertex M54C533 t Supertex M54C563 t Supertex S74C533 Supertex S74C563 Supertex

CD74HC259 HCC4099B HCF4099B 883/4099B SCL4099B TC4099B TC40H259

RCA tSGS SGS tsss SSS Toshiba Toshiba

Device

Source

(Cont'd) (739)

(Cont'd) F4720M HD14537 MCM14537A MCM14537C . MM54C200 MM74C2OO CD40061 CD40061A CD4061A

(665) (665) 8-Bit, Counter, Incremented Input, Parallel Output, Three(665) State MC14597BA t Motorola 70 (665) MC14597BC Motorola 256 cBlt RAM (32x8) (710) HCMP1824 (710) Memories HCMP1824C (710) 10 HMMP1824 For additional information see Master Selection Guide(710) HMMP1824C Memory Sections. (710) CDP1824 16-Bit FIFO (4x4) CDP1824C CD40105B (749) t RCA 256-Bit RAM (64x4) CD40105BE RCA (749) MCM14552A HCC40105B tSGS MCM14552C HCF40105B SGS COP498 16-Bit Multiport Register File (4x4 read while write RAM) MM54C910 HD14580B Hitachi MM74C910 20 MC14580BA t Motorola 768-Bit RAM (64x12) MC14580BC Motorola IM6512 CD40108B (749) 80 t RCA IM6512M (739) CD40108BE RCA (749) (739) CD40208B (749) 1024-Bit PROM (256x4) t RCA (739) HM6611 CD402088E RCA (749) (739) HCC40208B tSGS 1024-Bit RAM (1024x1) HCF40208B SGS S23128 S4264 32-Blt RAM (binary addressing) CD4036A (3875) S6504 t RCA 30 CD4036AE RCA (3875) S6508 CM4036A t Salitron S6508A CM4036AE t SOlitron S6516 Octal, TTL Input, Three-State TC4036B Toshiba 90 S6528 MM54HC4302 t National S68B364 32-Bit RAM (direct word line addressing) MM74HC4302 National F4736BC CD4039A (3875) t RCA Octal, TTL Input, Three-State, Inverting F4736BM CD4039AE RCA (3875) MM54HC4301 t National HM6508 CM4039A t SOlitron MM74HC4301 National CM4039AE SOlitron HM6518 TC4039B Toshiba 8-Blt Addressable, Bidirectional Data Port (serialln/out and parailel out) 64-Bit FIFO (16x4) MCM6508 MC14599BA t Motorola F4703BC Fairchild MCM6518 MC14599BC Motorola F4703BM t Fairchild MM54C929 8-Bit Addressable Input, Parallel Output, Three-State 64-Bit Program Stack (16x4 LIFO) MM54C930 MC14598BA t Motorola F4706BC Fairchild MM74C929 MC14598BC Motorola 40 F4706BM t Fairchild MM74C930 8-Bit Addressable (serial in, parallel out) 64-Bit RAM (16x4) NMC6508 54HC259 t Fairchild (665) F4725BC Fairchild 100 NMC6516 74HC259 Fairchild (665) F4725BM t Fairchild NMC6518 F4724BC Fairchild MM54C89 t National CDP1821 F4724BM t Fairchild MM74C89 ' National SCM21C02 HD14099B Hitachi CD40114B (3874) t RCA TC5508 MC14099BA t Motorola CD40114BE RCA (3B74) 1024-Bit RAM (128x8) MC14099BC Motorola 64-Bit RAM (16x4 clocked RAM. three state output CDP1823 MC54HC259 t Motorola register) F4710BC Fairchild MC74HC259 Motorola 1024-Bit RAM (256x4) F4710BM t Fairchild CD4099BC National 50 S5101l 64-Bit RAM (64x1) CD4099BM t National F4721BC MCM14505A t Motorola CD4724BC National F4721BM f MCM14505C Motorola CD4724BM t National HM6551 256K Synchronous RAM Module MM54HC259 t National HM6641 Harris MM54HC77 t National HM6561 (669.1333,3783) 110 MM74HC259 National MM74HC77 CD4099B CD4099BE CD4724B CD4724BE CD54HC259

256-Bit RAM (256x1) National WD74HC200 (749) tHCA RCA (749) 256-Bit RAM (256x1) (749) 60 t RCA F4720AC RCA (749) F4720AM (739) t RCA F4720C (Continued)

t Military Temperature Range (- 55° to 125°C)

460

Western

Line

256-Blt RAM (256x1)

(3997)

fairchild

t Fairchild Fairchild (Continued)

HM6562 HM435101 HCMP1822C HMMP1822C MCM5101 MM54C920

t Fairchild Hitachi t Motorola Motorola t National National RCA t RCA t RCA

(3874) (3874) (3874)

Hughes Hughes t Hughes t Hughes t RCA t RCA

(3874) (3874)

120

t Motorola

130

Motorola National t National National Intersil

t Intersil t Harris AMI (3610) AMI AMI 140 AMI AMI AMI AMI AMI Fairchild t Fairchild' Harris (669.1333.3754) Harris (669.1333.3756) Motorola 150 Motorola t National t National National National National National National RCA (3874) SSS 160 Toshiba RCA

(3874)

AMI (3614) Fairchild Fairchild Hurls (669,1333.3758) Harris (669.1333.3760) Harris Hitachi Hughes 170 t Hughes Motorola t National (Continued)

• Typical Value BDl. rael Indicates addltloaal .ata Is provldld on t~1 paal lOtH.

~

IC MASTER

1983

MASTER SELECTION GUIDE DIGITAL-CMOS (Cont'd) Function

Source

Device

Memories (Cont'd)

1024-Bit ROM (256x4) MCM14524A MCM14524C 2048-Bit ROM (256x8) F4735BC F4735BM

(Cont'd) t National National National National 16384-Bit ROM (2048x8) National G5316 NEC-Micro HCMP1835 (3874) t RCA HCMP1835C (3874) HCMP1836 t RCA HCMP1836C tsss HMMP1835 Toshiba 10 HMMP1835C HMMP1836 t Motorola (3840) HMMP1836C Motorola (3840) CDP1835 CDP1835C Fairchild SCM23C16 t Fairchild

4096-Bit RAM (1024x4) SRM2114 SRM6514 4096-Bit RAM (1024x4) G5114 HM4334 NMC6414 ItPD445l M8M5114 M8M5115 CDP1825 CDP1825C CM2114 TC5047A 4096-Bit RAM (4096x1) SRM6504 4096-Bit RAM (4096x1) HM4315 HM6147 NMC6504 M8M5104 TC5504 4096-Bit ROM (512x8) HCMP1831 HCMP1831C HCMP1832 HCMP1832C HMMP1831 HMMP1831C HMMP1832 HMMP1832C CDP1831 CDP1831C CDP1832 CDP1832C 8192-Bit ROM (1024x8) HCMP1833 HCMP1833C HCMP1834 HCMP1834C HMMP1833 HMMP1833C HMMP1834 HMMP1834C CDP1.833 CDP1833C CDP1834 CDP1834C 16384-Bit RAM M8M5128

t t t t t t t t

t t t t t t t t

1983

Source

Line Function

Device

Source

Line

Quad 2-lnput Data Selector, Three-State Epson Epson Epson Epson Epson Epson

60

CD40257BE CD54HC257 CD74HC257 8P74HC257 HCC40257B HCF40257B

RCA t RCA RCA 8PI tSGS SGS

GTE Micro Quad 2-lnput, Inverting, Three-State Hughes 8P74HC258 8PI Hughes 4-Bit AND/OR Selector Hughes F4519BC Fairchild Hughes F4519BM t Fairchild t Hughes HD14519 Hitachi 70 t Hughes MC14519BA t Motorola t Hughes MC14519BC Motorola t Hughes CD4519BC National (3876) t RCA CD4519BM t National (3876) t RCA 8-Channel 54HC151 t Fairchild SSS Fairchild 74HC151 MM54C151 t National Multiplexers (Digital) MM54HC151 t National Epson See also Interface-Analog Switches, Multiplexers MM74C151 National Epson DuaI4-Channel, Three-State MM74HC151 National (666) 54HC253 t Fairchild CD54HC151 t RCA GTE Micro Fairchild (666) 74HC253 CD74HC151 RCA Hitachi (3789) Toshiba TC40H151 Dual4-Channel National Fairchild F4539BC 8-Channel Data Selector NEC-Micro 20 80 F4539BM t Fairchild F4512BC Fairchild (3873) OKI HD14539B Hitachi F4512BM t Fairchild (3873) OKI MC14539BA t Motorola HD14512 Hitachi RCA Motorola MC14539BC MC14512A t Motorola RCA MC54HC153 t Motorola Motorola MC14512C Supertex Motorola MC74HC153 CD4512BC National Toshiba (769) 8P74HC153 8PI CD4512BM t National Toshiba TC40H153 CD4512B t RCA Toshiba TC4539B Epson CD4512BE RCA DuaI4-lnput, Three-State HCC4512B tSGS MC54HC253 t Motorola HCF4512B SGS Hitachi (3789) Motorola 90 MC74HC253 883/4512B tsss HltlChl (3789) MM54HC253 t National SCl4512B SSS National 30 MM74HC253 National TC4512B Toshiba (3873) OKI (771) 8P74HC253 8PI 8-Channel Differential Multiplexer/Demultiplexer Toshiba Dual4-lnput MM54HC153 t National MC14067BA t Motorola National MM74HC153 MC14067BC Motorola Hughes (740) CD54HC153 t RCA 8-Channel, Three-State Hughes (740) CD74HC153 RCA 54HC153 t Fairchild Hughes Quad 2-lnput Data Selector 54HC251 t Fairchild Hughes MC54HC157 t Motorola 54HC4512 t Fairchild Hughes Motorola MC74HC157 74HC153 Fairchild Hughes 100 MM54C157 t National 74HC251 Fairchild Hughes MM54HC157 t National Fairchild 74HC4512 40 Hughes MM54HC158 t National 8-lnput with latch, Three-State (3876) RCA National MM74C157 MM54HC354 t National (3876) RCA National MM74HC157 MM54HC356 t National RCA National MM74HC158 . National MM74HC354 8P74HC157 8PI (769) RCA MM74HC356 National Toshiba TC40H157 8-lnput, Three State Quad 2-lnput Data Selector, Inverting Hughes CD54HC354 t RCA MC54HC158 t Motorola Hughes CD54HC356 t RCA Motorola MC74HC158 Hughes CD74HC354 RCA (769) 110 8P74HC158 8PI Hughes CD74HC356 RCA TC40H158 Toshiba Hughes 8-lnput, Three-State Quad 2-lnput Data Selector, Three-State 50 Hughes MC54HC251 t Motorola 54HC257 t Fairchild (666) Hughes MC54HC354 t Motorola Fairchild (666) 74HC257 Hughes t Motorola MC54HC356 MC54HC257 t Motorola (3876) RCA Motorola MC74HC251 Motorola MC74HC257 (3876) RCA Motorola MC74HC354 MM54HC257 t National (3877) RCA MC74HC356 Motorola MM74HC257 National (3877) RCA CD54HC251 t RCA (749) CD40257B t RCA CD74HC251 RCA ' (3873) (Continued) OKI

t Military Temperature Range (- 55° to 125°C)

co IC MASTER

Device

16384-Bit ROM (2048x8) SRM2016C20 SRM2016C25 SRM2017C20 SRM2017C25 SRM2018C20 SRM2018C25

1024-Bit RAM (256x4) MM54C921 MM74C920 MM74C921 NMC6551 NMC6552 ItPD5101l CDP1822 CDP1822C SCM5101 TC5501

Line Function

(Cont'd) (749) (740) 120 .(740) (771)

(771)

130

(666) (666)

(740) (740) 140

(749) (749) 150

IC MASTER 1983

MASTER SELECTION GUIDE DIGITAl-ECl (Cont'd) Function

Line Function

Source

Device

10000 Series Memories (Cont'd)

MB7072E MB7072N MBM10422E MBM10422H MBM10422N HM2120 DM10422

Fujitsu Fujitsu Fujitsu Fujitsu Fujitsu Hitachi Nillonil

~PB10144

RAM (256x4)

F100415A

RAM (1024x1)

F10415 F10415A F10474C HM2110 HM2112 MCM10146 MCM10415A MCM10546 DM10415 10415 RAM (4096x1)

MBM10470A-15

RAM (4096x1)

Monostable

R110144 SN10144

DM10414

F10470 MBM10470A-20 HM2140 HM2142 DM10470 DM10470A DM10470L

NII/onll NII/ODII NII/ODII Fairchild

Multiplexers (Digital) F10174 F10574 MC10174 , MC10574 MC10H174 10174 SN10174

Quad 2 to 1 (Inverting with enable) F10159 F10559 MC10159 MC10559 10159 Quad 2 to 1 (non-inverting) F10158 F10558 MC10158 MC10558 10158 F10164 F10564 MC10164 MC10564 MC10Hl64 10164 SN10164

Fairchild t Fairchild Motorola t Motorola Motorola Signetics TI Fairchild

t Fairchild Motorola t Molorola . Signetlcs Fairchild t Fairchild Motorola t Motorola Signetics Fairchild

t Fairchild Motorola t Motorola Moloroll Signetics TI

t Military Temperature Range (- 55° to 125°C)

c

MC10198

F10000C

4-Bit Universal F10141 FlO541 MC10141 MC10541 MC10H141 10141

(3681) (3681) (3681) (3681) (3681)

Quad Differential line Receiver F10115 F10515 MC10115 MC10515 10115 60

10

Fairchild Fairchild

t Fairchild Motorola

t Motorola Motorola Signetics

8-lnput Priority Encoder F10165 F10565 MC10165 MC10565 10165

(730)

Translators

(3854)

(3855) Hex ECl to MST MC10191 (3855) MC10591 (3855) 30

IC MASTER 1983

Source

Quad Bus Receiver MC10129 10129

Motorola

Shift Registers 4-Bit

Device

9-Bit Parity Circuit (2 carry inputs) F10570 MC10170 12-Bit Parity Generator/Checker F10160 F10560 MC10160 MC10560 MC10H160 10160 70

line

Motorola Signetics Fairchild

t Fairchild Motorola

110

t Motorola Signetics Fairchild

t Fairchild Motorola

t Motorola Signetics

t Fairchild Motorola Fairchild

120

t Fairchild Motorola

t Motorola Moloroll Signetics

(730)

95000 Series Counters Binary

F95016

Fairchild

Decade

F95010

Fairchild

Flip-Flops, D-Type Dual Master-Slave F95231

Motorola

80

t Motorola

Fairchild

Flip-Flops, J-K Type F95029

F10480

8to 1

line Function

Dual ECl to MOSITTl Fllrcblld MC75358 Motorola (3615.3625) MC75368 Motorola Fllrcblld Triple ECl to NMOS (3615.3618) F10m Fairchild Fllrcblld Motorola MC10177 (3615.3618) Fllrcblld Quad Differential Receiver/MST to ECl (3615.3622) MC10190 Motorola Hllacbl (3789) MC10590 t Motorola Hllichl (3789) Quad ECl to TIL (differential input) Moloroll (3839) F10125 Fairchild Moloroll (3839) t Fairchild F10525 t Motorola 20 MC10.125 Motorola National MC10525 t Motorola Signetics Signetics 10125 (3681) FuJllsu Quad TIL to ECl ORINOR F10124 Fairchild Fllrcblld F10524 t Fairchild (3615.3621) MC10124 Motorola (3681) FaJllsu MC10524 t Motorola Hitachi 10124 Signetics Hitachi

RAM (16384x1)

Dual 4 to 1

Source

Multivibrators . (Cont'd) National NEC-Electron Raytheon TI

RAM (256x1)

Device

Fairchild

Miscellaneous Active Terminator F10014C F10014M Error Detection/Correction Circuit MC10163 MC10193 MC10563 MC10593 MC10905 Micro-Code Sequencer MC10904 40 Dual Simultaneous Bus Transceiver MC10194 MC10594 Triple Differential line Receiver F10114 F10116 F10514 F10516 MC10114 MC10116 MC10216 MC10514 50 MC10516 MC10616 MC10H116 (730) DM10116 10114 10116

Gates, OR Fairchild t Fairchild Motorola Motorola t Motorola t Motorola Motorola

Fairchild

Quad 2-lnput (3 OR, 1 ORINOR) F95103

Fairchild

130

Gates, NOR

Motorola Motorola t Motorola Fairchild Fairchild t Fairchild t Fairchild Motorola Motorola Motorola t Motorola t Motorola t Motorola Molorola National Signetics Signetics

Dual3-lnput 3-0utput (line driver) F95110

-+-'

() (J)

Dual3-lnput 3-0utput (line driver) F95111

FairChild

Triple 4-3-3 Input F95106

Fairchild

90 Quad 2-lnput (with enable) F95004 Quad 2-lnput (3 NOR, 1 OR/NOR) F95102

(J)

(f)

Fairchild FairChild

Gates, OR/NOR

100 (730)

Dual4-lnput (with enable) F95002

Fairchild

Dual 4-5 Input

Fairchild

F95109

Triple 2-lnput (with enable) F95003

FairChild

Triple 2-3-2 Input F95105

Fairchild

Quad 2-lnput (one input common) F95101

FairChild

140

* Typical Value Bold flCI Indlcilis Idd/llODl1 dill Is provldld aD Ibe paUl Dolld.

469

Ie MASTER DIGITAl-ECl (Cont'd) Function

Device

Source

Line FUnction

95000 Series Gates, OR/NOR (Cont'd)

Hex

Device

Source

Fl00151 100151

Fairchild Signetics

Line Function

(658)

Gates, AND-OR-Invert Gates, Exclusive OR/NOR Triple 2-lnput

F95107

Latches Dual D Clocked F95130

Fairchild

F95000 F95HOOC

Fairchild Signetics

(658) 30

5-Wide

Fl00118 100118

Fairchild Signetics

(658)

Triple 5-lnput Fairchild Fairchild

Translators Quad TIL to ECl ORINOR F95124

Fl00117 100117

Triple Differential Line Receiver F95116 Quad Differential Line Receiver F95115

~

S ~ r-'

\

Q)

Fairchild

(658)

2x8-Bit Recode Multiplier Fl00183

Fairchild

(658)

4-Bit Binary/Decade logic Unit Fl00181

Fairchild

(658)

6-Bit Adder

Fairchild

(658)

Fl00180

9-Bit Comparator Fl00166 100166

Falrcblld Signetics

(658)

9-Bit Wallace Tree Adder Fl00182

FairChild

(658)

"0 ::::l

Buffers

(9

9-Bit

C

Fl00122 100122

Fairchild Signetics

Fl00l07 100107

Fairchild Signetics

Triple D

Fl00130

Fairchild

HexD

Fl00150 100150

Fairchild Signetics

CAM (4x4)

FlOO142

Fairchild

PROM (256x4)

F100Z416

Fairchild

PROM (256x4)

Fl00416

Fairchild

Counters

Q)

Multipurpose Counting Register FlOO136

U

-Q)

en "-

Q)

........

en

Universal

FlOO170 100170

Fairchild Signetics

Hex Bus

Siemens

ECLlTTl Bus Transceiver SH100255

Siemens

Error Correction Circuit SH100B404

Siemens

(658) 40 Interface Transceiver SH100B250 (658)

Siemens

(658)

(658)

(3626)

Siemens

Register File with Shift logic SH100B393

Siemens

Universal Priority Encoder Fl00165

Falrcblld

Universal Register File SH100B417

Siemens

(658)

RAM (16x8 or 64x2) SH100B396

(658) 20

Fl00113

Fairchild

(658)

Fl00112 100112

Fairchild Signetics

(658)

Fl00123 100123

Fairchild Signetics

(658)

Siemens

RAM (256x1)

Fl00414

Fairchild (3615.3624)

RAM (256x4)

Fl00422

Falrcblld

(3615) 50 (3681)

470

80

(658)

RAM (1024x4)

MBM100474

Fujitsu

RAM (1024x1)

Fl00415

Fairchild (3615.3625)

Dual Access Stack F100222

Fairchild

RAM (1024x4)

Fl00474

Fairchild (3615.3629)

Dual Line Transmitter and Receiver SH100B252

Siemens

RAM (4096x1)

Fl00470

Dual Sequencer for SH 1008480 SH100B481

Siemens

MBM100470

Fairchild (3615.3628) Fujitsu (3681)

Fl00480

Fairchild

Dual9-Bit Parity Generator/Checker FlOO160 100160

Falrcblld Signetics

(658) 90

Quintuple Line Receiver Fl00114 100114

Falrc.lld Signetics

(658)

Quintuple Transceiver Fl00194

Falrc.lld

(658)

-

RAM (16384x1) (3630)

Multiplexers (Digital) Universal (nine 4/1) SH100B384

Fairchild

Siemens

FlOO163 100163

Fairchild Signetics

Fl00171 100171

Fairchild Signetics

Quad 2-lnput with latch FlOO155 100155

' Fairchild Signetics

(658)

Fairchild Signetics

(658)

Triple 4-lnp,ut

t Military Temperature Range (- 55° to 125°C)

Siemens

Register File with Ring Shifter SH100B420

(658)

16-lnput

(658)

Fairchild

(658)

Fl00126

Fairchild Signetics

Fairchild

Program Interface Unit F100223

Fairchild

Dual 8-lnput

Fl00131 100131

Fairchild

Multi-Function Network F100221

(658)

FlOO164 100164

(658)

Nine Buffered Gates SH100B122 (658) 60 4-Bit Microprocessor Slice SH100B480

Dlvi~e

Shift Registers Mask-Merge

Fl00156

Fairchild

(658)

Siemens Siemens

III and Other Series Counters Bi-Quinary

Flip-Flops, D-Type Triple

Micro Program Sequencer F100224

Fairchild

(658)

High Speed Line Quad

Siemens

Fl00402

RAM (16x4)

Drivers Backplane

(658)

10 RAM (16x4 register file) Fl00145

Decoders

CO

~

Fairchild

(658) 70

Falrc.lld

Programmable Timer/Counter SH100B395

0 ........

fllrcblld

100K ECl-TIl Fl00125

Comparator and Multiplexer SH100B402

(658)

Memories

look Ahead Carry Circuit Fl00179

TIl-100K ECl Fl00124

Line

Translators

Siemens

Fairchild Signetics

Latches

100K Series Arithmetic Functions

(658)

Clock Pulse Generator SH100B392

Quintuple 2-lnput FlO0102 100102

Fairchild

Fairchild

fllrcblld

Fairchild

(658)

Gates, Exclusive OR/NOR

Fairchild

8-Bit Universal Fl00141

Bidirectional Shifter SH100B419

Falrcblld Signetics

Miscellaneous

(658)

Address and Data Interface Unit F100220

Fl00l0l 100101

Quintuple

Source

Falrcblld Signetics

Miscellaneous

Gates, OR/NOR

Shift Registers 4-Bit

Triple

Fairchild

Device

Fl00158 100158

8-J3itMatrix

MC1678

Motorola

by 4 Prescaler (1 GHz) MC1697 MC1699

Motorola Motorola

• Typical Value Bold face Indlcales addlllonal dala Is prDvlded Dn Ibe paue nOled. IC MASTER

1983

MASTER SELECTION GUIDE DIGITAL-TTL (Cont'd) Device

(Cont'd) t Motorola Motorola t National National tSGS SGS t Signetics Signetics ' tTl TI

(S4O) (S4O)

t Molorola Molorola tTl TI

(132) (132) (S3S) (S3S)

tTl TI

(S3S) (S3S)

Triple 3-lnput, Open Collector 'TIL-ALS SN54ALS15 SN14ALS15 SN54ALS15 SN14ALS15 SN54H15 SN14H15

TIL-LS 54LS15 74LS15 HD74LS15 M74LS15 SN54LS15 SN74LS15 DM54LS15 DM74LS15 54LS15 74LS15 SN54LS15 SI14LS15

t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS ttl TI

TTL-S

54S15 74S15 HD74S15 DM54S15 DM74S15 SI54S15 8114S15

t Fairchild Fairchild Hitachi t National National tTl TI

5411 7411 HD74LS11 DM5411 DM7411 5411 7411

t Fairchild Fairchild Hitachi t National National t Signetics Signetics

Triple 3-lnput TTL

10

TIL-S

Quad 2-lnput, Open Collector 5409 20 TTL 7409 ZN5409 ZN7409 HD7409 MC5409 MC7409 (S3S) DM5409 (S3S) DM7409 SI5409 SI1409 30 TIL-ALS SI54ALS09 SI14ALS09 (S3S) SI54ALS09 (S3S) SI14ALS09 TTL-H

40

TTL-ALS SI54ALSll SI14ALSll SN54ALS1011 S154ALS11 S114ALS1011 8N14ALS11 TTL-AS Sl54A811 8114A811 TTL-F

TTL-H

t Molorola Molorola tTl tTl TI \ TI tTl TI

~

(132) (132) (1015) (S36) (1015) (S36) (S36) (S36) 50

54F11 74F11 MC54Fll MC74F11 74F11

t Fairchild Fairchild t Molorola Molorola Signetics

54H11 74H11 MC3006 MC3106 DM54H11 DM74H11 S154H11 SI14Hll

t Fairchild Fairchild Motorola t Motorola 60 t National National (S36) tTl TI (S36) (Continued)

t Military Temperature Range (-55 0 to 125°C)

IC MASTER

1983

54S11 74S11 HD74S11 DM54S11 DM74S11 54S11 74S11 SN54S11 SN14S11

54H09 74H09

TIL-LS 54LS09 74LS09 HD74LS09 M74LS09 SN54LS09 SN74LS09 DM54LS09 DM74LS09 DM74S09 54LS09 74LS09 54LS09 74LS09 S154LS09 SN14LS09 TTL-S

(731) (731) Quad 2-lnput TTL

t Fairchild Fairchild Mitsubishi t Motorola Motorola . t National National tSGS SGS t Signetics Signetics TI tTl t Fairchild Fairchild Hitachi t National National Signetics Signetics tTl TI

Source

Quad 2-lnput TIL

(Cont'd) TIL-LS 54LS11 74LS11 M74LS11 SN54LS11 SN74LS11 . DM54LS11 DM74LS11 54LS11 74LS11 54LS11 74LS11 SN54LSll SN74LSll

Device

line

Source

Triple 3-lnput

Dual4-lnput TIL-LS SN54LS21 SN74LS21 DM54LS21 DM74LS21 54LS21 74LS21 54LS21 74LS21 SN54LS21 SN14LS21

Device

Line

Source

Gates, AND (Cont'd)

TIL-H

Function

Function

Function

Line

(Cont'd) DM7408 5408 7408 SN540S SN140S

National Signetics Signetics tTl TI

SN54ALSoS SN54ALS516 SN14ALSoS SN14ALS516 DM54ALS08 DM54ALS576 DM74ALS08 DM74ALS576 SN54ALSoS SN54ALSlOoS SN14ALSoS SN14ALSlooS

t Molorola t Molorola Molorola Molorola t National t National National National tTl tTl TI TI

130

(S35) (S35)

TIL-ALS 70

(S36) (S36)

80

t

(S36) (S36)

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National tTl TI

(S36) (S36)

t Molorola Molorola tTl TI

(732) (132) (S36) (S36) 100

TIL-AS SN54ASoS SN14ASoS

tTl TI

TTL-F

54F08 74F08 MC54FoS MC14FoS 74F08

t Fairchild Fairchild t Molorola Molorola Signetics

54H08 74H08 MC3001 MC3101 DM54H08 DM74H08

t Fairchild Fairchild Motorola t Motorola t National National

TTL-H 90

t Fairchild Fairchild t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National National tSGS SGS t Signetics Signetics tTl tTl

(S36) (S36)

54S09 DM54S09 8154S09 SN14So9

t Fairchild t National tTl TI

(S36) 120 (S36)

5408 7408 ZN540B ZN7408 HD7408 MC5408 MC740B DM5408

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National (Continued)

110

TIL-LS 54LS08 74LS08 HD74LS08 M74LS08 SN54LS08 SN74LS08 DM54LS08 DM74LS08 54LS08 74LS08 54LS08 74LS08 SI54LSoS SN74LSOS

t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

TTL-S

t Fairchild Fairchild t National National t Signetics Signetics tTl TI

54S08 74S08 DM54S08 DM74S08 54S08 74S0B SN54SoS SN14SoS

Hex 2-lnput Line Driver/Buffer TTL-ALS SN54ALSSOS SI14ALSSoS TTL-AS SN54ASB08 SN74ASB08

(132) (132) (132) (132) 140

(S35) (1015) (S35) (1015) (S35) (S35) 150 (131) (131)

Q)

170

::J (S35) (S35)

(9 C

0 -+-'

()

Q) Q)

CI) (S35) 180 (S35)

I.-

Q) -+-'

(j)

CU

tTl TI

(1003) (1003)

tTl TI

Gates, NAND Dual4-lnput Buffer TTL 5440 7440 ZN5440 ZN7440 HD7440 MC5440

"0

t Fairchild Fairchild t Ferranti Ferranti Hitachi 190 t Motorola (Continued)

• Typical Value Bold raclladlcal,s addllloaal dala Is provided oa Ib, pagl aOled.

489

~

Ie

MASTER

DIGIT AL-TTL (Cont'd) Function

Function Device

Source

Line

Gates, NAND (Cont'd) Dual4-lnput Buffer TIL MC7440 DM5440 DM7440 DM9009C 5440 7440 8N5440 8N7440

Dual 4-lnput, Open Collector TIl-lS 74LS22 HD74LS22 M74LS22 ' SN54LS22 SN74LS22 DM54LS22 DM74LS22 54LS22 74LS22 8N54L822 8N74L822

(Cont'd) Motorola t National National National tSignetics Signetics tTl TI

(845) (845)

8N54AL840 8N74AL840 8N54AL840 8N74AL840

t Moloroll Moloroll tTl TI

(732) (732) 10 (845) (845)

54H40 74H40 MC3024 MC3025 MC3124 MC3125 DM54H40 DM74H40 8N54H40 8N74H40

t Fairchild Fairchild Motorola Motorola t Motorola t Motorola t National National tTl TI

TIL-ALS

TIL-H

TIL-LS 54LS40 74LS40 HD74LS40 M74LS40 SN54LS40 SN74LS40 DM54LS40 DM74LS40 54LS40 74LS40 54LS40 74LS40 8N54L840 8N74L840 TIL-S

Q)

"0 :::J

(9 C

0 ........ ()

Q) Q)

(J) ~

Q)

........ (f)

ct:S

54S40 74S40 HD74S40 DM54S40 DM74S40 54S40 74S40 8N54840 8N74840

Dual4-lnput, Open Collector TIL 5422 7422 HD7422 8N5422 8N7422

~

t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National t SGS SGS . t Signetics Signetics tTl TI t Fairchild Fairchild Hitachi t National National t Signetics Signetics tTl TI

TIL-LS

20 (845) (845)

30

490

Source

Line

(Cont'd) Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS ttl TI

54S22 74S22 HDs4S22 DM54S22 DM74S22 8N54822 8N74822

t Fairchild Fairchild Hitachi t National National tTl TI

5420 7420 ZN5420 ZN7420 HD7420 MC5420 MC7420 DM5420 DM7420 DM9004C 5420 7420 8N5420 8N54L20 8N7420

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National National t Signetics Signetics tTl tTl TI

8N54AL820 8N74AL820 8N54AL81 020 8N54AL820 8N74AL81 020 8N74AL820

t Moloroll Moloroll tTl tTl TI . TI

Device

(845) (845)

40

TIL-AS 8N54A820 8N74A820

tTl TI

TIL-F

54F20 74F20 MC54F20 MC74F20 54F20 74F20

t Fairchild Fairchild t Moloroll Moloroll t Signetics Signetics

54H20 74H20 MC3010 MC3110 DM54H20 DM74H20 8N54H20 8N74H20

t Fairchild Fairchild Motorola t Motorola t National National tTl TI

(845) (845) TIL-H

(840) (840) 50

8N54AL822 8N74AL822 8N54AL822 8N74AL822

t Moloroll Moloroll tTl TI

(732) (732) (840) (840)

54H22 74H22 MC3012 MC3112 DM54H22 DM74H22 8N54H22 8N74H22

t Fairchild Fairchild Motorola t Motorola t National National tTl TI

54LS22

t Fairchild (Continued)

60 (840) (840)

TIL-LS 54LS20 74LS20 HD74LS20 M74LS20 SN54LS20 SN74LS20 DM54LS20 DM74LS20 54LS20 74LS20 54LS20 74LS20

Source

Dual 4-lnput TIl-lS

TIL-S

70

(840) (840) Dual 5-lnput TIL

(840) 80 (840)

8N54L820 8N74L820

ttl TI

54S20 74S20 HD74S20 DM54S20 DM74S20 54S20 74S20 8154820 8N74820

t Fairchild Fairchild Hitachi t National National t Signetlcs Signetlcs ttl TI

DM7092 DM8092

t National National

Triple 3-lnput, Open Collector TIL 5412 7412 ZN5412 ZN7412 HD7412 8N5412 SN7412

Line

(Cont'd) (839) (839)

(839) 140 (839)

t Fairchild Fairchild t Ferranti Ferranti HitachI tTl TI

(837) 150

TIL-ALS

90

8N54AL812 8N74AL812 8N54AL812 8N74AL812

t Moloroll Molaroll ttl TI

TIL-H

MC3007 MC3107

Motorola t Motorola

TIL-LS

HD74lS12 M74lS12 SN54LS12 SN74LS12 DM54LS12 DM74LS12 8N54L812 8N74L812

Hitachi Mitsublshl t Motorola Motorola t National National tTl TI

(839) (839) (839)

TIl-ALS

t Fairchild Fairchild Hitachi ttl TI

t Military Temperature Range (- 55° to 125°C)

TIL-S

Dual4-lnput TIL

TIL-ALS

TIL-H

Function Device

(732) (732) (1016) TIL-S (839) 100 (1016) Triple 3-lnput (839) TIL (839) (839)

(731) (731) 110

(839) (839)

t Fairchild Fairchild 120 Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics 130 (Continued)

HD74S12

Hitachi

5410 7410 ZN5410 ZN7410 HD7410 MC5410 MC54F10 MC7410 DM5410 DM7410 DM9003C 5410 7410 8N5410 8N54L10 8N7410

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola t Molarall Motorola t National National National t Signetics . Signetics ttl tTl TI

8N54AL810 8N74AL810 8N54AL810 8N54AL81010 8N74AL810 8N74AL81010

t Moloroll Maloroll tTl tTl TI TI

(732) (732) (837) (837)

160

(837) (837)

170 (731)

(836) (836) 180 (836)

TIL-ALS (732) (732) (836) (1015) (836) (1015)

TIL-AS 8N5U810 8N74A810

tTl TI

TIl-F

t Fairchild 190 Fairchild Moloroll (731) Signetics (Continued)

54F10 \ 74F10 MC74F10 74F10

(836) (836)

• Typical Value Bold 'ICI lodlcilis Iddlllonil dill Is provldld 00 I~I PIUI 1011d. (C)

IC MASTER

1983

MASTER SELECTION GUIDE DIGIT AL-TTL (Cont'd) Device

Source

Gates, NAND (Cont'd)

Quad 2-lnput Buffer, Open Collector TIl-S 74S38 SN54S38 SN74S38

(Cont'd)

t Fairchild

54Hl0 74Hl0 MC3005 MC3105 OM54Hl0 OM74Hl0 SN54H10 SN74H10

Fairchild Motorola t Motorola t National National tTl TI

TIl-lS 54lS10 74lS10 H074lS10 M74lS10 SN54lS10 SN74lS10 OM54lS10 OM74lS10 54LS10 74lS10 54lS10 74lS10 SN54LS10 SN74LS10

t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

TTl-S

t Fairchild Fairchild Hitachi t National National t Signetics Signetics tTl TI

54S10 74S10 H074S10 OM54S10 OM74S10 54S10 74S10 SN54S10 SN74S10

Quad 2-lnput Buffer, Open Collector TTL 5438 7438 7439 ZN5438 ZN7438 H07438 MC5438 MC7438 OM5438 OM7438 5439 7438 7439 SN5438 SN5439 SN7438 SN7439

t Fairchild Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National t Signetics Signetics Signetics tTl tTl TI

TI

Quad 2-lnput, Buffer, Three-State OM7099 TIL OM8099 Quad 2-lnput Buffer TIL 5437 7437 20 ZN5437 (836) ZN7437 (836) H07437 MC5437 MC7437 OM5437 OM7091 OM7437 OM8091 5437 (836) 30 7437 (836) SN5437 SN7437

t Moloroll Moloroll tTl

TI

TTl-lS 54lS38 74lS38 H074lS38 M74lS38 SN54lS38 SN74lS38 OM54lS38 OM74lS38 54lS38 74lS38 SN54lS38 SN74LS38 TIl-S

t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National t Signetics Signetics tTl TI

t Military Temperature Range (- 55° to 125°C)

olC MASTER

1983

Signetics tTl TI

t National National t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National t National National National t Signetics Signetics tTl TI

SN54ALS37 SN74ALS37 SN54ALS37 SN74ALS37

40

(844) (844) (844) (844) (732) (732) 50 (844) (844)

t Molorola Moloroll tTl TI

TIl-lS 54lS37 74lS37 H074lS37 M74lS37 SN54lS37 SN74lS37 OM54lS37 OM74lS37 54lS37 74lS37 54lS37 74LS37 SN54lS37 SN74LS37

t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

TIl-S

t Signetics Signetics tTl

54S37 74S37 SN54S37 SN74S37

TI

Device

Quad 2-lnput, Open Collector (Cont'd) TIL MC5403 (844) MC7401 MC7403 (844) OM5401 OM5403 OM7401 70 OM7403 OM9012C 5403 7403 SN5401 SN5403 SN54L03 SN7401 (841) SN7403 (841) TIl-AlS SN54ALS01 80 SN54AlS03 SN74ALS01 SN74ALS03 SN54ALS01 SN54ALS03 SN54ALS1003 SN74ALS01 SN74ALS03 SN74ALSl003 TIl-H 90

(844) (844)

TIl-AlS

Quad 2-lnput, Open Collector TIL 5401 5403 7401 7403 ZN5401 60 ZN5403 ZN7401 ZN7403 (844) H07401 (844) H07403 MC5401 t Signetics (Continued)

54S38

' Line

Source

Quad 2-lnput Buffer, Open Collector, to 15 V TIl-lS 54lS26 t Fairchild 74lS26 Fairchild SN54lS26 t Motorola SN74lS26 Motorola (836) OM54lS26 t National (836) OM74lS26 National T74lS26 SGS 10 54lS26 t Signetics 74lS26 Signetics SN54lS26 tTl SN74LS26 TI

TIl-AlS SN54ALS38 SN74ALS38 SN54ALS38 SN74ALS38

Device

Line

Triple 3-lnput TIl-H

Function

Function

Function

(732) (732) (844) (844) 100

110

(844) (844)

(844) (844)

54HOl 74HOl MC3004 MC3104 OM54HOl OM74HOl SN54H01 SN74H01

TIl-lS 54lS03 74lS03 H074lS01 H074lS03 M74lS03 SN54lS01 SN54lS03 SN74lS01 SN74lS03 OM54lS01 OM54lS03 OM74lS01 OM74lS03 54lS03 74lS03 54lS01 54lS03 74lS01 SN54lS01 SN54lS03 SN74lS01 SN74lS03 TIl-S

t Fairchild t Fairchild 120 Fairchild Fairchild t Ferranti t Ferranti Ferranti Quad 2-lnput Ferranti TIL Hitachi Hitachi t Motorola (Continued)

Source

Line

(Cont'd)

t Motorola Motorola Motorola t National t National National National National t Signetics Signetics tTl tTl tTl

TI TI t Molorola t Motorola Molorola Molorola tTl tTl tTl

TI TI TI t Fairchild Fairchild Motorola t Motorola t National National tTl

TI t Fairchild Fairchild Hitachi Hitachi Mitsubishi t Motorola t Motorola Motorola Motorola t National t National National t National tSGS tSGS t Signetics t Signetics Signetics tTl tTl tTl tTl

130

(833) 140 (834) (834) (833) (834) (732) (732) (732) (732) (833) (834) 150 (1014) (833) (834) (1014)

(833) (833)

170

:J

CJ C

0 +oJ

() (]) (])

180 (833) (834) (833) (834)

74S03 H074S03 OM54S03 OM74S03 54lS38 74lS38 74S03 SN54S03 SN74S03

Fairchild Hitachi t National National tSGS SGS Signetics tTl

5400 7400 ZN5400 ZN7400

t Fairchild Fairchild t Ferranti Ferranti (Continued)

TI

(])

"'0

C/) ~

(]) +oJ

en

CO ~

190 (834) (834)

• Typical Value Bold flclladlcllas Iddltlonll dill II provldld on Ibl pigi nOlld.

491

Ie

MASTER

DIGIT AL-TTL (Cont'd) Function

Function Source

Device

line

Gates, NAND (Cont'd) Quad 2-lnput TIL HD7400 MC5400 MC7400 DM5400 DM7400 DM9002C 5400 7400 8N5400 8N7400

(Cont'd) Hitachi t Motorola Motorola t,National National National t Signetics Signetics (833) tTl ' (833) 10 TI

8N54AL800 8N74AL800 DM54ALSOO DM74ALSOO 8N54AL800 8N54AL81 000 8N74AL800 8N74AL81000

t Malaroll Malara II t National National tTl tTl TI TI

(833) (833) 20

TIL-F

54FOO 74FOO MC54FOO MC74FOO 54FOO 74FOO

t Fairchild Fairchild t Maloroll Malara II Signetics Signetics

(731) (731)

54HOO 74HOO MC3000 MC3100 DM54HOO DM74HOO 8N74HOO

t Fairchild Fairchild Molaroll t Molaroll t National National TI

54LSOO 74LSOO HD74LSOO M74LSOO SN54LSOO SN74LSOO DM54LSOO . DM74LSOO 54LSOO 74LSOO 54LSOO 74LSOO 8N54L800 8N74LSOO

t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

54S00 74S00 HD74S00 DM54S00 DM74S00 54S00 74S00 8N54800 8N74800

t Fairchild t Fairchild Hitachi t National National t Signetlcs Signetics tTl TI

Q)

:::J

C) C

0

..U

Q) Q)

TIL-S

~

Q)

..(J) CU

~

Hex 2-lnput Line Driver/Buffer TIL-ALS 8N74AL8804 TIL-AS SN54A8804 8N74A8804 a-Input TIL

5430 7430 ZN5430 ZN7430

TI tTl TI

(833)

Hitachi t Motorola . Motorola t-National National t Signetics Signetlcs tTl , tTl TI

8N54AL830 8N74AL830 TIL-AS 8N54A830 8N74A830

tTl TI

(842) (842)

TIL-H

t Fairchild Fairchild Motorola Motorola t Motorola t Motorola t National National tTl TI t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

TIL-S

t Fairchild Fairchild t National National tTl TI

54S30 74S30 DM54S30 DM74S30 ~N54830

8N74830 12-lnput, Three-State TIL-S 54S134 74S134 HD74S134 (833) DM54S134 (833) DM748134 548134 74S134 50 8N548134 8N748134

t Fairchild Fairchild Hitachi t National National t Signetics Signetics tTl TI

13-lnput TIL-ALS 8N54ALS133 SN74AL8133

(833) (833)

(1002) (1002) (1002)

tTl TI

(Cont'd) t National National t Signetics Signetlcs tTl TI

130

(877) (877)

Gates, AND-OR 2-2-2-3-lnput, Expandable TIL-H 54H52 74H52 MC3031 MC3131 DM54H52 DM74H52 SN54H52 SN74H52

t Fairchild Fairchild Motorola t Motorola t National National tTl TI

140

80

Gates, AND-OR-Invert Dual2-Wide 2-lnput (one gale Is expandable) TIL 5450 t Fairchild 7450 Fairchild ZN5450 t Ferranti (842) ZN7450 Ferranti (842) HD7450 Hitachi MC5450 t Motorola MC7450 Motorola 90 DM5450 t National DM7450 National DM9005C National 5450 .t Signetics 7450 Signetics SN5450 tTl SN7450 TI TIL-H (842) 100 (842)

54H50 74H50 MC3020 MC3120 DM54H50 DM74H50 8N54H50 8N74H50

(842) (842)

Dual2-Wlde 2-lnput TIL 5451 7451 ZN5451 ZN7451 HD7451 110 MC5451 MC7451 DM5451 DM7451 5451 (877) 7451 (877) 8N5451 8N54L51 SN7451 (877) (877) TIL-H 54H51 74H51 MC3023 120 MC3123 DM54H51 DM74H51 SN54H51 8N74H51

TIL-LS 54LS133 74LS133 M74LS133 SN54LSl33 SN74LS133 54LS133 74LSl33

t Fairchild Fairchild Mitsublshi t Motorola Motorola tSGS SGS

TIL-S

t Fairchild Fairchild Hitachi (Continued)

54S133 748133 HD74S133

line

70 (842) (842) (842)

tTl TI

TIL-LS 54LS30 74LS30 HD74LS30 M74LS30 SN54LS30 SN74LS30 DM54LS30 DM74LS30 54LS30 74LS30 54LS30 74LS30 8N54LS30 8N74LS30

Source

DM54S133 DM74S133 54S133 74S133 8N548133 8N74S133

(842) (842)

54H30 74H30 MC3015 MC3016 MC3115 MC3116 DM54H30 DM74H30 8N54H30 8N74H30

Device

13-lnput TIL-S

TIL-ALS

40

60 t Fairchild Fairchild t Ferranti Ferranti (Continued)

t Military Temperature Range (- 55°. to 125°C)

492

(729) (729) 30

line

(COnrd) HD7430 MC5430 MC7430 DM5430 DM7430 5430 7430 8N5430 8N54L30 8N7430

(833) (1013) (833) (1013)

tTl TI

"0

(f)

(732) (732)

TIL-AS 8N54A800 8N74ASOO

TIL-LS

Source

8-lnput TIL

TIL-ALS

TIL-H

Function Device

TIL-LS 54LS51 74LS51 HD74LS51

t Fairchild Fairchild Motorola t Motorola t National National tTl TI t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National t Signetics Signetlcs tTl tTl TI

150

(848) (848)

160

(848) (848)

170

(848) (848) (848)

t Fairchild Fairchild 180 Motorola t Motorola t National National (848.849) tTl (848.849) TI t FairChild FairChild Hitachi (Continued)

* Typical Value Bald flclladlcllas Iddlllonil dill Is provldld on Ibl pigi aOlld_

~

IC MASTER

1983

MASTER SELECTION GUIDE DIGITAL-TTL (Cont'd) Function

Function Device

Source

Gates, AND-OR-Invert (Cont'd) Dual 2-Wide 2-lnput TIL-LS SN54LS51 SN74LS51 DM54LS51 DM74LS51 LS5451 LS7451 54LS51 74LS51 8N54L851 8N74L851 TIL-S

54S51 74S51 DM54S51 DM74S51 54S51 74S51 8N54851 8174851

2-2-2-3-lnput, Expandable TIL-H 8N54H53 8N74H53

(Cont'd) t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

(848) (848)

t Fairchild Fairchild t National National t Signetics Signetics tTl

Function Device

Line

4-Wide 2-lnput TIL 5454 7454 ZN5454 ZN7454 HD7454 MC5454 MC7454 10 DM5454 DM7454 8N5454 8N54L54 8N7454

4-Wide 2-lnput, Expandable TIL 5453 (848) 7453 TI (848) ZN5453 Dual4-lnput Expander (for 5417423,54/7450, 5417453) ZN7453 TIL 5460 t Fairchild HD7453 7460 Fairchild 20 MC5453 Hitachi HD7460 MC7453 MC5460 t Motorola DM5453 MC7460 Motorola DM7453 DM5460 t National National DM7460 8N5453 5460 t Signetics 8N7453 8N5460 tTl (852) 4-Wide 2-2-3-3-lnput TI (852) 8N7460 TIL-LS 54LS54 Dual4-lnput Extender (for 9005, 9008) 74LS54 TIL DM9006C National HD74LS54 2-Wide, 4-lnput SN54LS54 TI (851) 30 TIL 8N54L55 SN74LS54 TIL-LS 54LS55 t Fairchild DM54LS54 74LS55 Fairchild DM74LS54 HD74LS55 Hitachi 54LS54 SN54LS55 t Motorola 74LS54 SN74LS55 Motorola 54LS54 DM54LS55 t National 74LS54 DM74LS55 National 8N54L854 54LS55 t SGS 8N74L854 74LS55 SGS tTl (851) 40 8N54L855 8N74L855 TI _ _ _(851) 4-2-3-2-lnput _____ ______ TIL-F 54F64 ~

2-Wide, 4-lnput, Expandable TIL-H 54H55 74H55 DM54H55 DM74H55 8N54H55 8N74H55 2-2-2-3-lnput TIL-H

54H54 74H54 DM54H54 DM74H54 8N54H54 8N74H54

2-2-2-3-lnput, Expandable TIL DM9008C TIL-H 54H53 74H53 MC3032 MC3132 DM54H53 DM74H53

t Fairchild Fairchild t National National tTl TI t Fairchild Fairchild t National National tTl

TI

50 (850) (850)

National t Fairchild Fairchild Motorola t Motorola t National National 60 (Continued)

, t Military Temperature Range (- 55° to 125°C)

() IC MASTER

TIL-S

1983'

tTl TI

(Cont'd) (849) (849)

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National tTl

tn TI t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National tTl TI t Fairchild Fairchild Hitachi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

54F64 54S64 74S64 HD74S64 DM54S64 DM74S64 54S64 74S64 8N54864 8N74864

t Fairchild t Fairchild Hitachi t National National t Signetics t Signetics TI TI

4-2-3-2-lnput, Open Collector TIL-S 74S65 HD74S65 DM54S65 DM74S65 54S65 8N54865 8N74865

Line

Device

Source

Line

5432 7432 ZN5432 ZN7432 HD7432 DM5432 DM7432 5432 7432 8N5432 8N7432

t Fairchild Fairchild t Ferranti Ferranti Hitachi t National National t Signetics Signetics tTl TI

120

8N54AL832 8N74AL832 DM54ALS32 DM74ALS32 8N54AL81 032 8N54AL832 8N74AL81032 8N74AL832

t Motorola Motorola t National National tTl tTl

54F32 74F32 MC54F32 MC74F32 74F32

t Fairchild Fairchild t Motorola Motorola Signetics

MC3003 MC3103

Motorola t Motorola

Gates, OR

t Fairchild Fairchild t Motorola Motorola t Signetics

74F64 MC54F64 MC74F64

(851) (851)

Source

t t t t t

Fairchild Hitachi National National Signetics

tTl tTl

Quad 2-lnput TIL

70

(843) (843) 130

TIL-ALS (850) (850) (850)

TIL-F 80

TIL-H (849) (849)

90

(850) (850)

100 (731) (731)

TI TI

TIL-LS 54LS32 74LS32 HD74LS32 M74LS32 SN54LS32 SN74LS32 DM54LS32 DM74LS32 54LS32 74LS32 54LS32 ' 74LS32 8N54L832 8N74L832

t Fairchild F,airchild Hitachi Mitsubishi t Motorola Motorola t National National 1 tSGS SGS t Signetics Signetics tTl TI

TIL-S

t Fairchild Fairchild t National National t Signetics Signetics tTl TI

54S32 74S32 DM54S32 DM74S32 54S32 74S32 8N54832 8N74832

Hex 2-lnput Line Driver/Buffer TIL-ALS 8N54AL8832 8N74AL8832 TIL-AS SN54AS832 SN74AS832

(732) (732)

(1016) (843) (1016) (843) 140 (731) (731)

(843) (843) 160

-+-'

()

(843) (843)

Q) Q)

(f) tTl tTl tTl TI

~

(1004) (1004)

Q) -+-'

CJ)

170'

~

Gates, NOR 110 Dual4-lnput, with Strobe (853) TIL 5425. (853) 7425 ZN5425 ZN7425 HD7425 MC5425 MC7425 DM5425 DM7425 (853) 5425 (853)

CO

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National 180 t Signetics (Continued)

* Typical Value Bold faca Indicates addlllonal data Is provided on the paue notad.

493

Ie

MASTER

DIGITAL-TTL (Cont'd) Function

Function Device

Source

Line

Gates, NOR (Cont'd) DuaI4-lnput, with Strobe TTL 7425 SN5425 SN7425

SN54LS27 SN74LS27

(Cont'd) Signetlcs tTl TI

(841)

Dual 5-lnput TTL-ALS SN54ALS260 TTL-LS 54LS260 74LS260 SN54LS260 SN74LS260 T54LS260 T74LS260 54LS260A 74LS260 SN54LS260A

tTl t Fairchild Fairchild t Motorola Motorola tSGS SGS t Signetics Signetics tTl

TTL-S

54S260 74S260 DM74S260 54S260 74S260 8N54S260 SN748260

t Fairchild Fairchild National t Signetics Signetics tTl TI

5427 7427 ZN5427 ZN7427 HD7427 MC5427 MC7427 DM5427 DM7427 5427 7427 SN5427 8N7427

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National t Signetics Signetics tTl TI

(842) (842)

SN54ALS27 8N74AL827 8N54AL827 8N74AL827

t Matarala Molorola tTl TI

(732) (732) (842) (842)

tTl TI

(842) (842)

Q)

"0 :::J

(!J C

0

...... ()

Q) Q)

Quad 2-lnput Buffer, Open Collector TTL 5433 7433 SN5433 SN7433

)....

Q) ...... en

CO

~

TTL-AS SN54A827 8N74A827 TTL-LS 54LS27 74LS27 HD74LS27 M74LS27 SN54LS27 SN74LS27 DM54LS27 DM74LS27 54LS27 74LS27 54LS27 74LS27

494

(Cont'd) (842) (842)

t Signetics Signetics tTl TI

(843) (843)

SN54ALS33 SN74ALS33 SN54ALS33 8N74AL833

t Motorola Motorola tTl TI

(732) (732) (843) (843)

TTL-LS 54LS33 74LS33 SN54LS33 SN74LS33 T54LS33 T74LS33 54LS33 74LS33 SN54LS33 SN74LS33

t Fairchild Fairchild t Motorola Motorola tSGS SGS t Signetlcs Signetics tTl TI

Quad 2-lnput (54n428 devices are also buffers) TTL 5402 t Fairchild 7402 Fairchild 20 ZN5402 t Ferranti ZN5428 t Ferranti ZN7402 Ferranti ZN7428 Ferranti HD7402 Hitachi MC5402 t Motorola MC7402 Motorola DM5402 t National DM7402 National (918) 5402 t Signetics (918) 5428 t Signetics 7402 Signetics 30 7428 Signetics SN5402 tTl 8N5428 tTl 8N7402 TI 8N7428 TI 8N54AL802 SN54AL828 8N74ALS02 8N74AL828 DM54ALS02 DM74ALS02 SN54AL802 8N54AL81 002 SN54AL828 8N74AL802 8N74AL81 002 8N74AL828

40

t Motorola

t Molarala

Motorola Motorola t National National tTl tTl tTl TI TI TI

TIL-AS 8N54A802 8N74A802

tTl TI

TTL-F

t Fairchild Fairchild t Motorola Motorola Signetics

54F02 74F02 MC54F02 MC74F02 74F02

TIL-LS 54LS02 54LS28 74LS02 74LS28 HD74LS02 M74LS02 SN54LS02

Device

Source

Line

Quad 2-lnput (54n428 devices are also buffers) TTL-LS (Cont'd) SN54LS28 t Motorola SN74LS02 Motorola SN74LS28 Motorola DM54LS02 t National DM74LS02 National 130 54LS02 tSGS 74LS02 SGS T54LS28 tSGS T74LS28 SGS 54LS02 t Signetlcs 54LS28 t Signetics 74LS02 Signetlcs 70 SN54LS02 (833) tTl 8N54LS28 (842) tTl 8N74L802 (833) 140 TI SN74LS28 TI (842) TTL-S

(843) (843) 80

Quad 2-lnput TTL-H

90

t Fairchild

54S02 74S02 HD74S02 DM54S02 DM74S02 54S02 74502 SN54S02 SN74S02

Fairchild Hitachi t National National t Signetics Signetics tTl TI

MC3002 MC3102

Motorola t Motorola

Hex 2-lnput line Driver/Buffer TTL-ALS SN54ALS805 SN74ALS805 TTL-AS SN54AS805 SN74AS805

tTl TI

(833) (833) 150

(1003) (1003)

ttl TI

Gates, ORINOR (833) (842) (833) (842)

TIL-ALS

t Fairchild Fairchild 50 Hitachi Mitsublshi t Motorola Motorola t National ' National tSGS SGS t Signetics Signetics 60 (Continued)

t Military Temperature Range (- 55° to 125°C)

tTl TI

Line

TTL-ALS

TIL-ALS

(f)

Source

Triple 3-lnput TTL-LS

DuaI4-lnput, with Strobe, Expandable (see 54n460 expander) TTL 5423 t Fairchild 7423 Fairchild Hitachi HD7423 MC5423 t Motorola MC7423 Motorola DM5423 t National DM7423 National 10 (840) 8N5423 tTl (840) SN7423 TI

Triple 3-lnput TTL

Function Device

(732) 100 (732) (732) (732)

Quad 2-lnput TTL-S

54S135 74S135 HD74S135 . DM54S135 DM74S135 54S135 74S135 8N548135 8N748135

t Fairchild Fairchild Hitachi t National National t Signetics Signetics tTl TI

(878) (878)

Hitachi t Motorola Motorola Signetics tTl TI

(878) 170 (878)

160

Gates, Exclusive OR

(833) (1013) Quad 2-lnput, Open Collector (842) TIL HD74136 (833) MC54136 (1013) 110 MC74136 (842) S8241 8N54136 (833) 8N74136 (833)

(731) (731)

t Fairchild 120 t Fairchild Fairchild Fairchild Hitachi Mitsubishi t Motorola (Continued)

TTL-LS 54LS136 74LS136 HD74LS136 M74LS136 SN54LS136 SN74LS136 DM54LS136 DM74LS136 54LS136 74LS136 54LS136 . 74LS136

Fairchild Fairchild Hitachi Mltsublshl t Motorola Motorola t National National 180 tSGS SGS t Signetics Signetics (Continued)

* Typical Value Bold 'acllndlcatls additional dall Is provided on Ibe pigi nOlld. CO

IC MASTER

1983

MASTER SELECTION GUIDE DIGITAL-TTL (Cont'd) Function

Function

Function Device

line

Source

Device

Gates, Exclusive OR (Cont'd)

Gates, Exclusive NOR

Quad 2-lnput, Open Collector TIL-LS SN54LS136 SN74LS136

Quad 2-lnput, Open Collector TIL 9386C 9386M MC7242 MC8242 RC8242 RM8242 9386 N8242

TIL-S

tTl TI

DM54S136 DM74S136 N82S41

(Cont'd) (878) (878)

t National National Signetics

Quad 2-lnput, Totem Pole Outputs TIL 5486 7486 ZN5486 ZN7486 HD7486 MC5486 MC7241 MC7486 MC8241 DM5486 DM7486 DM74LS386 RC8241 RM8241 5486 7486 SN5486 SN7486

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola Motorola t Motorola National National National Raytheon t Raytheon t Signetics Signetics tTl TI

10

TIL-S

Quad 2-lnput TIL-H

tTl

54F86 74F86 MC54F86 MC74F86 54F86 74F86

t Fairchild Fairchild t Motoroll Motoroll t Signetics Signetics

TI

Quad 2-lnput TIL-H

(862) (862)

tTl tTl TI TI

54S86 74S86 HD74S86 DM74S86 54S86 74S86 SN54S86 SN74S86

t Fairchild Fairchild Hitachi National t Signetics Signetics tTl TI

MC3021 MC3121

Motorola t Motorola

IC MASTER

(862) (862)

N82S42

Signetics

MC3022 MC3122

Motorola t Motorola

1983

Dual Majority Logic TIL MC4062

80 (918) (918)

30

(942) (862) (942) (862)

(862) (862)

Motorola

Quad Inverter and Dual2-lnput NAND TIL DM7090 t National DM8090 National

(731) (731)

Fairchild Hitachi Hitachi Mitsubishi Mitsubishi t Motorola t Motorola Motorola Motorola t National t National National tSGS SGS t Signetics Signetics

t Military Temperature Range (- 55° to 125°C)

~

Fairchild t Fairchild Motorola t Motorola Raytheon t Raytheon Signetics Signetics t Fairchild Fairchild Mitsubishi t Motorola Motorola t National National tSGS SGS Signetics t Signetics tTl TI

Device

Source

Quad Bistable, Complementary Outputs TIL 5475 t Fairchild 7475 Fairchild ZN5475 t Ferranti ZN7475 Ferranti HD7475 Hitachi MC5475 t Motorola Motorola MC7475 DM5475 t National DM7475 National 5475 t Signetics 70 Signetics 7475 SN5475 tTl SN7475 TI

Gates, Miscellaneous . SN54ALS86 SN74ALS86

TIL-LS 74LS86 HD74LS386 HD74LS86 M74LS386 M74LS86 SN54LS386 SN54LSSB SN74LS386 SN74LS86 DM54LS386 DM54LS86 DM74LS86 54LS86 74LS86 54LS86 74LS86 SN54LS386 SN54LS86 SN74LS386 SN74LS86 TIL-S

line

201---------------------~---------

TIL-ALS

TIL-F

TIL-LS 54LS266 74LS266 M74LS266 SN54LS266 SN74LS266 DM54LS266 DM74LS266 54LS266 74LS266 N8242 S8242 SN54LS266 SN74LS266

Source

Latches

TIL-LS 54LS375 74LS375 HD74LS375 M74LS375 M74LS75 SN54LS375 SN54LS75 SN74LS375 SN74LS75 DM54LS75 DM74LS75 54LS375 54LS75 74LS375 74LS75 SN54LS375 SN54LS75 SN74LS375 SN74LS75 Quad Bistable, Single Output TIL 5477 MC5477 MC7477 SN5477

Dual4-Bit Addressable TIL-LS 54LS256 t Fairchild TIL-LS DM54LS377 74LS256 Fairchild 90 DM74LS77 M74LS256 Mitsubishi SN54LS77 SN54LS256 t Motorola Quad Multifunction SN74LS256 Motorola TIL 9314C T54LS256 t SGS 9314M n 4LS256 SGS . MC8314 401 _________7_4_L_S2_5_6________S~ig_ne_ti_cs______ MC9314 Dual 4-Bit with Clear S9314 TIL 9308C Fairchild Quad Set-Reset 9308M t Fairchild TIL 54279 Motorola MC8308 74279 Raytheon 100 RC9308 HD74279 54116 t Signetics 54279 Signetics 74116 74279 TI SN29308 SN54279 SN39308 ·tTI SN74279 SN54116 (872) tTl 50 (872) SN74116 TI TIL-LS 54LS279 74LS279 Dual4-Bit HD74LS279 TIL MC54100 t Motorola M74LS279 MC74100 Motorola SN54100 (867) SN54LS279 tTl (867) 110 SN74100 TI SN74LS279 DM54LS279 TIL-ALS DM74LS279 SN54ALS873 (732) t Malorola 54LS279 SN74ALS873 Motorola (732) 74LS279 DM54ALS873 t National 54LS279 National DM74ALS873 SN54LS279 60 (1008) SN54ALS873 tTl SN74LS279 SN74ALS873 TI (1008)

Line

120

(858) (858)

t Fairchild Fairchild Hitachi Mitsubishi Mitsubishi t Motorola t Motorola Motorola Motorola t National National t Signetics t Signetics Signetics Signetics tTl tTl' TI TI

(938) (858) (938) (858)

t Fairchild t Motorola Motorola tTl

(859)

t National National tTl

(859)

130

Fairchild t Fairchild Motorola t Motorola t Signetics t Fairchild Fairchild Hitachi t Signetics Signetics tTl TI t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics tTl TI

160

+-'

() Q)

Q)

en (921) (921)

170

(921) (921) 180

* Typical Value 80ld 'ICI ladlcltlS ddltloDlI dill Is provldld oa tbe PIUI aotld.

495

Ie MASTER DIGITAL-TTL (Cont'd) Function

Function Device

line

Source

Latches (Cont'd) Hex Set-Reset TTL

ZN54118 ZN54119 ZN74118 ZN74119

Octal Transparent, Inverting TTL-ALS SI54ALS880 SI74ALS880 OM54ALS880 OM74ALS880 SI54ALS880 SI74ALS880

~

= ~ r.: Q.)

"0 :J

(!J C

0

~

0 Q.) Q.)

(J) "-

Q.)

~

en

CU

~

Source

8-Bit, Transparent, 0 Type, Three-State TTL-AS SN54AS373 SN74AS373

t Ferranti t Ferranti Ferranti Ferranti

t Motorola Molorola tNational National tTl TI

Octal2-lnput Multiplexed, Three-State Outputs TTL-LS SI54LS604 tTl S154LS605 tTl SI54LS606 tTl S154LS607 tTl SN54LS608 tTl SI74LS604 TI SI74LS605 TI S174LS606 TI SI74LS607 TI S174LS608 TI 6-Blt (Independent 2 and 4-Blt) TTL-S 3404 8T3404

Function Device

Intel Signetics

TTL-F

(732) (732)

(1011) (1011) 10 (973) (973) (973) (973) (974) (973) (973) (973) (973) (974) 20

54F373 74F373 MC54F373 MC74F373 54F373 74F373

TTL-LS AM25LS373C AM25LS373M S154LS373 SI74LS373 74LS373 74LS573 M74LS373 S154LS373 S174LS373 SN54LS373 SN54LS573 SN74LS373 SN74LS573 OM54LS373 OM74LS373 T74LS373 54LS363 54LS373 74LS363 74LS373 8TS805 8TS807 S154LS373 SN74LS373

tTl TI t Fllrcblld Falrcblld t Molorola Motorola t Signetics Signetics AMD tAMD tAMD AMD Fairchild Fairchild Mltsublshl tMMI MMI t Motorola t Motorola Motorola Motorola t National National SGS t Signetics t Signellcs Signetics Slgnlllcs Sigalllcs Slgnlllcs tTl TI

line

Device

Source

Une

8-Blt, Transparent, O-Type,lnverting Three-State (Cont'd) TTL-F (Cont'd) 54F533 60 t Signetics 74F533 Signetics TTL-LS S154LS533 SI74LS533 74LS533 S154LS533 SI74LS533

(632) (632) (731) (731)

TTL-S (1227) (1227) (1227) 70 (1227)

SI54S533 . SI74S533 SI54S533 SI74S533 SI74S535

tAMD AMD Fairchild tMMI MMI

(1227) (1227)

tAMD AMD tMMI MMI MMI

(1227) (1227) (715) (715) (715)

130 (715) (715)

8-Blt, Transparent OoType, Three-State (bus Interface) TTL AM29845 AMD (2807) (2607) AM29846 AMD (715) (715)

8-Blt, Three-State (Input and output through the same pins) TTL OM7553 t National OM8553 National 80

(783)

140

9-BIt, Transparent OoType, Three-State (bus Interface) TTL AM29843 AMD (2607) AM29844 AMD (2607) 10-Blt, Transparent OoType, Three-State (bus Interface) TTL AM29841 AMD (2607) AM29842 AMD (2607)

Memories

(783) For addltlonallntormatlon on these and larger TTL (793) Fairchild compatible memories, see the Master Selection Gulde(799) t Fairchild (937) 90 Memory section t National (937) Dual Rank 8-Blt Shift Register (8-Blt 1/0 buffer, "0" National register, and serial "B" register) TTL-S SI54S373 (1227) tAMD National TTL-LS OM74LS62 t National SI74S373 AMD (1227) t National OM76LS52 .t National (715) SI54S373 Signetics tMMI OM86LS52 National SN54S531 30 tMMI t Signetlcs OM86LS62 National 150 (715) SI74S373 MMI (917) tTl Dual 16-Word x 4-Blt Register File SN74S531 MMI (715) (917) TI TTL-AS SI54AS870 (1006) tTl OM54S373 t National TTL-ALS S154AS871 (1007) tTl National OM74S373 SI54ALS259 (917) tn SI74AS870 TI (1006) 54S373 Signetics 100 (917) SI74ALS259 TI SI74AS871 (1007) TI 74S373 Signetlcs TTL-LS 54LS259 t Fairchild Octal Storage Register (two stage, 4-Blt wide shift SI54S373 (937) tTl 74LS259 Fairchild register) (945) S1548412 tTl M74LS259 Mitsubishl TTL-LS SN54LS396 (944) tTl (937) SI74S373 TI SN.54LS259 t Motorola (944) SI74LS396 TI (945) S1748412 TI SN74LS259 Motorola 8-Blt Multipart Register (RAM with simultaneous readl 8-Blt, Transparent, O-Type,lnverting Three-State OM54LS259 40 t National write) TTL-ALS OM74LS259 National TTL 9338C Fairchild SI54ALS533 (732) t Molorola 54LS259 tSGS 9338M t Fairchild SI54ALS563 (732) t Molorela 74LS259 .SGS 16-Blt Active Element Memory (732) SN54ALS580 t MotDrola 54LS259 t Signetics Fairchild TTL 93407C (732) SI74ALS533 Molorola Signetics 74LS259 93407M t Fairchild 160 SI74ALS563 Molorola (732) 110 (917) SI54LS259 tTl MC4004 Motorola Motorola (732) SI74ALS580 SI74LS259 TI (917) MC4005 Motorola OM54ALS580 t National MOOO4 t Motorola 8-Bit, Transparent, 0 Type, Three-State OM74ALS580 National MOO05 t Motorola TTL-ALS (957) SI54ALS533 tTl (732) SI7481A (860) SN54ALS373 TI t MotorDla SI54ALS563 (962) tTl SI54ALS573 (732) t Molorola 16-Bit Active Element Memory, Gated Write (966) SI54ALS580 tTl (732) 50 SI74ALS373 Molorola TTL SI7484A (861) TI (957) SI74ALS533 TI SI74ALS573 Molorola (732) 16-Bit (4x4) Register File, Simultaneous ReadlWrlte, Open SI74ALS563 TI (962) OM54ALS373 t National Collector SI74ALS580 TI (966) OM54ALS573 t National 54170 TTL t Fairchild (957) TTL-AS SI54AS533 120 tTl OM74ALS373 National 74170 Fairchild (957) SI74AS533 TI OM74ALS573 National ZN54170 t Ferranti SN54ALS373 TTL-F 54F533 ttl t Fairchild ZN74170 Ferranti 170 (964) SI54ALS573 tTl 74F533 Fairchild OM74170 National SN74ALS373 TI MC54F533 (731) t MOlorola 54170 tSlgnetics (964) SN74ALS573 TI MC74F533 Moloroll (731) 74170 Signetlcs (Continued) (Continued) (Continued) 8-Bit, Addressable, with Clear TTL 9334C 9334M OM54259 OM74259 OM8334 OM9334 N9334 S9334 SI54259 SI74259

t Military Temperature Range (- 55° to 125°C)

496

* Typical Value 80ld raci ladlcallS additional 'all II pro,"" on Ibl pigi lOll'.

«>

IC MASTER

1983

MASTER SELECTION GUIDE DIGITAL-TTL (Cont'd) Function

Functlon Device

Line

Source

Memories (Cont'd)

Source

Line

64-Bit (32x2) Simultaneous ReadlWrite RAM TIL-S N82S21 Signetics 80-Bit (16x5) First-ln/First-Out Memory, Asynchronous, Three-State TIL-S SN74S225 (908) TI

t Fairchild Fairchild t Motorola Motorola t National National tSGS SGS Signetics tTl TI

Device

DuaI4-lnput, Complementary Output TIL 9309C 9309M MC8309 60 MC9309 TIL-S DM74S206 National DM8309 256-Bit (256x1) RAM, Three-State DM9309 10 TIL-S DM74S200 National N9309 S9309 256-Bit (32x8) RA.M, Open-Collector (893) SN29309 TIL-ALS (893) S154ALS318 (440.928) SN39309 ttl (928) SN74ALS318 TI 16-Blt (4x4) Register File, Simultaneous ReadlWrlte, DuaI4-lnput, Inverting Three-State TIL-ALS 256-Bit (32x8) RAM, Three-State TIL-LS 54LS670 t Fairchild SN54ALS352 TIL-ALS Fairchild 74LS670 SN74ALS352 SN54ALS218 . (440.906) tTl M74LS670 Mitsubishl SN54ALS352 SI74ALS218 (906) TI SN74ALS352 SN54LS670 \ t Motorola 256-Bit (64x4) RAM, Open-Collector SN74LS670 Motorola TIL-AS SN54AS352 TIL-ALS DM54LS670 t National SI54ALS317 (440.928) SN74AS352 tTl (928) SN74ALS317 DM74LS670 National 20 TI TIL-F 54F352 54LS670 tSGS .256-Bit (64x4) RAM, Three-State 74F352 74LS670 SGS TIL-ALS .MC54F352 SN54ALS217 (440.905) 54LS670 t Signetics tTl MC74F352 (905) 70 S174ALS217 TI 74LS670 Signetics 74F352 (990) S154LS670 1024x8 PROM tTl TIL-LS 54LS352 (3679) MB7131 (990) FuJitsu SI74LS670 TI 74LS352 (3679) MB7132 FuJitsu M74LS352 16-Bit (8x2) Multiport Register File, Simultaneous Readl SN54LS352 1024x10 ROM, Sine (030 to 9030) Look-Up Table Write, Three-State TIL-S 5086 SN74LS352 tMMI (894) TIL S174172 TI 5087 DM54LS352 tMMI TIL-S 54S172 t Signetics 6086 MMI DM74LS352 74S172 Signetics 6087 MMI T54LS352 32-Blt (4x8) Register File, OIC TI4LS352 2048x4 PROM TIL-F 54F571 t Fairchild 30 SN54LS352 MB7128 (3679) FuJitsu Fairchild 74F571 SN74LS352 2048x8 PROM 32-Blt (4x8) Register File, Three-State Dual4-lnput (three-state 54175153) MB7138E-W (3679) FuJitsu TIL-F 54F570 t Fairchild TIL DM7214 4096x8 PROM 74F570 Fairchild DM8214 (3679) MB7142E-W FuJitsu 54-Bit (16x4) RAM, Open Collector TIL AM29704C 'AM29704M ZN5489 ZN7489 DM7489B DM7589 DM8589 SI7489 TIL-S

DM74S289 IDM29704C IDM29704M

64-Blt (16x4) RAM, Three-State TIL AM29705C AM29705M DM7599 DM8599 TIL-S

DM74S189 IDM29705AC IDM29705AM IDM29705C IDM29705M

tAMD National National National National t National National t National

64-Blt (16x4) Register File with Latch, Three-State TIL-S DM85S68 National t Military Temperature Range (- 55° to 125°C)

c IC MASTER

1983

256-Bit (256x1) RAM, Open Collector TIL-LS N74LS301 Signetics S54LS301 t Signetics

AMD Multiplexers (Digital) tAMD 74F153 Signetics t Ferranti 74F253 Signetics Ferranti Synchronous Address National TIL-LS MC6883 Motorola National SN74LS783 Motorola National 40 DuaI3-lnput, Inverting, Three-State (440.863) TI TIL-ALS National SN54ALS353 t Motorola National SI54ALS353 tTl t National SN54AS353 tTl SN74ALS353 TI SI74AS353 TI AMD (1225) TIL-F

(1225)

50

54F353 74F353 MC54F353 MC74F353 74F353

TIL-LS 54LS353 74LS353 M74LS353 SN54LS353 SN74LS353

t Fairchild Fairchild t Motorola Motorola Signetics

Source

Line

Dual 3-lnput, Inverting, Three-State TIL-LS (Cont'd) DM54LS353 t National DM74LS353 National 100 T54LS353 tSGS TI4LS353 SGS SI54LS353 (933) tTl . (933) SN74LS353 TI

64-Bit (16x4) Simultaneous ReadlWrite RAM with Output Register TIL 9410C Fairchild 9410M t Fairchild

16-Blt (4x4) Register File, Simultaneous ReadlWrlte, Open Collector (Cont'd) TIL S154170 (893) tTl (893) S174170 TI TIL-LS 54LS170 74LS170 SN54SL170 SN74LS170 DM54LS170 DM74LS170 54LS170 74LS170 74LS170 S154LS170 S174LS170

Function Device

Dual4-lnput. Three-State TIL-ALS SN54ALS253 80 SN54ALS253 SN74ALS253

(732) (933) (933) (933) (933) 90 (731) (731)

t Fairchild Fairchild Mitsubishi t Motorola Motorola (Continued)

Fairchild t Fairchild Motorola t Motorola National National Signetics t Signetics

110

TI tTl

t Motorola Motorola tTl TI

(732) (732) (932) (932)

ttl TI

(932) (932) 120

t Fairchild Fairchild t Motorola Motorola Signetics t Fairchild Fairchild Mitsubishi t Motorola Motorola t National National tSGS SGS tTl TI

(731) (731)

~

I

! 130

(932) (932)

(9

c (732) (915) 140 (915)

TIL-AS SI54AS253 SN74AS253

tTl TI

(915) (915)

TIL-F

t Fairchild Fairchild t Motorola Motorola

TIL-LS AM25LS253C AM25LS253M SN54LS253 54LS253 74LS253 HD74LS253 M74LS253 SN54LS253 SN74LS253 DM54LS253 DM74LS253 54LS253 74LS253 54LS253

Q.)

"0 .::J

t National National

t Motorola ttl TI

54F253 74F253 MC54F253 MC74F253

'='

0

...... () Q.)

-Q.) (j)

~

Q.)

...... (731) (731)

AMD tAMD 150 tAMD t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National t SGS SGS 160 t Signetics (Continued)

* Typical Value Bal. 'aci IndlcallS additional data Is provldld on tbl pagl noted,

497

en

CO ~

Ie

MASTER

DIGITAL-TTL (Cont'd) Device

Line

'Source

Multiplexers (Digital) (Cont'd) Dual4-lnput, Three-State TIL-LS 74LS253 SN54LS253 SN74LS253 TIL-S

Dual4-lnput TIL

Dual8-lnput (two 8-to-l sections) SN54LS451 TIL SN74LS451 8N74351

(Cont'd) Signetics tTl TI

SN54S253 SN74S253 54S253 74S253 DM54S253 DM74S253 54S253 74S253

tAMD AMD t Fairchild Fairchild t National National t Signetics Signetics

54153 74153 ZN54153 ZN74153 HD74153 MC4000 MC4300 MC54153 MC74153 DM54153 DM74153 54153 74153 SN54153 SN74153

t Fairchild Fairchild t Ferranti Ferranti Hitachi Molorola t Molorola t Motorola Motorola t,National National t Signetics Signetics tTl TI

SN54ALS153 SN74ALS153 SN54ALS153 SN74ALS153

t Molorola Molorola tTl TI

Device

TIL-AS SN54AS153 SN74AS153

tTl TI

TIL-F

54F153 74F153 MC54F153 MC74F153

t Fairchild Fairchild t Molorola Molorola

AM25LS153C AM25LS153M SN54LS153 54LSl53 74LS153 HD74LS153 M74LS153 SN54LS153 SN74LS153 DM54LS153 DM74LS153 54LSl53 74LS153 54LS153 74LS153 SN54LS153 SN74LS153

AMD tAMD tAMD t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

SN54S153 SN74S153 54S153 74S153 DM54S153 DM74S153 54S153 74S153 8N54S153 SN74S153

tAMD AMD t Fairchild Fairchild t National National t Signetics Signetlcs tTl TI

-0 TIL-LS

:::J

(!J C

0

.......

() Q)

Q)

CJ) !....

Q)

.......

en

CO

~

TIL-S

t Military Temperature Range (- 55° to 125°C)

498

Source

tMMI MMI TI

Line

(932)

Quad 2-lnput Digital (suitable for driving adders, registers) TIL MC7266 Motorola MC8266 t Motorola RC8266 Raytheon RM8266 t Raytheon Signetics N8266 S8266 t Signetics 10 Quad 2-lnput, Inverting, Open Collector TIL RC8234 RM8234 t N8234 S8234 t

(729) (729) 20

(884) (884)

TIL-F

TIL-LS

(732) (732) (884) (884) 30 ,(884) (884)

(731) (731)

40

TIL-S

50

54F258 74F258 MC54F258 MC74F258 54F258 74F258

t Fairchild Fairchild t Molorola Molorola t Signetics Signetics

AM25LS258C AM25LS258M SN54LS258 74LS258 HD74LS258 M74LS258 SN54LS258A SN74LS258A DM54LS258B DM74LS258B 54LS258 74LS258 54LS256 54LS258 74LS258A SN54LS258A SN74LS258A

AMD tAMD tAMD Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics tSignetics Signetics tTl TI

SN54S258 SN74S258 54S258 74S258 HD74S258 DM54S258 DM74S258 54S258 74S258 SN54S258 SN74S258

tAMD AMD t Fairchild Fairchild Hitachi t National National t Signetics Signetics tTl TI

Quad 2-lnput, Inverting TIL 54158 74158

(884) (884)

tAMD AMD t Fairchild Fairchild Hitachi t National National tSignetics Signetics tTl TI

(887) (887)

90 Quad 2-lnput, Non-Inverting, Three-State TIL-ALS SN54ALS257 t Molorola SN74ALS257 Molorola SN54ALS257 tTl SN74ALS257 TI

(732) (732) (916) (916)

TIL-F

100

TIL-LS

(917) (917)

110

(917) (917)

t Signetics Signetics TIL-S

TIL-ALS

TIL-F 60 (884) (884)

54F158 74F158 MC54F158 MC74F158

t Fairchild Fairchild t Molorola (?31) Molorola (731) (Continued)

(Cont'd) t Signetics Signetics

TIL-S

70

(731) (731)

t Molorola Molorola tTl TI

Line

AMD tAMD tAMD t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

(732) (732) (917) 80 (917)

SN54ALS158 SN74ALS158 SN54ALS158 8N74ALS158

Source

TIL-LS AM25LS158C AM25LS158M SN54LS158 54LS158 74LS158 HD74LS158 M74LS158 SN54LS158 SN74LSl58 DM54LS158 DM74LS158 54LS158 74LS158 54LS158 74LS158 SN54LS158 SN74LS158

Raytheon Raytheon Signetics Signetics

Quad 2-lnput, Inverting Three-State TIL-ALS SN54ALS258 t Molorola SN74ALS258 Molorola SN54ALS258 tTl SN74ALS258 TI

Device

Quad 2-lnput, Inverting TIL-F 54F158 74F158

Quad 2-lnput, Conditional Complementing, Open Collector N8235 Signetics TIL

TIL-ALS

Q)

Function

Function

Function

(732) (732) (887) 120 (887)

SN54S158 SN74S158 54S158 74S158 HD74S158 DM54S158 DM74S158 54S158 74S158 SN54S158 SN74S158

130

140

(887) (887)

150

54F257 74F257 MC54F257 MC74F257 54F257 74F257

t Fairchild Fairchild t Molorola Molorola t Signetics Signetics

AM25LS257C AM25LS257M SN54LS257 74LS257 HD74LS257 M74LS257 SN54LS257A SN74LS257A DM54LS257B DM74LS257B 54LS257 74LS257 54LS257 74LS257A SN54LS257A SN74LS257A

AMD tAMD tAMD Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

(916) 180 (916)

SN54S257 SN74S257 74S257 HD74S257 DM54S257 DM74S257 54S257 74S257 SN54S257 SN74S257

tAMD AMD Fairchild Hitachi t National National t Signetics Signetics tTl TI

(916) 190 (916)

160 (731) (731)

170

* Typical Value Bold racllndlcales addlllonal dala Is provided aD Ibe pagl Dolld.

c IC MASTER

1983

MASTER SELECTION GUIDE DIGIT AL-TTL (Cont'd) Function Line

Multiplexers (Digital) (Cont'd) Quad 2-lnput, Non-Inverting TIL 54157 74157 9322C 9322M ZN54157 HD74157 MC54157 MC74157 MC8322 MC9322 DM54157 DM74157 DM8322 DM9322 RC8233 RM8233 54157 74157 N8233 N9322 S8233 SN54157 SN74157

t Fairchild Fairchild Fairchild t Fairchild t Ferranti Hitachi t Motorola Motorola Motorola t Motorola t National National National t National Raytheon t Raytheon t Signetics Signetics Signetics Signetics t Signetics tTl TI

(887) (887)

SN54ALS157 SN74ALS157 SN54ALS157 SN74ALS157

t Motorola Motorola tTl TI

(732) (732) (887) (887)

54F157 74F157 MC54F157 MC74F157 54F157 74F157

t Fairchild Fairchild t Molorola Motorola t Signetics Signetics

(731) 30 (731)

AMD AMD tAMD t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS Signetics Signetics tTl TI

TIL-LS AM25LS157C AM25LS157M SN54LS157 54LS157 74LS157 HD74LS157 M74LS157 SN54LS157 SN74LS157 DM54LS157 DM74LS157 54LS157 74LS157 54LS157 74LS157 SN54LS157 SN74LS157 TIL-S

SN54S157 SN74S157 54S157 74S157 HD74S157 DM548157 DM74S157 548157 74S157 SN54S157 SI74S157

. tAMD AMD t Fairchild Fairchild Hitachi t National National t Signetics Signetics tTl TI

Device

Quad 2-lnput with Output Register TIL 54298 74298 MC54298 MC74298 54298 74298 SN54298 SN74298 10

20

40

TIL-F

54F.398 54F399 74F398 74F399

~

IC MASTER

1983

t Fairchild Fairchild t Motorola Motorola t Signetics Signetics tTl TI

TIL-S

(926) (926)

TIL-S

AMD tAMD tAMD AMD

(Cont'd) 130

t Signetlcs t Signetics t Signetics

SN54ALS151 SN74ALS151 SN54ALS151 SN74ALS151

(732) (732) (884) (884)

TIL-AS SN54AS151 SN74AS151

tTl TI

(884) (884)

TIL-F

t Fairchild Fairchild t Molorola Motorola

(731) (731)

TIL-LS

TIL-S

Fairchild t Fairchild Motorola t Motorola National t National Raytheon Raytheon t Raytheon (Continued)

(884) (884)

t Motorola Motorola tTl TI

(887) (887) 50 Quad 3-lnput, Open Collector, Conditional Complementing, Output Enable Raytheon TIL RC8264 RM8264 t Raytheon

120

140

TIL-ALS

(1227) (1227)

tMMI MMI

Line

t Raytheon Signetlcs Signetics TI tTl

8-lnput, Complementary Output, Strobe TIL 54151 t Fairchild 74151 Fairchild ZN54151 t Ferranti ZN74151 Ferranti HD74151 Hitachi MC54151 t Motorola MC74151 Motorola DM54151A t National DM74151A National 54151 t Signetics 74151 Signetics SN54151A tTl SN74151A TI

Quad 3-lnput, Conditional Complementing Raytheon TIL RC8263 RM8263 t Raytheon

Quad 4-lnput TIL-LS SN54LS453 SN74LS453

S82S30 S82S31 S82S32

Source

8-lnput, Complementary Output, Open Collector TIL 9313C Fairchild 9313M t Fairchild RC8231 Raytheon RM8231 t Raytheon

t Fairchild t Fairchild Fairchild Fairchild (1227) 80 AMD (1227) tAMD AMD t AMD tAMD t AMD AMD t Fairchild Fairchild Fairchild t Fairchild 90 Hitachi Mitsubishi t Motorola t Motorola t Motorola Motorola Motorola Motorola t National National 100 tSGS SGS t Signetics Signetics (926) tTl (944) tTl' (944) tTl (926) TI (944) TI (944) 110 TI

AM25S09C AM25S09M SN54S399 SN74S399

Device

8-lnput, Complementary Output TIL RM8232 ' N8230 N9312 SN29312 SN39312 70

TIL-LS AM25LS09C AM25LS09M AM25LS399C AM25LS399M SN54LS298 SN54LS399 SN74LS399 54LS298 74LS298 9LS298C 9LS298M HD74LS298 M74LS298 SN54LS298 SN54LS398 SN54LS399 SN74LS298 SN74LS398 SN74LS399 DM54LS298 DM74LS298 54LS298 74LS298 54LS298 74LS298 SN54LS298 SN54LS398 SN54LS399 SN74LS298 SN74LS398 SN74LS399

8-lnput, Complementary Output TIL 9312C 9312M MC8312 (887) 60 MC9312 (887) DM8312 Quad 2-lnput, Open Collector (for adder, register input) DM9312 Motorola TIL MC7267 RC8230 MC8267 t Motorola RC8232 RC8267 Raytheon RM8230 RM8267 t Raytheon t Milita:y Temperature Range (- 55° to 125°C)

Line

Source

Quad 2-lnput, (three-state 54/74157) TIL DM7123 National DM8123 t National

TIL"ALS

TIL-F

Function

Function Source

Device

54F151 74F151 MC54F151 MC74F151 AM25LS151C AM25LS151M . SN54LS151 54LS151 74LS151 HD74LS151A M74LS151 SN54LS151 SN74LS151 DM54LS151 DM74LS151 54LS151 74LS151 54LS151 74LS151 SN54LS151 SN74LS151 SN54S151 SN74S151 54S151 74S151 93S12C 93S12M HD74S151 DM54S151 DM74S151 54S151 74S151 SI54S151 SI74S151

AMD tAMD tAMD t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI tAMD AMD t Fairchild Fairchild Fairchild t Fairchild Hitachi t National National t Signetics Signetics tTl TI

(l)

'"0 :::J

CJ 170

C

0 ~

()

(l) (l)

CJ) ~

(l) ~

(j)

('(j

(884) 180 (884)

190

(884) (884)

• Typical Value Bold faci Indlcatls addlllonal data Is provided on tbe paUl notld.

499

~

Ie MASTER DIGITAL-TTL (Cont'd) Function

Function Device

Source

Line

Multiplexers (Digital) (Cont'd) B-Input, Complementary Output (three-state 54n4151) DM7121 TIL t National National DMB121 B-Input, Inverted Output 54152 TIL MC54152 MC74152 DM7210 DM7211 DMB210 DMB211 8N54152A TIL-LS 54LS152 HD74LS152 SN54LS152 SN74LS152 T74LS152 8N54LS152 8N54LS152A

t Fairchild t Motorola Motorola t National t National National National tTl t Fairchild Hitachi t Motorola Motorola SGS tTl tTl

B-Input, Inverting/Non Inverting, Control Storage TIL-LS AM25L82535C AMD AM25L82535M tAMD AM2922C AMD AM2922M tAMD a-Input Multiplexer/Data Selector/Register, Complementary Output, Open Collector TIL-LS 8N54L8355 tTl 8N54L8357 tTl 8N74L8355 TI 8N74L8357 TI a-Input Multiplexer/Data Selector/Register, Complementary Output, Three-State TIL-LS 8N54L8354 tTl 8N54L8356 tTl 8N74L8354 TI 8N74L8356 TI

CD

"0 ::J

(884)

Function Device

TIL-ALS 8N54AL8251 8N74AL8251 8N54AL8251 8N74AL8251

C

o

....... ()

CD CD C/)

t Moloroll Moloroll tTl TI

TIL-LS SN54LS450 SN74LS450 16-lnput (three-state 54n4150) TIL DM7219 DMB219

500

Monostable, Schmitt Trigger Input TIL 54121 74121 ZN54121 ZN74121 (915) HD74121 (915) 40 MC54121 MC74121 DM54121 (731) DM74121 (731) 54121 74121 8N54121 8N74121 (732) (732) (915) (915)

TIL-AS 8N54A8251 8N74A8251

tTl TI

TIL-F

54F251 74F251 MC54F251 MC74F251

t Fairchild Fairchild t Moloroll Moloroll

TIL-LS

AM25LS251C AM25LS251M SN54LS251 54LS251 74LS251 HD74LS251 M74LS251 SN54LS251 SN74LS251 DM54LS251 DM74LS251 54LS251 74LS251 54LS251A 74LS251A

AMD tAMD tAMD t Fairchild Retriggerable Monostable . Fairchild 9601C TIL Hitachi 50 9601M Mitsubishi MCB601 t Motorola MC9601 Motorola DMB601 t National DM9601 National 9601 tSGS NBT22 SGS SN29601 t Signetics TIL-LS 8N54L8422 Signetics (Continued) 8N74L8422

t Military Temperature Range (- 55° to 125°C)

Source

9600M t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National t Signetics Signetics tTl TI

Dual Monostable (doug Ie-edge) DM7B53 TIL DMBB53

TIL-LS (883) (883)

tMMI MMI t National National

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National t Signetics Signetics tTl TI

90

t Fairchild Fairchild t Ferranti Ferranti t Motorola Motorola tTl TI

(873) (873)

Hitachi t Motorola Motorola t National National tTl TI

(873) (873)

120

130

Fairchild t Fairchild t National National

HD74LS221 SN54LS221 SN74LS221 DM54LS221 DM74LS221 54LS221 8N54L8221 8N74LS221

Hitachi t Motorola Motorola t National National t Signetics TI TI

Dual Retriggerable Monostable (AND triggered) TIL-LS 8N54L8423 tTl 8N74LS423 TI

(906) (906) (945) 150 (945)

Dual Retriggerable Monostable with Clear (AND triggered) AM26123C TIL AMD I AM26123M tAMD 54123 t Fairchild 74123 Fairchild ZN54123 t Ferranti ZN74123 Ferranti HD74123 Hitachi MC54123 t Motorola MC74123 Motorola 160 DM54123 t National DM74123 National 54123 t Signetics 100 74123 Signetics 8N54123 (874) tTl 8N74123 TI (874) TIL-LS HD74LS123 SN54LS123 SN74LS123 DM54LS123 DM74LS123 8N54L8123 8N74L8123

(873) (873)

Fairchild t Fairchild Motorola t Motorola National t National Signetics Signetics TI tTl TI

Line

Dual Monostable, Schmitt-Trigger Input (dual 54n4121) TIL HD74221 Hitachi 54221 t Signetics 74221 Signetics BO 8N54221 (906) 140 tTl 8N74221 (906) TI

8-lnput, Strobe, Complementary Output, Three-State Multivibrators TIL HD74251 Hitachi 30 DM54251 t National Bidirectional Monostable (lOW level input) DM74251 National RCBT20 Raytheon TIL (915) 8N54251 tTl RMBT20 t Raytheon 8N74251 (915) TI NBT20 Signetics

C}

Device

Line

B-Input, Strobe, Complementary Output, Three-State Retriggerable Monostable with Clear (Cont'd) TIL-LS TIL 54122 8N54L8251 (915) 60 tTl 74122 ZN54122 8N74L8251 TI (915) ZN74122 TIL-S SN54S251 tAMD MC54122 SN74S251 AMD MC74122 HD74S251 Hitachi 8N54122 t National DM54S251 8N74122 DM74S251 National TIL-LS HD74LS122 54LS251 t Signetics SN54LS122 54S251 t Signetics SN74LS122 74S251 Signetics DM54LS122 8N548251 (915) 70 tTl 10 DM74LS122 (915) 8N748251 TI SN54LS122 10-lnput, Quad B-to-l Programmable, Three-State 8N74L8122 29693C Raytheon TIL Retrlggerable Monostable, with Reset 29693M t Raytheon TIL 9600C

16-lnput, Inverted Output, Strobe (884) TIL 54150 (884) 74150 ZN54150 (1227) ZN74150 (1227) HD74150 (1215) 20 MC54150 (1215) MC74150 DM54150 DM74150 (934) 54150 (935) 74150 (934) 8N54150 (935) 8N74150

(933) (934) (933) (934)

Source

110

(945) (945)

Hitachi t Motorola Motorola t National National tTl TI

170 (874) (874)

Dual Retriggerable Monostable with Reset (OR triggered) TIL AM2602C AMD AM2602M tAMD 9602C Fairchild 9602M t Fairchild 96L02C Fairchild 96L02M t Fairchild MCB602 Motorola 180 MC9602 t Motorola (Continued)

• Typical Value Bold flCI Indlcilis Iddlllonal dill Is provldld on Ihe plgl nOlld. «l

IC MASTER

1983

MASTER SELECTION GUIDE DIGIT AL-TTL (Cont'd) Function

Function Device

Source

Line

Multivibrators (Cont'd)

4-Bit Parallel Input, Parallel Output TIL-LS M74LS195A SN54LS195A SN74LS195A DM54LS195A DM74LS195A 74LS195A 8N54L8195A 8N74L8195A

Dual Retrlggerable Monostable with Reset (OR triggered) (Cont'd) TIL National DMB602 DM9602 t National N9602 Signetics S9602 t Signetics TIL-LS 96LS02C 96LS02M

Fairchild t Fairchild

TIL-S

AMD tAMD Fairchild t Fairchild

AM26S02C AM26S02M 96S02C 96S02M

Dual Voltage-Controlled TIL 11C24C 11C24M MC4024 MC4324

Fairchild t Fairchild Motorola t Motorola

Triple Monostable TIL DNB50

Panasonic

Function Device

TIL-S 10

SN54S195 SN74S195 93S00C 93S00M DM54S195 DM74S195 54S195 74S195 8N548195 8N748195

Source

Line

Device

4-Bit Parallel-In, Parallel-Out, Cascadable, Three-State TIL-LS 74LS395 Fairchild M74LS395A Mltsubishl SN54LS395A 60 t Motorola SN74LS395A Motorola T54LS395 tSGS T74LS395 SGS 54LS395A t Signetics 74LS395A Signetics (903) 8N54L8395A (943) ttl (903) 8N74L8395A TI (943) 130

Mitsubishi t Motorola Motorola t National National Signetlcs ttl TI tAMD AMD Fairchild t Fairchild t National National t Signetics Signetics ttl TI

4-Bit Parallel-In, Serial-Out TIL 5494 7494 70 ZN7494A MC5494 MC7494 7494 8N5494 (903) 8N7494 (903) 4-Bit Universal Bidirectional

4-Bit Parallel-In, Parallel Out, RighULeft TIL 5495 t Fairchild 7495 Fairchild Parallei-In, Parallel-Out, Registered Outputs Ferranti ANB495A TIL-ALS ZN5495A t Ferranti 8N54AL8671 t Motorola (732) MC4012 Motorola 8N54AL8672 t Motorola (732) MC4312 t Motorola 8N74AL8671 Motoroll (732) MC5495A t Motorola (732) 8N74ALS672 Motoroll MC7495A Motorola TIL-LS 8N54L8671 (991) 20 ttl DM5495 t National 8N54L8672 (991) tTl. DM7495 National 8N74L8671 (991) TI 5495A t Signetics (991) SN74LS672 TI 7495A Signetics 4-Bit Parallel In, Parallel Out, RighULeft, Three-State· (866) 8N5495A ttl Fairchild TIL-LS 74LS295 (866) 8N7495A TI M74LS295B Mitsubishl TIL-LS 54LS95B t Fairchild SN54LS295A t Motorola 74LS95B Fairchild SN74LS295A Motorola HD74LS95B Hitachi 54LS295A tSGS Mitsubishi M74LS95B 74LS295A SGS SN54LS95B t Motorola 30 54LS295B t Signetics SN74LS95B Motorola 74LS295B Signetics 8N54LS295B (925) 54LS95B tTl tSGS (925) SI74LS295B TI 74LS95B SGS 54LS95B t Signetics 4-Bit Parallel Input, Parallel Output 74LS95B Signetics TIL 54195 t Fairchild 8N54L895B (866) 74195 Fairchild ttl (866) Fairchild 8N74L895B TI 9300C 9300M t Fairchild 4-Bit Parallel-In, Parallel Out, (with load, shift, hold HD74195 Hitachi control) ' t Motorola MC54195 TIL 5417B t Fairchild MC74195 Motorola 40 Motorola MC7270 MCB300 Motorola MCB270 t Motorola MC9300 t Motorola RCB270 Raytheon DM54195 t National RMB270 t Raytheon DM74195 National 8N54178 (896) ttl DMB300 National 8N74178 (896) TI DM9300' t National 4-Bit Parallel-In, Parallel Out, with Reset, Complementary 54195 t Signetics Output for Last Bit 74195 Signetics 54179 TIL t Fairchild N9300 Signetics Fairchild 74179 (903) 50 8154195 ttl Motorola MC7271 8N74195 TI (903) MCB271 t Motorola TIL-F 74F195 Signetics Raytheon RCB271 TIL-LS AM25LS195AC AMD RM8271 t Raytheon AM25LS195AM tAMD NB271 Signetics SN54LS195A t AMD SB271 t Signetics 54LS195 t Fairchild (897) 8N54179 ttl 74LS195 Fairchild 8N74179 (B97) TI HD74LS195A Hitachi (Continued) Signetics TIL-S NB2S71

~

IC MASTER

1983

Line

(Cont'd)

TIL

Shift Registers

t Military Temperature Range (- 55° to 125°C)

Source

BO

TIL-F 90

TIL-LS

100

TIL-S

t Fairchild Fairchild Ferranti t Motorola Motorola Signetics ttl TI

(865) (865)

54194 74194 ZN54194 ZN74194 HD74194 MC54194 MC74194 DM54194 DM74194 54194 74194 8N54194 8N74194

t Fairchild Fairchild t Ferranti Ferranti Hitachi t Motorola Motorola t National National t Signetics Signetlcs ttl TI

(902) (902)

54F194 74F194 MC54F194 MC74F194

t Fairchild Fairchild t Motoroll Motoroll

(731) (731)

AM25LS194AC AM25LS194AM SN54LS194A 54LS194A HD74LS194A M74LS194A SN54LS194A SN74LS194A DM54LS194A DM74LS194A 54LS194A 74LS194A 8N54LS194A 8N74L8194A

AMD tAMD tAMD t Fairchi!d Hitachi Mitsubishi t Motorola Motorola t National National t Signetics Signetics tTl TI

SN54S194 SN74S194 54S194 74S194 DM54S194 DM74S194 8N548194 8N748194

tAMD AMD t Fairchild Fairchild t National National ttl TI

110 5-Bit Parallel-In, Parallel-Out TIL 5496 7496 ZN5496 ZN7496 HD7496 MC5496 MC7496 DM5496 DM7496 5496 120

140

160

Q.)

"0 ::J

CJ C

0 +-'

()

Q.)

(902) (902)

Q.)

170

(/) ~

Q.) +-'

(j)

CU

~ (902) (902)

t Fairchild Fairchild 1BO t Ferranti Ferranti Hitachi t Motorola Motorola t National National t Signetics (Continued)

• Typical Value Bold flCI Indlcltes addlllonil dlta Is provided on tbe plge noted.

501

Ie MASTER DIGITAL-TTL (Cont'd) Function

Function

Function Device

line

Source

Device

Source

Device

line

Source

line

8-Bit Parallel-In, Parallel-Out, Unidirectional 8-Bit Serial-In, Parallel-Out Register with Output latches. Shift Registers (Cont'd) (Cont'd) TTl-lS (Cont'd) TIL 5-Bit Parallel-In, Parallel-Out Signetics 74199 60 (988) S174LS596 TI (Cont'd) TIL (905) SI54199 SI74LS599 (970) 120 tTl TI Signetics 7496 (905) SI74199 TI 8-Bit Serial-In, Serial-Out (866) SI5496 tTl 8-Bit Parallel-In, Parallel-Out, Three-State, with Positive 5491 TTL t Fairchild (866) SI7496 TI Edge-Triggered D-Type Flip Flops (bus interface) 7491 Fairchild Mitsubishi TIl-lS M74lS96 AMD (2602) TIL AM29825 ZN5491A t Ferranti 54lS96 t Signetics (2602) AM29826 AMD ZN7491 Ferranti 74lS96 Signetics 8-Bit Parallel-In, Serial-Out, Complementary Output HD7491A Hitachi (866) SN54LS96 ttl TTL 54165 t Fairchild MC5491 t Motorola (866) SN74LS96 TI Fairchild 74165 MC7491 Motorola ZN54165 t Ferranti 5-Bit Dual Parallel-In, Parallel-Out Buffer Register, DM5491A t National ZN74165 Ferranti (clocked flip-flops) DM7491A National Raytheon RC8200 TIL MC54165 t Motorola 5491 tSignetlcs 130 10 Motorola RM8200 t Raytheon MC74165 70 7491 Signetics DM54165 t National 5-Bit Dual Parallel-In; Parallel-Out Buffer Register, SN5491A (864) tTl DM74165 National Inverting Output (clocked flip-flops) (864) SN7491A TI t Signetics 54165 Raytheon RC8201 TTL TIl-lS HD74lS91 Hitachi Signetics 74165 ~ RM8201 t Raytheon M74lS91 Mitsublshi SN54165 (891) tTl 8-BIt Gated Serial-In, Parallel-Out 8N54LS91 (864) tTl .. (891) TI 8N74165 54164 t Fairchild TIL (864) SN74LS91 TI TTl-AlS 74164 Fairchild (891) SN54ALS165 8-Bit Synchronous with Parallel load and Hold tTl ZN54164 t Ferranti TTl-lS SN54lS498 (891) tMMI SN74ALS165 TI Ferranti ZN74164 SN74lS498 MMI HD74164 Hitachi TTl-lS 54lS165 t Fairchild

-

I= i ~

t National National t National National t Signetics Signetics tTl TI

(891) (891)

SN54ALS164 SN74ALS164 SN54ALS164 SN74ALS164

t Moloroll Molorola tTl TI

(732) (732) (891) (891)

TIl-lS

Q)

::::I

(!J C

0 +-'

() Q)

Q)

(f) to...

Q) +-'

U)

AM25lS164C AM25LSl64M SN54lS164 54lS164 74lS164 HD74LSl64 M74lS164 SN54lS164 SN74LSl64 DM54lS164 DM74lS164 54lS164 74lS164 54lS164 74lS164 . SN54LS164 SN74LS164

AMD AMD tAMD t Fairchild Fairchild Hitachi Mitsubishi t Motorola Motorola t National National tSGS SGS t Signetics Signetics tTl TI

8-Bit Parallel-In, Parallel-Out, RighUleft TTL 54198 t Fairchild 74198 Fairchild HD74198 Hitachi DM54198 t National DM74198 National SN54198 tTl SN74198 TI

502

Fairchild Mitsubishi t Motorola Motorola tTl TI

8-Bit Parallel-In, Serial-Out with Clear TTL 54166 t Fairchild Fairchild 74166 Ferranti ZN54166 ZN74166 Ferranti Hitachi HD74166 DM54166 t National DM74166 National 30 54166 t Signetics 74166 Signetics SN54166 tTl SN74166 TI

80 8-Bit Synchronous with Parallel load, load Complement, Preset, Clear and Hold TIl-lS SN54lS380 tMMI SN74lS380 MMI (891) (891)

SN54ALS166 SN74ALS166

TTl-AlS

90 TTl-F

(891) . (891)

40

(891) (891)

Mitsubishi t Motorola Motorola t National National tTl TI

8-Bit Parallel-In, Serial-Out with Input latches TIl-LS SN54LS597 tTl SN54LS598 ttl SN74LS597 TI SN74LS598 TI 50

(904) (904)

TIl-lS M74LS166 SN54lS166 SN74lS166 DM54lS166 DM74lS166 SN54LS166 SN74LS166

(891) (891)

tTl TI

100

(891) (891) (969) (969) (969) (969)

8-Bit Serial/Parallel-In Register with Sign Extend (for use with 25lS14/74lS384 multiplier) TIL-F 54F322 t Fairchild Fairchild 74F322 TIl-lS 74lS322

110

Fairchild

8-Bit Serial-In, Parallel-Out Register with Output latches (968) TIl-lS SN54LS594 tTl (968) SN54LS595 tTl (968) SN54LS596 tTl SN54LS599 (970) tTl TI (968) SN74LS594 (968) SN74LS595 TI (Continued) * Typical Value Bald flel ladlelllS Iddlllonil dill Is proyldld on

I~I

140

8-Bit Universal Shift/Storage, Three-State TTL DM7546 t National DM8546 National

TTl-AlS

8-Bit Parallel-In, Parallel-Out, Unidirectional 54199 TTL t Fairchild 74199 Fairchild HD74199 Hitachi DM54199 t National DM74199 National 54199 t Signetics (Continued) t Military Temperature Range (- 55° to 125°C)

74lS165 M74lS165 SN54lS165 SN74lS165 SN54lS165 SI74LS165

20

TIl-AlS

"0

ctS ~

DM54164 DM74164 DM7570 DM8570 54164 74164 SN54164 SN74164

SN54ALS299 SN54ALS323 SN74ALS299 SN74ALS323

tTl tTl TI TI

54F299 s4F323 74F299 74F323 MC54F299 MC74F299

t Fairchild t Fairchild Fairchild Fairchild t MolorDl1 MolorDl1

TTl-lS AM25LS23C AM25LS23M AM25LS299C AM25LS299M SN54LS299 SN54LS323 SN74LS299 SN74lS323 54LS299 54lS323 74lS299 74lS323 HD74LS299 M74lS299 M74lS323 SN54lS299 SN54LS323 SN74lS299 SN74lS323 SN54LS299 SN54LS323 SN74LS299 SN74LS323 TTl-S

DM54S299 DM74S299 SN548299 SN74S299

-

AMD tAMD AMD tAMD tAMD tAMD AMD AMD t Fairchild t Fairchild Fairchild Fairchild Hilachi Mitsubishi Mitsubishi t Motorola t Motorola Motorola Motorola ttl tTl TI TI

(927) (930) (927) (930)

150 (731) (731) (1227) (1227) (1227) (1227) (1227) (1227) 160

t National National tTl TI

170

(927) (930) (927) (930)

(927) (927) 180

pial aOlld.

~

IC MASTER

1983

MASTER SELECTION GUIDE DIGITAL-TTL (Cont'd) Function

Function

Function

Shift Registers (Cont'd) 8-Bit Dual Serial-In, Serial-Out 9328C TTL 9328M MC8328 MC9328 RC82n RM82n N82n

Device

Line

Source

Device

Quad Bus Transceiver TTL-AS SN74ASZ4Z SN74ASZ43

Fairchild t Fairchild Motorola t Motorola Raytheon t Raytheon Signetics

TTL-F

9-BII Parallel-In, Parallel-Out, Three-5tate, with Positive Edge-Triggered D-Type Flip-Flops (bus interface) (Z60Z) AMD AMZ98Z3 TTL AMD (Z60Z) AMZ98Z4 10-Blt Parallel-In, Parallel-Out Buffer Register, with Reset (clocked flip-flops) Raytheon TTL RC8202 RM8202 t Raytheon Signetics N8202 t Signetics S8202

10 TTL-LS

10-Bit Parallel-In, Parallel-Out Buffer Register, with Reset, Inverting Output (clocked flip-flops) Raytheon RC8203 TTL t Raytheon RM8203 10-Bit Parallel-In, Parallel-Out, Three-State, with Positive Edge-Triggered 0-Type Flip-Flops (bus interface) (Z60Z) AMD AMZ98Z1 TTL AMD (Z60Z) AMZ98ZZ 10-811 Parallel-In, Serial Out RC8274 TTL RM8274 N8274

Raytheon t Raytheon Signetics

10-BII Serial-In, Parallel-Out RC8273 TTL RM8273 N8273 S8273

Raytheon t Raytheon Signetics t Signetics

16-Bit Parallel-In, Serial-Out TTL-LS SN54LS674 SN74LS674

tTl TI

20

(99Z) (99Z)

16-Bit Serial-In, Serial-Out Register plus Stored Parallel Output (99Z) TTL-LS SN54LS673 tTl (99Z) SN74LS673 TI

Transceive~s,

TTl-S

Bus Signetics Signetics

74F245 74F545 Quad Bus Transceiver TTl-AlS SN54ALSZ4Z SN54ALS243 SN74ALS242 SN74ALS243 DM54ALS242 DM54ALS243 DM74AlS242 DM74ALS243 SN54ALS1242 SN54ALS1243 SN54ALS242 SN54ALS243 SN74ALS1242 SN74ALS1243 SN74ALS242 SN74ALS243 TTL-AS SN54AS1242 SN54AS1243 SN54AS242 SN54AS243 SN74AS1242

t Molorola t Moloroll Motoroll Motoroll t National t National National National tTl tTl tTl tTl TI TI TI TI tTl tTl tTl tTl TI

30

(73Z) (732) (73Z) (732)

c IC MASTER

1983

TI TI

54F242 54F243 74F242 74F243 MC54FZ4Z MC54FZ43 MC74FZ4Z MC74FZ43 54F242 54F243 74F242 74F243

t Fairchild t Fairchild Fairchild Fairchild t Molorola t Motoroll Motorola Motoroll t Signetics t Signetics Signetics Signetics

AM25LS242C AM25LS242M AM25LS243C AM25LS243M SN54LS242 SN54LS243 SN74LS242 SN74LS243 74LS242 74LS243 M74LS242 M74LS243 SN54LS242 SN54LS243 SN74LS242 SN74LS243 DM54LS242 DM54LS243 DM74LS242 DM74LS243 74LS242 74LS243 SN54LSZ4Z SN54LSZ43 SH74LSZ4Z SH74LSZ43

AMD tAMD AMD tAMD tAMD tAMD AMD AMD Fairchild Fairchild Mitsublshi Mitsubishi t Motorola t Motorola Motorola Motorola t National t National National National Signetics Signetics tTl tTl TI TI

SN54S242 SN54S243 SN74S242 SN74S243 DM54S242 DM54S243 DM74S242 DM74S243

tAMD tAMD AMD AMD t National t National National National

Quad Tridlrectional Bus Transceiver, Three-State TTL-lS SH54LS442 tTl SN54LS443 tTl SN54LS444 tTl SH54LS448 tTl TI SN74LS442 SH74LS443 TI TI SN74LS444 TI SN74LS448

(1018) (1019) 40 Octal Bus Driver,lnverting, Three-State (911) TTL-S SN545740 tTl (912) TI SN745740 (1018) (1019) Octal Bus Driver, Non-Inverting, Three-State Complementary Controls (911) TTL-ALS (912) SN54ALS244 t Motorola Motoroll SH74ALS244 DM54ALS244 t National (911) National DM74ALS244 (912) 50 TTl-S

(Continued) t Military Temperature Range (-55° to 125°C)

Source

SN54S744 SN74S744

Source

Device

line

Line

Octal Bus Driver (Schmitt trigger), Inverting, Three-State TTL-ALS SN54AlSZ40 (73Z) t Moloroll Moloroll (73Z) SN74AlSZ40 DM54ALS240 t National DM74ALS240 National

(Cont'd) (911) (91Z)

(731) (731) (731) 60 (731)

70

80

(911) (91Z) (911) 90 (91Z)

(947) 100 (947) (947) (951) (947) (947) (947) (951)

(732) 110 (732)

tTl TI

TTL-AS SN54ALS1Z40 SH54AlSZ40 SH74ALS1Z40 SH74ALSZ40 TTL-F

tTl tTl TI TI

54FZ40 74FZ40 MC54FZ40 MC74FZ40 74F240

t Fllrcblld Fllrchlld t Motoroll Motor 011 Signetics

TTL-LS AM25LS240C AM25LS240M SN54LS240 SN74LS240 54LS240 74LS240 74LS540 HD74LS240 SH54LSZ10 SN54LSZ40 SN54LS340 SH74LSZ10 SN74LSZ40 SN74LS340 SN54LS240 SN54LS540 SN74LS240 SN74LS540 DM54LS240 DM74LS240 74LS240 SH54LSZ40 SH54LS540 SH74LSZ40 SH74LS540

AMD tAMD tAMD AMD t Fairchild Fairchild Fairchild Hitachi tMMI tMMI tMMI MMI MMI MMI t Motorola t Motorola Motorola Motorola t National National Signetics tTl tTl TI TI

TTL-S

tAMD AMD Mitsubishl tMMI MMI t Signetics t Signetics Signetics tTl TI TI

SN54S240 SN74S240 M74LS240 SH54SZ40 SN74SZ40 54lS240 54S240 74S240 SH54SZ40 SN74SZ40 SN74S340

,

(1018) 120 (910) (1018) (910) (630) (630) (731) (731)

130

(715) (715) (715) (715) 140 (715) (715)

~

: ~

(910) 150 (960) (910) (960)

~

Q)

(715) (715)

"0 :J 160

"'0

«

Array Inputs

AmPAL16R8

(8) Dedicated (8) Feedback

AmPAL16R6

(8) Dedicated (6) Feedback (2) Bidirectional (8) Dedicated (4) Feedback (4) Bidirectional

AmPAL16R4

tpd (MAX) Logic

OE

Outputs

(8) 8-Wide AND-OR

Dedicated

Registered Inverting

(6) 8·Wide AND-OR

Dedicated

Registered Inverting

(2) 7-Wide AND-OR-INVERT

Programmable

Bidirectional

(4) 8-Wide AND-OR

Dedicated

Registered Inverting

(4) 7-Wide AND-OR-INVERT

Programmable Bidirectional

ts (MAX)

teo (MAX)

STO A STO A STO A -

-

30

20

25

15

ns

35

25

30

20

25

15

ns

35

25

30

20

25

15

ns

AmPAL16L8

(10) Dedicated (6) Bidirectional

(8) 7-Wide AND-OR-INVERT

Programmable

(6) Bidirectional (2) Dedicated

35

25

-

-

-

-

ns

AmPAL16H8

(10) Dedicated (6) Bidirectional

(8) 7-Wide AND-OR

Programmable

(6) Bidirectional (2) Dedicated

35

25

-

-

-

-

ns

AmPAL16LD8

(10) Dedicated (6) Bidirectional

(8) 8-Wide AND-OR-INVERT

-

Dedicated

35

25

-

-

-

-

ns

AmPAL16HD8

(10) Dedicated (6) Bidirectional

(8) 8-Wide AND-OR

-

Dedicated

35

25

-

-

-

-

ns

·PAL is a registered trademark of Monolithic Memories, Inc. IMOX is a trademark of Advanced Micro Devices, Inc.

604

@

IC MASTER 1983

Advanced Micro Devices BIPOLAR LSI AND SUPPORT PRODUCTS 20-Pin IMOXTM Programmable Array Logic Elements MAXIMUM RATINGS (Above which the useful life may be impaired) Storage Temperature

-65 to +150°C

Temperature (Ambient) Under Bias

-55 to +125°C

Supply Voltage to Ground Potential (Pin 20 to Pin 10) Continuous

-0.5 to +7V

DC Voltage Applied to Outputs (Except During Programming)

-0.5V to +VCC max

DC Voltage Applied to Outputs During Programming

21V

Output Current Into Outputs During Programming (Max Duration of 1 sec)

200mA

DC Input Voltage

-0.5 to +5.5V

DC Input Current

-30 to +5mA

OPERATING RANGE Commercial

Military

Description

Min

Max

Min

Max

Units

Supply Voltage

475

5.25

4.50

5.50

V

TA

Operating Free Air Temperature

0

75

-55

Te

Operating Case Temperature

Parameters Vee

°c °c

125

ELECTRICAL CHARACTERISTICS OVER OPERATING RANGE (Unless Otherwise Noted) Typ Parameters

Test Conditions

Description Vee = MIN, VIN = VIH or Vil

VOH

Output HIGH Voltage

VOL

Output LOW Voltage

Vee = MIN, VIN = VIH or Vil

VIH (Note 2)

Input HIGH Level

Guaranteed input logical HIGH voltage for all inputs

Vil (Note 2)

Input LOW Level

Guaranteed input logical LOW voltage for all inputs

III

Input LOW Current

Vee

=

MAX, VIN

=

OAOV

IOH

=

-3.2mA\

COM'L

IOH

=

-2mA

MIL

IOl

=

24mA

COM'L

IOl

=

12mA

MIL

Min

(Note 1)

2.4

3.5

Max

Units Volts

en

Q)

0.50

2.0

'-20

,

O.B

Volts

-250

J.LA

IIH

Input HIGH Current

Vee

=

MAX, VIN

=

2.7V

25

J.LA

Input HIGH Current

Vee

=

MAX, VIN

=

5.5V

1.0

mA

Ise

Output Short Circuit Current Vee = MAX. VOUT

-60

-90

mA

110

155

lee

Power Suppl,y Current

All inputs

=

=

GND, Vee

Input Clamp Voltage

Vee

IOZH

Output Leakage Current (Note 4)

Vee = MAX, Vil VIH = 2.0V

CIN

Input Capacitance

VIN

COUT

Output Capacitance

VOUT

Notes:

=

=

16LB, 16HB, 16HDB, 16LDB 16LBA, 16HBA, 16HDBA, 16LDBA MAX

2.0V @f

=

=

2.0V @f

=

O.BV

16RB, 16R6, 16R4 16RBA, 16R6A, 16R4A

120

1BO

-0.9

-1.2

Vo

=

2.7V

100

Vo

=

OAV

-100

1MHz (Note 5)

6

=

9

o

~ "C Q)

o

c:

CO

>

"C

«-

Volts J.LA

pF 1MHz (Note 5)

i. Typical limits are at Vee = 5.0V and TA = 25°C. 2. These are absolute values with respect to device ground and all overshoots due to system or tester noise are included. 3. Not more than one output should be tested at a time. Duration of the short circuit should not be more than one second VOUT chosen to avoid test problems caused by tester ground degradation. 4. I/O pin leakage is the worst case of IOZX or IIX (where X = H or L). 5. These parameters are not 100% tested, but are periodically sampled.

© Ie MASTER 1983

Q)

o o :I...

mA

MIN, liN ~ -1BmA

VI

IOZl

-30

0.5V (Note 3)

os:

Volts

II

=

o

Volts

= 0.5V has been

605

Advanced Micro Devices BIPOLAR LSI AND SUPPORT PRODUCTS

20-Pin IMOXTM Programmable Array Logic Elements SWITCHING CHARACTERISTICS OVER OPERATING RANGE (Unless otherwise noted) HIGH SPEED

tpD

Test Conditions

Description

Parameters

Input or Feedback to Non-Registered Output 16L8A, 16R6A, 16R4A, 16LD8A, 16H8A, 16HD8A

COM'L

Typ (Note 1)

Min

12

tEA

Input to Output Enable 16L8A, 16R6A, 16R4A, 16H8A

tER

Input to Output Disable 16L8A, 16R6A, 16R4A, 16H8A

tpzx

Pin 11 to Output Enable 16R8A, 16R6A, 16R4A

tpxz

Pin 11 toOutputDisable 16R8A, 16R6A, 16R4A

teo

Clock to Output 16R8A, 16R6A, 16R4A

ts

Input or Feedback Setup Time 16R8A, 16R6A, 16R4A

tH

Hold Time 16R8A, 16R6A, 16R4A

tp

COM'L R1 =200 R2 = 390

MIL

Max

Min

Max

Units

25

30

ns

12

25

30

ns

12

25

30

ns

8

20

25

ns

8

20

25

ns

20

ns

8

15

10

20

25

ns

-10

0

0

ns

Clock Period

35

45

ns

tw

.Clock Width

15

20

fMAX

Maximum Frequency

MIL R1 = 390 R2 = 750

ns

28.5

22

MHz

Notes: 1. Typical limits are at Vee = 5.0V and TA = 25°C. 2. tpD is tested with switch.S1 closed and CL= 50pF. 3. For three-state outputs, output enable times are tested with CL = 50pF to the 1.5V level; S1 is open for high impedance to HIGH tests and. closed for high impedance to LOW tests. Output disable times are tested with CL = 5pF. HIGH to high impedance tests are made to an output voltage of VOH - 0.5V with S1 open; LOW to high impedance tests are made to the VOL + 0.5V level with S1 closed.

SWITCHING CHARACTERISTICS OVER OPERATING RANGE (Unless otherwise noted) STANDARD SPEED Parameters tPD

U)

Q)

o oS; Q)

o

o

~

oQ

\

Test Conditions

Description

Input or Feedback to Non-Registered Output 16L8, 16R6, 16R4, 16LD8, 16H8, 16HD8

tEA

Input to Output Enable 16L8, 16R6, 16R4, 16H8

tER

Input to Output Disable 16L8, 16R6, 16R4, 16H8

tpzx

Pin 11 to Output Enable 16R8; 16R6, 16R4

tpxz

Pin 11 to Output Disable 16R8, 16R6, 16R4

teo

Clock to Output 16R8, 16R6, 16R4

ts

Input or Feedback Setup Time 16R8, 16R6, 16R4

tH

Hold Time 16R8, 16R6, 16R4

tp

Min

17

COM'L R1 = 200 R2 = 390

MIL

COM'L

Typ (Note 1)

Max

Min

35

Max

Units

40

ns

17

35

40

ns

17

35

40

ns

12

25

25

ns

12

25

25

ns

12,

25

25

ns

15

30

35

ns

-10

0

0

ns

Clock Period

55

60

ns

tw

Clock Width

20

25

fMAX

Maximum Frequency

MIL R1 = 390 R2 = 750

18

ns 16.5

MHz

Notes: 1. Typicd1limits are at Vee = 5.0V and TA = 25°C. 2. tpD is tested with switch S1 closed and CL = 50pF. 3. For three-state outputs, output enable times are tested with CL = 50pF to the 1.5V level; S1 is open for high impedance to HIGH tests and closed for high impedance to LOW tests. Output disable times are tested with C L ,;, 5pF. HIGH to high impedance tests are made to an output voltage of VOH - 0.5V with S1 open; LOW to high impedance tests are made to the VOL + 0.5V level with S1 closed.

~ "0 Q)

o

c as >

"0

«

ACTESTLOAD

OUTPUT 0~---.---......

~I

BPM·370

606

@

IC MASTER 1983

Advanced Micro Devices BIPOLAR LSI AND SUPPORT PRODUCTS 20-Pin IMOXTM Programmable Array Logic Elements SWITCHING WAVEFORMS

REGISTERED FEEDBACK INPUTS,I/O,

li(===J;~~II==================I===J[====

CP

REGISTERED OUTPUTS:

.COMBI~~~~~~~~

::?,

'" j

_ _ _ _ _ _ _ _ _ _ _ _. - - - - - - - - - - - - - - - - -... ) ... ) .... ) .... )))

,,,~

(~(~(L_

( ....

__

BPM-371

KEY TO TIMING DIAGRAM

WAVEFORM

INPUTS

OUTPUTS

MUST BE STEADY

WILL BE STEADY

--

WAVEFORM

H

INPUTS

OUTPUTS

DON'T CARE; ANY CHANGE PERMITTED

CHANGING; STATE UNKNOWN

DOES NOT APPLY

CENTER LINE IS HIGH IMPEDANCE "OFF" STATE

en

Q)

o oS; Q)

Cl

oso

~ "C Q)

o c

as >

"C

«

©

IC MASTER 1983

607

Advanced Micro Devices BIPOLAR LSI AND SUPPORT PRODUCTS 20-Pin IMOXTM Programmable Array Logic Elements LOGIC DIAGRAM AmPAL16RB/AmPAL16RBA INPUTS (0 - 31) o 0 1 2 _3 4 5 6 7

2 --h;-

.

8 g 10

"

12 13 14 15

3

.

20

21 22 23

.

27 28

~ I

29

e.

3Q

a:

~ 5

31

..

o o oa:

0..

36

37 36 39

Q)

o

"S; Q)

6

c

..->

.

40 41 42 43

o

~

"~

44

~ "0

45 48 47

Q)

o

7

c ctl >

.....

49 50 51 52 53

"0

«

54

55

... ..

58

59 60 61 62

..

63

608

24252627

28293031

~~ ~

..

..I

~c-~

t:~ f-~

f-~

19

>-~~

t:~ A ~

....

§9J

r---

f-~ ~~

o at--

~~

~.

18

~~~

tP A

..... ....

ES ~~

r--

o at--

::~ ::~ .....

....

~~~

~

17

010

r

r---D Qr--

-f--;

37

7

16

....

38

r

~

~

.2

35

6

17

~

32 33 :lot

:l

~~~

~~

...

t;

r---D Q f---

~~ ...... ~

28 21 30 31

I

~~~

~

....

f--

18

....

~

2. 25 28

~

....

....

J §8 t:~

2:~

..

a I 10 II 12 13 I. 15

'3

... .. > II 17

18 II 20

21 22 23

4

...

27

~

28

I

29

e. en =: a:

30 31

~ 5

...

32 33 M 35 341 37 341 31

o oa:

D.

(.)

;:~ f-~

f-p L....

~

c::l--

§§b

...

~

o

~

(.)

~

-:~

7

c ct1 >

-:~

....

..

!Ie

57 !Ie

51

eo 81 82 63

....> ..

..---

o

~

~

16

t:~




«

610

Qf--

-.c:

~ ~§ ~)-~

50 51 52 53

9

o

-)-...-.4

.5

...

'0

8

~~~ ..---

-~ -~

1-1----1

•7

Q) (.)

17

-.c: ...

.1 .2 C3

. ..

J.-

"0

~e-~

tS

..

Q)

....

C:~

6,-I>

Cl

18

I-~

~)-----1

r"

:;)

oS;

,....

~

t>

en Q)

....

"C"I--

> r" 24 25 2S

19

I-~

..--o

....

Qf--

~~~

....

,-.

~DJ

i-r-1 I-~

13

I-~

g~

....

J

1-f---1

~:=l

19

:~

~

AI

!-b=-: .

~.t--

2

,......

8 9 10 11 12 13 14 15

3

s~

I-f----,

18

r-"f----f

~~

...

AI

-~I--

~

~

,......

16 17 18 19 20 21 22 23

4

~ ~ ~ ~

......

....

....

,......

24 25 26 27 28

~ I

E~ I-~

t:~

31

~ 5

l3

...

....2.

:)

o

Q.

6

oS;

~t--

....

-

-[)J

(I)

0 0

-~

:~

"-

14

()

-f----f

45 48 47

~

:~

....

"0

AI

CD

~t-

~

....

()

c::: «S >

,......

48 48

§§bJ

50

51 52 53 54 55

~Ej

....

"0

«

13

..,. ~.t--

...

~

....

,......

56 57 56 5g 60 61 82 83

~~ I-~ I-~

~r--1

t~

...

< I

12

. AI

.2.

© Ie MASTER 1983

(I) ()

AI

...>

..

CIJ

t~

.

9

15

1---

41 42 43

8

....

~~e>J §s

....

.

~

r-

4(1

7

..,. .•

32 33 34 35 :Ie 37 :Ie 38

oa:

16

f-r--1

2g

30

en ~ a:

..,.

- "C

-

48

-~

:~ _>----I

53 54 55

8

.....

< t--

,....

~

~~

57 51 59 60 61 62 63

1-)--

12

I-~

f-~

~p '-

...

~

~

.2

O"

o ,

612

13

~p

... ....I 56

9

"'0

«

13

.....

~r-

...~

§~

56 57 58 59 60 61 62

r-~ ~~

12

~f----(

t~

53

...


--

12

I-~

tS

... ...>

....

- ""0

"----------------- Package P = Molded DIP (Commercial Only) D = Hermetic DIP L = Chip-Pak™.

«

·Chip-Paks are rated at maximum case temperature only.

Chip-Pak is a trademark of Advanced Micro Devices, Inc.

@

Ie MASTER 1983

617

84003 AUTO CLOCK Features

General Description

o o

The S4003 Auto Clock is a PMOS integrated circuit which has found wide application in auto, avionic and marine applications as a portable or dashboard clock and as an industrial timer.

o o o o

12 Hour,-4 Digit Auto Clock. Elap~ed Time Counter (resettable, range to 99 hours). Calendar (4-year calendar with pin" option for European date/month reversal). Ignition-Sensing Display Cut-off (to reduce battery drain when the auto is not operating). Crystal Input Accuracy (uses inexpensive 4.194 mHz crystal). Direct Display Drive (4-digit vacuum fluorescent displays, 24 Volts).

A functional description of the inputs/outputs and registers follows: 1. Set Inputs - Left digits set and right digits set will index the selected register at a 2Hz rate. Indexing either input will not ~pset the unselected digits. 2. Time Set Select- Enables set inputs to the timekeeping register. When updating hours, the minutes display will blank out and MX1 digit will display Aor P. Minutes will update in a normal manner and reset seconds to zero. Seconds will restart on release of the time set select line. When deselected, the time will con· tinue to be displayed for 5 seconds ± 1 seconds. AM and PM indications will switch on the transfer from 11:59 to 12:00.

Applications/Markets Automotive Avionics Marine Portable Clocks Industrial

Block Diagram

Pin Configuration

o

c:

en

Vss

INPUTS

C>

(7)

E Q)

r------------------------l I

-t-'

en >en

II:

:z:

I I

OSCILLATOR

I I

o Jo...

I

.2

:2E c:

ctS

o

.i:

CONTROL lOGIC

I

Q)

I

E

«

I

I I I

I

I

AID

I

I IL

COLON' SEG DRIVE OUTPUTS __________________________ 28

--1

~ !i

G E

OUTPUTS

618

@

Ie MASTER 1983

F=AIRCHILD A Schlumberger Company

181 54F/74F181 4-BIT ARITHMETIC LOGIC UNIT CONNECTION DIAGRAM

DESCRIPTION-The 'F181 is a 4-bit Arithmetjc Logic Unit (ALU) which can perform all the possible 16 logic operations on two variables and a variety of arithmetic operations. It is 40% faster than the Schottky ALU and only consumes 30% as much power.

• PROVIDES 16 ARITHMETIC OPERATIONS ADD, SUBTRACT, COMPARE, DOUBLE, PLUS TWELVE OTHER ARITHMETIC OPERATIONS • PROVIDES ALL 16 LOGIC OPERATIONS OF TWO VARIABLES EXCLUSIVE-OR, COMPARE, AND, NAND, OR, NOR, PLUS TEN OTHER LOGIC OPERATIONS. • FULL LOOKAHEAD FOR HIGH-SPEED ARITHMETIC OPERATION ON LONG WORDS

ORDERING CODE:

PKGS

COMMERCIAL GRADE

MILITARY GRADE

Vee = +5.0 V ±5%, T A = 0° C to +70° C

Vee = +5.0 V ±10%, TA = -55°C to +125°C

Plastic DIP (p)

74F181PC

Ceramic DIP (D)

74F181DC

PKG TYPE

9N 54F181DM

"C

6N

.s:::.

Flatpak (F)

54F181 FM

o

'0(ij 11.

4M

INPUT LOADING/FAN-OUT: DESCRIPTION

PIN NAMES

Ao-A3 80-83 SO-S3 M

en Fo-F3 A=8

"IT

p

Cn+4

A Operand Inputs (Active LOW) 8 Operand Inputs (Active LOW) Function Select Inputs Mode Control Input Carry Input Function Outputs (Active LOW) Comparator Output Carry Generate Output (Active LOW) Carry Propagate Output (Active LOW) Carry Output

54F/74F (U.L.) HIGH/LOW 0.5/1.125 0.5/1.125 0.5/1.50 0.5/0.375 0.5/1.875 25/12.5 OC*/12.5 25/12.5 - 25/12.5 25/12.5

·OC - Open Collector

@

Ie MASTER 1983

619

F=AIRCHILD A Schlumberger Company

181 FUNCTIONAL DESCRIPTION-The 'F181 is a 4-bit high-speed parallel Arithmetic Logic Unit (ALU). Controlled by the four Function" Select inputs (SO-S3) and the Mode Control input (M), it can perform all the 16 possible logic operations or 16 different arithmetic operations on active-HIGH or active-LOW operands. The Function Table lists these operations. When the Mode Control input (M) is HIGH, all internal carries are inhibited and the device performs logic operations on the individual bits as listed. When the Mode Control input is LOW, the carries are enabled and the device performs arithmetic operations on the two 4-bit words. The device incorporates full internal carry lookahead and provides for either ripple carry between devices using the Cn + 4 output, or for carry lookahead between packages using the signai"P (Carry Propagate) andG (Carry Generate). In the Add mode,P indicates thatF is 15 or more, whileG indicates thatF is 16 or more. In the Subtract mode,P indicates thatF is zero or less, whileG indicates thatF is less than zero.P andG are not affected by carry in. When speed requirements are not stringent, it can be used in a simple Ripple Carry mode by connecting the Carry output (Cn + 4) signal to the Carry input (Cn) of the next unit. For high-speed operation the device is used in conjunction with a carry lookahead circuit. One carry lookahead package is required for each group of four 'F181 devices. Carry lookahead can be provided at various levels and offers high speed capability over extremely long word lengths. The A=B output from the device goes HIGH when all fourF outputs are HIGH and can be used to indicate logicequivalence over four bits when the unit is in the Subtract mode. The A=B output is open collector and can be wired-AND with other A=B outputs to give a comparison for more than four bits. The A=B signal can also be used with the Cn + 4 signal to indicate A>B and A~-r--~~--+----+----~----+---~------~----+---~-----+----J

~

on;

cp----~~--------~--------~----~----------~--------_+----~

CWE----~--------------------~--------------------------_+------------~

U.

FIG. 2 CHECK WORD GENERATION DATA CHECK WORD ENABLE (NOTE lAND31 _ _ _

----..-------------------------------l

+-_____________

DATA PLUS CHECK BITS

~---.-___1

NOTE 2

1

CWE

F401 CRC GENERATOR! CHECKER

CLOCK - - - - - - - a C P

Qr-----~

__/

MR

.NOTE 2:

@)

Ie MASTER 1983

NOTES: 1. Check word Enable is HIGH while data is being clocked, LOW while transmission of check bits. 2. 'F401 must be reset or preset before each computation . 3. CRC check bits are generated and appended to data bits.

637

FAIRCHILD A 5chlumberger Company

402 CONNECTION DIAGRAM DIP (TOP VIEW)

54F/74F402

cp

EXPANDABLE CYCLIC REDUNDANCY CHECK GENERATOR/CHECKER

1

16 VCC

P2

15

DESCRIPTION-The 'F402 expandable Cyclic Redundancy Check (CRC) Generator/Checker is an expandable version ot the 'F401. It provides an advanced tool tor the implementation ot the most widely used error detection scheme in serial digital handling. ~ystelT.l~,.'.,:.:.,.A::\.4PbJ1 control input selects one-ot-six generator polyn~rn,Jal~;;;:;)t.h;~f.lts'11d{~pH1Y-namials includes CRC-16, CRC-CCITT and Ethernet, a~~':'~~I'r'g~:: ih'ree other standard polynomials (56th order, 48th order, 32nd order). Individual clear andpreset inputs are provided for floppy disk and other applications. The Error output indicates whether or not a transmission error has occurred. The CWG Control input inhibits feedback during check word transmission. The 'F402 is compatible with Fairchild Advanced Schottky TTL (FAST) devices and is tully co'mpatible with all TTL families.

so

10 RO 9

ER

LOGIC SYMBOL • • • • • • • •

GUARANTEED 20 MHz DATA RATE SIX SELECTABLE POLYNOMIALS OTHER POLYNOMIALS AVAILABLE SEPARATE PRESET AND CLEAR CONTROLS EXPANDABLE AUTOMATIC RIGHT JUSTIFICATION ERROR OUTPUT OPEN COLLECTOR TYPICAL APPLICATIONS FLOPPY AND.OTHER DISK STORAGE SYSTEMS DIGITAL CASSETTE AND CARTRIDGE SYSTEMS DATA COMMUNICATION SYSTEMS

15 14 13 12 4

5

50 51 52 53 D CWE CP

7

5EI

6

RFB

P MR

ER 0-9

D/CW

11

RO

10

vee = Pin 16 GND = Pin 8

PIN NAMES PIN NAMES' So-S3

P

MR SEI CP RFB

638

DESCRIPTION

Polynomial Select Preset Master Reset Serial Expansion Input Clock Register Feedback

PIN NAMES CWG D ER RD D/CW

DESCRIPTION Check Word Generate Data Error Register .Output Serial Data/Checkword

@

Ie MASTER 1983

FAIRCHILO A SChlumberger Company

402

FUNCTIONAL DESCRIPTION-The '74F402 Expandable Cyclic Redundancy Check (CRC) Generator/Checker is . an expandable 16-bit programmable device which operates on serial data streams and provides a means of detecting transmission errors. Cyclic encoding and decoding schemes for error detection are .based on polynomial manipulation in modulo arithmetic. For encoding, the data stream (message polynomial) is divided by a selected polynomial. This division results in a remainder (or residue) which is appended to the message as check bits. For error checking, the bit stream containing both data and check bits is divided by the same selected polynomial. If there are no detectable errors, this division results in a zero remainder. Although it is possible to choose many generating polynomials of a given degree, standards exist that specify a small number of useful polynomials. The '74F402 implements the polynomials listed in Table 1 by applying the appropriate logiC levels to the select.pins 80, 81, 8 2 , and 8 3.

BLOCK DIAG RAM

Polynomial Select

15 14 13 12

So S1 S2 S3

ROM

•

VCC= 16 GND= 8

CONTROL 2 Preset Master Reset 3 MR D

4 Data Check Word 5 Generate Register Feedback6

RFB

Serial Input 7

SEI

P

D/CW

11 Data/Checkword

16 BIT REGISTER RO

10 Re~ister Output

CP

-C

Clock

.c ERROR DETECTOR

(,)

ER

L.

·as LL

9 ERROR

The '74F402 consists of a 16 bit register, a Read Only Memory (ROM) and associated control circuitry as shown in the Block Diagram. The polynomial control code presented at inputs 80, 81, 8 2 , and 83 is decoded by the ROM, selecting the desired polynomial or part of a polynomial by establishing shift mode operation on the register with Exclusive OR (XOR) gates at appropriate inputs. To generate the check bits, the data stream is entered via the Data Inputs (D), using the Low-to-High transition of the Clock Input (CP). This data is gated with the most significant Register O.utput (RO) via the Register Feedback Input (RFB), and controls the XOR gates. The Check Word Generate (CWG) must be held High while the data is being entered. After the last data bit is entered, the CWG is brought Low and the check bits are shifted out of the register(s) and appended to the data bits (no external gating is needed).

@

Ie MASTER 1983

639

F=AIACHILD A Schlumberger Company

402

To check an incoming message for errors, both the data and check bits are entered through the 0 Input with the CWG Input held High. The Error O'utput becomes valid after the last check bit has been entered into the '74F402 by a Low-to-High transition of Cp, with the exception of the Ethernet polynomial (see applications paragraph). If no detectable errors have occurred during the data transmission, the resultant internal register bits are all Low and the Error Ouput (ER) is High. If a detectable error has occurred, ER is Low. ER remains valid until the next Low-to-High transition of CP or until the device has been preset or reset. A High on the Master Reset Input (MR) asynchronously clears the entire register. A Low on the Preset Input (P) asynchronously sets the entire register with the exception of: 1) The Ethernet residue selection, in which the registers containing the non-zero residue are cteared; 2) The 56th order polynomial, in which the 8 least significant register bits of the .least significant device are cleared; and, 3) 5 = 0, in which all bits are cleared.

TABLE 1

SELECT CODE HEX S3 S2 S1 SO

640

POLYNOMIAL

REMA~KS

0

L

L

L

L

C 0

H H H

H

L L

L H

0 X32+X26+X23+X22+X16+ X12+Xll +Xl0+X8+X7+X5+X4+X2+X + 1

Ethernet Polynomial

E F

H H

H H

H H

L H

X32+X31 +X27 +X26+X25+X19+X16+ X15+X13+X12+Xll +X9+X7 +X6+X5+X4+X2+X+1

Ethernet Residue

5=0

7

L

H

H

H

X16+X15+X2+ 1

CRC-16

B

H

L

H

H

X16+X12+X5+1

CRC-CCITT

3 2 4 8

L L H L L H L H L H L L

H L L L

5 9 1

L H L H H L L H L L L H

6 A

L H H L

X56+X55+X49+X45+X41 + X39.+X38+X37 +X36+X31 + X22+X19+X17 +X16+X15+X14+X12+Xll +X9+ X5+X+1 X48+X36+X35+ X23+X21+ X15+X13+X8+X2+1 X32+X23+X 21 +

H H

L L

Xll+X2+1

J

56th Order 48th Order 32nd Order

@

Ie MASTER 1983

FAIRCHILD A Schlumberger Company

402 TABLE 2 SELECT CODE

P3

P2

P1

pp

C2

C1

Cp POLYNOMIAL

~

~

~

~

~

1

~

~

S=~

C 0

1 1

1 1

1 1

1 1

1 1

~ ~

1 1

Ethernet Polynomial

E F

.~

~ ~

~ ~

~ ~

~ ~

~

1

~ ~

Ethernet Residue

~

~

CRC-16

~

7 1

1

~

~

CRC-CCITT

1 1 1 1

~ ~ ~ ~

~ ~ ~ ~

56th Order

~

1 1 1 1

1 1 1

1 1 1

1 1 1

~ ~ ~

~ ~ ~

48th Order

~ ~

~ ~

32nd Order

B 3 2 4 8 5 9 1

1 1 1

1 1

~

1 1 1

I

6 A

1 1

1 1

APPLICATIONS-In addition to polynomial selection there are four other ·capabilities provided for in the ROM. The first is set or clear selectability. The sixteen internal registers have the capability to be either set or cleared when P is brought 10w .. This set or clear capability is done in four groups of 4 (see Table 2, P~-P3). The second ROM capability (C~ is in determining the polarity of the check word. As is the case with the Ethernet polynomial the check word can be inverted when it is appended to the data stream or as is the case with the other polynomials, the residue is appended with no inversion. Thirdly, the HOM contains a bit (C1) which is used to select the RFB input instead of the SEI input to be fed into the LSB. This is used when the polynomial selected is actually a residue (least significant) stored in the ROM. In conjunction with this is another bit (C2) in the ROM which indicates whether the selected location is a polynomial or a residue. If the latter then it inhibits the RFB input. As mentioned previously, in general, upon a successful data transmission the CRC register has a zero residue. There is an exception to this, however, with respect to the Ethernet polynomial. This polynomial, upon a successful data transmission, has a non-zero residue in the CRC register (C7 04 DO 7B}16. In order to provide a no-error indication two ROM locations have been preloaded with the residue so that by selecting these locations and clocking the device one additional time, after the last check bit has been entered, will result in zeroing the CRC register. In this manner a no error indication is achieved.

"C

..c: o ~

"as

u.

With the present mix of polynomials the largest is 56th order requiring four devices while the smallest is 16th order requiring just one device. In orderto accomodate multiplexing between high order polynomials (>16th order) and lower order polynomials, a location of all zero's is provided. This allows the user to choose a lower order polynomial even if the system is configured for a higher order one (see Figure 3).

FIG. 1 SINGLE DEVICE USAGE SERIAL DATA

+5V

1 1

r

SEI

CP 74F402

RFB

ERIAL DATA/CW

tt t tt @

Ie MASTER 1983

641

F=AIRCHILO A SChlumberger Company

402 FIG. 2 MULTIPLE DEVICE USAGE Serial Data

Ctock Control

+5V

===:;=1~E=======:;:=i=E=======~=J1 CP

D

CWG

Error

SEt

Serial Data CW CW I MSBI

FIG. 3 32ND ORDER CONFIGURATION CRC-16 IMPLEMENTATION CONTROL SERIAL DATA CLOCK

l

cp

r

ERJ

CWG

SEI 74F402

r+ RFB

D/CW -Not

Used

P MR

S3S2S,SO

RO

tt tttt o

, ,I

I

J D

+5V

0'0 0 S: 0

I

CP

SEI

D

R1 CWG

74F402

r-

ER !-'a.--E RROR D/CW

RFB P MR, S3 S2S1 So

RO

r--s ERIAL DATA/CW ~C

W IMSBI

t t ot t t t

1 1 1 8=7 R1 =3200 1/4 WATT

PIN NAMES PIN NAMES SO-S3

DESCRIPTION Polynomial Select Preset

~

MR SEI

Master Reset Serial Expansion Input

CP RFB CWG

Clock Register Feedback Check Word Generate

D

Data

ER

Error

RO

Register Output

D/CW

Serial Data/Checkword

.r:. 0

L..

"cu u..

642

COMMENTS Used to select one of the six polynomials programmed into the device. See Table 1 for a breakdown of the entries. When LOW asynchronously sets the entire register based on the polynomial selected. In the cases of the ethernet residue selection or the all zero selection the register would be cleared. With respect to the 56 t?it p()lynomial, in the least significant device only, the eight most significant bits of the register are set, the remaining bits are cleared. In all other cases all bits of the register are set (See Table 2). When HIGH asynchronously clears all bits of the register. This input provides the capability for serially expanding the devices to accomodate higher order polynomials. When cascading devices, RO of the preceding device is connected tO,this input. When a device is used singly or is the least significant device, this input should be wired LOW. See Figures 1 and 2. Controls all register changes on the LOW to HIGH transition. This input in connected to RO of the most significant device. This input when held HIGH allows for generation of the check word or for checking a serial data stream for errors. Bringing this input LOW, after the last data bit has been entered, allows the check word bits to be shifted out of the register and be appended to the data bits. The input through which data and/or check bits are entered for check word generation/error detection. This open collector ouput, when LOW,indicates that the contents of the register are not zero. When checking for errors, after the data and check bits have been cycled through the device(s), this output should be HIGH to indicate no error in transmission. In multiple device configurations the ER outputs are tied together. The output for the most significant bit of the check word register. It is used to supply control to either RFB or SEI. This output is controlled by the state of CWG and the polynomial selected. When CWG is HIGH the D input is output; when CWG is LOW the check word register bits are shifted out. . (Note: When the Ethernet polynomial is selected and CWG is LOW, the check word bits are inverted.)

@

Ie MASTER 1983

FAIRCHILD

;

A Schlumberger Company

403 • 433 LOGIC SYMBOL

54F/74F403 • 54F/74F433

2

7

6

5

4

3

FIRST-IN FIRST OUT (FIFO) BUFFER MEMORY FAIRCHILD TTL MACROLOGIC 9 --0 IES

DESCRIPTION- The 'F403/F433 is an expanable fall-through type high-speed First-In First-Out (FIFO) Buffer Memory optimized for high speed disc or tape controllers and communication b,!Jffer applications. It is organized as 16 or 64 words by four bits aflQ·,~{T!AYtf:i;~)iexpanded to any number of words or any number of"QU§,,(J'1'lTl.4Jtfpfk;s (b~;.lour"). Data may be entered or extracted asynchronouslt:'!~\n ·{{~'erri'a·1 or parallel, allowing economical implementation of buffer memories.

TOP

13

'F403/'F433

14 --0 TOS 15-o0ES 16--0 CPSO

17-0 EO

The 'F4,03/F433 has 3-state outputs which provide added versatility and is fully compatible with all TTL families. • • • • • • •

IRF

8--0 CPSI

ORE

MR

11

18 19 20 21 22

vee = Pin 24

10 MHz SERIAL OR PARALLEL DATA RATE SERIAL OR PARALLEL INPUT SERIAL OR PARALLEL OUTPUT EXPANDABLE WITHOUT EXTERNAL LOGIC 3-STATE OUTPUTS FULLY COMPATIBLE WITH ALL TTL FAMILIES SLIM 24-PIN PACKAGE

GND

= Pin

12

CONNECTION DIAGRAM IRF

Vee

PL

23

0°S--------------------~

0

PL -

iFif

INPUT CONTROL

STACK CONTROL

ORE as

Do

BLOCK DIAGRAM

® CPSI o ies @ TIs

23

0,

21

00

02

20

at

03

19

02 03

Os

18

tJ>Si

17

EO

iES

16

CPSO

TTS

10

MR

11

14

TOS

"0

GNO

12

13

TOP

.c:

OES

....0 om

NOTE: The Flatpak version has the same pinouts (Connection Diagram) as the Dual In-line Package.

14 X 4 STACK

LL

it @

OUTPUT CONTROL

@ f6 -----------------~p(~'PtI

@@@@

o

@

= Pin Numbers

Ie MASTER 1983

643

FAIRCHILD A Schlumberger Company

403.- 433 PIN NAMES PIN NAME

DESCRIPTION

00-03 Os PL

Parallel Data Inputs Serial Data Input Parallel Load Input

CPS I IES TTS OES TOS

Serial Input Clock Serial Input Enable Transfer to Stack Input Serial Output Enable Input Transfer Out Serial Input

TOP

Transfer Out Parallel Input

MR EO CPSO 00-03 Os IRF ORE

Master Reset Output Enable Serial Output Clock Input Parallel Data Outputs Serial Data Output Input Register Full Output Output Register Empty Output

COMMENTS

HIGH on PL ~nables 00- 03. Not edge triggered. Ones catching. . Edge triggered. Activates on falling edge. Enables serial and parallel input when LOW. A LOW on this pin initiates fall through. EnablAs serial and parallel output when LOW. A LOW on this pin enables a word to be transferred from the stack to the output register. (TOP must be HIGH also for the transfer to occur). Not edge triggered. A HIGH on this pin enables a word to be transferred from the stack to the output register. (TOS must be LOW for the transfer to occu r). Not edge triggered. Active LOW. Active LOW. Edge triggered. Activates on falling edge.

I

LOW when input register is full (Note b). HIGH when output register contai ns valid data.

FUNCTIONAL DESCRIPTION-As shown in the block diagram the 'F403/F433 consists of three sections:

"0

.c

e

1. An Input Register with parallel and serial data inputs as well as control inputs and outputs for input handshaking and expansion. 2. A 4-bit wide, 14 or 62 word deep fall-through stack with self-contained control logic. 3. An Output Register with parallel and serial data outputs as well as control inputs and outputs for output handshaking and expansion.

"(ij U.

Since these three sections operate asynchronously and almost independently, they will be described separately below:

Input Register (Data Entry): The Input Register can receive data in either bit-serial or in 4-bit parallel form. It stores this data until it is sent to the fall-through stack and generates the necessary status and control signals.

./

Figure 1 is a conceptual logic diagram of the input section. As described later, this 5-bit register is initialized by setting the F3f1ip-flop and resetting the other flip-flops. The O-output of the last flip-flop (FC) is brought out as the "Input Register Full" output (IRF). After initialization this output is HIGH. Parallel Entry-A HIGH on the PL input loads the 00-03 inputs into the Fo-F3 flip-flops and sets the FC flip-flop. This forces the IRF output LOW indicating that the input register is full. During parallel entry, the CPSI input must be LOW. If parallel expansion is not being implemented, IES must be LOW to establish row mastership (see Expansion section).

644

©

Ie MASTER 1983

F=AIRCHILD A Schlumberger Company

403 · 433 PL--4-~--------------~.-------~~-------r~------~

INITIALIZE ---t-----~----,

Os

----t-:---4 IRF

~---~~r-~-+

CPS I

__________-+________~________~~

------L-J

-----------.......-11----------.......-11--------_._+----------,

INPUT REG - STACK (PULSE DERIVED FROM TTsI

FIG. 1 CONCEPTUAL INPUT SECTION Serial Entry-Data on the Ds input is serially entered into the F3, F2, F1, Fa, FC shift register on each HIGH-to-LOW transition of the CPSI clock input, provided IES and PL are LOW. After the fourth clock transition, the four data bits located in the four flip-flops Fo-F3. The FC flip-flop is set, forcing the IRF output LOW and interanlly inhibiting CPSI clock pulses from effecting the register. Figure 2 illustrates the final positions in a 'F403 resulting from a 64-bit serial bit train. Bo is the first bit, B63 the last bit. Similar operation can be developed for 'F433. Transfer to the Stack-The outputs of Flip-Flops Fo-F3 feed the stack. A LOW level on the TTS input initiates a "fall-through" action. If the top location of the stack is empty, data is loaded into the stack and the input register is re-initialized. Note that this initialization is postponed until PL is LOW again. Thus, automatic FIFO action is achieved by connecting the IRF output to the TTS input. An RS Flip-Flop (the Request Initialization Flip-Flop shown in Figure 10) in the control section r~cords the fact that data has been transferred to the stack. This prevents multiple entry of the same word into the stack despite the fact the IRF and TTS may still be LOW. The Request Initialization Flip-Flop is not cleared until PL goes LOW. Once in the stack, data falls through the stack automatically, pausing only when it is necessary to wait for an empty next location. In the 'F403, as in most modern FIFO designs, the MR input only initializes the stack control section and does not clear the data.

INPUT Rl'~I~T..E!3.

____________ _

'F403

OUTPUT REGISTER

FIG. 2 FINAL POSITIONS IN A 'F403 RESULTING FROM A 64-BIT SERIAL TRAI N

@

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645

FAIRCHILD A Schlumberger Company

403 · 433 Output Register (Data Extraction)-The Output Register receives 4-bit parallel data words from the bottom stack location, stores it and outputs data on a 3-state 4-bit data bus or on a 3-bit serial data bus. The output section generates and receives the necessary status and control signals. Figure 3 is conceptual logic diagram of the output section . . . - - - - - - - - O U T P U T FROM S T A C K - - - - - - - ,

cPSO

OES-_ _ _

MR----~-~-----~-----~--------+------~~--~

TOP

FIG. 3 CONCEPTUAL OUTPUT SECTION Parallel Data Extraction-When the FIFO is empty after a LOW pulse is applied to MR, the Output Register Empty (ORE) output is LOW. After data has been entered into the FIFO and has fallen through to the bottom stack location, it is transferred into the Output Register provided the "Transfer Out Parallel" (TOP) input is HIGH. As a result of the data transfer ORE goes HIGH, indicating valid data on the data outputs (provided the 3-state buffer is enabled). TOP can now be used to clock out the next word. When TOP goes LOW, ORE will go LOW indicating that the output data has been extracted, but the data itself remains on the output bus until the next HIGH level at TOP permits the transfer of the next word (if available) into the Output Register. During parallel data extraction CPSO should be LOW. TOS should be grounded for single slice operation or connected to the appropriate ORE for expanded operation (see Expansion section).

"C

.c:: (,)

...

ca u.

TOP is not edge trigg,ered. Therefore, if TOP goes HIGH before data is available from the stack, but data does become available before TOP goes LOW again, that data will be transferred into the Output Register. However, internal control circuitry prevents the same data from being transferred twice. If TOP goes HIGH and returns to LOW before data is available from the stack, ORE remains LOW indicating that there is no valid data at the outputs. Serial Data Extraction-When the FIFO is empty after a LOW pulse is applied to MR, the OutP.ut Register Empty (ORE) output is LOW. After data has been entered into the FIFO and has fallen through to the bottom stack location, it is transferred into the Output Register provided TOS is LOW and TOP is HIGH. As a result of the data transfer ORE goes HIGH indicating valid data in the register. The 3-state Serial Data Output, as: is automatically enabled and puts the first data bit on the outpJut bus. Data is serially shifted out on the HIGH-to-LOW transition of CPSO. To prevent false shifting, CPSO should be LOW wh.en the new word is being loaded into the Output Register. The fourth transition empties the shift register, forces ORE output LOW and disables the serial output, as (refer to Firjure 3). For serial operation the ORE output may be tied to the TOS input, requesting a new word from the stack as soon as the previous one has been shifted out.

646

@

Ie MASTER 1983

FAIRCHILD A SChlumberger Company

403 · 433 Horizontal and Vertical Expansion-The 'F403 and 'F433 can be expanded in both the horizontal and vertical directions without any external parts and without sacrificing any of its FIFO's flexibility for serial/parallel input and output. The interconnections necessary to form a 31-word by 16-bit FIFO are shown in Figure 4. Using the same technique, any FIFO of (15m + 1) words by (4n) bits can be constructed, where m is the number of devices in a cloumn and n is the number of devices in a row.

Figures 5 and 6 show the timing diagrams for serial data entry and extraction for the 31-word by 16-bit FIFO shown in Figure 4. The final position of data after serial insertion of 496 bits into the FIFO array of Figure 4 is shown in Figure 7. All applications shown for 'F403 can be adapted to the 'F433 with the depth of the stack being 64 locations rather than the 16 locations of 'F403 .

. - - - - - - - - - - - - - PARALLEL DATA INPUT - - - - - - - - - - - - - - - , 103020100 0 70 6 0 5 0 4 0 11 0 10 09 0 8 0150140130121

SERIAL DATA INPUT PARALLEL LOAD INPUT CLOCK

PL oS03D2D,DO ; - - -0 TTS

PL DSD3D2D,DO TTS

r-- -0

IES

~

CPSI

1

OES

'F403

~

CPSO

IRF

-0 ORE

OES

TOS

2 'F403

r-o

EO MR

IES L....(: CPSI

ORE

OES TOS

-

f-o EO MR

r

CL = 50pF

40 3

OBP C3> ns OBP (3)

2.5

::c

REPEATER MODE tRl tR2 tR3

UOI to BOO, BZO ECLK to BZO UOI to SOO, NVM NOTES:

--==....1

UNIPOLAR DATA IN BIPOLAR ONE IN BIPOLAR ZERO IN

DECODER CLOCK

TAKE DATA

7

COMMAND/DATA SYNC

5

~~~~~>=-==----______________~_~~::~-+19 SEND DATA

SERIAL DATA IN ENCODER SHIFT CLOCK

20

4

SERIAL DATA OUT

1

VALID WORD

__

9. .

~~~~DER CLOCK

r-

SYNC SELECT

ENCODER ENABLE

CAUTION: These devices are sensitive to electronic discharge. Proper I.C. handling procedures should be followed.

688

@

Ie MASTER 1983

Specifications HO-15530 ABSOLUTE MAXIMUM RATINGS

Supply Voltage

+7.0V

Input or Output Voltage Applied

GND -O.3V to Vee + O.3V

Storage Temperature Range

-65 0 e to + 1500 C

Operating Temperature Range -40 o e to +85 0 e

Industrial HD-15530-9 Military HD-15530-2

ELECTRICAL CHARACTERISTICS SYMBOL

D.C.

vee

= 5.0V ±S%

PARAMETER

= Industrial

TA

MINIMUM

VIH VIL VIHC VILC IlL VOH VOL ICCSB

Logical "1" Input Voltage Logical "0" Input Voltage Logical "1" I nput Voltage (Clock) Logical "0" Input Voltage (Clock) Input Leakage Logical "1" Output Voltage Logical "a" Output Voltage Supply Current Standby

ICCOp CIN Co

-55 0 C to + 1250 e

TYPICAL

or Military MAXIMUM

UNITS

0.5

0.4 2

V V V V JlA V V mA

Supply Current Operating*

8.0

10.0

mA

Input Capacitance* Output Capacitance*

5.0 8.0

7.0 10.0

pF pF

70% Vee 20% VCC VCC -0.5 GND +0.5 +1.0

-1.0 2.4

TEST CONDITIONS

OV ~ VIN ~ VCC IOH = -3mA IOL = 1.8mA VIN = VCC = 5.25V Outputs Open VCC = 5.25V, f = 1MHz

*Guaranteed and sampled but not 100% tested.

ENCODER TIMING Vee

A.C.

FEC FESC TECR TECF FED TMR TE1 TE2 TE3 TE4 TE5 TE6 TE7 TE8 TE9

= 5.0V ±5%

TA

= 5.0V ±5%

or Military

a a

Encoder Clock Frequency Send Clock Frequency Encoder Clock Rise Time Encoder Clock Fall Time Data Rate Master Reset Pulse Width Shift Clock Delay Serial Data Setup Serial Data Hold Enable Setup Enable Pulse Width Sync Setup Sync Pulse Width Send Data Delay Bipolar Output Delay

DECODER TIMING Vee

= Industrial

15 2.5 8 8 1.25

0 150

80 50 50 90 100 55 150

a

TA

= Industrial

50 130

MHz MHz ns ns MHz ns ns ns ns ns ns ns ns ns ns

CL

= 50pF

~

0 ...... 0

::l

or Military

"0 s::::::

A.C.

FDC TDCR TDCF FDD TDR TDRS TMR TD1 TD2 TD3 TD4 TD5 TD6 TD7 TD8 TD9 TD10 TD11

Decoder Clock Frequency Decoder Clock Rise Time Decoder Clock Fall Time Data Rate Decoder Reset Pulse Width Decoder Reset Setup Time Master Reset Pulse Width· Bipolar Data Pulse Width Sync Transition Span One Zero Overlap Short Data Transition Span Long Data Transition Span Sync Delay (ON) Take Data Delay (ON) Serial Data Out Delay Sync Delay (OFF) Take Data Delay (OFF) Valid Word Delay NOTE

© Ie MASTER 1983

5V

mA mA

Vee = 5.SV, outputs disabled Vce 5.25V. outputs disabled

NOTE 2, Vce = 5.25V

=

2. Max. dissipation or1 ms duration should not be exceeded. 3 All TYP. values al TA 25°C Vee 5V.

=

=

~MITEL 704

See Page 714 for Package Information.

@

Ie MASTER 1983

ISO-CMOS. 3-State Octal Buffers/Line Drivers

6DMITEL Switching Characteristics. Vee

5V, TA = 25° e TYP

MAX

UNIT

TEST CONDITION (Figure 3)

M 054/74SC240 M 054/74SC241/4 M 054/74SC540 M 054/74SC541

19 21 22 26

35 38 40 45

ns

Al = 667~ Ac = 01 Cl 45pF

tpHl

M 054/74SC240 M 054/74SC24114 M 054/74SC540 M 054/74SC541

20 23 24 27

35 40 40 45

ns

Output enable time to low level

tpZl

M 054/74SC240 M 054/74SC241/4 M 054/74SC540 M054/74SC541

21 22 35 39

40 42 52 58

Output enable time to high level

t pZH

M 054/74SC240 M 054/74SC241/4 M054/74SC540 M 054/74SC541

20 21 26 28

35

M054/74SC240 MD54/74SC241 14 M 054/74SC540 M054/74SC541

22 24 25 30

35 38

PARAMETER

SYMBOL

Propagation delay time Low to high output

t plH

Propagation delay time high to low input

Output disable time from low level

t pLZ

DEVICE

MIN

38 45 45

=

=

ns

ns

38 45

Output disable time from high level

t pHZ

M 054/74SC240 M 054/74SC241/4 M 054/74SC540 M054/74SC541

42 48 35 37

55 60 48 48

ns

Output disable time from low level

. t pLZ

M 054/74SC240 M 054/74SC241/4 M 054/74SC540 M 054/74SC541

22 24 25 30

35 38 38 45

ns

Output disable time from high level

tpHZ

M 054/74SC240 M054/74SC241/4 M 054/74SC540 M 054/74SC541

30 33 25 27

40 45 36 36

Input Capacitance

C1

M 054/74SC240 M054/74SC241/4 M 054/74SC540

3 3 3 3

8 8 8 8

tv1 n"i.i '"7 4~r."i4

Al = 667~ Ac 5K ... C l = 5pF

ns

Al Ac Cl

= 667... = 1K ... = 5pF

ns

pF

Voltage Waveforms tr= 15 ns

tf=6 ns Test point

Vil

INPUT

~

.....(.)o

Vee

= OV

::J

"C VO H

.~

e'l

1,3V VOL

OUTPUT

c o

From output under test

VOH

E 0>

en 0>

~

Val

~

C L includes probe and jig capacitance. All diodes are 1N916 or 1N3064.

Propagation Delay Times

VIH

113V

OUTPUT ENABLE

VIL

= 3V = OV

VOH ILl O.5V Enable, Disable Times

OUTPUT ---------------

@

Ie MASTER 1983

1 O.5V IHl

...

Fig.3 See Page 714 for Package Information.

Val

= 2.5V

VOL VO H VOl VOL

705

~u~ .MITEL

rm ~.r

ISO-CMOS Octal Bus Transceivers with 3-State Buffered Outputs

Technical Data

MD54SC245.

MD54SC545

MD74SC245.

MD74SC545

OCT 'B2

Features

Ordering Information • Pin compatible with 54/74LS245 types 'MD54SCXXXAC 20 Pin, Cerdip MD74SCXXXAC 20 Pin, Cerdip MD74SCXXXAE 20 Pin, Plastic DIP

• Low power ISO-CMOS technology • Short propagation delay • Bus oriented 3-state outputs • CMOS inputs reduce DC loading • FullyTTL compatible, inputs and outputs

Description

~

o ..... (,)

::s

"C

c

o

(,)

E Q)

en

These octal bus transceiver circuits are designed for high-speed asynchronous two-way communication between data buses. The control function inputs minimize external timing requirements. The devices provide data transmission from the A bus to the B bus or from the B bus to the A bus depending upon the logic level at the direction control input (DIR) pin. The enable input (G) pin can be used to disable the device outputs so that the buses are effectively isolated from each other. The M054/74SC545 differs from the M054/74SC245 by use of inverting buffers. Device Selection

CD :::

Product

~

706

Format

Output

M 054/74SC245 .

Bi-directional Buffer

non-inverted

M 054/74SC545

Bi-directional Buffer

inverted

See Page 714 for Package Information.

©

Ie MASTER 1983

ISO-CMOS Octal Bus Transceivers with 3-State Buffered Outputs

Connection and Logic Diagram DIP (TOP VIEW] MD54/74SC245

MD54/74SC545

Fig. 1

Function Table INPUT ENABLE (G) L L

OUTPUT Control(DIR) L

H

·X

H

Pin Function OPERATION B-A A-B ISOLATlON

Pin Ao - A7 Bo - B7

Description Bus A, Data Inputs/Outputs Bus B, Data Inputs/Outputs

o

o

::J

DIR

G

s~

Direction Control Input

"0 C

o

Enable Input, Active LOW

o E

Positive Supply Voltage

en

Q)

Vee Vss/GND

Q) ~

System Ground

eMITEL @

Ie MASTER 1983

See Page 714 for Package Information.

707

ISO-CMOS Octal Bus Transceiver§?

~MITEL

with 3-State Buffered Outputs

Abeolute Maximum Ratings PARAMETER

SYMBOL

Supply voltage

VALUE MD74se' - 0.5V to 7.0V - 0.3V to Vec + 0.3V

VCC Vj

Input vOltage Output current, per output

MD54se' -O.5V to 7.0V -0.3V to Vee + 0.3V

±

10

±75mA

Operating temperature

TA

- 40·C to + 85·C

-55°e to

+ 125°e

Storage temperature

TS P

- 65·C to + 150°C

-65°e to

+150 o e

Package Power dissipation Note:" Exceedinp these ratings may cause permanent damage.

450mW

75 mA

450 mW

Functional operation under these conditions is not implied.

Recommended Operating Conditions PARAMETER

SYMBOL

MIN

TYP

MAX

UNIT

VCC

2

5

6.5

V

VI

Supply voltage Input voltage Operating free·air temperature

I I

0

VCC

V

MD74'

TA

0

70

·C

MD54'

TA

-55

125

°e

1 Voltage vatues are with respect te VSSIGND

Electrical Characteristics Over Recommended Operating Free-Air Tenlperature Range PARAMETER High level input voltage

VIH

low level input voltage

Vll

High level output voltage

L-

....ao

:J "'C

low level output voltage

c:

a

o

E Q)

en

MIN

SYMBOL

TYP

Val

Input current at maximum input voltage

II

High level input current

IIH

Q)

TEST CONDITIONS

UNIT VCC = 5.5V

MD54'

2

V

MD74'

2

V

VCC = 5.25V

0.8

V

VCr:; = 4.5V

0.8

MD54' MD74'

VOH

MAX

V

VCC = 4.75V

MD54'

2.4 3.5

V

VCC = 4.5V, 10H =-5mA, 10H =-3mA

MD74'

2.4 4.0

V

VCC = 4.75V, 10H = -14mA 10H = -3mA

MD54'

0.4

V

Vcc = 4.5V, 10l = 6.5mA

MD74'

0.4

V

Vee = 4.75V, 10L = 10mA

MD54'

15

JJA

Vee

MD74'

15

JJA

Vee

MD54'

10

uA

Vec

MD74'

10

uA

Vec

MD54'

-10

uA

Vee

MD74'

-10

uA

Vce

~

~

low level input current

Off-state output current high·level voltage applied Off·state output current low·level voltage applied

IlL

10ZH

10Zl

Short circuit output current

lOS

Quiescent supply current

ICC

MD54'

20

uA

Vee

MD74'

20

JJA

Vee

MD54'

-20

JJA

Vce

MD74'

-20

uA

Vee

MD54' M074 MD54' MD74'

mA .mA

-40 -40 0.5 0.1

mA mA

= 5.5V, VI = 5.85V = 5.25V, VI = 5.55V = 5.5V, VI = 2.7V = 5.25V, VI = 2.7V = 5.5V, VI = 0.4V = 5.25V, VI = 0.4V = 5.5V, Va = 2.7V = 5.25V, Va = 2.7V = 5.5V, Va = 0.4V = 5.25V, Va = 0.4V

NOTE 2 vee NUH:

(J)

CO

o

~

o ...... o

~

731

®

MOTOROLA

ALS TTL 54ALSOO/74ALSOO Integrated Circuits The Advanced Low Power Schottky TTL family (ALS TTL) provides a 50% power reduction compared to standard 54/74LS TTL and yet offers improved circuit performance over the standard LS due to Motorola's state-of-the-art oxide isolated process (MOSAIC). This is a new product line; contact your Motorola representative for complete details and current introduction status.

SN54ALSOO Series ( - 55 to + 125°C) SN74ALSOO Series (0 to + 70°C) Suffix:

J ... Ceramic (54/74 series)

Function Octal Transceiver W/Storage/ Open Collector Octal Transceiver W/Storage/ 3-State Octal Bus Transceiver/lnverting/ 3-State Octal Bus Transceiver/3-State Octal Bus Transceiver/lnverting/ 3-State

ALS623 ALS TTL INTRODUCTION LIST ALS63B Device

Function

Available

Pins

Device

Function

ALSOO ALSOI

Quad 2-lnput NAND Gate Quad 2-lnput NAND Gate. Open-Collector Ouad 2-lnput NOR Gate Quad 2-lnput NAND Gate. Open-Collector Hex Inverter Hex Inverter. Open-Collector Ouad 2-lnput AND Gate Ouad 2-lnput AND Gate. Open-Collector Triple 3-lnput NAND Gate Triple 3-lnput AND Gate Triple 3-lnput NAND Gate. Open-Collector Dual 4-lnput Schmitt Trigger Hex Schmitt Trigger Triple 3-lnput Schmitt Trigger Dual 4-lnput NAND Gate Dual 4-lnput NAND Gate. Open-Collector Triple 3-lnput NOR Gate Ouad 2-lnput NOR Buffer Ouad 2-lnput OR Gate Ouad 2-lnput NOR Buffer. Open-Collector Quad 2-lnput NAND Buffer Dual 4-lnput NAND Buffer Dual 4-lnput NAND Buffer Dual 0 Flip Flop Dual J-K Flip Flop W/Preset Ouad 2-lnput Schmitt Trigger 1-01-8 Decoder/Demultiplexer Dual 1-01-4 Decoder/ Demultiplexer 8-lnput Multiplexer Dual 4-lnput Multiplexer Ouad 2-lnput Multiplexer/ Non-Inverting Quad 2-lnput Multiplexer/ Inverting BCD Decade Counter/ Asynchronous Reset (9910 Type) 4-Bit Binary Counter. Asynchronous Reset (9316 Type) BCD Decade Counter/ Synchronous Reset 4-Bit Binary Counter/ Synchronous Reset 8-Bit Serial-In/Parallel-Out Shift Register 4-Bit Up/Down Decade Counter Synchronous Reset 4-Bit Up/Down Binary Counter/ Synchronous Reset Up/Down Decade Counter Up/Down Binary Counter Up/Down Decade Counter W/Clear

Now

14

ALS193

4082 1083

14 14

ALS238

4082 Now Now Now

14 14 14 14

Up/Down Binary Counter W/Clear 1-01-8 Decoder/Demultiplexer/ (Active High Outputs) Dual 1-01-4 Decoder/ Demultiplexer/(Active High Outputs) Octal Bus/Line Driver/lnverting/ 3-State Octal Bus/Line Driver/3-State Ouad Bus Transceiver/ Inverting/3-State Ouad Bus Transceiver/ Non-lnverting/3-State Octal Driver/Non-Inverting/ 3-State Octal Bus Transceiver/ Non-lnverting/3-State 8-lnput Multiplexer/3-State Dual 4-lnput Multiplexer/ 3-State Ouad 2-lnput Multiplexer/ Non-lnverting/3-State Ouad 2-lnput Multiplexer/ Inverting/3-State Octal 0 Flip Flop W/Clear Dual 4-Multiplexer/lnverting ALS 153 Dual 4-Multiplexer/3-State ALS 352 Octal Transparent Latch/ 3-State Octal 0 Flip Flop/3-State Octal 0 Flip Flop W/Enable Octal Transparent Latch/ Inverting Octal D-Type Flip Flop/Inverting 1-01-10 Decoder/3-State 1-01-8 Decoder/3-State Dual 1-01-4 Decoder/3-State Octal Buffer/3-State Octal Buffer/3-State 4-Bit Decad~ Counter/3-State 4-Bi Binary Counter/3-State 8-Bit Latch/3 State Octal 0 Flip Flop/3-State Decade Up/Down Counter/ 3-State Binary Up/Down Counter/ 3-State Octal Transparent Latch/ 3-State Octal 0 Flip Flop/3-State Octal 0 Flip Flop/lnverting/ 3-State Octal Transparent Latch/ Inverting/3-State Octal Transceiver W/Storage/ 3-State Octal Transceiver W/Storage/ Open Collector

ALS02 ALS03 ALS04 ALS05 ALS08 ALS09 ALS10 ALSII ALS12 ALS13 ALS14 ALS15 ALS20 ALS22 ALS27 ALS28 ALS32 ALS33

~

o ..... o

:J

"'C

c: o o

E Q)

en

ctS

o .....o o ~

~

ALS37 ALS38 ALS40 ALS74 ALS109 ALS132 ALS138 ALS139 ALS151 ALS153 ALS157 ALS158 ALS160

ALS161

ALS162 ALS163 ALSI64 ALS168 ALS169 ALS190 ALS191 ALS192

ALS239

1083 1083 1083

14 14 14

1083 2083 2083 1083 4082

14 14 14 14 14

4082 1083 4082 4082

14 14 14 14

4082 4082 4082 4082 Now 4082 2083 4082

14 14 14 14 14 16 14 16

4082 1083 4082

16 16 16

4082

16

4082

16

4082

16

4082

16

4082 4082 1083 1083

16 16 14

ALS240 ALS241 ALS242 ALS243 ALS244 ALS245 ALS251 ALS253 ALS257 ALS258 ALS273 ALS352 ALS353 ALS373 ALS374 ALS377 ALS533 ALS534 ALS537 ALS538 ALS539 ALS540 ALS541 ALS560 ALS561 ALS563 ALS564 ALS568 ALS569 ALS573 ALS574 ALS576

16 ALS580

1083 4082 4082

16 16 16

4082

16

ALS620 ALS621

Available

Pins

4082

16

ALS639 ALS640

4082

16

ALS641

4082

16

Now Now

20 20

ALS644

Now

14

ALS646

Now

14

Now

20

Now 1083

20 16

4082

16

1083

16

ALS671

1083 Now

16 20

ALS672

4082

16

ALS642 ALS643

ALS647

ALS648 ALS649

ALS690 4082

16

1083 1083 Now

20 20 20

ALS691

ALS692 1083 1083 1083 1083 1083 2083 2083 1083 1083 2H83 2H83

20 20 20 20 20 20 20 20 20 20 20

4082

20

4082

20

2H83 2H83

20 20

Available

Device ALS622

ALS693

ALS694

ALS695

ALS696 ALS697 ALS698 ALS699

2H83

20

ALS790

2H83

20

Now

20

ALS873 ALS874 ALS876 ALS880

Now

20

Octal Bus Transceiver/ Non-Inverting/Open Collector Octal Bus Transceiver/lnverting/ Open Collector Octal Bus TransceiverfTrue/ Inverting/3-State Octal Bus TransceiverfTrue/ Inverting/Open Collector Octal Transceiver/Latch/ Multiplexer/Non-Inverting/ 3-State Octal Transceiver/Latch/ Multiplexer/Non-Inverting/Open Collector Octal Transceiver/Latch/ Multiplexer/lnverting/3-State Octal Transceiver/Latch/ Multiplexer/Inverting/Open Collector Binary Bidirectional Shift Register/Latch/Multiplexer/ 3-State BCD Bidirectional Shift Register/Latch/Multiplexer/ 3-State Decade Counter/Latch/ Multiplexer/Asynchronous Reset/3-State Binary Counter/Latch/ Multiplexer/Asynchronous Reset/3-State Decade Counter/Latch/ Multiplexer/Synchronous Reset/3-State Binary Counter/Latch/ Multiplexer/Synchronous Reset/3-State Decade Counter/Latch/ Multiplexer/Synchronous/ Asynchronous Reset/3-State Binary Counter/Latch/ Multiplexer/Synchronous/ Asynchronous Reset/3-State Decade Counter/Register/ Multiplexer/3-State Binary Counter/Register/ Multiplexer/3-State Decade Counter/Register/ Multiplexer/3-State Binary Counter/Register/ Multiplexer/3-State Error Detection and Correction Circuit Octal Transparent Latch Octal 0 Flip Flop Octal 0 Flip Flopllnverting Octal Transparent Latch/ Inverting

Pin.

Now

20

Now

20

Now Now

20 20

Now

20

Now

20

Now

20

Now

20

Now

20

1083

24

1083

24

1083

24

1083

24

4082

20

4082

20

4082

20

4082

20

4082

20

4082

20

4082

20

4082

20

4082

20

4082

20

4082

20

4082 See F2960 2H83 2H83 2H83

20

2H83

24

24 24 24

MOSAIC is a trademark of Motorola Inc.

732

© IC MASTER 1983

®

High·Speed CMOS Logic Family

MOTOROLA

SEMICONDUCTORS 3501 ED BLUESTEIN BLVD., AUSTIN, TEXAS 78721

For the first time, a higher-performance standard digital logic family is available that combines the popular features of CMOS and the traditional characteristics of LSTTL. Previously, designers were forced to choose between CMOS low power dissipation and good noise immunity and LSTTL high operating frequencies, short propagation delays, and good fanout or drive capability. The best of both technologies is now available in Motorola's newest digital logic family - High-Speed CMOS Logic (MC54174HC). Higher performance is available for most applications yielding speed improvements as well as significant cost savings. The family is composed of gates, flip-flops, buffers, octal devices and various MSI functions such as counters, shift registers, and decoders. Many of the popular CMOS and LS functions have been incorporated into the new logic family with full pinout capability for each function. In addition, the family has temperature ratings of - 40 to + 85°C (74 series) and - 55 to 125°C (54 series) for both commercial and highreliability requirements. The base LS supply voltage of 5 V ± 10% has been increased to a full rating of 2-6 V with the absolute maximum limited at - 0.5 and 7 V. Because of its extra speed and performance, the High-Speed CMOS Logic Family provides an ideal interface for CMOS memory and microprocessor system applications. Examples of the increased operating parameters are shown in the charts below.

Family Comparisons in Key Specifications (Typical Gate) Specification

CMOS

LS

HC

Propagation Delay (tPHL/tPLH) Quiescent Power Dissipation

300 ns

15 ns

15 ns

40p.W

22mW

l00p.W

Input Current

±1.0p.A

0.1 mA

± 1.0p.A

Maximum Operating Frequency (fmax)

>1 MHz

30 MHz

30 MHz

1 Load

10 Loads

10 Loads

29% VCC 29% VCC 7.5p.A

8% VCC 14% VCC 4.4 mA

19% Vec 29% VCC 20p.A

-40 to +85°C

o to

-40 to +85°C

Fanout Capability (LS Drive) Worst Case Noise Margins VNL VNH Quiescent Current (Per Package) Operating Temperature

-55 to + 125°C

+ 70°C -55 to

+ lZ5°C

-55 to + 125°C

Forty-three (43) devices are available through September 1982, with specific device introductions continuing through 1983. Contact your Motorola representative for pricing and sample availability.

MC54/74HCXXX

SWITCHING CHARACTERISTICS (Tentative Maximum Values)

Symbol

Parameters

f max

Maximum Clock Frequency

tPHLI tPLH

Prop. Delay, Clock to Q

74HCOO Gate

30 MHz 30 MHz 18 ns

30 ns

26 ns

tsu

Setup Time, Data to Clock

20 ns

20 ns

th

Hold Time, Clock to Data

o ns

o ns

tw

Pulse Width, Clock and Clear

16 ns

16 ns

tr

Input Clock Rise Time

500 ns 500 ns

500 ns

CPD·

Power Dissipation 100 pF 100 pF

100 pF

tpZLI tpZH

Three-State Enable Time

15 ns

100 pF

30 ns

25 ns tpLzl Three-State Disable Time tpHZ • CPD is an equivalent device capacitance for calculating power dissip'ation using PD = CPD V CC 2f

INITIAL PRODUCT LINE BY FUNCTION Function NAND/NOR AND/OR Excl usive-O RI Excl usive- NOR Invertersl Buffers

'0 0 ::J

Number of Devices

+'"

24

Gates 11

"C

3 2 8

C

0 0

Flip Flops/ Latches

18

E

Registers Shift Register Storage

6 5 1

en

Counters Binary Decade

7 5

Q)

ctS

(5 "-

12

0 0

+'"

Decoders/ Encoders

17

Transceiversl Line Drivers Octal Bus Transceiver Quad Bus Transceiver Octal Buffer/Line Driver

11 6 2 3

Others Multivibrators Comparators Parity Generator TTL-to-CMOS Level Translator

2 2 1 6

TOT AL DEVICES

© Ie MASTER 1983

74HC244 74HC74 D Flip- 74HC194 Bus Register Driver Flop

~

11

99

733

~

National Semiconductor

MM74HCXXXX High Speed CMOS Logic Family Combines: CMOS J.LW Power Dissipation CMOS High Noise Immunity With LS Equivalent Speeds LS Output Drive LS Pinout

SYSTEM POWER vs FREQUENCY MM74HC va LSTTL Ii?

'00

~

0

~-

...

WORST CASE TYPICAL HIGH·SPEED CMOS SYSTEM

~

"-

WORST CASE TYPICAL

~~ "",:"..0

I

7 ~

1m

THE SYSTEMS CONSIST OF: 200 GATES 150 COUNTERS 150 FUll ADDERS

V l..o'

10m

•

lsm !!lli!-

IK

~

100m 100

Ct. 50pFAU

V

IK

OUTPUTS

10K lOOK 1M FREQUENCY OF SYSTEM IHzl

10M

100M

HIGH SPEED CMOS PRODUCT GUIDE NAND I NOR Gates MM54HCOO! MM74HCOO Quad 2·lnput NAND Gate MM54HC02 I MM74HC02 Quad 2·lnput NOR Gate MM54HC10! MM74HC10 Triple 3·lnput NAND Gate MM54HC20! MM74HC20 Dual 4·lnput NAND Gate MM54HC27! MM74HC27 Triple 3·lnput NOR Gate MM54HC30! MM74HC30 B·lnput NAND Gate MM54HC133! MM74HC133 13·lnput NAND Gate MM54HC4002 ! MM74HC4002 Dual 4·lnput NOR Gate MM54HC407B! MM74HC407B B·lnput NOR Gate MM54HCOB! MM74HCOB Quad 2·lnput AND Gates MM54HCll ! MM74HCll Triple 3·lnput AND Gate MM54HC32 ! MM74HC32 Quad 2·lnput OR Gate MM54HCB6 ! MM 74HCB6 Quad 2·lnput Exclusive·OR (XOR) Gate MM54HC266 ! MM74HC266 Quad 2·lnput Exclusive NOR (XNOR) Gate MM54HC4075 ! MM74HC4075 Triple 3·lnput OR Gate

MM54HC174 I MM74HC174 Hex 0 Flip·Flop with Clear MM54HC1751 MM74HC175 Quad D-Type Flip·Flop with Clear MM54HC259 I MM74HC259 8·Bit Addressable Latch I 3·t0-8 Line Decoder MM54HC373 I MM74HC373 TRI·STATE Octal D-Type Latch MM54HC374 I MM74HC374 TRI-STATE Octal D·Type Fllp·Flop MM54HC533 I MM74HC533 TRI·STATE Octal D·Type with Inverting Outputs MM54HC534 I MM74HC534 TRI·STATE Octal D·Type Flip·Flop with Inverting Outputs MM54HC563 I MM74HC563 TRI·STATE Octal D·Type Latch with Inverting Outputs MM54HC564 I MM74HC564 TRI·STATE Octal D·Type Flip·Flop with Inverting Outputs MM54HC573 I MM74HC573 TRI·STATE Octal D·Type Latch MM54HC574 I MM74HC574 TRI·STATE Octal D·Type Flip·Flop MM54HC646 I MM74HC646 Non·inverting Octal Bus Transceivers I Registers MM54HC648 I MM74HC648 Inverting Octal Bus Transceivers I Registers MM54HC4301 I MM74HC4301 TIL Input Octal TRI·STATE Latch (Inverting) MM54HC4302 I MM74HC4302 TIL Input Octal TRI·STATE Latch MM54HC4303 I MM74HC4303 TIL Input Octal TRI·STATE Flip·Flop (Inverting) MM54HC4304 I MM74HC4304 . TIL Input Octal TRI·STATE Flip·Flop

Inverters I Non·lnvertlng '!Suffers I Bus Drivers

Shift Registers

MM54HC04 I MM74HC04 Hex Inverter MM54HC240! MM74HC240 Inverting Octal TRI·STATE~ Buffer MM54HC241 ! MM74HC241 Octal TRI·STATE Buffer MM54HC244! MM74HC244 Octal TRI·STATE Buffer MM54HC365! MM74HC365 Hex TRI·STATE Buffer MM54HC3661 MM74HC366 Inverting Hex TRI·STATE Buffer MM54HC367 I MM74HC367 Hex TAI·STATE Buffer MM54HC368 I MM74HC368 Inverting Hex TRI·STATE Buffer MM54HC4049! MM74HC4049 Hex Inverting Logic Level Down Converter MM54HC4050! MM74HC4050 Hex Logic Level Down Converter MM54HC4305 I MM74HC4305 TIL Input Octal TRI·STATE Inverting Buffer MM54HC4306 ! MM74HC4306 TIL Input Octal TRI·STATE Buffer

MM54HCl64 I MM54HC165 I MM54HC194 I MM54HC195 I MM54HC299 I

AND I OR I XOR I XNOR Gates

"-

o

+-'

o

:J "C r:::::

o .2

E Q)

en (ij r:::::

.2 +-' CO

Z

FIIp-FIopII Lak:t1es I Registerl

Bus Transceivers MM54HC242! MM54HC243! MM54HC245! MM54HC640 I MM54HC643! MM54HC6461 MM54HC648 !

MM74HC242 MM74HC243 MM74HC245 MM74HC640 MM74HC643 MM74HC646 MM74HC648

Inverting Quad TRI·STATE Transceiver Quad TRI·STATE Transceiver Octal TRI-STATE Transceiver Inverting Octal TRI·STATE Transceiver Octal TRI·STATE Transceiver Octal Bus Transceivers I Registers Inverting Octal Bus Transceivers I Registers

Schmitt Triggers MM54HC14 I MM74HC14 Hex Inverting Schmitt Trigger MM54HC1321 MM74HC132 Quad 2·lnput NAND Schmitt Trigger One Shots MM54HC123 I MM74HC123 Dual Monostable Multivibrator MM54HC221 ! MM74HC221 Dual Monostable Multivibrator MM54HC4538 I MM74HC4538 Retriggerable Monostable Multivibrator Arithmetic Circuits MM54HC85 I MM74HC85 4·Bit Magnitude Comparator MM54HC688 I MM74HC688 8·Bit Magnitude Comparator Flip-Flops I Latches I Registers MM54HC73 I MM74HC73 Dual J·K Flip·Flop with Clear MM54HC74! MM74HC74 Dual 0 Flip·Flop with Preset and Clear MM54HC75 I MM74HC75 4·Bit Bistable Latch with Q and 0 Qutput MM54HC76 I MM74HC76 Dual J·K Flip-Flop with Preset and Clear MM54HC77! MM74HC77 4-Bit Bistable Latch MM54HC1071 MM74HC107 Dual J·K Flip·Flop with Clear MM54HC109! MM74HC109 Dual J-K Flip-Flop with Preset and Clear MM54HCl12! MM74HCl12 ' Dual J·K Flip·Flop with Preset and Clear MM54HC173 I MM74HC173 TRI·STATEII Quad 0 Flip-Flop

734

MM74HCl64 MM74HC165 MM74HCl94 MM74HC195 MM74HC299

8·Bit 8·Bit 4·Bit 4·Bit 8·Bit

Serial·ln Parallel·Out Shift Register Parallel·ln Serial Out Shift Register Bidirectional Universal Shift Register Parallel·Shift Register TAI·STATE Universal Shift Aegister

Counters MM54HCl60 I MM74HCl60 Synchronous Decade Counter MM54HC161 I MM74HC161 Synchronous Binary Counter MM54HC162 I MM74HC162 Synchronous Decade Counter MM54HCl63 I MM74HCl63 Synchronous Binary Counter MM54HC192 I MM74HC192 Synchronous Decade Up I Down Counter MM54HC193 I MM74HC193 Synchronous Binary Up I Down Counter MM54HC390 I MM74HC390 Dual 4·Bit Decade Counter MM54HC393 I MM74HC393 Dual 4·Bit Binary Counter MM54HC4017 I MM74HC4017 Decade Counter I Divider with 10- Decoded Outputs MM54HC4020 I MM74HC4020 14 Stage Binary Counter MM54HC4040 I MM74HC4040 12 Stage Binary Counter MM54HC4060 I MM74HC4060 14 Stage Binary Counter Decoders I Encoders MM54HC42 I MM74HC42 BCD·to·Decimal Decoder MM54HCl38 I MM74HCl38 3·to-8 Line Decoder MM54HC139 I MM74HC139 Dual 2·to·4 Line Decoder MM54HC147 I MM74HC147 10·Line to 4·Line Priority Encoder MM54HCl54 ! MM74HCl54 4·to·16 Line Decoder MM54HC259 I MM74HC259 8·Bit Addressable Latch I 3·to-8 Line Decoder MM54HC280 I MM74HC280 Odd I Even Parity Generator I Checker MM54HC45111 MM74HC4511 BCD·to·7 Segment Latch I Decoder I Driver MM54HC4514 I MM74HC4514 4·Line to 16· Line Decoder with Latch MM54HC4543 I MM74HC4543 BDC·to·7 Segment Latch I Decoder I Driver for Liquid Crystal Displays Multiplexers MM54HC151 I MM54HC153 I MM54HCt57 I MM54HCl58 I MM54HC2511 MM54HC2531 MM54HC2571 MM54HC354 I MM54HC356 I

MM74HC151 MM74HCl53 MM74HC157 MM74HCl58 MM74HC251 MM74HC253 MM74HC257 MM74HC354 MM74HC356

8-Channel Digital Multiplexer Dual 4·lnput Multiplexer Quad 2·lnput Multiplexer Quad 2·lnput Multiplexer (Inverted Output) 8-Channel TAI·STATE'" Multiplexer Dual 4·Channel TAI·STATE Multiplexer Quad 2·Channel TAI·STATE Multiplexer 8·Channel TAI·STATE Multiplexers with Latches 8·Channel TAI·STATE Multiplexers with Latches

Contact your local National SemIconductor Sales Office or Distributor for more Information.

© Ie MASTER 1983

~

National Semiconductor NATIONAL SEMICONDUCTOR MOS/LSI

PART TYPE

DESCRIPTION

FEATURES

MM74CXXX-SERIES DISPLAY DRIVERS MM74C945n

4-digit up/down counter w/latch/decoder driver

• • • •

MM74C946N

4V~igit counter/decoder driver for LCD displays

• Direct 4Y2-digit 7-segment display drive • Carry output for cascading 4-digit blocks • Store and reset inputs

MM74C911

4-digit display controller

• TTL-compatible inputs • Internal oscillator • Segment expandability

MM74C912

fkiigit BCD display/driver

• TTL-compatible inputs • Internal-segment decoder • Direct-base drive-to-digit transistors

MM74C917

6-digit hex display/driver

• TTL-compatible inputs • Internal-segment decoder • Direct-base drive-to-digit transistors

4-decade U/D counter Schmitt trigger clock input Direct 4-digit drive Store and reset inputs

MM54XX-SERIES DISPLAY DRIVERS MM5450/51

34/35 segment LED

• Serial data in • Brightness control • . Data enable, cascadeable

MM5452153

32133 segment LCD

• Serial data in • Oscillator on-board • Data enable, cascadeable

MM5445/6n/8

33-35 segment VF

• Serial data in • Brightness control • Data enable, cascadeable

MICROPROCESSOR-COMPATIBLE CLOCKS MM58167A

MM58174A

8-bit bus clock

4-bit bus clock

~

o ..... (,) ::J

LOW-POWER CMOS

"0

c: o

• Time: 1/100 sec - months • RAM: 56 bits • Interrupts: 1 sec -1 month and RAM compare • • • •

Package: 24-pin Time: 1110 sec - years Interrupts: 0.5-, 5-, 6O-sec Package: 16-pin

(,)

E Q)

en as c: o ..... as

Z

DIGITAL CLOCK/RADIO MM5458/59

Alarm clock/radio

• • • •

LED duplex 12124-hour, 50/60 Hz Sleep/snooze Battery back-up

MM5466

Dual alarm clock/radio

• • • •

LED duplex 12124-hour, SO/50 Hz Sleep/snooze Battery back-up

© Ie MASTER 1983

735

~National

PRELIMINARY October 1982

~ Semiconductor

MM74HC942 300 Baud P2CMOS™ Modem General Description

Features

The MM74HC942 is a full duplex low speed modem. It provides a 300 baud bidirectional serial interface for data communication over telephone lines and other narrow bandwidth channels. It is Bell 103 compatible.

• All filtering, modulator, demodulator, line driver, and hybrid on single Ie

The device is manufactured on National's p2 CMOSTM process. Switched capacitor techniques are used to perform analog signal processing.

• Full duplex answer or originate modes - Bell 103 compatible • Low operating power plus "stand-by" power-down mode • Analog loopback for self test

MODULATOR SECTION

The modulator contains a frequency synthesizer and a sine wave synthesizer. It produces a phase coherent frequency shift keyed (FSK) output.

• ±5V supplies • Adjustable "carrier detect" and "transmit" levels

Applications

LINE DRIVER AND HYBRID SECTION

The line driver and hybrid are designed to facilitate connection to a 600 n phone line. They can perform two to four wire conversion and drive the line at dBm.

a

• Built-in low speed-modems - personal computers • Remote data collection • Radio telemetry

DEMODULATOR SECTION

• Credit verification The demodulator incorporates anti-aliasing filters, a receive filter. limiter, discriminator, and carrier detect circuit. The nine pole receive filter provides 60 dB of transmitted tone rejection. The discriminator is fully balanced for stable operation. p2

CMOS'"

IS

:s:

o c. C'D 3

• Stand-alone modems • Remote process control • Portable terminals

a trademark of National Semiconductor Corp,

Connection Diagram Dual-in-line Package

Block Diagram VCC

GNO

Vee

XTALS

XTALO

L-

a ...... 0

OSI

TLA

ALB

GNO

::J

"0 C

t - - t - SOT

a 0

CD

EXI TLA

E Q)

en

COT

TXA

(ij

RXO

RXA1

Vcc

RXA2

OSI

C

a

......

(lj

--t----t

TIMING AND CONTROL

t---t--

ALe

t--t-

OIA

t---t--

TXD

.....- ....- . .

--t~-

RXO TXA - - 1 - -......
--~::>--=====t---,

D-

E Q)

en

SP74SC373

SP74SC573

PIN CONFIGURATION

PIN CONFIGURATIOr.

SWITCHING CHARACTERISTICS Parameter Propagallon Time I~LM Data to Output tPHL Data 10 Output tPLH Latch Enab(e to Output tPHL LatCh Enable to Output tPZH Output Enable to Hlgh·Level tPZL Output Enable to Low·Level IPHZ Output Disab(e trom Hlgh·Level tPLZ Output Dlsab(e trom Low-Level Data Set·Up Time Note I Data Hold Time' Note I Note 1

Min.

Typ.

Max.

17 25 32 36 25 32 25 32

VOLTAGE WAVEFORMS ENABLE a; DISABLE TIMES. 3-STATE OUTPUTS

Unit ns os

V'~ OUT~CONTROL 1.3V 1.3V V,

- -

EQUIVALENT TEST CIRCUIT

0,

~-4-+....4....j.~

(13)

(8)

•

Oe

'-b----~

00.

I,.

',.

0,.

GNO

So

A,

B,

":'"

A,

B,

A.

e,

,~ 128

po

'~ ,,~

o

2B

§:

et et

I-

C

;:

lY2

c


en

G3 3EN1 3EN2

..,

r

\71

2\7

n

18

3

11

4

16

5

15

6

14

7

13

8

12

9

11

~-D--r__-+----1......:B. 13 ~--t ::::~f___+_---1......:B6 12

>-_-+_---........,.B7 11

Signetics @

IC MASTER 1983

See Page 809 for Ordering Information.

779

LOGIC DIVISION

OCTOBER 1982

TRANSCEIVER

54/74LS245

ABSOLUTE MAXIMUM RATINGS

(Over operating free-air temperature range unless otherwise noted.) 54LS

74LS

UNIT

7.0

7.0

V

Input voltage

- 0.5 to + 7.0

-0.5 to + 7.0

V

Input current

- 30 to + 1

- 30 to + 1

rnA

- 0.5 to + Vee

- 0.5 to + Vec

V

-55 to + 125

o to 70

·C

PARAMETER Vee

Supply voltage

VIN liN V OUT

Voltage applied to output in HIGH output state

Operating free-air temperature range TA NOTE VIN limited to 5.5V on A and B inputs only.

RECOMMENDED OPERATING CONDITIONS 54174LS

PARAMETER

Vee

Supply voltage

V IH

HIGH-level input voltage

V IL

LOW-level input voltage

IIH

Input clamp current

IOH

HIGH-level output current

IOL

LOW-level output current

TA

Operating free-air temperature

UNIT

Min

Nom

Max

Mil

4.5

5.0

5.5

V

Com'l

4.75

5.0

5.25

V

2.0

V

Mil

+0.7

V

Com'l

+0.8

V

-18

Mil

12

Com'l

24

rnA rnA rnA rnA rnA

Mil

- 12

Com'l

- 15

Mil

-55

+ 125

·C

Com'l

0

70

·C

TEST CIRCUITS AND WAVEFORMS INPUT PULSE DEFINITIONS

TEST CIRCUIT FOR 3·STATE OUTPUTS U)

C,)

......

I------·-Iw-----~

Q)

"...___-

AMP (V)

C

0> C/) ~~------------------~--4_-----0V

ITHUt,)

ITlH(lr)

ITlH(lr)

ITHUII!

IJ-__----------------~~--;_----- AMP

SWITCH POSITION Test Switch 1 Switch 2 Open Closed tpZli Open Closed tpZL \ Closed Closed tpHZ Closed' Closed tpLZ DEFINITIONS RL = Load reSistor to Vec. see AC CHARACTERISTICS lor value CL = Load capacitance Includes Jig and probe capacitance: see Ae CHARACTERISTICS lor value RT = Termination reSistance should be equal to ZOUT 01 Pulse Generators D = Diodes are 1N916. 1N3064. or equivalent Rx = 1kl! lor 54/74. 545/745. RX =5kl! for 54LS/74LS tTLH' tTHL Values should be less than or equal to the table enlrles

(V)

POSITIVE PULSE ~-----IW-------~

" - - - OV

VM = 1.3V lor 54LS/74LS: VM = 1 5V lor all other TTL lamilles

FAMILY

Amplilude

INPUT PULSE REQUIREMENTS Rep. Rile Pul.. Wldlh ITLH 1MHz 500ns 7ns

ITHL 7ns

54/74

3.0V

54LS/74LS

3.0V

1MHz

500ns

15ns

6ns

5451745

3.0V

1MHz

5OOn~

2.5ns

2.5ns

Sigletics 780

See Page 809 for Ordering Information.

@

Ie MASTER 1983

LOGIC DIVISION

OCTOBER 1982

TRANSCEIVER

54/74LS245

DC ELECTRICAL CHARACTERISTICS (Over recommended operating free·air temperature range unless otherwise noted.) PARAMETER·

TEST CONDITIONS1

tlV T

Hysteresis (VT+ -VT _)

Vcc= MIN

VOH

HIGH·level output voltage

VOL

LOW·level output voltage

Vcc = MIN, VIH = MIN, VIL = MAX. Vec= MIN, VIH = MIN, VIL = MAX

54/74LS245

2.4

IOL= MAX 10L= 12mA

Vee = MAX, Vo=2.7V, CE=2.0V

10ZL

Off·state output current, LOW·level voltage applied

Vee=MAX, Vo =O.4V, CE=2.0V

II

Input current at maximum input voltage

IIH

HIGH·level input current

Vee = MAX, VI := 2.7V

IlL

LOW·level input current

Vec= MAX, VI = O.4V

los

Short·circuit output current 3

UNIT V

V

3.4 0.4

V

Com'l

0.5

V

74LS

0.4

V

-1.5

V

20

Il A

-200

Il A

Vee = MIN, II = 11K

Vee= MAX

Max

V

Mil

10ZH

(total)

0.4

10H= -3mA

Input clamp voltage

Supply

0.2 2.0

Off·state output current, HIGH·level voltage applied

Icc

Typ2

10H= MAX

VIK

current 4

Min

-

.I

VI =5.5V

A, B inputs

0.1

rnA

I

VI = 7.0V

SIR, CE inputs

0.1

rnA

20

Il A

-0.2

rnA

-130

rnA

-40

Vec= MAX

Vce '= MAX

leeH

Outputs HIGH

48

70

rnA

leeL

Outputs LOW

62

90

rnA

Outputs OFF

64

95

rnA leez NOTES 1. For conditions shown as MIN or MAX, use the appropriate value specified under recommended operating conditions for the applicable type. 2. All typical values are at Vee = 5V, TA = 25°C. 3. lOS is tested with VOUT= + Q.5V and Vee= Vee MAX+ Q.5V. Not more than one output should be shorted at a time and duration of the short circuit should not exceed one second. 4. Measure lee with outputs open.

AC WAVEFORMS WAVEFORM FOR NON·INVERTING OUTPUTS

en

3·STATE ENABLE TIME TO HIGH LEVEL AND DISABLE TIME FROM HIGH LEVEL

(,)

..... Q) c

Ol CJ)

-l.SV

Waveform 1

Waveform 2 VM = 1.3V

for

54LS/74LS, VM = 1.5V for all other TTL families

3·STATE ENABLE TIME TO LOW LEVEL AND DISABLE TIME FROM LOW LEVEL

Waveform 3

Signefics @

Ie

MASTER 1983

See Page 809 for Ordering Information.

781

LOGIC DIVISION

OCTOBER 1982

TRANSCEIVER

54/74LS245

AC CHARACTERISTICS TA=25°C, Vcc =5.0V 54LS/74LS PARAMETER

TEST CONDITIONS

UNIT

CL = 45pF, RL = 6670 Min

Max

tpLH

Propagation delay

Waveform 1

12

ns

tpHL

Propagation delay

Waveform 1

12

ns

tpZH

Enable to HIGH

Waveform 2

40

ns

tpZL

Enable to LOW

Waveform 3

40

ns

tpHZ

Disable from HIGH

25

ns

tpLZ

Disable from LOW

Waveform 2, CL = 5pF Waveform 3, CL = 5pF

25

ns

en

(.)

.....Q) s::::: C>

en

Signetics 782

See Page 809 for Ordering Information.

@

Ie MASTER 1983

LOGIC DIVISION

OCTOBER 1982

LATCHES/FLIP-FLOPS

• a·bit transparent latch '373 • a·bit positive, edge· triggered register - '374 • 3·State output buffers • Common 3·State Output Enable • Independent register and 3·State buffer operation

54/74LS373, 54/74LS374, S373, S374 '373 Octal Transparent Latch With 3·State Outputs '374 Octal 0 Flip·Flop With 3·State Outputs TYPE

TYPICAL PROPAGATION DELAY

TYPICAL SUPPLY CURRENT (Total)

74LS373

19ns

24mA

74S373

10ns

105mA

74LS374

19ns

27mA

74S374

Bns

116mA

INPUT AND OUTPUT LOADING AND FAN-OUT TABLE PINS

DESCRIPTION The '373 is an octal transparent latch coupled to eight 3-State output buffers. The two sections of the device are controlled independently by Latch Enable (E) and Output Enable (OE) control gates. The data on the D inputs are transferred to the latch outputs when the Latch Enable (E) input is HIGH. The latch remains transparent to the data inputs while E is HIGH, and stores the data present one setup time before the HIGH-to-LOW enable transition. The enable gate has about 400mV of hysteresis built in to help minimize problems that signal and ground noise can cause on the latching operation. . The 3-State output buffers are designed to drive heavily loaded 3-State buses, MOS memories, or MOS microprocessors. The active LOW Output Enable (OE) controls all eight 3-State buffers independent of the latch operation. When OE is LOW, the latched or transparent data appears at the outputs. When OE is HIGH, the outputs

PIN CONFIGURATION

DESCRIPTION

54/74S

54/74LS

All

Inputs

1Sul

1LSui

All

Outputs

10Sul

30LSui

NOTE Where a 54/74S unit load (Sui) is 50!,A IIH and - 2.0mA IlL. and a 54/74LS unit load (LSul) is 20!,A IIH and - O.4mA IlL'

ORDERING CODE COMMERCIAL RANGES Vcc = 5V :t 5%; TA = ooe to + 70°C

PACKAGES Plastic

N74LS373N • N74S373N N74LS374N • N74S374N

Ceramic DIP

N74LS373F N74LS374F

• •

N74S373F N74S374F

MILITARY RANGES VCC=5V :t10%;TA= -55°eto

S54LS373F S54LS374F

• •

+ 125°C

S54S373F S54S374F

are in the HIGH impedance "off" state, which means they will neither drive nor load the bus.

The register is fully edge triggered. The state of each 0 input, one setup time before the LOW-to-HIGH clock transition, is transferred to the corresponding flipThe '374 is an B-bit, edge-triggered register flop's Q output. The clock buffer has coupled to eight 3-State output buffers. . about 400mV of hysteresis built in to help The two sections of the device are con- minimize problems that signal and ground trolled independently by the Clock (CP) noise can cause on the clocking operation. and Output Enable (OE) control gates.

Q)

LOGIC SYMBOL (IEEE/IEC)

LOGIC SYMBOL

UJ

o

..... c

o

en '373

'373 3

4

7

•

13

14

17

1.

2

5

8

II

12

15

18

I.

'374

'373

Vee - Pin 20 GND-Pln 10

'374 3

4

7

8

13

14

17

18

12

DO

11

ep

15

'374

16 2

5

8

II

12

15

18

111

19

Vee .Pln 20 GND-Pln 10

Signetics © IC MASTER 1983

See Page 809 for Ordering Information.

783

LOGIC DIVISION

OCTOBER 1982

LATCHES/FLIP-FLOPS The 3·State output buffers are designed to drive heavily loaded 3·St,ate buses, MOS memories, or MOS microprocessors. The active LOW Output Enable (OE) controls

54/74LS373, 54/74LS374, S373, S374 all eight 3·State buffers independent of the register operation. When OE is LOW, the data in the register appears at the out· puts. When OE is HIGH, the outputs are in

the HIGH impedance "off" state, which' means they will neither drive nor load the bus.

LOGIC DIAGRAM, '373

vcc =Pln 20 GND= Pin 10

(15)

aS

(16)

06

LOGIC DIAGRAM, '374

(2)

(5)

(15)

Os

00

(16)

06

en MODE SELECT -FUNCTION TABLE, '373 (,)

......

OPERATING MODES

Q)

OUTPUTS

INTERNAL REGISTER

0 0 -0 7

E

On

Enable and read register

L L

H H

L H

L H

L H

Latch and read register

L L

L L

I h

L H

L H

Latch register and disable outputs

H H

L L

I h

L H

(Z) (Z)

C)

en

INPUTS OE

C

MODE SELECT-FUNCTION TABLE, '374 OPERATING MODES Load and read register Load register and disable outputs

INPUTS

OUTPUTS

INTERNAL REGISTER

0 0-0 7'

OE

CP

On

L.

1 1

I h

L H

L H

I

.L H

(Z) (Z)

L H H

1

-I

H = HIGH voltage level h = HIGH voltage level one setup time prior to the LOW-to-HIGH clock transition or HIGH-to-LOW OE transition ' L = LOW voltage level

h

1= LOW voltage level one setup time prior to the LOW·to·HIGH clock transition or HIGH-to-LOW OE transition (Z)= HIGH impedance "off" state I = LOW-to-HIGH clock transition

Signetics 784

See Page 809 for Ordering Information.

@

IC MASTER 1983

LOGIC DIVISION

OCTOBER 1982

LATCHES/FLIP-FLOPS

54/74LS373, 54/74LS374, S373, S374

ABSOLUTE MAXIMUM RATINGS (Over operating free-air temperature range unless otherwise noted.) 54lS

PARAMETER

74lS

74S

UNIT

7.0

7.0

7.0

V

54S

Vcc

Supply voltage

VIN

Input voltage

- 0.5 to + 7.0

- 0.5 to +5.5

- 0.5 to + 7.0

- 0.5 to +5.5

V

liN

Input current

-30 to +1

- 30 to +5

- 30 to +1

-30 to +5

rnA

V OUT

Voltage applied to output in HIGH output state.

- 0.5 to +Vcc

- 0.5 to +Vcc

- 0.5 to +Vcc

- 0.5 to +Vcc

V

TA

Operating free-air temperature range

7.0

o to 70

-55 to + 125

°C

RECOMMENDED OPERATING CONDITIONS 54/74lS

PARAMETER

Vcc

Supply voltage

VIH

HIGH-level input voltage

VIL

lOW-level input voltage

11K

Input clamp current

IOH

HIGH-level output current

IOL

lOW-level output current

TA

Operating free-air temperature

NOTE VIL = + O.7V MAX for 54S at T A =

54/74S

UNIT

Min

Nom

Max

Min

Nom

Max

Mil

4.5

5.0

5.5

4.5

5.0

5.5

Com'l

4.75

5.0

5.25

4.75

5.0

5.25

V

-

V

2.0

2.0

V

Mil

+0.7

+0.8

V

Com'l

+0.8

+0.8

V

-18

-18

Mil

-1.0

-2.0

Com'l

-2.6

-6.5

Mil

12

20

Com'l

24

20

rnA rnA rnA rnA rnA

Mil

-55

+ 125

-55

+ 125

°C

Com'l

0

70

0

70

°C

en

()

+-'

Q)

+ 125"C only.

C 0)

en

Signetics @

Ie MASTER 1983

See Page 809 for Ordering Information.

785

LOGIC DIVISION

OCTOBER 1982

LATCHES/FLIP-FLOPS

54/74LS373, 54/74LS374, S373, S374

DC ELECTRICAL CHARACTERISTICS

VOL

V IK 10ZH

10Zl

HIGH-level output voltage

LOW-level output voltage

Vcc=MIN, VIH=MIN, Vll=MAX, 10H= MAX Vee= MIN, V IH = MIN, Vll=MAX

Input clamp voltage

10l= MAX

Off-state output current, LOW-level voltage applied

II

Input current at maximum input voltage

IIH

HIGH-level input current

III

LOW-level input current

los

Short-circuit output· current 3

Typ2

Mil

2.4

3.4

Com'l

2.4

2.4

3.0

2.4

3.1

3.1

V V V

Com'l

0.35

0.5

0.5

V

74LS

0.25

0.4

V -1.2

-1.5 20

50 -20 -50 0.1

20

rnA

50

itA rnA

V I = 0.5V

OE=4.5V

1.0

-0.4

V I =0.4V

Vee= MAX

-130

-30 'LS373

24

40

27

40

itA rnA

V I = 5.5V

Vee= MAX, V I = 2.7V

itA itA

Vo= 0.5V V I = 7.0V

V itA

Vo=2.4V

Vee= MAX

UNIT

Max

0.5 4

. Vo=0.4V

Vee= MAX, V IH = MIN

Vee= MAX

Typ2

0.4

Vee= MAX

Supply current (total)

Min

0.25

Vo= 2.7V

Vee= MAX, V IH = MIN

Max

Mil

10l= 12mA

leez

lee

Min

Vee= MIN, 11= 11K

Off-state output current, HIGH-level voltage applied

54/74S373, 374

54/74LS373,374

TEST CONDITIONS1

PARAMETER

V OH

(Over recommended operating free-air temperature range unless otherwise noted.)

-40

- 0.25

rnA

-100

rnA rnA

105

'S373

160

rnA

leel

OE=OV

leez

OE=4.5V

'LS374

leel

All inputs grounded

'S374

102

140

rnA

leez

CP, OE= 4.0V 'S374 D inputs = GND

131

180

rnA

rnA

en o

NOTES For conditions shown as MIN or MAX, use the appropriate value specified under recommended operating conditions for the applicable type. 2. All typical values are at Vee =5V, TA =25°e. , 3. lOS is tested with VOUT = + O.5V and Vee =Vee MAX + O.5V. Not more than one output should be shorted at a time and duration of the short circuit shouldJ1ot exceed one second. 4. VOL = + O.45V MAX for 54S at TA = + 125°e only.

Q)

AC CHARACTERISTICS

1.

c

TA=25°C, V ee =5.0V

54/74S

54/74LS

.~

en

PARAMETER

TEST CONDITIONS

C l = 45pF, Rl = 6670 Min

f MAX

Maximum clock frequency

t plH t pHl

Propagation delay Latch Enable to output

tplH t pHl t plH t pHl t PZH

Waveform 6, '374

Max

C l = 15pF, Rl = 2800 Min 75

35

UNIT

Max MHz

Waveform 1, '373

30 30

14 18

Propagation delay' Data to output

Waveform 4, '373

18 18

13

. Propagation delay Clock to output

Waveform 6, '374

28 28

15 17

ns

ns

9

ns

Enable time to HIGH level

Waveform 2

28

15

ns

t PZl

Enable time to LOW level

'373 Waveform 3, '374

36 28

18 18

ns

t pHZ

Disable time from HIGH level

Waveform 2, C l = 5pF

20

9

ns

tplZ

Disable time from LOW level

Waveform 3, C l = 5pF

25

12

ns

NOTE Per industry convention, fMAX is the worst case value of the maximum device operating frequency with no constraints on tr, tf, pulse width or duty

cycl~.

Signetics 786

See Page 809 for Ordering Information.

@

Ie

MASTER 1983

LOGIC DIVISION

OCTOBER 1982

LATCHES/FLIP-FLOPS

54/74LS373, 54/74LS374, S373, S374

AC WAVEFORMS LATCH ENABLE TO OUTPUT DELAYS AND LATCH ENABLE PULSE WIDTH

3·STATE ENABLE TIME TO HIGH LEVEL AND DISABLE TIME FROM HIGH LEVEL

=1.SV

Waveform 1

Waveform 2

3·STATE ENABLE TIME TO LOW LEVEL AND DISABLE TIME FROM LOW LEVEL

PROPAGATION DELAY DATA TO Q OUTPUTS

,

Waveform 3

Waveform 4

DATA SETUP AND HOLD TIMES

CLOCK TO OUTPUT DELAYS AND CLOCK PULSE WIDTH

U)

o

+""

Q)

C

0>

Waveform 5

en

Waveform 6 DATA SETUP AND HOLD TIMES

Waveform 7

=

=

VM 1.5V for 54/74 and 54S/74S, VM 1.3V for 54LS/74LS. The shaded areas Indicate when the Input Is permitted to change for predictable output performance.

Signetics © IC MASTER 1983

See Page 809 for Ordering Information.

787

OCTOBER 1982

LOGIC DIVISION

54/74LS373, 54/74L5374, 5373, 5374

LATCHES/FLIP-FLOPS AC SETUP REQUIREMENTS TA = 25°C, Vcc= 5.0V PARAMETER

I

54174S

54/74LS

TEST CON DITIONS

Min

Min

Max

UNIT

Max

tw(H) tw(L)

Latch Enable pulse width

Waveform 1, '373

15 15

6 7.3

ns

ts

Setup time, Data to Latch Enable

Waveform 5, '373

5

0

ns

th

Hold time, Data to Latch Enable

Waveform 5, '373

20

10

ns

6 7.3

ns

tw(H) tw(L)

Clock pulse width

Waveform 6, '374

15 15

ts

Setup time, Data to Clock

Waveform 7, '374

20

5

ns

th

Hold time, Data to Clock

Waveform 7, '374

0

2

ns

TEST CIRCUITS AND WAVEFORMS TEST CIRCUIT FOR 3·STATE OUTPUTS

INPUT PULSE DEFINITIONS

Vee ~----------tw----------~

.---AMP(V)

I'------------'il--+---- ov o

tTHL(tl)

tTLH(tr)

tTLH(tr)

tTHL(tl)

lJ----------__ SWITCH POSITION

en o

.....Q) C

.~

en

~--t---- AMP (V)

POSITIVE PULSE

Test

Switch 1

. Switch 2

tpZH tpZL tpHZ tpLZ

Open Closed Closed Closed

Closed Open Closed 'Closed

~------tw---------~

VM = 1.3V for 54LS/74LS; VM

DEFINITIONS RL = Load resfstor to VCC; see AC CHARACTERISTICS for value. CL = Load, capacitance includes jig and probe capacitance; see AC CHARACTERISTICS for value. RT =Termination resistance should be equal to ZOUT of Pulse Generators. D = Diodes are 1N916, 1N3064, or equivalent. RX = 1kf! for 54/74, 54S/74S. RX =5kf! for 54LS/74LS. tTLH' tTHL Values should be less than or equal to the table entries.

=:=

'''---ov

1.5V for all other TTL families.

INPUT PULSE REQUIREMENTS

FAMILY Amplitude

Rep. Rate

Pulse Width

tTLH

54/74

3.0V

1MHz

500ns

7ns

7ns

54LS/74LS

3.0V

1MHz

500ns

15ns

6ns

54S/74S

3.0V

1MHz

500ns

2.5ns

2.5ns

tTHL

Signetics 788

See Page 809 for Ordering Information.

©

Ie

MASTER 1983

OCTOBER 1982

LOGIC DIVISION

54/745534

FLIP-FLOP

Octal 0 Flip-Flop With 3-State Outputs • 8-bit positive, edgetriggered register • Inverting outputs • 3-State output buffers • Common 3-State Output Enable • Independent register and 3-State buffer operation

TYPE

TYPICAL PROPAGATION DELAY

TYPICAL SUPPLY CURRENT (Total)

74S534

8ns

116mA

ORDERING CODE PACKAGES

DESCRIPTION The '534 is an 8-bit, edge-triggered register ceupled te eight 3-State inverting .output buffers. The twe sectiens .of the device are centrelled independently by the Cleck (CP) and Output Enable (OE) centrol gates. The register is fully edge triggered. The state .of each D input, .one setup time befere the LOW-te-HIGH cleck transitien, is transferred te the cerrespending flip-flep's Q .output. The cleck buffer has abeut 400mV .of hysteresis built in te help minimize preblems that signal and greund neise can cause en the clocking .operatien. The 3-State- inverting .output buffers are designed te drive heavily loaded 3-State buses, MOS memeries, .or MOS micreprocessers. The active LOW Output Enable (OE) centrels all eight 3-State buffers inde-

COMMERCIAL RANGES Vce = 5V :t: 5%; TA =O°C to + 70°C

Plastic DIP

N74S534N

Ceramic DIP

N74S534F

Vcc = 5V

MILITARY RANGES :t: 10%; TA = - 55°C to + 125°C S54S534F

INPUT AND OUTPUT LOADING AND FAN-OUT TABLE PINS

DESCRIPTION

All

Inputs

All

Outputs

54/74S 1Sul 10Sul

NeTE Where a 54/74S unit load (Sui) is 50l'A IIH and - 2.0mA IlL'

pendent .of the register eperatien. When OE is LOW, the data in the register ap-' pears at the .outputs. When OE is HIGH,

the .outputs are in the HIGH impedance ".off" state, which means they will neither drive ner lead the bus.

UJ

()

PIN CONFIGURATION

LOGIC SYMBOL

:;::

LOGIC SYMBOL (IEEElIEC)

Q)

C

0>

CIJ

3

4

7

8

13

14

17

18

2

5

6

9

12

15

16

19

11

Vee =Pln 20 GND=Pln 10

Signetics @

Ie MASTER 1983

See Page 809 for Ordering Information.

789

OCTOBER 1982

LOGIC DIVISION

54/745534

FLIP-FLOP LOGIC DIAGRAM

(2)

(15)

(5)

(19)

as

00

Q7

Vee =Pln 20 GND=Pln 10

MODE SELECT-FUNCTION TABLE INPUTS

OPERATING MODES

CP

On

Load and read register

L L

I

I

I h

L H

H L

Load register and disable outputs

H H

I I

I h

L H

(Z) (Z)

=

ABSOLUTE MAXIMUM RATINGS

I

=LOW voltage level one setup time prior to the LOW·to·HIGH clock transition

(l)= HIGH impedance "off" state

I

= LOW·to·HIGH clock transition

(Over operating free-air temperature range unless otherwise noted.)

PARAMETER

en

(.)

Q)

0 0-0 7

OE

H HIGH voltage level h = HIGH voltage level one setup time prior to the LOW·to·HIGH clock transition L = LOW voltage level

of-'

OUTPUTS

INTERNAL REGISTER

545

745

UNIT

7.0

7.0

V

Input voltage

-0.5 to + 5.5

- 0.5 to + 5.5

V

Input current

- 30 to + 5

- 30 to + 5

rnA

Voltage applied to output in HIGH output state.

- 0.5 to + Vcc

-0.5 to + Vcc

V

Operating free-air temperature range

- 55 to + 125

o to 70

°C

Vcc

Supply voltage

V IN liN V OUT

TA

c

.2> RECOMMENDED OPERATING CONDITIONS

en

54/745

PARAMETER

Vcc

Supply voltage

V IH

HIGH-level input voltage LOW-level input voltage

11K

Input clamp current

IOH

HIGH-level output current

10L

LOW-level output current

TA

Operating free-air temperature

=

790

= + 125°C only.

Nom

Max

Mil

4.5

5.0

5.5

V

Com'l

4.75

5.0

5.25

V

2.0

V IL

NOTE VIL + O.7V MAX for 545 at TA

UNIT

Min

V

Mil

+0.8

Com'l

+0.8

V

-18

V

Mil

-2.0

Com'l

-6.5

Mil

20

Com'l

20

rnA rnA rnA rnA rnA

Mil

-55

+ 125

°C

Com'l

0

70

°C

Signetics See Page 809 for Ordering Information.

@

Ie MASTER 1983

LOGIC DIVISION

OCTOBER 1982

54/745534

FLIP-FLOP

DC ELECTRICAL CHARACTERISTICS (Over recommended operating free-air temperature range unless otherwise noted.)

VOH

HIGH-level output voltage

Vcc= MIN, V IH = MIN, VIL = MAX, 10H= MAX

LOW-level output voltage

V IK

Input clamp voltage

10ZH

Off-state output current, HIGH-level voltage applied

Vcc= MAX, V IH = MIN

10ZL

Off-state output current, LOW-level voltage applied

Vcc= MAX, V IH = MIN

Input current at maximum input voltage

IIH

HIGH-level input current

IlL

LOW-level input current

los

Short-circuit output current 3

Icc

Supply Current (total)

10L= MAX

Vcc = MIN, V IH = MIN, V IL = MAX

VOL

II

54/745534

TEST CONDITIONS 1

PARAMETER

10L= 12mA

Min

Typ2

Mil

2.4

3.0

Com'l

2.4

3.1

Max

V V

Mil

0.5 4

V

Com'l

0.5

V

-1.2

V

74LS

V

Vcc= MIN. 11= 11K

p,A

Vo= 2.7V

p,A

50

Vo=2.4V

p,A

Vo= O.4V -50

Vo= 0.5V

p,A rnA

VI = 7.0V

Vcc= MAX

1.0

VI = 5.5V

rnA p,A

50

Vcc= MAX, VI = 2.7V VI = O.4V

Vcc= MAX

rnA

VI = 0.5V -40

Vcc= MAX

Vcc= MAX

UNIT

-0.25

rnA

-.100

rnA

ICCL

All inputs grounded

102

140

rnA

Iccz

CP, OE=4.0V D inputs = GND

131

180

rnA

NOTES 1. For conditions shown as MIN or MAX, use the appropriate value specified under recommended operating conditions for the applicable type. 2. All typical values are at VCC = 5V, TA= 25 ·c. 3. lOS is tested with VOUT= + O.5V and VCC = VCC MAX + O.5V. Not more than one output should be shorted at a time and duration of the short circuit should not exceed one second. 4. VOL = + O.45V MAX for 545 at TA= + 125·C only.

AC CHARACTERISTICS TA=25°C, Vcc =5.0V

en C..> ......

545/745 PARAMETER

TEST CONDITIONS

C L = 15pF, RL

=2800

Min

UNIT

Q)

C

Max

0> MHz

f MAX

Maximum clock· frequency

Waveform 3

tpLH tpHL

Propagation delay Clock to output

Waveform 3

15 17

ns

tpZH

Enable time to HIGH level

Waveform 1·

15

ns

tpZL

Enable time to LOW level

Waveform 2

18

ns

tpHZ

Disable time from HIGH level

Waveform 1, C L= 5pF

9

ns

t pLZ

Disable time from LOW level

Waveform 2, C L= 5pF

12

ns

75

en

AC SETUP REQUIREMENTS TA=25°C, Vcc =5.0V PARAMETER . tw(H) tw(L)

TEST CONDITIONS

545/745 Min

Max

UNIT

Clock pulse width

Waveform 3

6 7.3

ns

ts

Setup time, Data to Clock

Waveform 4

5

ns

th

Hold time, Data to Clock

Waveform 4

2

ns

NOTE Per industry convention, fMAX is the worst case value of the maximum device operating frequency with no constraints on tr, tf, pulse width or duty cycle.

Signetics ©

Ie MASTER 1983

See Page 809 for Ordering Information.

791

OCTOBER 1982

LOGIC DIVISION

54/745534

FLIP-FLOP AC WAVEFORMS 3-STATE ENABLE TIME TO HIGH LEVEL AND DISABLE TIME FROM HIGH LEVEL

3-STATE ENABLE TIME TO LOW LEVEL AND DISABLE TIME FROM LOW LEVEL

::::1.SV

a

Waveform 1

Waveform 2

CLOCK TO OUTPUT DELAYS AND CLOCK PULSE WIDTH

DATA SETUP AND HOLD TIMES

Waveform 3

Waveform 4

=

=

VM 1.5V for 54/74 and 54S/74S, VM 1.3V for 54LS/74LS. The shaded areas indicate when the input is permitted to change for predictable output performance.

TEST CIRCUITS AND WAVEFORMS TEST CIRCUIT FOR 3·STATE OUTPUTS

en ()

INPUT PULSE DEFINITIONS

Vee

......

~-----------tw------------~

Q)

.,.....-- AMP (V)

C C')

en ~----------------------'I---~-----OV

o

tTHUtf)

tTLH(tr)

tTLH(tr)

tTHL(tf)

I.-___- - - - - - - - - -__..j---t-"'----- AMP (V) POSITIVE PULSE

SWITCH POSITION Test

Switch 1

Switch 2

tpZH tpZL tpHZ tpLZ

Open Closed Closed Closed

Closed Open Closed 'Closed

~-----------tw------------~

VM

DEFINITIONS RL =Load resfstor to VCC; see AC CHARACTERISTICS for value. CL =Load. capacitance includes jig and probe capacitance; see AC CHARACTERISTICS for value. RT =Termination resistance should be equal to ZOUT of Pulse Generators. D = Diodes are 1N916, 1N3064, or equivalent. RX = 1kf! for 54174, 54S174S, RX = 5kf! for 54LSI74LS. tTLH' tTHL Values should be less than or equal to the table entries.

''''--- OV

=1.3V for 54LSI74LS; VM = 1.5V for all other TTL families.

INPUT PULSE REQUIREMENTS

FAMILY Amplitude

Rep. Rate

Pulse Width

tTLH

54174

3.0V

1MHz

500ns

7ns

7ns

54LSI74LS

3.0V

1MHz

500ns

15ns

6ns

. 3.0V

1MHz

500ns

2.5ns

2.5ns

545/74S

tTHL

Signetics 792

See Page 809 for Ordering Information.

© Ie MASTER 1983

LOGIC DIVISION

OCTOBER 1982

8TS805,806

LATCHES/FLIP-FLOPS • 8·bit transparent latch 8TS805 • 8·bit positive, edge· triggered register 8TS806 • 3·State output buffers • Common 3·State Output Enable • Independent register and 3·State buffer operation

8TS805 Octal Transparent Latch With 3·State Outputs 8TS806 Octal D Flip·Flop With 3·State Outputs TYPE

TYPICAL PROPAGATION DELAY

TYPICAL SUPPLY CURRENT (Total)

8TS805

10ns

105mA

8TS806

8ns

116mA

ORDERING CODE COMMERCIAL RANGES Vcc =5V % 5%; TA =ooe to + 70 0 e

PACKAGES Plastic DIP

N8TS805N

Ceramic DIP

N8TS805F

• •

Vcc =5V

MILITARY RANGES % 10%; TA = - 55°e to + 125°e

N8TS806N N8TS806F

S8TS805F

•

S8TS806F

INPUT AND OUTPUT LOADING AND FAN-OUT TABLE DESCRIPTION The 8TS805 is an octal, transparent latch coupled to eight 3-State output buffers. The two sections of the device are controlled independently by Latch Enable (E) and Output Enable (OE) control gates.

All

Inputs

1Sul

All

Outputs

10Sul

NOTE An 8TS unit load (Sui) is 50!,A IIH and - 2.0mA IlL'

The data on the D inputs are transferred to the latch outputs when the Latch Enable (E) input is HIGH. The latch remains transparent to the data inputs while E is HIGH, and stores the data present one setup time before the HIGH-to-LOW enable transition. The enable gate has about 400mV of hysteresis built in to help minimize problems that signal and ground noise can cause on the latching operation.

active LOW Output Enable (OE) controls all eight 3-State buffers independent of the I~tch operation. When OE is LOW, the latched or transparent data appears at the outputs. When OE is HIGH, the outputs are in the HIGH impedance "off" state, which means they will neither drive nor load the bus.

The 3-State output buffers are designed to drive heavily loaded 3-State buses, MOS memories, or MOS microprocessors. The

The 8TS806 is an 8-bit, edge-triggered register coupled to eight 3-State output buffers. The two sections of the device are

PIN CONFIGURATION

8TS

DESCRIPTION

PINS

controlled independently by the Clock (CP) and Output Enable (OE) control gates. The register is fully edge triggered. The state of each D input, one setup time before the LOW-to-HIGH clock' transition, is transferred to the corresponding flipflop's Q output. The clock buffer has about 400mV of hysteresis built in to help minimize problems that signal and ground noise can cause on the clocking operation.

en u ......

LOGIC SYMBOL (IEEE/IEC)

LOGIC SYMBOL

Q)

C

0>

8TS805

8TS805

en

8TS806

23458781

8TS805

11

E

11

11

17

18

15

14

13

12

Vee. Pin 20 GND.Pln 10

8TS806 23458181

DO

11

ep

8TS806 8 11

11

11

18

15

14

13

12

Vee ·Pln 20 GND-Pln 10

Signetics ©

Ie

MASTER 1983

See Page 809 for Ordering Information.

793

OCTOBER 1982

LOGIC DIVISION

LATCHES/FLIP-FLOPS The 3·State output buffers are designed to drive heavily loaded 3·State buses, MOS memories, or MOS microprocessors. The active LOW Output Enable (OE) controls

8TS805,806 all eight 3-State buffers independent of the register operation. When OE is LOW" the data in the register appears at the out· puts. When OE is HIGH, the outputs are in

the HIGH impedance "off" state, which means they will neither drive nor load the bus.

LOGIC DIAGRAM, 8TS805

Vcc •

Pin 20 OND- Pin 10

(12)

01

07,

LOGIC DIAGRAM, 8T5806

Vce •

Pin 20 OND. Pin 10

(III)

ao

en o

(15)

(111)

(12)

(13)

O.

01

06

07

MODE SELECT -FUNCTION TABLE, 8TS805

..... Q)

OPERATING MODES

C

OUTPUTS

INTERNAL REGISTER

OE

E

On

Enable and read register

L L

H H

L H

L H

L H

Latch and read register

L L

L L

I h

L H

L H

Latch register· and disable outputs

H H

L L

' I h

L H

(Z) (Z)

C)

en

INPUTS

0 0 -0 7

MODE SELECT-FUNCTION TABLE, 8TS806 OPERATING MODES

H h

INPUTS

OUTPUTS

INTERNAL REGISTER

OE

CP

On

Load and read r'egister

L L

t t

I h

L H

L H

Load register and disable outputs

H H

t t

I h

L H

(Z) (Z)

=HIGH voltage level =HIGH voltage level one setup time prior to the LOW·to·HIGH clock transition or

HIGH-to-LOW OE transition L = LOW voltage level .

I,

0 0-0 7

=LOW voltage level one setup time prior to the LOW-tO-HIGH clock transition or

HIGH·to-LOW OE transition IZ)= HIGH impedance "0"" state t LOW·to-HIGH clock transition

=

Sigletics 794

See Page 809 for Ordering Information.

@

Ie MASTER 1983

OCTOBER 1982

LOGIC DIVISION

8TS805, 806

LATCHES/FLIP-FLOPS

ABSOLUTE MAXIMUM RATINGS (Over operating free·air temperature range unless otherwise noted.) Vcc

N8TS

S8TS

PARAMETER

UNIT

7.0

7.0

V

:... 0.5 to + 5.5

- 0.5 to + 5.5

V

- 30 to + 5

rnA

Supply voltage

V,N

Input voltage

liN

Input current

VOUT

Voltage applied to output in HIGH output state.

- 0.5 to + Vcc

- 0.5 to + Vcc

V

TA

Operating free·air temperature range

-55 to + 125

o to 70

°C

- 30 to

+5

RECOMMENDED OPERATING CONDITIONS 8TS

PARAMETER

Vcc

Supply voltage

V,H

HIGH·level input voltage

V,L

LOW·level input voltage

1'K

Input clamp current

IOH IOL

TA

LOW·level output current

=

Max

Mil

4.5

5.0

5.5

V

Com'l

4.75

5.0

5.25

V V

Mil

+0.8

V

Com'l

+0.8

V

-18 Mil

-2.0

Com'l

-6.5

Mil

20 20

rnA rnA rnA rnA rnA

Mil

-55

+ 125

°C

Com'l

0

70

°C

Com'l

Operating free·air temperature

NOTE V,L + O.7V MAX for SaTS at T A =

Nom

2.0

HIGH·level output current

UNIT

Min

+ 12SoC only.

en

()

:;::: Q)

c

en

CI)

Signetics ©

Ie MASTER 1983

See Page 809 for Ordering Information.

795

LOGIC DIVISION

OCTOBER 1982

LATCHES/FLIP-FLOPS

8TS805,806

DC ELECTRICAL CHARACTERISTICS (Over recommended operating free-air temperature range unless otherwise noted.)

VOH

HIGH-level output voltage

8TS805,806

TEST CONDITIONS1

PARAMETER

Vcc= MIN, VIH = MIN, VIL = MAX, 10H= MAX ~

VOL

LOW-level output voltage

VIK

Input clamp voltage

10zH

Off-state output current, HIGH-level voltage applied

Off-state output current, 10ZL. LOW-level voltage applied II

Input current at maximum input voltage

IIH

HIGH-level input current

IlL

LOW-level input current

los

Short-circuit output current 3

Supply current (total)

Typ2

Mil

2.4

3.0

Com'l

2.4

3.1

Max

UNIT V V

Mil

0.5 4

V

Com'l

0.5

V

Vcc= MIN, 11= 11K

-1.2

V

Vcc=MAX, VIH=MIN, Vo=2.4V

50

/LA

Vcc= MAX, VIH = MIN, Vo=0.5V

-50

/LA

Vcc= MAX, VI = 5.5V

1.0

rnA

Vcc= MAX, VI = 2.7V Vcc= MAX, VI = 0.5V

50

/LA

-0.25

rnA

-100

rnA

Vcc= MIN, VIH = MIN, VIL = MAX

I

10L= MAX

-40

Vcc= MAX 8TS805

105

160

rnA

ICCL

All inputs grounded, 8TS806

102

140

rnA

Iccz

C~, OE = 4.0V 8TS806 D Inputs = GND

131

180

rnA

ICCL Icc

Min

Vcc= MAX

NOTES 1. For conditions shown as MIN or MAX, use the appropriate value specified under recommended operating conditions for the applicable Iype. 2. All typical values are at VCC= 5V, TA= 2S"C. 3. lOS is tested with VOUT= + O.SV and VCC= VCC MAX+ O.SV. Not more than one output should be shorted at a time and duration of the short circuit should nol exceed one second. ' . 4. VOL = + O.4SV MAX for S8TS at TA = + 12S"C only.

UJ

AC CHARACTERISTICS TA=25°C, Vcc =5.0V

(.)

8TS

+"'

PARAMETER

(])

c:

TEST CONDITIONS

en

f MAX

Maximum clock frequency

tpLH tpHL

Propagation delay Latch Enable to output

tpLH tpHL

Waveform 6, 8TS806

UNIT

CL= 1SpF, RL = 2800 Min

0)

Max

75

MHz

Waveform 1, 8TS805

14 18

ns

Propagation delay Data to output

Waveform 4, 8TS805

9 13

ns

tpLH tpHL

Propagation delay Clock to output

Waveform 6, 8TS806

.15 17

ns

tpZH

Enable time to HIGH level

Waveform 2

15

ns

tpZL

Enable time to LOW level

8TS805 Waveform 3 8TS806

18 18

ns

Disable time from HIGH level 9 Waveform 2,C L= 5pF tpHZ Disable time from LOW level Waveform 3, CL= 5pF 12 tpLZ NOTE .' Per industry convention, fMAX is the worst case value of the maximum device operating frequency with no constraints on Ir' If, pulse width or duly cycle.

ns ns

Signetics 796

See Page 809 for Ordering Information.

©

Ie MASTER 1983

OCTOBER 1982

LOGIC DIVISION

8TS805,806

LATCHES/FLIP-FLOPS AC WAVEFORMS LATCH ENABLE TO OUTPUT DELAYS AND LATCH ENABLE PULSE WIDTH

3·STATE ENABLE TIME TO HIGH LEVEL AND DISABLE TIME FROM HIGH LEVEL

Waveform 1

Waveform 2

3·STATE ENABLE TIME TO LOW LEVEL AND DISABLE TIME FROM LOW LEVEL

PROPAGATION DELAY DATA TO a OUTPUTS

Waveform 3

Waveform 4

DATA SETUP AND HOLD TIMES

CLOCK TO OUTPUT DELAYS AND CLOCK PULSE WIDTH

1;::=1/fMAXi CP

J.VM

\VM

l'-V-M-"""\'\ooo__

l-tW(H)-~tw(L):j

E

~_tP_H_L~ _

I

~l-tPLHI ,.-_ _ __

___ Q

~VM

I VM

en

o

+-'

Q)

C

0>

Waveform 5

en

Waveform 6 DATA SETUP AND HOLD TIMES

Waveform 7 VM = 1.5V for 54/74 and 545/745, VM f' 1.3V for 54L5/74L5. The shaded areas indicate when the input is permitted to change for predictable output performance.

Signetics @

Ie MASTER 1983

See Page 809 for Ordering Information.

797

LOGIC DIVISION

OCTOBER 1982

LATCHES/FLIP-FLOPS

8TS805,806

AC SETUP REQUIREMENTS TA=25°C, Vcc =5.0V 8TS

UNIT

PARAMETER

TEST CONDITIONS

tW------'

~

a:

PRODUCT REGISTER

ASYNCHRONOUS MULTIPLIER ARRAY

Rp (16)

Ry

I-

(12)

OE

TC>----~------------------------~

ClKM~----~~----------------------------~~-----------

TRW reserves the right to change product and specifications without notice. This information does not convey any licen.se under patent rights of TRW Inc. or others.

LSI Products Division TRW Electronic Components Group P.O. Box 2472 La Jolla, Ca. 9203B

814

© TRW Inc. 19B2 40GOOB17 Rev. A-6/B2 Printed in the U.S.A.

Phone: (6191457-1000 Telex: 697-957 TWX: 910·335·1571 @

Ie MASTER 1983

... ••,

~.-.

MPY016K Advance Information VLSI Multiplier 16 x 16 Bit, 50 nsec

Features

The TRW MPY016K is a 16 x 16 bit VLSI multiplier that operates on a 50-nsec cycle (20 MHz multiplication rate). Individually clocked input and output registers are provided to maximize system throughput and simplify bus interfacing. The Most Significant Product (MSP) and Least Significant Product (LSP) are multiplexed through a dedicated output port, or the LSP can share a bidirectional port with the Y input. Three-state outputs are employed throughout. Built in TRW's OMICRON-B™ 1-micron bipolar process, the MPY016K is pin-compatible with the industry standard MPY016H and operates with three times the speed at no increase in power dissipation. The MPY016K is the industry's first true video-speed 16-bit multiplier.

• True Video-Speed Performance (20 MHz) • Double Precision Product • Includes Input And Output Registers • Two's Complement, Unsigned Magnitude, Or Mixed Mode Operation • Output Registers Can Be Made Transparent • Three-State Outputs • Pin-Compatible With MPY016H • Proven Hi-ReI, Rad-Hard Bipolar Process • Single + 5V Power Supply Applications

• Array Processors • Video Processors • Radar Signal Processors • FFT Processors

• General Digital Signal Processors • MicrocomputerIMinicomputer Accelerators

Functional Block Diagram

en ..... o

:::J "C MSP OUT / LSP OUT

o

'a.

en

--'

s:a:

I-

TRW reserves the right to change product and specifications without notice. This information does not convey any license under patent rights of TRW Inc. or others. LSI Products Division TRW Electronic Components Group P.O. Box 2472 La Jolla, Ca. 92038 © Ie MASTER 1983

Phone: (619) 457-1000 Telex: 69],957 TWX: 910-335-1571

© TRW Inc. 1982 40G00817 Rev. A-6182 Printed in the U.S.A.

815

ii~·-·

TOC 1030 Advance Information First-In First-Out Memory 64 Words by 9 Bits The TDC1030 is an expandable high speed First-In First-Out (FIFO) memory organized as 64 words by 9 bits. A 20 M Hz data rate makes it ideal in applications such as video time base correction, A/D input buffers, input/output formatter for digital filters and FFT's, disk controllers and voice synthesizers.

AND configuration. The device has all output pins directly opposite the corresponding input pins, facilitating board layouts in expanded configurations.

The Shift In (SI) and Shift Out (SO) controls allow asynchronous data transfers. The Input Ready (IR) flag indicates that the FIFO input stage is empty and available to receive newdata. When IR is valid, SI may be asserted, thus loading the data present at DO through DS into the FIFO. From this stage, data "falls-through" in an asynchronous manner. The data will stack up at the end of the device while empty locations will "ripple" to the front. Output Ready (OR) indicates that the FIFO output stage contains valid data which may be transferred out via the Shift Out control. Additional control inputs include; Master Reset (MR) to clear all data within the device and a three-state control signal, Output Enable, (OE).

Features 64 words by 9-bit organization

•

20 MHz typical shift-in, shift-out rates

•

Readily expandable in word and bit dimension

•

Asynchronous or synchronous

•

TTL inputs and outputs

•

Devices can be interconnected to expand in word and bit dimensions. This operation is simplified by the resistive pullups provided at the OR and IR outputs which allow the use of a wired-

...en

•

-Three state outputs

•

Master reset input to clear data and control

•

Output pins directly opposite corresponding input pins

•

OR, IR have resistive pull-ups to allow wiredAN D Configuration

•

Ceramic 2S-pin dual-in-line package

Functional Block Diagram

(.)

::s

"C

o

DATA INPUT

FIFO INPUT STAGE

INPUT READY FLAG

INPUT CONTROL

Jo-

DC/) -I

MAIN REGISTER I - - - - - - - - - - v

FIFO OUTPUT STAGE

MAIN REGISTER CONTROL LOGIC

OUTPUT - SHIFT OUT CONTROL LOGIC

~

a:

II--------~'"

.........,...,.-.... OUTPUT READY FLAG MASTER RESET TRW reserves the right to change product and specifications without notice. This information does not convey any license under patent rights of TRW Inc. or others.

lSI Products Division TRW Electronic Components Group P.O. Box 2472 La Jolla, Ca. 92038

816

Phone: (619) 457-1000 Telex: 697-957 TWX: 910·335-1571

© TRW Inc. 1982 40G00817 Rev. A-6182 Printerl in the U.S.A.

@

Ie MASTER 1983

ii~·-·

TDC1022 Floating Point Arithmetic Unit 22 Bit The TDC1022 is a high speed, TIL compatible, 22-bit VLSI floating point arithmetic unit. It operates on two binary numbers, each with a 16-bit two's complement significand and a 6-bit two's complement exponent. Its high performance results from a proven method developed and patented by TRW (U.S. Patent No. 3,900,724). The main internal adders and shifters achieve a speed power product of less than 1.0 picojoule per equivalent gate. One output and two input data registers are provided along with three-state outputs. These registers are positive-edge triggered type D flip-flops with a common clock. An input. latch is provided to demultiplex the two input operands from a single input bus. The TDC1022 allows parallel loading and outputting of data and several external command and flag options. An internal pipeline register may be enabled to ensure a full arithmetic throughput rate of 10MHz, (100 nsec, Typ.).

Features • • • • • • • • •

• Single 5V Supply • 64 Pin DIP or 68 Contact Ceramic Leadless Chip Carrier

Applications • • • • • •

Image Processing ALU in Array Processor Conversion between Fixed and Floating Point Numbers Digital Filters FFT's Secure Communications

Instructions A. Denormalize - A Denormalize Limit (LMT) Round (RND) -;- 2, Scale (SCA) Accumulate (ACC)

Zero A+B

A-B B-A B Normalize - S Normalize

Floating Point, Two's Complement Dynamic Range Equivalent to 64 Bits Fixed Point Selectable Pipelining, 100 nsec stage time Three-State TIL Output Selectable Add/Accumulate Function 12 Function Data/Arithmetic Control -;- 2 Scaling Function for FFT's Selectable Saturating Arithmetic Parallel Data 110

Flags Exponent Overflow Significand Overflow

Zero Exponent Underflow

Functional Block Diagram ACCUMULATOR PATH

01

n

LOI

CLK

~OE~~~~~~IZE-.-J

LALU-.J

LRENORMAlIZE~ SECTION

L

LIMIT ~ SECTION

TRW reserves the right to change product and specifications without notice. This information does not convey any license under patent rights of TRW Inc. or others. LSI Products Division TRW Electronic Components Group P.O. Box 2472 La Jolla, Ca. 92038 @

Ie MASTER 1983

Phone: (619) 457-1000 Telex: 697-957 TWX: 910-335-1571

© TRW Inc. 1982 40G00817 Rev. A-6/82 Printed in the U.S.A.

817

--~.-.

••,

TDC1028 Advance Information' Features

FIR Digital Filter Building Block The TRW TDC1028 is a video-speed, TIL compatible bit-slice "building block" for Finite Impulse Response IFIRl digital filters and for multi-bit digital correlators. It is implemented as a bitslice processor independently in the coefficient and signal data word dimensions. Word lengths can be multiples of four bits. Two's complement or unsigned magnitude operation is independently selectable for both coefficients and signal data words. .

• 20 MegaSamples Per Second IMSPSl Throughput Rate • Eight Coefficients . • Cascadable ITo>36 Tapsl Without External Components • 4 Bit Coefficient And Signal Data Words • Independently Expandable Coefficient And Signal Word Length • Independently Selectable Format For Coefficients And Signal Data Words ITwo's Complement Or Unsigned Magnitudel

.48-Pin DIP Or 58-Contact Leaded Or Leadless Chip Carrier • Single + 5V Power Supply • TIL Compatible

The TDC1028 provides eight delay stages, eight multipliers, and eight adders in a single integrated circuit. Eight coefficient Applications storage registers are also provided for ease in programming filter characteristics. One coefficient may be changed every clock. • Digital Video Filters cycle. The delay registers and the adder pipeline registers have • Matched Filters been merged for efficiency. • Pulse Compression

• Multi-Bit Correlation • Waveform Synthesis • Adaptive Filters

Functional Block Diagram CLOCK IN (CLK) >>-------1~ SUM IN (SI0.12)

DATA IN (010.3)

COEFFICIENT IN (CI0.3)

DATA OUT (000·3)

>------------.....------...."/~

TO ALL MULTIPLIERS

COEFFICIENT ADDRESS (CAo.2) >----tl~ COEFFICIENT WRITE ENABLE (CWE) > - - - - - - - - - - - - - ' TWO'S COMPLEMENT DATA (TCD) TWO'S COMPLEMENT COEFFICIENTS (TCC) > - - - - - - - - - - - - - - - - - ' "

TRW reserves the right to change product and specifications without notice. This information does not convey any license under patent rights of TRW Inc. or others.

LSI Products Division TRW Electronic Components Group P.O. Box 2472 La Jolla, Ca. 92038

818

Phone: 16191457-1000 Telex: 697-957 . TWX: 910-335-1571

© TRW Inc. 1982 40G00817 Rev. A-6/82 . Printed in the U.S.A. © Ie MASTER 1983

. TDC1023 Preliminary Information

ii~·-·

Digital Output Correlator

Applications

64 Bit

• Check Sorting Equipment • High-Density Recording • Bar Code Identification • Radar Signature Recognition • Video Frame Synchronization .. Electro-Optical Navigation • Pattern And Character Recognition • Cross-Correlation Control Systems • Error Correction Coding

The TRW TDC1023 is a 64-bit monolithic, all digital correlator with a 7-bit three-state buffered digital output. This device consists of three 64-bit independently clocked shift registers, one 64-bit reference holding latch (exclusive ORed with the A data register), and a 64-bit independently clocked digital summing network. The device is capable of a 20 MHz (typical) parallel correlation rate. The 7-bit threshold register allows the user to pre-load a binary number from 0 to 64. Whenever the correlation score is equal- to or greater than the number in the threshold register, the threshold flag goes active.

Functional Block Diagram AOUT

The 64-bit mask register (M register) allows the user to mask or selectively choose "no compare" bit positions, enabling total word length flexibility.

elK S

The correlation process begins when the reference word is serially shifted into the B register. Then by clocking LOR, . the data is parallel loaded into the Rreference latch. This allows the user to serially load a new reference word into the Bregister while correlation is taking place between the A register and R latch. The two words are continually compared bit-for-bit by exclusive OR circuits. Each exclusive OR provides one bit to the digital summer. The output is a 7-bit word representing the sum of positions which· agree at anyone time between the A register and Rlatch. A control provides either true or inverted binary output formats. Features .20-MHz (Typical) Correlation Rate • Bipolar, TTL Compatible .AII Digital • Single 5V Power Supply • Serial Data Input, Parallel Correlation Output • Programmable Word Length .• Independently Clocked Registers • Power Dissipation: 900 mW (Typical) • Available In 24-Pin DIP And 28-Contact Leadless Chip Carrier • Output Format Flexibility • Three State Outputs

PIPE LINED DIGITAL SUMMER

TS

elK T

UJ

+'"'

o

BOUT

::J

"C

o

MOUT

"-

a..

en ..J

--- Vee --- GND

~

ex:

I-

TRW reserves the righ·t to change product and specifications without notice. This information does not convey any license under patent rights of TRW Inc. or others.

LSI Products Division TRW Electronic Components Group P.O. Box 2472 La Jolla, Ca. 92038 ©

Ie MASTER 1983

Phone: (619)457-1000 Telex: 697-957 TWX: 910-335-1571

© TRW Inc. 1982 40G00817 Rev. A-6/82 Printed in the U_SA

819

For Key Data On Every Ie On This Board, The Place To Look Is ...

The Blue Chip Computer STD-NSC800 is a CMOS standard bus compatible central processor card.

Equipment and system design often require the use of a wide variety of integrated circuits in order to obtain optimum performance. One way for an engineer to be certain that he hasn't overlooked the best device for his application is to refer to the pages of Ie MASTER. Surveys conducted by Ie MASTER, integrated circuit manufacturers, and independent research agencies confirm that four out of five Ie MASTER users have specified one or more products as the result of using Ie MASTER.

Device No. NMC27C16 NSC800 74SC245 MD74SC373 ICL8212C MM74PCOO MM74PC32 MM74PC08 MD74SC139 MM74PC74. MSC74PC07 MM74C30'

Description Erasable CMOS PROM 8-bit Microprocessor 3-State Octal Bus Driver Noninverted D-Type Transparent Latch Micropower Voltage Detector Quad 2-lnput NAND Gate Quad 2-lnput OR Gate Quad 2-lnput AND Gate Octal Decoder IDemultiplexer Dual Type-D Flip-Flop Hex Inverter 8-lnput NAND Gate

Representative list of ICs on the Blue Chip Computer STDNSCBOO card. Key specifications for al/ of these ICs can be found in IC MASTER.

rclCMA5TER BE SURE. BEGIN WITH THE Ie MASTER

TEXAS INSTRUMENTS INCORPORATED

Bipolar Digital Logic Circuits Functional Index and Product Guide

.....cUJ Q)

E :J

.....UJ J....

e SSI, MSI, and LSI Circuits

C

UJ

fit

«S X

Microprocessors and Support Circuits

{E.

e Field-Programmable Logic Arrays .

"In

Advanced Low-Power Schottky, Advanced Schottky, Low-Power Schottky, Schottky, and Original TTL Families © Ie MASTER 1983

821

FUNCTIONAL INDEX/SELECTION GUIDE

Page 823, 824

Gates and Inverters , , , , , , , , , , , , , , , , Expanders and Expandable Gates ,",'

',,,,,,,,,,,,,,,,,

,,,,,"

824

Buffers " " " , " ' , , " ' , , " , " " ' , ' , , " " , " , " , , " ' , ' , ' , ' , ' , " ' , " ' , " ' , , " , , " " " ' , " ' , " , , , , ' , , , , 824, 825 Drivers, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , . , , , , , .. , , ... , , , , ' , , .. , , , , , , , , , , , , , , , . , , 824, 825 , , 824,825 Transceivers " Clock Generators

825

Flip-Flops

826

Latches ' . " ' . ' , ' " . , Monostable Multivibrators

826

826

Registers, , ' , , , , , , , , ' Programmable Logic Arrays

827 827

Counters "',,,.,,"""

828 829

Decoders/Demultiplexers Code Converters ","

829 829

Priority Encoders ,,' ' Display Decoders/Drivers

, " , ,",' "

Controllers, Memory and Microprocessor Voltage-Control'led Oscillators

830 830 830

Arithmetic Circuits (Adders, Accumulators, Multipliers)

831

,Comparators .,','"".,.""",,.',.,',,.,.,",',",',',," Error Detection and Correction Circuits " .. , ... ,',',',." .. , , " " " " " , " , , ' Bit-Slice Processors " ,,,,,,,,,,,,.,,,'

831

Programmable Read-Only Memories (PROMs) "'," ,,,,,,,,,,, ,,.,,,,, Read-Only Memories (ROMs) .. ,' . , , , , , , , , , , , , , . , , , , , , , , , ' . , , , , " ,.,,,,,,,. ,,,."

831 831

,,,,,,,,,,

832 832

Random-Access Memories (RAMs) .,',',.,.".,',',',.,', .. "'.,",',.,,".,', .. ,,',,., .. ,',.'

832

First-In, First-Out Memories (FIFOs) " " " " , . , " ' , .. " .. , .. , " " " " , . , . , " ' , . , . , " " ' , . " . ' , ' , . , " " , .. "., 832

en s::: (l) E ::s :... +-' en s::: en res >< (l)

+-'

....

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

822

© Ie MASTER 1983

FUNCTIONAL INDEX/SELECTION GUIDE GATES AND INVERTERS POSITIVE-NAND GATES AND INVERTERS

POSITIVE-AND GATES WITH OPEN-COLLECTOR OUTPUTS

TECHNOLOGY DESCRIPTION Hex 2-lnput Gates

TYPE STD ALS TTL '804 .a.

•

'04 Hex Inverters '1004

•

'00 Quadruple 2-lnput Gates

• Triple 3-lnput Gates

'10 '1010

Dual 4-lnput Gates

•

'20

.a. A

•

Ii

L

LS

•

• • • •

• • • •

.a. A

• • • •

A

•

• • • •

A

'30

• •

• • • • A

13-lnput Gates

S

A

'1020 8-lnput Gates

A

•.a. •

'1000

AS

'133

•

•

BooKt ADV TTL ADV ADV CF TTL ADV CF ADV CF TTL ADV CF ADV TTL ADV CF ADV TTL ADV CF TTL ADV

PAGE NO. 5-7

DESCRIPTION

Hex Inverters

TYPE STD ALS TTL

•

'05 '1005

• • • A • • • • A

'03 '1003

Triple 3-lnput Gates Dual 4-lnput Gates

• A

'01 Quadruple 2-lnput Gates

AS

'12 '22

H

L

LS

•

• •

•

• • • • • • •

•

5-B

Hex 2-lnput Gates

•

'08

Quadruple 2-lnput Gates

'1008 '11

Triple 3-lnput Gates

'1011 Dual 4-lnput Gates Triple 4-lnput ANDINAND

'21 '800

AS A

•

• • • •

H

LS

• •

A A

• • • A

• A A

AS

H

LS

S

• •

• •

• • •

BooKt TTL ADV TTL ADV

PAGE NO. 5-8 5-10

POSITIVE-OR GATES TECHNOLOGY TYPE STD ALS AS LS TTL '832 A A

Hex 2-lnput Gates

'32

•

• •

Quadruple 2-lnput Gates '1032 'B02

5-10 Triple 4-lnput oRINoR

S

• •

A

.a.

BooKt ADV TTL ADV CF ADV

PAGE NO 5-13

A

POSITIVE-NOR GATES 5-12 TECHNOLOGY DESCRIPTION

TYPE STD ALS TTL '80S A

5-38 Hex 2-lnput Gates Quadruple 2-lnput Gates

'02 '1002

Triple 3-lnpul Gates

'27

•

•

5-7 Dual 4-lnput Gates with Strobe DualS-Input Gates

'25 '260

•

AS A

L

LS

A

•

A

•

•

A

•

•

BOoKt ADV TTL ADV CF ADV TTL ADV CF TTL TTL

PAGE NO. 5-6

5-12

5-11 5-57

SCHMITT-TRIGGER POSITIVE-NAND GATES AND INVERTERS

5-7 DESCRIPTION 5-9 5-11

S

• • •

5-7

Hex Inverters Dual 4-lnput Positive-NAND

PAGE BOoKt S NO. AOV TTL ADV CF ADV TTL ADV CF ADV TTL ADV CF ADV

•

'15

Quadruple 2-lnput Positive-NAND TECHNOLOGY

TYPE STD ALS TTL '808 A

Gates

'09

DESCRIPTION

POSITIVE-AND GATES

DESCRIPTION

3-I~put

5-6

PAGE BOOKt S NO. TTL ADV ADV TTL ADV TTL ADV ADV TTL ADV TTL ADV

TYPE STD ALS TTL

Quadruple 2-lnput Gates Triple

POSITIVE-NAND GATES AND INVERTERS WITH OPEN-COLLECTOR OUTPUTS TECHNOLOGY

TECHNOLOGY DESCRIPTION

TECHNOLOGY TYPE STD ALS AS LS TTL '14 '19 '13 '18 '24 '132

• •

S

• • • • •

• •

BOOKt

PAGE NO.

TTL SUP TTL SUP SUP TTL

5-9 17 5-9 17 17 5-37

CURRENT-SENSING GATES

5-8

PAGE BOOKt TYPE ALSI AS I LS NO. '63 I I· TTL 5-20

Hex

Q)

E

:::::s

....."-

DELAY ELEMENTS

5-9

C/)

TECHNOLOGY DESCRIPTION 5-11

Inverting & Non-inverting Elements, 2-lnput NAND buffers

TYPE '31

, ,.

ALSI AS I LS

BOoKt

PAGE NO.

C C/)

CU

CF

>

< Q)

positive logic: V

= AB+CDE+FGH+IJ

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

nu - make no external connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

850

© Ie MASTER 1983

PRODUCT GUIDE

55

logic symbol, 'H55 t

typical performance TYPE

2-WIDE 4-INPUT AND-OR-INVERT GATES

POWER

DELAY

'H55

30mW

6.8 ns

'L55

1.5 mW

43 ns

2.75 mW

12.5 ns

'LS55

&

J, N PACKAGES

~1

A

8

Y

(3) C-

2

8

9

X

3

e

10

E

(4)

4

l'

F

0-

5

0 X

12

G

6

ne

13

H

7

GND

14

Vee

E(10)

SN74H55 (J,N)

SN54H55 (J) SN54L55 (J) SN54LS55 (J,FH)

A~ B~

pin assignments, 'H55

&

~y

(11 ) F(12)

SN74LS55 (J,N,FN)

1

G-

(13) H(5)

x-

\

x~

JE = ABCD+E FGH+X

positive logic: Y

pin assignments, 'L55, 'LS55

logic symbol, 'L55, 'LS55 t

X - Output of SN54H60/SN74H60 or SN54H62/SN74H62

(1 )

J. N PACKAGES

FH. FN PACKAGES

1

A

8

Y

1

ne

11

ne

(2)

2

B

9

ne

2

A

12

Y

B-

3

E F

3

B

13

ne

4

e 0

10

C~

4

e

14

E ne

~1

&

A-

(4)

~y

0-

E(10)

&

11

5

ne

12

G

5

ne

15

6

ne

13

H

6

0

16

F

7

GND

14

Vee

7

ne

17

ne

8

ne

18

G

9

ne

19

H

GND

20

Vee

F~ (12)

10

G-

(13)

H-

= ABCD+EFGH

positive logic: V

56

pin assignments

logic symbol t

50-TO-1

typical performance ClKA TYPE 'LS56

JG, P PACKAGES

CTR ClR (6)

FREQUENCY DIVIDER

CLOCK FREQUENCY 25 MHz

SN54LS56 (JGI

CLEAR HIGH

POWER

ClKS

(5) ....... (1) ........

.,

CT=O j'"

OlV5 +

CT=4

1

elKB

5

elKA

2

Vee

6

elR

3

OA

7

08

4

GND

8

Oe

(3)

OA

OlV10 +

(7)

CT=4,9 CT>4

85 mW

(8)

Os Oc

For chip carrier information, contact the factory.

SN74LS56 (JG,PI

tPin numbers shown on logic symbols are for J, JG, N, and P.packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

©

Ie MASTER 1983

851

PRODUCT GUIDE logic symbol t

57

pin assignments

60-TO-1

CTR (6)

FREQUENCY DIVIDER

ClR

typical performance TYPE

CLOCK FREQUENCY

'LS57

25 MHz

SN54LS157 (JG)

(5) ,....,

ClKA

CLEAR

POWER

HIGH

85 rriw

TYPE SN7460 (J,N) SN74H60(J,N)

SN54H61 (J)

(1) ,....., ClKB

POWER

GT=4,9

(8)

OB Oc

lB~

6mW

C (3) 1-

I TYPE I POWER I 'H61 I 13 mW SN74H61 (J,N)

lD~ 2A~ 2B~ 2C~ 2D~

pin assignments & (11) lX E[

~lX

&

J, N PACKAGES 1A B 20 1B 9 2X 1C 10 2X 11 1X 2A 2B 12 1X 2C 13 10 GND 14 VCC

~2X

logic symbol t lA.....!.!l-

1 2 3 4 5 6 7

--....!!!U. 2X E[

pin assignments &

E~lX

lB~ lC~ 2A~ 2B~ 2C~

&

(11) 3A-

&

E~2X

3B~

en

OA (7)

+

lA-llL

4mW

typical performance

positive logic: X = ABC when connected to X input of SN54H52/SN74H52

+-'

(3)

CT>2

CT>4

'60

'SO positive logic: X = ABCD when connected to X and X inputs of SN5423/SN7423, SN5450/SN7450, or SN5453/SN7453 'HSO positive logic: X = ABCD when connected to X and X inputs of SN54H50/SN74H50, SN54H53/SN74H53, or SN54H55/SN74H55

EXPANDERS

+ DIV1Q

'H60

EXPANDERS

TRIPLE 3-INPUT

r DIV6

typical performance logic symbol t

DUAL 4-INPUT

61

CT=Q

JG, P PACKAG!,S ClKB 5 ClKA 6 ClR vcc 7 QB QA GND 8 Qc

SN54LS 157 (JG, P)

60 SN5460 (J) SN54H60 (J)

-.

1 2 3 4

1 2 3 4 5 6 7

J, N PACKAGES 1A 8 2X 1B 9 1X 1C 10 3X 3A 11 2A 12 3B 2B 13 3C 2C GND 14 VCC

E~3X

(13) 3C-

C

Q)

E ::::J

'-

+-'

en C

en >< Q)

as

I-

tPin numbers shown on logic symbols are for J, JG, N, and P packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

852

©

Ie MASTER 1983

PRODUCT GUIDE typical performance

logic symbol t

4-WIDE AND-OR

I TYPE I POWER I

EXPANDERS

I 'H62 I

(1 ) A(2)

62 SN54H62 (J)

25mW I

SN74H62 (J,N)

pin assignments ~1

&

J. N PACKAGES X

8-

1

A

8

c~ D~ E~

2

B

9

F

3 - C 4 0

10 11

G

5 6

E X

12

I

13

J

7

GND

14

Vee

&

(9)

E[

&

F(10) G(11 ) H(12)

(8)

~X

~(6)

-

H

X

&

1(13)

J-

63

logic symbol t

typical performance

HEX CURRENT- I TYPE

I POWER

I 'LS63 I

SENSING

3.3mW

IDELAY

I

I

I

21 ns

1A

INTERFACE 2A

GATES

3A

SN54LS63 (J,FH)

SN74LS63 (J,N,FN)

4A 5A 6A

b

(3) (6)

(9)

(8)

(10)

(11)

(13)

(12)

A2L

INVERT GATES

B~

OUTPUT TOTEM POLE OPENCOLLECTOR

&

POWER 29mW 36mW

SN54S64 (J,FH) SN54S65 (J,FH)

DELAY 3.5 ns 5.5 ns

SN74S64 (J,N,FN) SN74S65 (J,N,FN)

G--.!!!...-. H~ I~ J~ K~

1A

8

4Y

2

1Y 2Y

9

4A

10

5A 5Y

3 4

2Y

13 14

4A

11 12

6Y

5

nc

15

nc

1Y

4

3Y

5

2A 3A

4Y

6 7

3Y

13

6A

6

2A

16

5Y

GND

14

Vee

7

nc

17

nc

8

3A

18

6Y

9 10

3Y

19

6A

GND

20.

Vcc

5Y 6Y

5A

pin assignments

;;'1

J. N PACKAGES A 8 Y 9 J 2 E 1

-

1

2Y

c~

D~ E~ F~

FH. FN PACKAGES 11 nc nc 12 4Y 1A 2

1 3

(111

typical performance

'S65

1Y

[.;;50 pAl

(5)

4-2-3-2 INPUT AND-OR-

'S64

(2)

[;.200 pAl

logic symbol, 'S64 t

64,65

TYPE

J. N PACKAGES

IIV

(1) (4)

pin assignments

&

~Y &

3 4

F

10

K

G

B

5

H

11 12

6 7

I

13

C 0

GND

14

VCC

FH. FN PACKAGES nc 11 nc 12 Y 2 A 1

3 4

E

13

J

F

14

K

5

nc

15

nc

6 7

G nc

16 17

nc

8

H

18

9 10

I

19 20

GND

B e 0 Vee

&

CD

E

logic symbol, 'S6S t

A~

&

::s

.....en ~

;;'1

(111

c:

B~

c....!.!!L

en

D~ (21

E-

ttl

>


+

o ~10B

CTl2

f"

CTRDIV 10

-.~

2ClR (9) 2ClK ,....,.

SN74lS68 (J,N,FN)

SN54lS68 (J,FHI

r

CTRDIV 5

1ClKB (15) ......

POWER

~10A

CT=O

1ClR

typical performance

t>

CT=O

I>

~10C

~10D ~20A ~20B ~20c

CT13 ~20D

+

I

J. N PACKAGES 1 lClKA 9 2ClK 10 2QB 2 lQB 11 2ClR 3 . 1Qo 4 lClR 12 2Qo 13 lQC 5 2QC 14 1QA 6 nc 7 2QA 15 lClKB 16 vCC 8 GNO

PACKAGES 11 nc lClKA 12 2ClK 13 2QB lQB 14 2ClR 1QO lClR 15 2QO 16 nc nc lQC 2QC 17 18 lQA nc 19 lClKB 2QA 20 VCC GNO

FH. FN

1 2 3 4 5 6 7

8 9 10

nc

nc - no internal connection

69

logic symbol t

pin assignments

DUAL 4-BIT BINARY COUNTER

•

CTRDIV 2 1ClKA (1)

High-drive outputs (tal rated at 8 mA/1 6 rnA)

,.....

-{

COUNT FREQUENCY

CLEAR

70 MHz

lOW

1ClKB (15),.....,

POWER DISSIPATION 180 mW

I>

,--0

CT=O

+

..........ill. 1OB ~10C

CT



2G~

'2A~

3G~ 3A~

(13) 4G4A i!!L-

\]

J. N PACKAGES

1 2 3 4 5 6 7

1G 1A 1Y 2G 2A 2Y GND

8

9 10 11 12 13 14

3Y 3A 3G 4Y 4A 4G

Vee

FH. FN PACKAGES 1 nc 11 nc 2 1G 12 3Y 3 1A 13 3A 4 1Y 14 3G 5 nc 15 nc 6 2G 16 4Y 7 nc 17 nc 8 2A 18 4A 9 2Y 19 4G 10 GND 20 Vcc

~1Y

~2Y (8) I - - - 3Y

.....c:UJ (J)

~4Y

E ::J

..... UJ L.

positive logic: Y=A

c: UJ

as

X

(J)

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS)NSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

875

PRODUCT GUIDE 128

logic symbol t

LINE DRIVERS

1A

(SN54128 ... 75 !~ DRIVER

18

SN74128 ... 50

n

DRIVER)

;;.1[>

1 2 ;3 4 5 6 7

2A

typical performance

TYPE

pin assignments

28

LOW· LEVEL

HIGH· LEVEL

OUTPUT

OUTPUT

3A

DELAY

38 4A

CURRENT CURRENT SN54128

48 rnA

-29 rnA

7 ns

SN74128

48 rnA

-42.4 rnA

7 ns

SN54128 (J,FH)

positive logic: Y

ClK

DEMULTIPLEXERS WITH

(4)

X/V C8 (15) YO

A

(combines decoder and 3·bit B

address register and incorporates

C

2 enable inputs to simplify cascading) typical performance

8.5 ns

nc

2Y nc

2A 2B GND

11 12 13 14 15 16 17 18 19 20

nc

3A 3B 3Y nc

4A nc

4B 4Y Vee

pin assignments

0

ADDRESS REGISTERS

'ALS131

1Y lA 1B

A+B

logic symbols t

TO OUTPUT

nc

SN74128 (J,N)

3- TO 8·L1NE DECODERS!

TYPE

FH PACKAGE

1 2 3 4 5 6 7 8 9 10

48

131

CLOCK

J. N PACKAGES 1Y 8 3A 1A 9 38 18 10 3Y 2Y 11 4A 2A 12 4B 2B 13 4Y GND 14 Vee

4

ENABLE TIME 10 ns

SN54ALS131 (J,FH)

1 2 3 4 5 6 7 8

J. N PACKAGES A 9 Y6 B 10 Y5 C 11 Y4 ClK 12 Y3 G'2 13 Y2 G1 14 Y1 Y7 15 YO GND 16 Vec

FH. FN PACKAGES

1 2 3 4 5 6 7 8 9 10

nc A

B C ClK nc • G'2 G1 Y7 GND

11 12 13 14 15 16 17 18 19 20

nc

Y6 Y5 Y4 Y3 nc

Y2 Y1 YO VCC

Y5

TOTAL POWER

Y6 Y7

25mW

SN74ALS131 (N,FN)

OR

DMUX

(4)

C8

ClK

0

( 1) A

:}Gt

B

C

(15) YO

2

4 5

Y5

6

Y6

7

Y7

t Pin numbers shown on logic symbols are for J and N packages only.

nc -

no'internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • OALLAS. TEXAS 75265

876

©

Ie MASTER 1983

PRODUCT GUIDE logic symbol t

132

TYPE

HYSTERESIS

DELAY

'132

0.8 V

15 ns

'LS132

0.8 V

15 ns

2A~ 2B~ 3A~ 3B~

'S132

0.55 V

8 ns

4A~

typical performance

SN74132 (J,N) SN74LS132 (J,N,FN) SN74S132 (J,N,FN)

TYPE

POWER

'S133

GATES SN54ALS133 (J,FH) SN54S133 (J,FH)

~2Y

~3Y

positive logic: Y

A~

8 ns

B~

19 rnW

3 ns

SN74ALS133 (N,FN) SN74S133 (J,N,FN)

J, N PACKAGES 1A 8 3Y 18 9 3A 10 38 1Y 11 4Y2A 12 4A 28 2Y 13 48 GND 14 Vee

~4Y

4B~

DELAY

2rnW

'ALS133

POSITIVE-NAND

1 2 3 4 5 6 7

=

FH, FN PACKAGES

1 2 3 4 5 6 7 8 9 10

nc

1A 18 1Y nc

2A nc

28 2Y GND

11 12 13 14 15 16 17 18 19 20

nc

3Y 3A 38 nc

4Y nc

4A 4B

Vee

AB

logic symbol t

typical performance

13-INPUT

~1Y

1B-EL...

NAND SCHMITT TRIGGERS

133

&IT

1A-1!.L

QUADRUPLE 2-INPUT POSITIVE-

SN54132 (J,FH) SN54LS132 (J,FH) SN54S132 (J,FH)

pin assignments

pin assignments &

(2)

1 2 3 4 5

(3)

c(4)

D(5) E-

F~ (7)

~ . Y

G(10)

J, N PACKAGES A 9 y

B

e D E

6

F

7 8

G GND

10 11 12 13 14 15 16

FH. FN PACKAGES

K

1 2 3 4 5

D

L

6

nc

H

I J

M

Vee

H~

7 8 9 10

nc A

B

e E F

G GND

11 12 13 14 15 16 17 18 19 20

nc y

H

I

J nc

K L

M

Vee

(11 )

1(12)

J(13) K-

positive logic: Y

L~

=

ABCDEFGHIJKLM

(15) M-

134

logic symbol t

12-INPUT POSITIVE-NAND GATES

Oc~ A~

WITH THREE-STATE OUTPUTS typical performance

TYPE

DELAY

MAX

MAX

SOURCE

SINK

CURRENT CURRENT SN54S134

4.5 ns

-2 rnA

20 rnA

SN74S134

4.5 ns

-6.5 rnA

20 rnA

SN54S134 (J,FH)

SN74S134 (J,N,FN)

pin assignments &

EN

B~ c~ D~ E~ F~ G~ H~ I~

\J

~Y

1 2 3 4 5 6 7 8

J, N PACKAGES A 9 y

B

e D E F

G GND

10 11 12 13 14 15 16

FH. FN PACKAGES

K

1 2 3 4 5

L

6

H

I

J

~

Vee

7 8 9 10

nc A

B

e 0 nc

E F

G GND

11 12 13 14 15 16 17 18 19 20

nc y

C

Q)

H

E

I J

L. ......

::J

CIJ C

nc

K

CIJ

L

De

Vee

(12)

J~

(13)

K~

L~ positive logic: Y

=

ABCDEFGHIJKL

t Pin numbers shown on logic symbols are for J and N packages only.

nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265 @

Ie MASTER 1983

CIJ ......

877

«S X

Q)

I-

PRODUCT GUIDE 135

logic symbol t

typical performance

QUAD EXCLUSIVE

I TYPE I

OR/NOR GATES

I 'S135 1 325 mW I

POWER

IDELAY 11c 2C 8 ns

j . 1A

SN54S135 (J,FH)

(4)

pin assignments

( .1L-

=1

18~

SN74S135 (J,N,FN)

2~1Y

2A~ 28~ 3C,4C (12)

~2Y N2

3A~ 38

positive logic: Y

QUAD EXCLUSIVE·OR

=

A (f) B (f) C

DELAY 1 A -

TYPE

POWER

'136

150mW

27 ns

30mW

18 ns

COLLECTOR OUTPUTS 'LS136

SN74136 (J,N) SN74LS136 (J,N,FN)

18~ 2A~ 28~ 3A~ 38~ 4A

3Y 3A 3B 3C.4C 4Y 4A 4B VCC

1 2 3 4 5 6 7 8 9 10

FH, FN PACKAGES nc 11 nc 1A 12 3Y 1B 13 3A 1Y 14 3B 1C,2C 15 3C.4C nc 16 nc 2A 17 4Y 2B 18 4A 2Y 19 4B GND 20 VCC

pin assignments =1

Q

~lY ~2Y ~3Y

.DlL-

~4Y

48~ positive logic: Y

9 10 11 12 13 14 15 16

= ABC + ABC + ABC + ABC

(1)

GATES WITH OPEN· SN54136 (J,FH) SN54LS136 (J,FH)

1A 1B 1Y 1C,2C 2A 2B 2Y GND

~4Y

logic symbol t

typical performance

1 2 3 4 5 6 7 8

2~3Y

=1

..!.!!L

4A~ 48~

136

J, N PACKAGES

J

N2

=

A (f) B

= AS + AB

N PACKAGES 1A 8 3Y 1S 9 3A 1Y 10 3B 11 4Y 2A 2B 12 4A 13 4B 2Y GND 14 VCC

J,

1 2 3 4 5 6 7

FH, FN PACKAGES 11 nc 1 nc 12 3Y 2 1A 13 3A 3 1B 14 3B 4 1Y 15 nc 5 nc 16 4Y 6 2A 17 nc 7 nc 18 4A 8 2B 19 4B 9 2Y 10 GND 20 VCC

en ..... c

Q)

E ::l

'..... en

c en

as x Q) I-

t Pin numbers shown on logic symbols are for J and N packages only,

nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

878

,© Ie MASTER 1983

PRODUCT GUIDE logic symbol t

137 3· TO 8·L1NE DECODERS!

pin assignments A

9

Y6

1

nc

11

nc

2

B

10

Y5

2

A

12

Y6

3

e

11

Y4

3

B

13

Y5

4

GL

12

Y3

4

e

14

Y4

B

5

(;2

13

Y2

5

GL

15

Y3

c

6

G1

14

Y1

6

nc

16

nc

a

ADDRESS LATCHES typical performance

'ALS137 'LS137

A

SELECT ENABLE TOTAL TIME TIME POWER 11 ns 10 ns 25 mW 17.5 ns

SN54ALS137 (J,FH) SN54LS 137 (J,FH)

16 ns

FH. FN PACKAGES

1

DEMUL TIPLEXERS WITH

TYPE

J. N PACKAGES

X/V

Gl

7

Y7

15

YO

7

G2

17

Y2

8

GND

16

Vee

8

G1

18

Y1

9

V5

55 mW

10

Y7

19

YO

GND

20

Vee

V6

SN74ALS137 (N,FN) SN74LS137 (J,N,FN)

V7 OR

DMUX

a A B C

V5 V6 V7

en ...... C

(])

E :J s.... ...... en c en

as X

{E.

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS)NSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

879

PRODUCT GUIDE logic symbol t

138

pin assrgnments BIN/OCT

3· TO 8·L1NE DECODERS/

J, N

1 2 3 4 5 6 7 8

DEMUL TIPLEXERS typical performance TYPE 'ALS138 'LS138 'S138

SELECT ENABLE TOTAL TIME TIME POWER 8.5 ns 22 ns 8 ns

9 ns 21 ns

25 mW

31 mW 7 ns 245 mW

EN

\

e C!2A G2B Gl Y7 GND

CKAGES

9 10 11 12 13 14 15 16

Y6 Y5 Y4 Y3 Y2 Yl YO

Vee

Y6

G2B

FH'. FN PACKAGES

1 2 3 4 5 6 7 8 9 10

nc

A B

e G2A nc ~2B

Gl Y7 GND

11 l2 13 14 15 16 17 18 19 20

nc

Y6 Y5 Y4 Y3 nc

Y2 Yl YO

Vee

Y7

SN74ALS138 (N,FN) SN74LS138 (J,N,FN) SN74S138 (J,N,FN)

SN54ALS138 (J,FH) SN54LS138 (J,FH) SN54S138 (J,FH)

P~

A B

OR

DMUX

:}Gt

0

2

3

logic symbol t

139

pin assignments J, N PACKAGES

DUAL 2· TO 4·LINE

1 2 3 4 5 6 7 8

DECODERS/DEMULTIPLEXERS typical performance TYPE

SELECT ENABLE TOTAL TIME

TIME

POWER

'ALS139 'LS139

'22 ns

'S139

7.5 ns

19 ns

34mW

6 ns 300 mW

lG lA lB lYO lYl lY2 lY3 GND

9 10 11 12 13 14 15 16

2Y3 2Y2 2Yl 2YO 2B 2A 2G

Vee

FH, FN PACKAGES

1 2 3 4 5 6 7 8 9 10

nc

lG lA lB lYO nc

lYl 1Y2 lY3 GND

11 12 13 14 15 16 17 18 19 20

nc

2Y3 2Y2 2Yl 2YO nc

2B 2A 2G

Vee

SN54ALS139 (J,FH) SN54LS139 (J,FH) SN54S139 (J,FH) (4)

"""'--1 YO (5)

.......--.(_9)_2Y3

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

880

@

Ie MASTER 1983

PRODUCT GUIDE logic symbol t

140 DUAL 4-INPUT POSITIVE-

lA-1!.L

NAND 50-OHM LINE DRIVERS

lB~

typical performance

lC~ lD~

TYPE

LOW-

HIGH-

LEVEL

LEVEL

OUTPUT

OUTPUT

POWER

CURRENT CURRENT 'S140

60mA

-40mA

SN54S140 (J,FH)

PER

2A..J2.L.-

GATE

2B..i!&-

44mW

2C~ 2D~

DELAY

4 ns

pin assignments

~lY

1

1A

8

2Y

1

nc

11

nc

2

16

9

2A

2

1A

12

2Y

3 4

nc

26

13

2A

nc

3 4

16

1C

10 11

nc

14

26

5

10

12

2C

5

nc

15

nc

6

1Y

13

20

6

1C

16

nc

7

GNO

14

VCC

7

nc

17

nc

8

10

18

2C

9 10

1Y

19

20

GNO

20

Vce

~2Y

SN74S140 (J,N,FN) positive logic: Y

=

ABCD

logic symbol t

141

00

I

DECODER/DRIVER

1,0

typical performance

'141

pin assignments BCD/DEC [>

BCD-TO-DECIMAL

TYPE

FH. FN PACKAGES

J. N PACKAGES

&[>

OUTPUT

OFF-STATE

SINK

OUTPUT

CURRENT

VOLTAGE

7 mA

60 V

A

TOTAL

B

POWER

C D

(3)

1

(6) (7) (4)

I--..

(15)

~

(8) (9)

~

(13)

~

(14)

2

40 50

8

60 70

aEN

(16)

20 30 1'-0..

4

80mW

~

~ ~

...... 80

SN74141 (J,N)

90

.....

J. N PACKAGES

0

1

8

9

1

2

9

10

7

2

3

A

11

6

3 4

5 (11) 6

3

4

0

12

GNO

5

13

4

6

VCC 6

14

5

7

C

15

1

8

2

16

0

(10) 7 (1) 8 (2) 9

>9Za --

logic symbol t

142

ffiB

COUNTE R/LATCH/

(13)

Cll

DECODER/DRIVER typical performance OUTPUT TYPE '142

CTR DIV10

OFF-STATE

SINK

OUTPUT

CURRENT

VOLTAGE

7 mA

55 V

TOTAL POWER 340mW

SN74142 (J,N)

pin assignments

1

BCD/DEC 110 ~

(15) ClK -

-

~+

110

2

~

CLR~

R

110

4

~

110

~O 10 ~1 20 ~2 30 ~3 40 ~4 50 ~5

1 [>00

60 70

8

80 90

,

CT~8

J, N PACKAGES 1 ClR 9

2

7

10

0

3

6

11

8

4

4

12

5

5

13

9 STRB

6

3

14

Go

7

2

15

ClK

8

GND

16

VCC

~6 ~7

::::....J..!2l

8

~9

~QD

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS)NSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

881

PRODUCT GUIDE logic symbol t '

143,144

iii/ABo

COUNTE RS/LATCH ES/ DECODERS/DRIVERS

typical performance TYPE

OUTPUT SINK

CURRENT SN54143 15 rnA· 15 rnA· SN74143 20 rnA SN54144 25 rnA SN74144

BI OFF-5TATE OUTPUT

RBi STRs

VOLTAGE 7V 7V 15 V 15V

SN54143 (J)

SN74143 (J,N)

SN54144 (J)

SN74144 (J,N)

(61

pin assignments

.....

... L.:::

(5)

~1

......

(4) (21)

-,

CIR PcEi SCEi

......

(3) (23) (1)

V11

(2) ClK

R V11

l....t:...

G12 11+

130

Z14 1

CT=0l-

130

Z15 2

-,

130

Z16 4

BCOnSEG [T3]

a18

" Q ""' ""'"b18 c18 Q i'-o..

d18Q ....... e18Q .....

-'12CT=9

[>

18Q

• Constant current

logic symbol t

145

[>

DRIVERS FOR LAMPS, RELAYS, MOS

TYPE

'145

OFF-8TATE

SINK

OUTPUT

CURRENT

VOLTAGE

A TOTAL

B

POWER

C

80 mA

15 V

'54LS145

12 mA

15 V

35mW

'74LS145

80mA

15 V

35mW

215mW

C

Q)

E

::J

Jo...

+-"

en

c

en

co

x Q)

D

(15) (14) (13) (12)

SN74145 (J,N)

SN54LS145 (J,FH)

SN74LS145 (J,N,FN)

1

3Q

--

2

4Q

4

50

8

...... 60 70 ......

-~QEN

8Q

.......

9Q"-

(1) (2) (3) (4) (5) (6) (7) (9) (10) (11)

0 1 2 3 4 5

1 (11),....., 1

6

typical performance

'LS147

225mW 60mW

DELAY

1 2 3 4 5 6 7 8

BI

Qo

(16) (14) (9)

(11) (10) (13)

--

(22) (8)

a b c d

6

ClR RBI BI/

ABo

7

DP

8

dp

15 a 16 b 17 OA 18 OB 19 QC 20 aD 21 STRB

9 10

d

e

f

22

MAX

f

11

e

23

PCEI

9

12

GND

24

VCC

MAX dp

J, N PACKAGES 9 7 0 10 8 1 11 9 2 12 0 3 4 13 C 14 8 5 15 A 6 GND 16 Vee

FH, FN PACKAGES 11 nc 1 nc 12 7 2 0 13 8 3 1 14 9 4 2 15 0 5 3 16 nc 6 nc 17 C 7 4 18 B 8 5 19 A 9 6 10 GND 20 VCC

pin assignments HPRI/BCD

J, N PACKAGES

4 (1) ....... 4

1:::::...J2L A

5...m.-t::. 5

2::::-iZL B

6..E.L..t:::.. 6

4~C

7~7

8~D

10 ns 15 ns

SN54147 (J,FH) SN54LS147 (J,FH)

5

Oc

13 9 14 c

8

3..illb 3

'147

ClK

9

2~2

ENCODERS

POWER

2 3 4

7

logic symbol t

4·LINE BCD PRIORITY

TYPE

SCEI

OB

>9Zo:

SN54145 (J,FH)

10·LlNE DECIMAL TO

en

"-

2 Q .....

147 +-"

oQ

1 Q ......

typical performance OUTPUT

1

pin assignments BCD/DEC

BCD·TO·DECIMAL DECODERS/

......

g18Q .....

Z17 8

OP (7)

(15)

Q

f18Q -, 130

OA

r G18

I-

[>

-,

(20)

17

I

C13

-,

(19)

16

&

CTROIV10

(18)

15

~1

J, N PACKAGES

(17)

14

~

SN74147 (J,N) SN74LS147 (J,N,FN)

1 2 3 4 5 6 7 8

4 5 6 7 B

C B

GND

9 10 11 12 13 14 15 16

A 9 1 2 3 0 nc

Vec

FH, FN PACKAGES 11 nc 1 nc 12 A 2 4 13 9 3 5 14 1 4 6 15 2 5 7 16 nc 6 nc 17 3 7 B 18 0 8 c 19 nc 9 8 10 GND 20 Vcc

8~8 9 (10) ........ 9

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

882

@

Ie MASTER 1983

PRODUCT GUIDE logic symbol t

148

pin assignments

PRIORITY ENCODERS

0

typical performance

1

DELAY

TYPE

POWER

'148

190mW

12 ns

'LS148

60mW

15 ns

SN54148 (J,FH) SN54LS148 (J,FH)

2 3. 4

SN74148 (J,N) SN74LS148 (J,N,FN)

5 6 7

(101 ( 111 (121 (131

...... ......

----......

(11 (21 (31

......

(41

-

FH. FN PACKAGES

J. N PACKAGES

HPRI/BIN

8· TO 3·LlNE OCTAL

;;;'1

AO

1

nc

11

nc

10

0

2

4

1

5

'2 13

0

6

14

1

7

15

2 nc

1

4

9

2

5

0/Z10

10

1/Z11

11

-

3 4

6

11

7

12

2

3 4

2/Z12

12- ~

5

El

13

3

5

3/Z13

13 .... 18

4/Z14

14-1-

5/Z15

15-1-

6/Z16

16-1-

7/Z17

17-1-

~EO

a~GS

AO

6

A2

14

GS

6

nc

16

7

Al

15

EO

7

El

17

3

8

GND

16

Vee

8

A2

18

GS

9 10

Al

19

EO

GND

20

Vee

1a~AO EI

r- V18 1 """'"- ENa

(51

150

logic symbol t

1·0F·16 DATA

G~EN

SELECTORSI typical performance DATA TYPE

TO INV OUTPUT

'150

.!.illo l.!1!....EO .!!!L.E1 lZ.!...C

FROM

TOTAL

ENABLE POWER

11 ns

18 ns

SN54150 (J,FH)

200 mW SN74150 (J,N)

:::::....J!L A 1

::=:......ili.. A2

pin assignments

B~O A~

MULTIPLEXERS

2a 4a

}

3

G

FH PACKAGE

J. N PACKAGES

MUX

is

0 1

1

E7

13

e

1

nc

15

2 3

E6

14

B

E7

16

e

E5

15

A

E6

17

8

4

E4

16

E15

E5

18

A

5

E3

17

E14

E4

19

E15

6

E2

18

E13

2 3 4 5 6

E3

20

E14

7

E1

19

E12

7

E2

21

E13

8

EO

20

Ell

8

nc

22

nc

9

G

21

E10

9

E1

23

E12

nc

E2~ E3~ E4~ E5~

2

10

W

22

E9

10

EO

24

Ell

3

11

0

23

E8

11

25

El0

12

GND

24

Vee

12 13

G W

26

E9

0

27

E8

.!!!...--

6

GND

28

Vee

E6

~w

4 5

14

E7~7 E8~8 E9~9 E10 ~ 10 E11 ~ 11 E12 ~ 12 E13 ~ 13

..!.!Zl..-

C

Q)

E ::J

~

;

~

,

;

,

15 .

.

14 .

~

L

E14 E15

UJ

+'"

+'"

_ _ _- '

UJ C UJ

ca

X

Q)

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS)NSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

© Ie MASTER 1983

883

PRODUCT GUIDE logic symbol t

151

MUX

1-0F-8 DATA SELECTORS/MULTIPLEXERS typical performance

G .!ZLt:::... A

TYPE '151 A 'ALS151 'AS 151 'LS 1 51 'S 151

DATA TOINV OUTPUT 8 ns 6 ns 3 ns 11 ns 4.5 ns

DELAY TIMES DATA TO FROM NON-INV ENABLE OUTPUT 22 ns 16 ns 5 ns 4.5 ns ·3.5 ns 5 ns 18 ns 27 ns 8 ns 9 ns

SN54151 A (J,FH) SN54ALS151 (J,FH) SN54AS151 (J,FH) SN54LS151 (J,FH) SN54S151 (J,FH)

8-

c .!2Loo~

TOTAL POWER 145 mW 30mW 130 mW 30 mW 225 mW

SN74151 A (J.N) SN74ALS151 (N,FN) SN74AS151 (N,FN) SN74LS151 (J,N,FN) SN74S 151 (J,N,FN)

01

SN54152A (J,FH) SN54LS152 (J,FH)

05~ 06~ 07~

02

OUTPUT

en c en

as x Q)

I-

1 2 3 4

~w

2

1G

FROM

TOTAL

ENABLE

POWER

.ill...J:::..

ICO~ 1C1~ 1C2~

14 ns

17 ns

180 mW

5 ns

4.5 ns

31.5 mW

'AS153

3.5 ns

5 ns

105 mW

'L153

27 ns

34 ns

90mW

2C1

'LS153

14 ns

17 ns

31mW

2C2~

'S153

6 ns

9.5 ns

225 mW

SN54153 (J,FH) SN54ALS153 (J,FH) SN54AS153 (J,FH) SN54L 153 (J) SN54LS 153 (J,FH) SN54S153 (J,FH)

1C3

.EL.-

2G~

17

06

18 19 20

05 04

GNO

vcc

5 6 7

J. N PACKAGES 04 8 C 03 9 B 02 10 A 07 01 11 00 12 06 W 13 05 GNO 14 Vcc

FH. FN PACKAGES

1

nc

11

nc

2 3 4

04

c

w

12 13 14 15 16 17 18 19

GNO

20

vcc

5 6

7 8 9 10

03 02 nc 01 nc 00

B A

nc

07 nc

06 05

pin assignments

0

1 2 3 4

G3

r'

MUX

'ALS153

'153

1

Y W '?j

pin assignments

MUX

04~ 4 (13) 05- 5 (12) 06- 6 (11 ) 07- 7

.,0)

7 8 9 10

6

EL(2)

A~ B~

FH. FN PACKAGES 11 nc 1 nc 12 c 2 03 13 B 3 02 4 01 14 A 15 07 5 00 16 nc 6 nc

7

logic symbol t

NON-INV

8

03- 3 ~

SN74LS152 (J,N,FN)

DATA TO

5 6 7

J. N PACKAGES 03 9 C 02 10 B A 11 01 12 07 00 13 06 Y W 14 05 15 04 G GNO 16 Vcc

5

(5) 00- 0 (4) 01- 1

DELAY TIMES

+-'

~w

(8)

SELECTORS/MULTIPLEXERS

l.-

~y

]G~ c-

typical performance

:J

(5)

EL-

B~

DUAL 4-LlNE TO 1-LlNE DATA

TYPE

0

(10) A-

153

Q)

:}G4

logic symbol t

DELAY TIMES DATA FROM TOTAL TYPE TOINV ENABLE POWER OUTPUT '152A 8 ns 130 mW 'LS 152 11 ns 18 ns 28 mW

E

2 3 4

1 (2) 02- 2 ( 1) 03~ 3 (15) 04~ 4

1-of-8 DATA SELECTORS/MULTIPLEXERS typical performance

C

1

EN

.illL(10)

152

en +-'

pin assignments

EN 0 1

~1Y

2

5 6 7 8

J, N PACKAGES lG 9 2Y 10 2CO B 2Cl lC3 11 lC2 12 2C2 13 2C3 lCl lCO 14 A lY 15 2G GNO 16 Vcc

FH, FN PACKAGES ·11 nc 1 nc 2 lG 12 2Y 13 2CO 3 B 4 lC3 14 2Cl 5 lC2 15 2C2 16 nc 6 nc 17 2C3 7 rCl lCO 18 A 8 19 2~ lY 9

10

3

GNO

20

Vcc

(10)

2CO~

.ll.!t(12)

~2Y

2C3~

SN741 53 (J,N) SN74ALS153 (N,FN) SN74AS153 (N,FN) SN74LS 153 (J,N,FN) SN74S153 (J,N,FN)

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

884

© Ie MASTER 1983

PRODUCT GUIDE logic symbol t

154

pin assignments

x/v

4·LINE TO 16·LlNE DECODERS/ DEMUL TIPLEXERS

typical performance

O~

(1 )

1~

(2)

2 ......

TOTAL

3!'oo..

TIME

POWER

4!'oo..

(S)

'154

23 ns

19 ns

170 mW

1

S .....

(6)

'L154

46 ns

38 ns

85mW

2

6~

(7)

4

7 .....

(S)

S

s!'oo..

SN54154 (J,FH) SN54L 154 (J)

SN74154 (J,N)

(23)

B

(22)

c

(21)

D

(20)

9 ..... 10 ..... 11 .... 12 .....

Gl 02

(lS) (19)

...... 13 ...... 14

-...~

-...1

I

EN

1.... !'oo..

2

(4)

ENABLE

TIME

A

1

(3)

SELECT

TYPE

0

(9)

3 4 S 6

7 S

(10) (11 )

9 10

(13)

11

(14)

1 2 3 4 5 6 7 8 9 10 11 12

J. N PACKAGES 13 11 0 14 12 1 15 13 2 16 14 3 17 15 4 18 G1 5 19 G2 6 20 D 7 21 C 8 22 B 9 10 23 A GND 24 VCC

FH PACKAGE

1 2 3 4 5 6 7 8 9 10

nc

"12

B

13 14

0 1 2 3 4 5 nc

6 7 9 10 GND

15 16 17 18 19 20 21 22 23 24 25 26 27 28

nc

11 12 13 14 15 G1 nc

G2 D C B

A VCC

12

(1S)

13

(16)

14

(17)

lS

OR

DMUX 0 ...... (1)

0

1 ....... (2t

1

.....;. (3) 2 3!'oo.. (4) 4 ..... (S)

3

(6)

A

(23)

S .....

B

(22)

6 .....

(7)

c

(21)

7 .....

(S)

S~ (9) 9 t--... (10)

D (20)

10 11 12

~

(11)

~

(13)

t--... (14) (lS)

13 '" 14 lS

~

(16)

~

(17)

2

4 S 6 7

S 9 10 11 12 13 14 lS

en

of-'

c:

Q)

E ::l

s-

of-'

en

c:

en

ctl

X

,

Q)

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

©

Ie MASTER 1983

885

PRODUCT GUIDE logic symbol t

155 DECODERS/DEMUL TIPLEXERS

TYPE

'&'"" ENABLE TIME

TIME

TOTAL

1G (2)

POWER

'155

21 ns

16 ns·

125mW

'LS155

18 ns

15 ns

30mW

1C (1) (13) A (3) B

SN74155 (J,N) SN74LS155 (J,N,FN)

SN54155 (J,FH) SN54LS155 (J,FH)

,..."

2G

2C

00: 1 0:

EN 0:

20: 30:

~

1 2

(14) .......

I'-.. (7) ~

(S)

~

(5)

~

(4)

O~ ~

~

......

1~ 2~ .....

EN~

(15) ......

......

3~

1Y0 1Y1 1Y2 1Y3

(9)

2YO

(10)

FH. FN PACKAGES

J. N PACKAGES 1C 9 2YO 1G 10 2Y1 B 11 2Y2 1Y3 12 2Y3 1Y2 13 A 1Y1 14 2G 1YO 15 2C GND 16 VCC

1 2 3 4 5 6 7 8

XIV

(totem pole outputs) typical performance SELECT

pin assignments

2-line to 4-line Decoder

,1

2Y1

(11)

I

2 3 4 5 6 7 8 9 10

nc 1C 1G B

1Y3 nc 1Y2 1Y1 1YO GND

11 12 13 14 15 16 17 18 19 20

nc 2YO 2Y1 2Y2 2Y3 nc

2Y2

(12)

A

2G 2C VCC

2Y3

logic symbol t 1-line to 4-line DMUX

logic symbol t 3-line to B-line Decoder A

XIV (13)

A B

2

(1)

C

~ J4 J2)r.....

G

~

JEN

B

2YO

1 ...... (10) 2 ..... (11) (12) 3"(7) 4"'(S)

1

(3)

(9)

0 ......

0 ) G0 3

(3)

1G

2\'3 1YO

(5) s"" (4) 7"-

1Y2

r" A

DMUX

2Y2

1Y1

DMUX

..,.1

2Y1

5~

1C

(2)

O~

,....",

G4

(1)

1"2~

4

~

2G

1Y3

(14) ...... (15) ,....",

...... ......

(10)

......

(12)

(11)

C

1Y2 1Y3 G 2YO

'&'""

TYPE

SELECT

ENABLE

TOTAL

TIME

TIME

POWER

23 ns

18 ns

125 mW

'156 'LS156

33 ns

26 ns

1G

,....",

(1 ) 1C (13) A (3) B

---

2G 2C

(14) .......

EN 0:

(7)

...... 1 o:Q

(S)

20:Q 30:Q o~Q

&""

1 ~O EN~

(15) ,....",

:J

......

00:0

1 2

31 mW

SN74156 (J,N) SN74LS156 (J,N,FN)

SN54156 (J,FH) SN54LS156 (J,FH)

(2)

(9)

(13)

1~

(10)

(3)

2~

(11 )

(1 )

Uill.. (21,....",

~

]:lG%

3"-

2YO 2Y1 2Y2

(12)

2Y3

(7) 4"" (S) 51'-0.. (5) Sl'--.. (4) 7""

]

2Y1

1YO 1Y1 1Y2 1Y3

2Y3 2Y4

1 2 3 4 5 6 7 8

XIV

typical performance

......

(5)

.......

(4)

......

(9)

.....

(10)

r-....

(11)

3~QI'-o..

(12)

2~0

1Y0 1Y1 1Y2 1Y3 2YO

FH. FN PACKAGES

J. N PACKAGES 1C 9 2YO 1G 10 2Y1 11 2Y2 B 1Y3 12 2Y3 1Y2 13 A 1Y1 14 2G 1YO 15 2C GND 16 VCC

1 2 3 4 5 6 7 8 9 10

2Y1 2Y2

nc 1C 1G B 1Y3 nc 1Y2 1Y1 1YO GND

11 12 13 14 15 16 17 18 19 20

nc 2YO 2Y1 2Y2 2Y3 nc A

2n 2C VCC

2Y3

1-line to 4-line DMUX

~

+-'

en

logic symbol t

logic symbol t

c

A

3-line to B·line Decoder

en

B

tU

>< Q) ......

(9)

1Y1

01'-0..

pin assignments

(open-collector outputs)

E

(5)

1Y0 B

2-line to 4-line Decoder

DECODERS/DEMULTIPLEXERS

Q)

(S)

logic symbol t

156

C

(7)

31"-0... (4)

2C

en +-'

logic symbol t 1-line to B-line DMUX

(13)

XIV A B C G

(13) (3)

o Q""'" 1 2

(1)

~

30 J4

J2)r.....

~

10""'" 2Q~

4Q 5Q

JEN

...... ...... ......

(9)

(10) (11)

(12) (7) (S)

-....

(5)

...... 7Q

(4)

SQ

(13)

1·line to B·line DMUX 0 ) G0 1 3 .

(3)

.,.

DMUX

2YO 2Y1

1< Q)

0

ENP GNO

nc

aB aA RCO VCC

(14)

~OD

CTRDIV16

lZ.L-

G4

ENP

pin assignments

5CT=0

--~

(15) i3CT=15 ~RCO

,.

CLK~ ..,C5/2,3,4+ A

..!.L..-

15D

B~'

ill-

(1)

(14)

---ri3i

I

OA

~OB

(2)

1 2 3 4 5 6 7 8

J, N PACKAGES c~ 9 rnA! ClK 10 ENT A 11 aD B 12 aC C 13 aB 0 14 aA ENP 15 RCO

GNO

16

Vcc

FH, FN PACKAGES 1 2 3 4 5 6 7 8 9 10

nc

m C.lK A B nc

C 0

ENP GNO

11 12 13 14 15 16 17 18 .19 20

nc

COAt5 ENT aD ac nc

aB aA RCO Vcc

---mi"

(4)

D~

Oc I - - - OD

(8)

logic symbol, 'LS163A, 'S163 t

CLR~

LOAD --~ (10)

J-

C

ENT aD aC

~Oc

(4) (8)

Ml

C

SN741 63 (J,N) SN74ALS163 (N,FN) SN74AS163 (N,FN) SN74LS163A (J,N,FN) SN74S1 63 (J,N,FN)

nc

nc [OJJ)

~OA ~OB

[1 ) (2)

ill-

M2 (10) E N T - G3

typical performance

ClK A B

11 12 13 14 15 16 17 18 19 20

~RCO

3CT = 9

...,C5/2,3,4+

LOAD

(binary, synchronous clear)

ern

(15)

M2

lZ.L-

CLR~

COUNTERS

nc

~OD

logic symbol, '163t

163

:J

~Oc

FH, FN PACKAGES 1 2 3 4 5 6 7 8 9 10

Ml

D~

Q)

~OB

(4)

m

CTRDIV10

B~

E

i~OA

(2)

J, N PACKAGES 9 mAO ClK 10 ENT 11 aD A 12 aC B 13 aB C 14 aA 0 15 RCO EN~ GNO 16 VCC

5CT=0

G3

C

C

(14)

[1 )

(8)

ENT~

A

+-'

r

~RCO

1 2 3 4 5 6 7 8

logic symbol, 'LS162A, 'S162 t

ENP CLK (2)

UJ

i3CT=9

C5/2,3,4+

A E L - l,5D

(10)

TYPE

pin assignments

CTRDIV16 5CT=0 Ml M2

ENT~

G3

lZ.L-

G4

ENP CLK (2)

(15)

3CT=15

C5/2,3,4+

A EL-

~5D

B~'

C~

D~

(1) (2)

,.

~RCO

(14)

~OA ~OB

(4)

·~Oc

(8)

OD

t Pin numbers shown on logic symbols are for J and N packages only_ nc -

no internal connection.

TEXAS

INSTRUMENTS

INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

890

. © .IC MASTER 1983

PRODUCT GUIDE logic symbol t

164

pin assignments

8-BIT PARALLEL OUT SERIAL SHifT REGISTERS

CLR~

(asynchronous clear)

ClK

,typical performance

TYPE '164

SHIFT FREQ 25 MHz

'ALS164

SERIAL

A ASYNC

TOTAL

CLEAR

POWER

GATED D

LOW

167 mW

GATED D

LOW

DATA INPUT

(8)

i!!....-

SRG8 R

,

Cl/-+

BEL-

r (3) ,..--- °A

110

&

~OB ~OC (6)

~

D

12 MHz

GATED D

LOW

84 mW

~OE

'LS164

25 MHz

GATED D

LOW

80mW

~OF ~OG I - - - OH

SN74LS164 (J.N,FN)

logic symbol t

8-BIT SHIFT REGISTERS SH/LD

(parallel-load with complementary outputs)

'165

FREQ

SRG8 Gl [SHIFT)

0

SERIAL DATA INPUT

25 MHz 35 MHz

SN54165 (J,FH) SN54ALS165 (J,FH) SN54LS165 (J,FH)

C3/-+

r

(10) ASYNC

TOTAL

CLEAR

POWER

D

NONE

210 mW

D

NONE

105 mW

SN74165 (J,N) SN74ALS165 (N,FN) SN74LS165 (J,N,FN)

SER -

A~ B~

C~ D~ E~ F~ G~

3D 2D 2D

166

'166

SHIFT FREQ

SH/LD SERIAL

'ALS166 'LS166

TOTAL

CLEAR

POWER

D

LOW

360 mW

D

LOW

D

LOW

INPUT

20 MHz 35 MHz

SN54166 (J,FH) SN54ALS166 (J,FH) SN54LS166 (J,FH)

R Ml [SHIFT)

,. .

M2 [LOAD)

ASYNC

DATA

~

110mW

SN74166 (J,N) SN74ALS 166 (N,FN) SN74LS166 (J.N,FN)

CLK'NH~O (7) C3/1 ClK-

(1) SER - - ' - - 1,3D A ~ 2,3D

B~

(4) C-

1 2 3 4 5 6 7 8 9 10

FH. FN PACKAGES 11 nc 12 ClR SER A 13 E 14 F B 15 G C nc 16 nc 17 OH D ClK INH 18 H 19 SH/lD ClK GND 20 VCC

pin assignments SRG8

typical performance

FH. FN PACKAGES nc 11 nc SH/lD 12 OH 13 SER ClK E 14 A F 15 B 16 nc nc 17 C G H 18 D 19 ClK INH ~H GND 20 VCC

~OH

8-BIT SHIFT REGISTERS

CLR~

1 2 3 4 5 6 7 8 9 10

(9)

logic symbol t

(parallel/serial input; serial output)

J. N PACKAGES SHim 9 OH ClK 10 SER E 11 A F 12 B 13 C G H 14 D 15 ClK INH OH GND 16 VCC

~OH

H~

TYPE

1 2 3 4 5 6 7 8

C2 [lOAD)

'ALS165 'LS165

~

pin. assignments

{1S1 ClK INH ; - - 1 ~1 ClK ~1

typical performance SHIFT

FH. FN PACKAGES 11 nc 1 nc 12 ClK 2 A 13 ITA 3 B 14 °E 4 °A 15 nc 5 nc 16 OF 6 °B 17 nc 7 nc 18 °G 8 Oc 19 OH 9 OD 10 GND 20 VCC

(11 )

SN74164 (J,N) SN74ALS164 (N,FN)

165

TYPE

J. N PACKAGES A 8 ClK B 9 ClR 10 °E OA 11 OF °B 12 °G Oc 13 OH °D GND 14 VCC

0

'L164

SN54164 (J,FH) SN54ALS164 (J,FH) SN54L 164 (J) SN54LS164 (J,FH)

1 2 3 4 5 6 7

1"

1 2 3 4 5 6 7 8

J. N PACKAGES SER 9 ern 10 E A 11 F B 12 G C D 13 OH ClK INH 14 H 15 SHim ClK 16 VCC GND

2,3D

nc

D~

(13) -OH

t Pin'numbers shown on logic symbols are for J and N packages only.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DAllAS, TEXAS 75265

Ie MASTER 1983

E

:::J :I...

...... UJ

C

UJ

CU

x

J-

nc - no internal connection.

@

C

(])

(])

(10) E(11 ) F-

G~ H~

UJ ......

891

PRODUCT GUIDE logic symbol t

167 SYNCHRONOUS DECADE RATE MULTIPLIERS

~

STROBE

(10) ,....." (11) _

ENABLE UNITY/CAS ClR

typical performance

SET·TO·9

COUNT TYPE

FREQ

TOTAL

CLEAR

POWER

'167 25 MHz ASYNC·H SN54167 (J;FH)

270mW

BO B1 B2 B3

(12) ,..."" (13)

NOUS COUNTERS

(15)

a

(2)

Q

(3)

TOTAL

FREQ

POWER

40 MHz

75mW

40 MHz

500 mW

E ...... en

s::::

en co

x

Q)

~

nc nc B2

11 12 13

4

B3

14

5

z

13

ClR

5

6 7 8

Y ENout GNO

14 15 16

BO B1 VCC

6 7 8 9 10

SETTO-9 nc Z

Y ENout GNO

15 16 17 18 19 20

nc ClK STRB ENin UNITYf CAS nc ClR BO B1 VCC

[RATEJ

/

pin assignments

CTRDIV10

.

ENT~ (7)

rfJP~ ClK

L

G5

3,5CT=9 4,5CT=0

tF-

RCO

G6 2,3,5,6+/C7

~2,4,5,6-

A~~7D B~ C~

r [1]

COUNT

TOTAL

FREQ

POWER 75 mW

40 MHz

SN54ALS 169 (J,FH) SN54AS 169 (J,FH) SN54LS 169B (J,FH) SN54S 169 (J,FH)

tFRCO

J2!..J::-. G6 L 2,3,5,6+/C7

SN74AS169 (N,FN) SN74LS169B (J,N,FN) SN74S169 (J,N,FN)

A~ 7.70

[1]

B..ill.-

[2]

D~

r

[4] [8]

FH. FN PACKAGES

J. N PACKAGES

ENP (2) ClK

C~

(

0 ENP GNO

11 nc 12 lOAD 13 00 14 00 15 Oc 16 nc 17 OB 18 'OA 19 RCO 20 Vce

pin assignments

ENf~

SN74ALS169 (N,FN)

nc UfO ClK A B nc

~QD

(8)

_(1~ M2 [COUNT] UlD-~ M3[UP] U:::.. M4 [DOWN] 3,5CT=15 G5 4,5CT=0

140 mW 500 mW

1 2 3 4 5 6 7 8 9 10

~Q~

[4]

>2,4,5,6-

35 MHz 40 MHz

em

(14) Q

CTRDlV16 _ _ (9) lOAD-p-t:::.. M1 [lOAD)

-i

FH. FN PACKAGES

J. N PACKAGES Ufl) 9 ClK 10 ENT 11 00 A 12 Oc B 13 OB C 14 OA 0 ENP 15 RCO GNO 16 VCC

~Q

[2]

D~

1 2 3 4 5 6 7 8

~A

logic symbol t

typical performance

~

ENABLE

M1 [lOAD] lOAD --i~

(binary)

::J

Y

FH PACKAGE

1 2 3

Gex/3

SN74ALS168 (N,FN) SN74AS168 (N,FN) SN74S168 (J,N,FN)

NOUS COUNTERS

'ALS169 'AS169 'LS169B 'S169

4

z

J. N PACKAGES nc 9 ClK B2 10 STRB B3 11 ENin SETUNITYf 12 CAS TO-9

4P

,

M4[DOWN]

4-BIT UP/DOWN SYNCHRO-

Q)

O}

(7)

""

M2 [COUNT]

169

TYPE

5CT=9

U/D~ M3[UP]

COUNT

SN54ALS168 (J,FH) SN54AS168 (J,FH) SN54S 168 (J,FH)

s::::

6

CT=9

'AS168

en ......

(6)

V6

(14)

(5)

'"

G5 CT=O

(4)

(decade) typical performance

'S168

LJG4

logic symbol t

4-BIT UP/DOWN SYNCHRO-

'ALS168

1 2 3

SN74167 (J,N)

168

TYPE

[~]

5[fJ

ClK (9)_

pin assignments

1 2 3 4 5 6 7 8

ufD ClK A B C 0 ENP GNO

9 10 11 12 13 14 15 16

mAD tNT 00 Oc OB OA RCO VCC

1 2 3 4 5 6 7 8 9 10

nc UfO ClK A B nc C 0 ENP 'GNO

11 12 13 14 15 16 17 18 19 20

nc lOAD ENT 00 Oc nc OB OA

ReO VCC

(14) I---QA

~QB ~Qc ~QD

t Pin numbers shown on logic symbols are for J and N packages only.

nc - no internal connection.

TEXAS)NSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

892

©

Ie MASTER 1983

PRODUCT GUIDE pin assignments

logic symbol t

170 4-BY-4 REGISTER FILES typical performance TYPE T·YPE

OF

'LS170

RAM 4x4

(14)

WA~ O} 1A Q

ADDRESS

POWER

TIME

PER BIT

WBw-

30 ns

40mW

RB-

1

GW!.!3.!...c::..

C4 [WRITE)

OUTPUT '170

O·C O·C

27 ns

1

3

RA~ O}2A

7.8mW

G

SN74170 (J,N) SN74LS170 (J,N,FN)

SN54170 (J,FH) SN54LS170 (J,FH)

R

[READ)

1A,4D

-11L

CLR

• Double-Rail Outputs

CLK

• Buffered Clock and Clear Inputs 10

• Individual Data Inputs to Each Flip-Flop typical performance

'LS 171

r 2AQ~ 01 ~02

FREQ 30 MHz

POWER PER F-F 17.5 mW

DELAY TIMES SETUP 20 nsf

2D

30

I Rising edge of clock pulse 40 SN54LS171 (J,FH)

.hCl

(14)

r;

10

(15)

........

.......

(2) (6)

(5)

r--...

(7) (10)

(11 )

r--...

SN74LS171 (J,N,FN)

(1 ) (3)

(4)

HOLD 5 nsf

nc

02 03 04 RB nc

RA 04 03 GNO

11 12 13 14 15 16 17 18 19 20

nc

02 01 GR Gw nc

WB WA 01

Vee

-

(13),.........1 R (12)

FH. FN PACKAGES

1 2 3 4 5 6 7 8 9 10

pin assignments

logic symbol t

QUAD D-TYPE FLIP-FLOPS WITH CLEAR

J. N PACKAGES 02 9 02 03 10 01 04 11 GR 12 Gw RB 13 WB RA 04 14 WA 15 01 03 GNO 16 Vee

~03 ~04

D3~ D4~

171

Q 3

.!...!..!.L..t: I-tEN

D1~ 02

TYPE

1 2 3 4 5 6 7 8

(9)

10 10 20 20 30 30 40 40

1 2 3 4 5 6 7 8

J. N PACKAGES 9 40 10 10 40 20 11 40 20 12 ClK 20 13 ClR 3D 14 10 30 15 10 30 GNO 16 Vce

FH. FN PACKAGES

1 2 3 4 5 6 7 8

9 10

nc

10 20 20 20 nc

3D 30 30 GNO

11 12 13 14 15 16 17 18 19 20

nc

40 40 40 ClK nc

ClR 10

10 VCC

For chip carrier information. contact the factory.

en C

Q)

E

:J :I...

en c en

ctS X

Q)

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

©

Ie MASTER 1983

893

PRODUCT GUIDE logic symbol t

172 16-BIT REGISTER FILES typical performance

ORG

OF

ADDRESS

POWER

1W2

TIME

PER BIT

1RO

33 ns

35mW

OUTPUT '172

8X2

RAM 8x2

(2)

1W1

TYPE TYPE

1WO

pin assignments

:}

1 2 3 4 5 6

lA~

1R1

3-State

7

1R2

SN74172 (J,N)

8 9 10 11 12

1GW 1GR 2VV/RO 2W/R1

J, N PACKAGES lWl 13 20A lWO 14 lOA lGW 15 lGR lOB 16 2'GT{ 20B 17 2W/RO elK 18 2W/Rl lR2 19 2W/R2 lRl 20 2GW lRO 21 20A lOA 22 laB 23 lW2 20B GNO 24 Vee

2W/R2' 2GW 2GR CLOCK

C8 10A

lOA

20A

20A lOB 20B

10B

1A.4,80

20B

logic symbol. '173 t

173

pin assignments

CLR (15)

4-BIT D-TYPE REGISTERS

M (1)

(3-state outputs) typical performance TYPE

FREQ

ASYNC

TOTAL

CLEAR

POWER

'173

25 MHz

HIGH

250mW

'LS173A

50 MHz

HIGH

85mW

SN54173 (J,FH) SN54LS173A (J,FH)

10 20

SN74173 (J,N) SN74LS173A(J,N,FN)

30

1 2 3 4 5 6 7 8

J, N PACKAGES M 9 G1 N 10 G2 10 11 40 20 12 3D 30 13 20 40 14 10 elK 15 ClR GNO 16 VCC

FH. FN PACKAGES 11 nc 1 nc 12 G1 2 M 13 G2 3 N 14 40 4 10 5 20 15 3D 6 nc 16 nc 17 20 7 30 18 10 8 40 9 ClK 19 ClR 10 GNO 20 VCC

40

logic symbol, 'LS173At

en

+-"

CLR (15)

Q)

M 1)

c:

E

::s

'-

+-"

en

c:

en

as

10

X

~

20

30

40

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

894

© Ie MASTER 1983

PRODUCT GUIDE logic Iymbol t

174

ClR~R

HEX OoTYPE FLIP-FLOPS

ClK

(single-rail outputs, common

FREQ

POWER PER F-F

'174

35 MHz

38 mW

80 MHz

6.7 mW

175 MHz

38 mW

40 MHz

10.6 mW

20 nsf

5 nsl

110 MHz

75 mW

5 nsf

3 nsl

'LS 174 'S174

C1

~.

20~ 30~ DELAY TIMES 40~ SETUP HOLD .50~

'ALS174 'AS174

(9)

(3) 1 0 - 10

direct clear) typical performance TYPE

pin assignments

20 nsf

5 nsf

~10

--12L (7)

20

-30

~40 (12)

~

(14) 60-

50

1 2 3 4 5 6 7 8

J. N PACKAGES 9 eLK 10 10 40 11 40 10 12 50 20 13 50 20 14 60 30 15 60 30 GNO 16 Vee

rn

-60

FH. FN PACKAGES

1 2 3 4 5 6 7 8 9 10

nc

CIA 10 10 20 nc

20 30 30

GNO

11 12 13 14 15 16 17 18 19 20

nc

eLK 40 40 50 nc

50 60 60

Vee

I Rising edge of clock pulse

SN54174 (J,FH) SN54ALS 174 (J,FH) SN54AS 174 (J,FH) SN54LS 174 (J,FH) SN54S 174 (J,FH)

SN74174 (J,N) SN74ALS174 (N,FN) SN74AS174 (N,FN) SN74LS 174 (J,N,FN) SN74S174 (J.N,FN) logic symbol t

175

ClR~R

QUAD OoTYPE FLIP-FLOPS (complementary outputs,

ClK (9)

common direct clear)

TYPE

FREQ

.

C;

10~

typical performance POWER PER F-F

pin assignments

DELAY TIMES SETUP

HOLD

20 nsl

5 nsl

'175

35 MHz

38 mW

'ALS175

80 MHz

7.5 mW

'AS175

11.5 MHz

41mW

'LS175

40 MHz

10.6 mW

20 nsl

5 nsl

'S175

110 MHz

75 mW

5 nsf

3 nsf

C1

10

20~ (12) 30(13) 40-

(2) -10

:::::-E!.

1Q

~20 ~26 ~30 ~3Q ~40 ~46

1 2 3 4 5 6 7 8

J. N PACKAGES CIA 9 eLK 10 10 30 11 30 '-0 10 12 30 20 13 40 14 40 20 15 40 20 GNO 16 VCC

FH. FN PACKAGES

1 2 3 4 5 6 7 8 9 10

nc

CLR 10 10 10 nc

20 20 20

GNO

11 12 13 14 15 16 17 18 19 20

nc

CLK 30 30 30 nc

40 4Q 40

Vce

I Rising edge ·of clock pulse

SN54175 (J,FH) SN54ALS175 (J,FH I SN54AS175 (J,FH) SN54LS 175 (J,FH) SN54S 175 (J,FH)

SN74175 (J,N) SN74ALS175 (N,FN) SN74AS175 (N,FN) SN74LS175 (J,N,FN) SN74S175 (J,N,FN)

til ......

c:

Q)

E :::s :10-

...... til c: til

«S

>
< Q) I-

PRODUCT GUIDE 218

logic symbol t

AO~ A1~ A2~ A3~ A4~

MEMORIES WITH THREE-STATE OUTPUTS (32 words of 8 bits each)

typical performance TYPE 'ALS218

ADDRESS

ENABLE

POWER/

TIME

TIME

BIT

'30 ns

20 ns

0.9 mW

Sl~

S2~

J, N PACKAGES

JAf.

C}

R/W~ 1 EN

[WRITE] 1 C2 (READ]

SN74ALS218 (N,FNI

SN54ALS218 (J,FHI

pin assignments RAM 32 X 8

256-BIT RANDOM-ACCESS READ/WRITE

..r:

"l

DOO.~ V'3

A.2D

FH, FN PACKAGES

1

AO

11

nc

1

AO

11

nc

2

Al

12

000

2

Al

12

000

3

A2

13

001

3

A2

13

001

4

A3

14

002

4

A3

14

002

5

A4

15

003

5

A4

15

003

6

nc

16

004

6

nc

16

004

7

R/W

17

005

7

R/W

17

005

8

Sl

18

006

8

Sl

18

006

9

S2

19

007

9

S2

19

007

GND

20

VCC

10

GND

20

VCC

10

i

A,Z3

001~ 002~

003~~

004~ 005~~ 006~ 007~ logic symbol t

219

AO-.!.!l-

MEMORIES

A1~ A2~

(16 words of 4 bits each;

three-state non-inverting

A3~

output)

]A~

-~ G1

~ (3) R/W~ 1 EN [READ) 1 C2 [WRITE)

typical performance ADDRESS

'LS219A

TIME

..,

ENABLE POWERI TIME

50 n5

SN54LS219A (J,FHI

35 n5

BIT 2.7 mW

SN74LS219A (J,N,FNI

D1~ A,2D D2~ D3~ ( 12)

logic symbol t

221 en

C

1A

:::J

OUTPUT

en

TYPE

c

PULSE RANGE

en

as x Q) I-

1B

typical performance

~

2

FH, FN PACKAGES

9

03

1

nc

11

nc

S

10

03

2

AO

12

03

3

R/W

11

04

3

S

13

03

4

01

12

04

4

R/W

14

04

5

01

13

A3

5

01

15

04

6

02

14

A2

6

nc

16

nc

7

02

15

Al

7

01

17

A3

8

GND

16

VCC

8

02

18

A2

9

Q2

19

Al

GND

20

VCC

I

pin assignments FH, FN PACKAGES

J,N PACKAGES

, MUL TIVIBRATORS

+-'

AO

10

DUAL MONOST ABLE

Q)

E

1

r AV~01 ~02 ~03 (11 ) r - - 04

D4~

+-'

J, N PACKAGES

RAM 16 X 4

64-BIT RANDOM-ACCESS

TYPE

pin assignments

TOTAL POWER

SN54221

20n5-215

130 mW

SN74221

20 ns - 285

130 mW

SN54LS221

20 n5 - 495

23 mW

SN74LS221

20 n5 - 705

23mW

SN74221 (J,NI SN54221 (J,FHI SN54LS221 (J,FHI SN74LS221 (J,N,FNI

1ClR

(1 )

U'L

&

--"""-

(2)

(3) (14)

1Cext 1Rex t l (15) Cext 2A (9)

>

r.::: ~ ....

(4) 10

RX/CX

--'o.L

"' .......

...

-

R

lA

9

2A

1

nc

11

2

lB

10

2B

2

lA

12

2A

3

lClR

11

2ClR

3

lB

13

2B

4

10

12

20

4

lClR

14

2ClR

5

20

13

10

5

10

15

20

6

2C ext

14

lC ext

6

nc

16

nc

7

2R ext l Cext

15

GND

16

1~

&

--""0.

(11).r.::::::

2Cex t (6) 2R ext l (7) Cext

~

CX

".... "

8

>

28 (10)

2CLR

(13) 10

1

.

1 Rextl

7

20

17

10

8

2C ext

18

lC ext

9

2R ext l Cext

19

GND

20

Cext VCC

(5) 20 ~

(12)

lei

nc

10

1 Rext! Cext VCC

I

CX

RX/CX

:

I j t Pin numbers shown on logic symbols are for J and N packages only.

nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

906

©

Ie MASTER 1983

PRODUCT GUIDE

222

logic symbol t

64-BIT FIFO MEMORIES

pin assignments FIF016X4

16 4-BIT WORDS

J, N PACKAGES

eTR

(input-ready enable, outputready enable, and three-state output) typical performance TYPE 'LS222

DELAY TIME

TOTAL

FROM CLOCK

POWER

47 ns

433mW

SN54LS222 (J)

4,5

1 2 3 4 5 6 7 8 9 (17) OR 10

11 12 IR 13 LOCK 14 DO 15 nc 16 01 17 02 18 03 19 GNO 20 DE

CLR

IRE

03 02 01 nc 00 OR ORE UNCK VCC

SN74LS222 (J,N) For chip carrier information, contact the factory.

DO

00

01

01

02 (8)

02

(9)

03

03

logic symbol t

224

pin assignments

64-BIT FIFO MEMORIES

FIF016X4

16 4-BIT WORDS OE _(_1)--tEN5

. (three-state output) typical performance TYPE 'LS224

DELAY TIME

~_(_9)_at (2)

TOTAL

FROM CLOCK

POWER

47 ns

433mW

SN54LS224 (J)

J, N PACKAGES

CTR

IR (3)

LOCK...;....;......!.......

.....

----~

SN74LS224 (J,N)

CT>O (15)

UNCK~...;....--I

1 2 3 4 5 6 7 8

OE

~

IR

03 02 01 00

9 10 LOCK 11 DO 12 01 13 14 02 15 03 GNO 16

OR UNCK VCC

& Z3

CT=O

en ......

c:

For chip carrier· information, contact the factory.

&

Q)

E

:J ~

...... DO (4)

10

en

(13) 00

01 (5)

(12) 01

02-(;....6)~~ 03 (7) ~-----------1

(11) 02

c: en

CU

X

Q)

f-

t Pin numbers shown on logic symbols are for J and N packages only.

nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

©

Ie MASTER 1983

907

PRODUCT GUIDE pin assignments

225

logic symbol t

SO-BIT FIFO MEMORIES 16 5-BIT WORDS

OE~

typical performance OUTPUT 3-State

J. N PACKAGES

FIFO 16 X 5

DELAY TIME

TOTAL

FROM CLOCK

POWER

50 ns

400mW

CLA-~

CTA

ENS CT=O

\3)

3~UNCK

CT+

OUT

~

\1) CLKA-

SN74S225 (J,N,FN) Cl

t> \19) CLKB_

1

ClK A

11

04

2

IR

12

03

3

UNCKOUT

13

02

4

DO

14

01

5

01

15

00

6

02

16

UNCK IN

7

03

17

OR

8

04

18

CLR

9

N

19

ClK B

GNO

20

VCC

10

c) G2/Z3 FN PACKAGES

\2) 2 CT< 16 - I A

1

ClK A

11

04

2

IR

12

03

3

UNCK OUT

13

02

4

DO

14

01

c T > o F t>\16) UNCKIN

\17)

4-0R

Z4

r

I

(15) 5 ' 7 - 00 \14)

(4) 00-10 (5) 01(6) 02-

~02

S1 (2)

BUS TRANSCEIVERS

S2 (14)

(three-state outputs) typical performance

~ TYPE

'S226

1

GBA (1)

r--.....

C4

""'-

C5

MAX

OCAB (9)

EN6

MAX SOURCE

SINK

OCBA (7)

EN7

CURRENT

CURRENT

-6.5 mA

20 mA

1...

3

r

(2/3)4D

\77

(0/1/2) D

(0/1/2) D

6 \7

(0/3)5D

A2 (4) U) +-'

A3 (5)

Q)

A4 (6)

C

E

03

17

OR

04

18

ClR

OE

19

ClK B

GNO

20

VCC

J. N PACKAGES

....,

A1 (3)

SN54S226 (J,FH) SN74S226 (J,N,FN)

00 UNCK )N

pin assignments

O}MJl

GAB (15)

7 8 10

~ 04

(8)

04-

4-BIT PARALLEL LATCHED

15 16

9

(12) -03

\7)

logic symbol t

01 02

,~01

03-

226

5 6

1

nc

11

nc

10

B4

2

GBA

12

OCAB

A1

11

B3

3

S1

13

B4

A2

12

B2

4

A1

14

B3

GBA

2

S1

3 4

9

5

A3

13

B1

5

A2

15

B2

6

A4

14

S2

6

nc

16

nc

7

OCBA 15

GAB

7

A3

17

B1

8

GNO

VCC

8

A4

18

S2

9

OCBA 19

GAB

20

VCC

16

10

GNO

(13) B1

~l .... ....

.-

FH. FN PACKAGES

OCAB

1

_ (12) B2 (11 )

B3

- (10) B4

~

L.

+-'

U)

C U)

as >
O

(17) OR

8 9 10

OE

Wf

IRE

03 02 01

11 12 IR 13 LOCK 14 DO 15 nc 16 01 17 02 18 03 19 GND 20

nc

00 OR ORE

UNCK VCC

(19)

UNCK (18)

'LS227

SN54LS227 (J)

ORE

G5

SN74LS227 (J,Nl DO

00

01

01

02

02

03

03

228

logic symbol t

For chip carrier information, contact the factory.

pin assignments J, N PACKAGES

54-BIT FIFO MEMORIES FIFO 16 X 4

15 4-BIT WORDS

CTR

(open-collector outputs) typical performance

OE-(_1_)-

ern

.... EN5

(9)

CT=O (2)

DELAY TYPE

IR

TIME

TOTAL

FROM

POWER

1 2 3 4 5 6 7

LOCK-(~3.;..)...,&,.;::111

8

OE

CiJf

IR

03 02 01 00

9 10 LOCK 11 12 DO 13 01 02 14 03 15 GNO 16

OR

UNCK VCC

CLOCK 'LS228

57.5 ns

SN54LS228 (J)

433mW

CT>O

(15) UNCK----I

SN74LS228 (J,N)

DO (4)

For chip carrier information, contact the factory.

10

UJ ..... c:

01 (5)

Q)

(6)

02-';""--1 03 (7)

E

1------------1

::::s

.....UJ ~

c:

UJ Cd X

Q)

J-

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

909

PRODUCT GUIDE 230,231

logic symbol, 'AS230 t

OCTAL BUFFERS AND LINE DRIVERS

10 (11

(three-state outputs)

• •

-

MAX

MAX

SOURCE

SINK

20 (191

CURRENT

CURRENT

2Al.!!!!..(131 2A22A3 (151

-15 mA

64 mA

2A4-

~lY3

~lY4 EN

\l~2Yl ~2Y2

C>

~2Y3 ~2Y4

(171

SN74AS230 (N,FN) SN74AS231 (N.FN)

SN54AS230 (J.FH) SN54AS231 (J.FH)

lYl

~lY2

lA4~

typical performance

3.5 ns

\l~ (161

C>

lA2(61 lA3(81

'AS231 has complementary G and G inputs

·DELAY

J. N PACKAGES

EN

lAl~ (41

'AS230 has true and complementary outputs

pin assignments 1

1~

11

2

1A1

12

1Y4

3 4

2Y4

13

2A2

1A2

14

1Y3

5

2Y3

15

2A3

6

1A3

16

1Y2

7

2Y2

17

2A4

8

1A4

18

1Y1

9

2Y1

19

2G

10

GND

20

Vee

2A1

logic symbol, 'AS231 t FH. FN PACKAGES 1(; (11

EN

(21 lAl-

\l~lYl

C>

lA2~

~1Y2 ~lY3 ~lY4

(61 lA3-

lA4~ 2G

(191

EN

(111

2Al~

\l~

C>

(131 2A2-

2Yl

~2Y2 ~2Y3 ~2Y4

2A3~ 2A4~

1

1(j

11

2

1A1

12

1Y4

3

2Y4

13

2A2

4

1A2

14 . 1Y3

5

2Y3

15

6

1A3

16

1Y2

7

2Y2

17

2A4

2A1

2A3

8

lA4

18

1Yl

9

2Y1

19

2G

10

GND

20

Vee

"2G on 'AS231

240

logic symbolt

OCT AL BUFFERS/LINE

_

typical performance

TYPE

DELAY

MAX

MAX

POWER

SOURCE

SINK

DISSIPATlaN

CURRENT

CURRENT

SN54ALS240

5.5 ns

-12 mA

12 mA

SN74ALS240

5.5 ns

-15 mA

24 mA

SN74ALS240-1

5.5 ns

-15 mA

48 mA

SN54AS240

3.5 ns

-12 mA

48 mA

SN74AS240

3.5 ns

-15 mA

64 mA

..... en

SN54LS240

10 ns

-12 mA

12 mA

c:

SN74LS240

10 ns

-15 mA

24 mA

en

SN54S240

5 ns

-12 mA

48 mA

x

SN74S240

5 ns

-15 mA

64 mA

en ..... c: Q)

E

:J

L.

ttS

Q)

.....

SN54ALS240 (J.FH) SN54AS240 (J,FH) SN54LS240 (J,FH) SN54S240 (J.FH)

EN

(2) lAl-

(inverted three-state outputs)

52 mW

J. N PACKAGES

(1)

lG

DRIVERS/LINE RECEIVERS

pin assignments

[>

lA2~ lA3~ lA4~ 2(; (19)

2Al~

2A2~ 2A3~ 2A4~

\J~lYl

~lY2 ~ 1Y3 ~1Y4

EN

C>

\J~

p:-.iZ.L

2Yl 2Y 2

~2Y3 ~2Y4

1

1~

11

2

1Al

12

lY4

3

2Y4

13

2A2

4

lA2

14

1Y3

5

2Y3

15

2A3

6

1A3

16

lY2

7

2Y2

17

2A4

2A1

8

lA4

18

1Yl

9

2Yl

19

2G

10

GND

20

Vee

235 mW FH, FN PACKAGES

120 mW 467 mW

SN74ALS240 (N,FN) SN74ALS240-1 (N,FN) SN74AS240 (N,FN) SN74LS240 (J,N,FN) SN74S240 (J,N,FN)

1

1(j

11

2

1A1

12

1Y4

3

2Y4

13

2A2

4

lA2

14

1Y3

5

2Y3

15

2A3

6

1A3

16

1Y2

7

2Y2

17

2A4

2A1

8

1A4

18

1Y1

9

2Yl

19

2G

10

GND

20

Vee

t Pin numbers shown on logic symbols are for; and N packages only,

nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

910

© IC MASTER 1983

PRODUCT GUIDE 241

logic symbolt

pin assignments

OCTAL BUFFERS/LINE

J. N PACKAGES

DRIVERS/LINE RECEIVERS

(non-inverted three-state outputs) typical performance MAX TYPE

DELAY

MAX

SOURCE

SINK

01551-

CURRENT

CURRENT

PATION

SN54ALS241

7 ns

-12 rnA

12 rnA

SN74ALS241

7 ns

-15 rnA

24 rnA

SN74ALS241-1

7 ns

-15 rnA

48 rnA

SN54AS241

4 ns

-12 rnA

48 rnA 64 rnA

SN74AS241

4 ns

-15 rnA

SN54LS241

10 ns

-12 rnA

12 rnA

SN74LS241

10 ns

-15 rnA

24 rnA

5 ns

-12 rnA

48 rnA

5 ns

-15 rnA

64 rnA

SN54S241 SN74S241 SN54ALS241 (J,FH)

POWER

68 rnW

lA4 2G 2Al (13) 2A2 115) 2A3 (17) 2A4

127 rnW 558 rnW

242

(9)

2Yl (7) 2Y2 (5) 2Y3 (3) 2Y4

1 2 3 4 5 6 7 8 9 10

logic symbolt

11 12 13 14 15 16 17 18 19 20

2A1 1Y4 2A'2 1Y3 2A3 1Y2 2A4 1Y1 2G

Vee

pin assignments

QUADRUPLE BUS

J. N PACKAGES

TRANSCEIVERS

(inverted three-state outputs) typical performance

TYPE

11; 1A1 2Y4 1A2 2Y3 1A3 2Y2 1A4 2Yl GND

FH. FN PACKAGES 1 1rr 11 2A1 2 1A1 12 1Y4 3 2Y4 13 2A2 4 1A2 14 1Y3 5 2Y3 15 2A3 6 1A3 16 1Y2 7 2Y2 17 2A4 ·8 1A4 18 1Y1 9 2Y1 19 2G 10 GND 20 Vee

SN74ALS241 (N,FN) SN74ALS241-1 (N,FN) SN74AS241 (N,FN) SN74LS241 (J,N,FN) SN74S241 (J,N,FN)

SN54AS241 (J,FH) SN54LS241 (J,FH) SN54S241 (J,FH)

(18) 1Yl (16) lY2 (14) lY3 (12) lY4

DELAY

MAX

MAX

POWER

SOURCE

SINK

01551PATION

CURRENT

CURRENT

6 ns

-12 rnA

12 rnA

SN74ALS242

6 ns

-15 rnA

24 rnA

SN74ALS242-1

6 ns

-15 rnA

48 rnA

SN54AS242

3.5 ns

-12 rnA

48 rnA

SN74AS242

3.5 ns

-15 rnA

64 rnA

SN54LS242

11 ns

-12 rnA

12 rnA

SN54ALS242

SN74LS242

11 ns

SN54ALS242 (J,FH) SN54AS242 (J,FH) SN54LS242 (J,FH)

-15 rnA

24 rnA

68 rnW

133 rnW

SN74ALS242 (N,FN) SN74ALS242-1 (N,FN) SN74AS242 (N,FN) SN74LS242 (J,N,FN)

1 2 3 4 5 6 7

GAB nc

A1 A2 A3 A4 GND

8 9 10 11 12 13 14

B4 B3 B2 B1 nc

GBA

. Vee

FH. FN PACKAGES 1 nc 11 nc 2 GAB 12 B4 3 nc 13 B3 4 A1 14 B2 5 nc 15 nc 6 A2 16 B1 7 nc 17 nc 18 nc 8 A3 19 GBA 9 A4 10 GND 20 Vee

UJ ..... C (])

E

:l

..... UJ :I....

C UJ

ctS

X

{E.

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFiCe BOX 225012 .' DALLAS. TeXAS 75265

© Ie MASTER 1983

911

PRODUCT GUIDE 243

logic symbolt

pin assignments

QUADRUPLE BUS

J. N PACKAGES

TRANSCEIVERS

GBA

(non-inverted three-state outputs)

GAB

typical performance

TYPE

DELAY

MAX

MAX

POWER

SOURCE

SINK

DISSI-

CURRENT

CURRENT

PATION

SN54ALS243

8 ns

-12 mA

12 mA

SN74ALS243

8 ns

-15 rnA

24 rnA

SN74ALS243-1

8 ns

-15 mA

48 mA

SN54AS243

4.5 ns

-12 rnA

48 mA

SN74AS243

4.5 ns

-15 rnA

64 rnA

SN54LS243

12 ns

-12 rnA

12 mA

SN74LS243

12 ns

-15 rnA

24 rnA

SN54ALS243 (J,FH)

93 mW

A1

B1

A2

B2

A3

B3

A4

B4

138 mW

SN74ALS243 (N,FN) SN74ALS243-1 (N,FN) SN74AS243 (N,FN) SN74LS243 (J,N,FN)

SN54AS243 (J,FH) SN54LS243 (J,FH)

244

1 2 3 4 5 6 7

1G

. (non-inverted three-state outputs) typical performance

.....Cen

DELAY

MAX

MAX

POWER

SOURCE

SINK

DISSI-

CURRENT

CURRENT

PATION

SN54ALS244

7 ns

-12 mA

12 rnA

SN74ALS244

7 ns

-15 rnA

24 rnA

68 mW

2A1 2A2 2A3

SN74AS244

4.5 ns

-15 rnA

64 rnA 12 mA

-15 mA

24 mA

E ..... en

SN54S244

6 ns

-12 rnA

48 rnA

SN74S244

6 ns

-15 mA

64 rnA

Q)

2G

48 mA

-12 mA

I-

1Y4

48 rnA

12 ns

X

1Y3

1A4

-12 mA

12 ns

CCS

1Y2

1A3

-15 rnA

SN54LS244

c en

1Y1

7 ns

SN74LS244

~

1A1 1A2

4.5 ns

Q)

:J

SN54ALS244 (J,FH) SN54AS244 (J,FH) SN54LS244 (J,FH) SN54S244 (J,FH)

Vee

J. N PACKAGES

DRIVERS/LINE RECEIVERS

SN54AS244

84 83 B2 B1 nc GBA

pin assignments

logic symbolt

SN74ALS244-1

8 9 10 11 12 13 14

FH. FN PACKAGES 11 nc 1 nc 2 GAB 12 B4 13 B3 3 nc 4 A1 14 B2 15 nc 5 nc 16 B1 6 A2 7 nc 17 nc 18 nc 8 A3 19 GBA 9 A4 10 GND 20 Vee

OCTAL BUFFERS/LINE

TYPE

GAB nc A1 A2 A3 A4 GND

235 rnW

2A4

(13)

2Y1

"V (5)

( 17)

(3)

558 rnW

SN74ALS244 (N,FN) SNALS244-1 (N,FN) SN74AS244 (N,FN) SN74LS244 (J,N,FN) SN74S244 (J,N,FN)

1G 1A1 2Y4 1A2 2Y3 1A3 2Y2 1A4 2Y1 GND

11 12 13 14 15 16 17 18 19 20

2A1 1Y4 2A2 1Y3 2A3 1Y2 2A4 1Y1 2 [til ~[n=O)

-~[n

B.l!L-

SN54LS292 (J,FH)

00

(5) 0 ----, B (4)

DIV5 { CKB (11) r-.

I

8 9 10 11 12 13 14

3CT=1

SN74290 (J,N) SN74LS290 (J,N,FN)

f max TYPE POWER 'LS292 200 mWI 50 MHz

R9(1) nc R9(2) Oc OB nc GND

DIV2

CKA (10),....

FH. FN PACKAGES 11 nc 1 nc 2 R911 ) 12 00 °A CKA 13 OA 3 nc CKB 4 R9(2) 14 CKA ROIl) 5 nc 15 nc RO(2) 6 Oc 16 CKB 17 nc 7 nc VCC 18 ROIl) 8 °B 19 RO(2) 9 nc 10 GND 20 VCC

J. N PACKAGES

1 2 3 4 5 6 7

CT=O

R9(2)~

TOTAL

32 MHz

SN54290 (J,FH) SN54LS290 (J,FH)

pin assignments CTR

&

RO(1)~ RO(2)~ R9(1)~

by-five)

FH, FN PACKAGES 11 nc 1 nc 12 03 2 AO 13 03 3 S 4 R/W 14 04 15 04 5 01 16 nc 6 nc 17 A3 7 0'1 18 A2 8 02 19 Al 9 02 10 GNO 20 VCC

~04

SN74LS289A (J,N,FN) D4.J..!3.L. SN74S289A (J,N,FN)

290

Rrw 01 Ql 02 02 GNO

Q3 03 04 04 A3 A2 Al VCC

~Q2 ~Q3

D3.J..!!!L.

SN54LS289A (J.FH) SN54S289A (J,FH)

~

9 10 11 12 13 14 15 16

A~~Q1

A.2D

D2-12L

5.9mW

AO

[TP2)

= 1]

[TP3]

~TP1 ~TP2 ~TP3

io--

:}lnl ~,

1 2 3 4 5 6 7 8

B

9 E 10 TPl 11 ClKl 12 ClK2 13 TP2 14 15 0 GNO 16

nc A n~

nc TP3 0 C VCC

FH. FN PACKAGES 11 nc 1 nc 12 nc 2 B 13 A 3 E 14 4 TPl 5 CL.K1 15 nc 16 nc 6 nc 7 ClK2 17 TP3 8 TP2 18 0 19 C 9 0 10 GND 20 VCC

m

~o=~ ~O

t Pin numbers shown on logic symbols are for J and N packages only.

nc '- no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

924

© Ie MASTER 1983

PRODUCT GUIDE

293

logic symbol t

pin assignmonts &

4-BIT BINARY COUNTERS

RO(1) (12)

(divide-by-two and divide-

CT=O

RO(2) (13)

by-eight) typical performance TYPE '293

COUNT FREO

CLEAR

TOTAL POWER

32 MHz

HIGH

160 mW

'LS293 32 MHz

HIGH

39mW

SN54293 (J,FH) SN54LS293 (J,FH)

DiVa

+

CT

f

OA_

(digitally programmable from 22 to 2 15 )

1

nc

11

2

nc

9

2

nc

12

aD

3

nc

TO

-OA CKA

3

nc

13

OA

4

Oc

11

CKB

4

nc

14

CKA

5

OB

12

RO(11

5

nc

15

nc

6

nc

13

RO(21

6

Oc

16

CKB

7

GND

14

VCC

7

nc

17

nc

8

OB

18

RO(1 I

9

nc

19

RO(21

GND

20

VCC

10

nc

OD

J. N PACKAGES

[tn] ClK1

typical performance

ClK2

[TP)

[fil

SN74LS294 (J,N,FNI

295

r LO

filJ

= 2

n

(3)

TP

4-BIT BIDIRECTIONAL REGISTERS

2 3

nc

nc

11

nc

A TP

10

nc

B

12

nc

11

CLR

3

A

13

nc

4

CLK1

12

nc

4

TP

14

CLR

5

CLK2

13

nc

5

CLK1

15

nc

6

nc

14

D

6

nc

16

7

a

15

C

7

CLK2

17

8

GND

16

VCC

8

nc

18

D

9

a GND

19

C

20

VCC

pin assignments J. N PACKAGES

INPUT

FH. FN PACKAGES

(8)

1

SER

8

oe

1

nc

11

nc

lD/SH

(6)

2

A

9

eLK

2

SER

12

oe

SER

DATA

nc

o

ClK--.....~D

SERIAL

FH. FN PACKAGES

9

OC

typical performance

SN54LS295B (J,FHI

B

SRG4

UNIVERSAL SHIFT

0

1

10

(7)

logic symbol t

'LS295B 30 MHz

aD

pin assignments

DIVIDERS/DIGITAL TIMERS

FREO

8

Oc

logic symbol t

SHIFT

nc

OB

2

PROGRAMMABLEFREOUENCY

TYPE-

1

SN74293 (J,N) SN74LS293 (J,N,FN)

294

SN54LS294 (J.FH)

FH. FN PACKAGES

J. N PACKAGES

CTR

A

TOTAL

8

POWER

C

D

70mW

3

B

10

aD

3

A

13

eLK

4

e

11

Oe

4

B

14

°D

5

D

12

OB

5

nc

15

nc

6

LD/SH 13

OA

6

e

16

Oe

7

GND

Vee

7

nc

17

nc

8

D

18

OB

14

08

9

Oc OD

10'

LD/SH 19

OA

GND

Vee

20

UJ

C

(])

E

:::J

~

UJ C

SN74LS295B (J,N,FNI

UJ

CO X

(])

J-

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS' INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

925

PRODUCT GUIDE

297

pin assignments J. N PACKAGES

DIGITAL PHASE-LOCKEDLOOP FILTERS

,1' B

9

2

A

10

FH. J:N PACKAGES

+A1

1

nc

11

nc

2

B

12

+A1

(cascadable for higher-

3

ENCTR

11

+B XOPRD

3

A

13

order loops)

4

K ClK

12

ECPD

4

ENCTR

14

+B XOPRD

5

110 ClK

13

K ClK

15

ECPD

6

DIU

14

+A2 D.

5

typical performance

6

nc

16

nc

7

lID OUT

15

C

7

110 ClK

17

+A2

8

GND

16

VCC

8

DIU

18

0

9

110 OUT

19

C

GND

20

VCC

simplified block diagram t DELAY

f max

(FROM I/DCLK I/DCLK) 'LS297 375 mW 50 MHz 35 MHz 18.5 ns TYPE POWER

~ A 0

C

B

14) 15) (1)

SN54LS297 (J,FH)

(2)

SN74LS297 (J,N,FN) K·COUNTER CLOCK DOWNIUP CONTROL K·COUNTER ENABLE

110 CLOCK

PHASE Al

PHASE B PHASE A2

(4) (6)

MODUlO·K COUNTER

(3)

'l

(5)

(9)

Lf~

(13)

ClK (111 ......

typical performance POWER DELAY·

'LS298

65mW

20 ns

(12)

EDGE·CONTROLLED PHASE DETECTOR OUTPUT

pin assignments J. N PACKAGES

G1

,

C2

~QA

B1..1&-

~QB

B2..l!L.-

* From clock to non-inverted output· SN74298 (J,N) SN74LS298 (J,N,FN)

r

A1....ill- I 1,20 A2~ 1,20

C1...iID-

SN54298 (J,FH) SN54LS298 (J,FH)

EXClUSIVE·OR PHASE DETECTOR OUTPUT

MUX

wsillL

WITH STORAGE

20 ns

(11) (10)

QUAD 2-INPUT MULTIPLEXERS

195mW

110 OUTPUT

\

logic symbol t

'298

(7)

INCR EMENT IDECR EM ENT CIRCUIT

298

TYPE

10

MODULO CONTROLS

KCLK

C2~ 01~

02~

~QC

FH. FN PACKAGES

1

B2

9

C1

1

nc

11

2

A2

10

WS

2

B2

12

C1

3

A1

11

ClK

3

A2

13

WS

4

Bl

12

aD

4

Al

14

ClK

5

C2

13

ac

5

B1

15

aD

6

02

14

aB

6

nc

16

nc

7

01

15

aA

7

C2

17

aC

8

GND

16

VCC

8

02

18

aB

9

01

19

aA

GND

20

VCC

10

nc

~QO

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFiCe BOX 225012 • DALLAS, TeXAS 75265

926

@

Ie MASTER 1983

PRODUCT GUIDE

299

logic Iymbo. t

pin assignments J, N PACKAGES

8·BIT BIDIRECTIONAL

SRG8

1 2 3 4 5 6 7 8 9 10

UNIVERSAL SHIFT/STORAGE REGISTERS (three-state outputs) typical performance SHIFT

TYPE

FREQ

SERIAL DATA INPUT

ASYNC

TOTAL

CLEAR

POWER

'ALS299

30 MHz

0

LOW

100 mW

'LS299

35 MHz

0

LOW

175 mW

'S299

50 MHz

0

LOW

750 mW

SN54ALS299 (J,FHI SN54LS299 (J,FHI SN54S299 (J,FHI

5 6 7 8 9 10

logic symbol t

A1

;3

A2

collector output)

o

A3

A 255

A4

typical performance

A5

TYPE '5301

ADDRESS ENABLE POWER/ TIME

BIT

A7

42 ns

13 ns

1.9 mW

51

4 5 6 7 8

A6

TIME

5N745301 (J,NI

G/OG

1,\ E/OE 15 C/OC 16 A/OA 17 18 °A' 19 GND 20

m

5A ClK BlOB D/OD F/OF H/OH °H'

5l 51 VCC

52

11 12 (;2 13 G/OG 14 E/OE 15 C/OC 16 A/OA 17 18 OA 19 GND 20 50

~1

ern

5A ClK BlOB DiaD F/OF H/OH °H'

Sl S1 VCC

J, N PACKAGES

1 2

AO

(256 '·bit words, open·

~2

11 12 13

pin assignments RAM 256 X 1

256·B.T RANDOM·ACCESS MEMORIES

~1

FH, FN PACKAGES

1 2 3 4

SN74ALS299 (N,FNI SN74LS299 (J,N,FNI SN74S299 (J,N,FNI

301

50

AO Al S1 S2 53

Q A3

GND

9

10 11 12 13 14 15 16

A4 A5 A6 A'W

D A7 A2 Vee

G1

t Pin numbers shown on logic symbols are for J and N packages only,

nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

927

PRODUCT GUIDE 317

logic Iymbol t

pin assignments RAM 64 X 4

256-BIT RANDOM-ACCESS

]A~

MEMORIES WITH OPEN-COLLECTOR OUTPUtS (64 words of 4 bits each)

1 2 3 4 5 6 7 8 9 10

typical performance

TYPE 'ALS317

ADDRESS ENABLE

POWER I

TIME

TIME

BIT

30 ns

20 ns

0.9 mW

SN54ALS317 (J,FH)

Gl

SN74ALS317 (N,FN)

J. N PACKAGES FH. FN PACKAGES AD 11 nc 1 AD 11 nc A1 12 00 2 A1 12 00 A2 13 DO 3 A2 13 DO A3 14 01 14 01 4 A3 A4 15 01 15 01 5 A4 A5 16 02 16 02 6 A5 R/W 17 02 7 R/W 17 02 51 18 03 8 51 18 03 S2 19 03 19 03 9 52 GND 20 Vee' 10 GND 20 Vee

(121 00 (141 01 (161 02 (181 03

318

logic symbol t

256-BIT RANDOM-ACCESS

RAM 32 X 8

OUTPUTS (32 words of 8 bits each) typical performance

'ALS318

ADDRESS ENABLE

POWERI

TIME

TIME

BIT

30 ns

20 ns

0.9 mW

SN54ALS318 (J,FHI

,

AO (1) Al (2) A2 (3) A3 (4) A4 (5)

MEMORIES WITH OPEN-COLLECTOR

TYPE

pin assignments

2 3 4 5 6 7 8 9 10

Gl

SN74ALS318 (N,FNI

FH. FN PACKAGES

J. N PACKAGES

A.o A' A2 A3 A4 nc

RW

51 52 GND

"'2 ,3 14 15 16 17 18 19 20

,

nc

2 3 4 5 6 7 8 9 10

000 DO' 002 003 D04 005 006 D07

Vee

AO A' A2 A3 A4 nc

RW

51 S2 GND

"'2 13 14 15 16 17 18 19 20

nc

000 DOl 002 D03 D04 005 D06 D07

Vee

A.Z3

en ....... c: Q)

E

:J

:r.... .......

en

c:

en

ell X

~

t Pin numbers shown on logic symbols are for J and N packages oni y .

nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

928

©

Ie MASTER 1983

PRODUCT GUIDE logic symbol t

319

AO~

MEMORIES (16-four bit words, open-

A2~

(13) A3-

collector outputs)

s~

typical performance

'LS319A

JA~

A1....l.12.L

ADDRESS TIME

TIME

BIT

50 ns

35 ns

2.7mW

D1~ D2~

SN74LS319A (J,N,FN)

320

G1

R I W t 1 EN [READ) 1 C2 [WRITE)

ENABLE POWER/

SN54LS319A (J,FH)

J, N PACKAGES

RAM 16 X 4

64-BIT RANDOM ACCESS

TYPE

pin assignments

.,

,.

-EL

typical performance TYPE

f max

POWER

'LS320

30 MHz

210mW

FFD~ SN54LS320 (J)

~F

~F

TANK TANK

C>

XTAL XTAL

~C1 10

~F' ~F' ~FFO

TANK1

~

TANK

TANK2

~

'LS321

30 MHz

235mW

SN54LS321 (J)

R/W

11 12

04

3

S

13

01

04

4

R/W

14

5

01

13

A3

5

01

15

6

02

14

A2

6

nc

16

nc 03 03 04 04 nc

7

02

15

A1

7

01

17

A3

8

GNO

16

Vee

8

02

18

A2

9

02

19

A1

GNO

20

Vee

3 4

10

02

1

TANK1

9

F'

2

TANK2

10

F'

3

GN01

11

Vee'

4

FFQ

12

F

5

FFD

13

6

nc

14

7

F

15

nc XTAL1 XTAL2

8

GN02

16

Vee

1

TANK1

9

F'

~F

2

TANK2

10

F'

3

GND1

11

VeC'

(10)

4

FFO

12

F

~F'

~F'

TANK

(14)

POWER

(7)

~F

C>

outputs)

FREQ

12

J, N PACKAGES

G

.n.n..

OSCILLATORS

TYPE

AO

pin assignments

CRYSTAL~ONTROLLED

typical performance

2

For chip carrier information, contact the factory.

logic symbol t

(with F/2 and F/4 count-down

03

J, N.PACKAGES

JL..fL

SN74LS320 (J,N)

321

11

10

pin assignments

CRYSTAL-CONTROLLED

~ TANK2~ XTAL1 ~ XTAL2~

nc

s

2

( 11) -04

G TANK1

1

~03

D3...J.1QL... (12) D4-

logic symbol t

OSCILLATORS

03

AO

AQ~01

A,2D

FH, FN PACKAGES

9

1

XTAL1 ~ XTAL (15)

XTAL2 ~ XTAL

SN74LS321 (J,N)

FFD~ ~

CTRDIV4

)-

CT~

~F/2 (6)

~F/4

>C1

5

FFD

13

F/2

6 7

F/4

14

XTAL1

F

15

XTAL2

8

GND2

16

Vee

For chip carrier information, contact the factory.

~FFO

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

©. Ie MASTER 1983

929

PRODUCT GUIDE

322

logic symbol t

a-BIT SHIFT REGISTERS WITH

CLR'~

(three-state outputs,

OE~ G Jlli::::.

multiplexed I/O)

SIP

SIGN EXTEND

CLK

SHIFT

SRGS R

1

2EN15

2

G3

3 4

[SHIFT] -~ 3M1 3M2 [PAR LOAD)

typical performance

TYPE

pin assignments

SERIAL

FREQ

'LS322A 35 MHz

DATA INPUT

ASYNC CLEAR

POWER

SE

175 mW

DS~ DO

SN54LS322A (J,FH)

,

J1&-.

C6/1

6 7

~

r

S

t>

9 10

G4 S,4,1,6D

LOW

0

(11 )

5

J, N PACKAGES "'H, FN PACKAGES 11 ClK 11 ClK 1 G G 12 Ow SI15 12 OH' 2 SIP 13 H/OH DO 13 H/OH 3 DO 4 A/OA 14 F/OF A/OA 14 F/OF 5 C/OC 15 0/0 0 C/OC 15 0/0 0 6 E/OE 16 S/OS E/OE 16 S/OS 7 G/OG 17 01 G/OG 17 01 18 SE OE 18 SE 8 OE 19 OS 19 OS ClR 9 ClR GNO 20 VCC 10 GNO 20 VCC

SN74LS322A (J,N,FN)

--ill.-

D1~ (4) A/OA~ BlOB

G5 4,5,1,6D 4,5,1,6D Z7

2,6D

~

\77,15

-j;

t>

2,6D \7S,15

C/Oc~ D/OD~

ZS'~

E/OE/~ F/OF

~

G/OG,~ H/QHI~

2,6D \714,15

CLFi~

a-BIT BIDIRECTIONAL

G,J!L...c::::..

SHIFT/STORAGE REGISTERS

G2.ill...b.

(three-state outputs)

so.i!L.-

en

'ALS323 'LS323

c:

Q)

E

::J

SHIFT FREQ

4R

~-

3EN13

DATA

CLK.!l.2) - ~C4/1"/2+-

POWER

SR-41L- 14D

INPUT 0

0

35 MHz

(7)

A/OA~3,4D

100mW ,

175 mW

(13)

SO

11

SR

Gl

12

ClK

2

Gl

12

ClK

3

G2

13

3

G2

13

BlOB

4

G/OG 14

S/OS 0/0 0

4

G/OG 14

0/0 0

15

15

F/OF

5

E/OE

F/OF

5

E/OE

6

C/OC 16

HIOH

6

C/OC 16

HIOH

7

A/OA 17 lS Oi-

7 8

A/OA 17 18 OA

°H' Sl

9

ern

19

S1

10

GNO

20

VCC

9

rot

19

OH' Sl S1

10

GNO

20

VCC

8

(S)

~OA'

1

Z5

\7 5,13

C>Z6 ...

(6) \7 6,13 C/Oc~

:ii::

~

c:

DOD (5 I E/OE

en

G/O

x Q)

G(16) H / O H t 3,4D

en

r---r:>

B/OB~ 3,4D

SN74ALS323 (N,FN) SN74LS323 (J,N,FN)

+oJ

"

l"

FH, FN PACKAGES

J, N PACKAGES SR 11 SO

2

1

.,

SERIAL

30 MHz

SN54ALS323 (J,FH) SN54LS323 (J,FH)

pin assignments SRGS

S1~ o1 }M!. 3

typical performance

+oJ

~ Ow

logic symbol t

323

TYPE

C> Z14·t-

'---

F/Q~Jl.:= (4

co

J-

C>

\712,13 SL ..!.l.!!L- 2,4D

Z12'

"""'--

~

(17)

0

~H'

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

930

© Ie MASTER 1983

PRODUCT GUIDE

347

-.. --

BCD~O~EVEN~EGMENT

DECODERS/DRIVERS

(~ ....

(open-collector outputs, low-voltage version of 'LS47) typical performance

TYPE

pin assignments

logic symbol t

RBI

OUTPUT

OFF~TATE

SINK

OUTPUT

CURRENT

VOLTAGE

POWER

I

~

......

(5)

12 mA

7V

35mW

SN74LS347

24 rnA

7V

35mW

~ &

o

5

C G21

0 A GND

7

(7)

CT=OL,a 20,21 Q

(2) (6)

8

.......

(12)

c 20,21Q .......

(11)

2

d 20,21Q t---..

(10)

4

e 20,21 Q t--...

(9)

8

f 20,21Q ~ 9 20,21Q ~

(15) (14)

1

nc

11

nc

2

B

12

e

d

3 4

e

13

[l

14

d c

5

BI/ABO

15

b

6

nc RBI

16

nc

17

a

0 A GND

18

9

7

9

logic symbol t

B-LlNE TO 3-LlNE ( 11)

typical performance

2 3 4

SN54LS348 (J,FH)

5

SN74LS348 (J,N,FN)

(12) (13) (1)

0/Z10

10

1/Z11

11

2/Z12

12

3/Z13

13

4/Z14

14

(2)

~1

18

(15) EO

Vee

2

5

10

3

6

11

0 1

4

7

12

2

5

E1

13

3

6

A2

14

GS

7

A1

15

EO

8

GND

16

Vee

15

(3)

FH. FN PACKAGES

6 7

f

20

J. N PACKAGES AO 4 9

[> 0

19

pin assignments HPRI BIN

(with three-state outputs)

Vee

c

10

(10)

f

16

FH. FN PACKAGES

9

PRIORITY ENCODERS

9

15

b

8

348

14

(13)

b 20,21 Q .....

1

B C

3 4 6

(1)

SN74LS347 (J,N, FN)

2

~1

....t::... V20 A

J. N PACKAGES B 9 e 10 d e IT 11 c BI/RBO 12 b RBI 13 a

1

(3)

I

SN54LS347

SN54LS347 (J,FH)

IT

BIN/7-SEG [> [T1)

(4)

7/Z17

17

V18 (5)

A1

nc

11

nc

2

4

12

AO 0

3

5

13

4

6

14

1

5

7

15

2

6

nc E1 A2 A1 GND

16

nc 3

7

G19

EI

1

8 9 10

17 18

GS

19

EO

20

Vee

en ...... c: Q)

E :::J L. ...... en c:

en

ctS X

{E.

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

FONT TABLE T1 - NUMERICAL DESIGNATIONS AND RESULTANT DISPLAYS USING 'LS347

101 o

11213HI51b1l1819IcbIUI~It:i I 2

3

..

5

8

7

8

9

10

11

12

13

14

16

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

© Ie MASTER 1983

931

PRODUCT GUIDE logic symbol t

351

pin assignments

DUAL 8-L1NE T,O 1-L1NE DATA

G

SELECTORS/MUL TIPLEXERS

1 2 3 4 5 6 7 8 9 10

A

(three-state outputs; four

B

common data inputs)

C

typical performance DELAY TIMES DATA

TYPE

TOINV OUTPUT

'351

FROM ENABLE

10 ns

17 ns

100

TOTAL

101

POWER

102 103 , 04

220mW

J. N PACKAGES 11 07 lY 12 06 tr A 13 05 14 04 B 15 203 C 100 16 202 101 17 201 102 18 200 103 19 2Y GNO 20 VCC

1Y

05 06

SN74351 (J,N)

07 200 201 202 203

16,6 17,7

352

logic symbol t

pin assignments

DUAL 4-L1NE TO 1-L1NE DATA SELECTORS/MUL TIPLEXERS

A

(inverting version of 'LS153)

B

typical performance

TYPE

f/)

C

Q)

E

:J

'ALS352 'AS352 'LS352

DELAY TIMES DATA FROM TOINV ENABLE OUTPUT 4.5 ns 6 ns 2.7 ns 4.5 ns 15 ns 18.5 ns

SN54ALS352 (J,FH) SN54AS352 (J,FH) SN54LS352 (J,FH)

~

f /)

1G

TOTAL POWER

1CO

32.5 mW 122.5 mW 31mW

1C2

1Y

1C1

SN74ALS352 (N,FN) SN74AS352 (N,FN) SN74LS352 (J,N,FN)

1 2 3 4 5 6 7 8

J. N PACKAGES lG 9 2Y 10 2CO B 2Cl lC3 11 lC2 12 2C2 lCl 13 2C3 lCO 14 A lY 15 2G GNO 16 VCC

FH. FN PACKAGES

1 2 3 4 5 6 7 8 9 10

nc

lG B lC3 lC2 nc

lCl lCO lY GNO

11 12 13 14 "5 16 17 18 19 20

nc

2Y 2CO 2Cl 2C2 nc

2C3 A

2G VCC

2CO 2C1

2Y

2C2 2C3

C

f/)

C'CS

X

{E.

t Pin numbers shown on logic symbols are for J ~nd N packages only.

nc - no internal connection,

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

932

© Ie MASTER 1983

PRODUCT GUIDE

353

logic symbol t

J. N PACKAGES

DUAL 4·LINE TO 1·LlNE DATA

A~O) 0 B ..ill.- 1 G"j"

SELECTORS/MUL TIPLEXERS

-;

(three-state outputs, inverting version of 'LS253

1G~ 1CO~ 1C1~

typical performance DELAy:rIMES DATA TYPE

TOINV OUTPUT

FROM

TOTAL

ENABLE

POWER

'ALS353

6 ns

4.5 ns

40mW

'AS353

2.7 ns

5.5 ns

130 mW

'LS353

13 ns

12 ns

SN54ALS353 (J,FHl

1C2 1C3

.!ill.J:::.. iliL-

2C1

l!!!....-

2C2 2C3

43 mW

..!&-ill.....-

2CO

2G

SN74AS353 (N,FNl

SN54LS353 (J,FHl

SN74LS353 (J,N,FNl

354

MUX EN 0

\l ~1V

1 2 3

SELECTORS/MUL TIPLEXERS/ TRANSPARENT REGISTERS

(three-state outputs)

lC3 lC2 lCl lCO lY GNO

2Y 2CO 2Cl 2C2 2C3 A 2G VCC

FH. FN PACKAGES 11 nc 1 nc 12 2Y 2 lG 13 2CO 3 B 4 lC3 14 2Cl 5 lC2 15 2C2 16 nc 6 nc 7 lCl 17 2C3 8 lCO 18 A 19 2G 9 lY 10 GNO 20 vec

l1ZL--.!!!!..l:::.. iC8

S1

DATA TO

S2

TO,INV

NON·INV OUTPUT 23.5 ns

SN54LS354 (J,FHl

L)

~ C9

DO

~90

01 02

ill-

12L-

90 90

~ 90 D4 ~ 90 05 ~ 90 07

GJ!. ,7

..,

SN74LS354 (J,N,FN) 03

06

J. N PACKAGES

EN

illL- ~ JE.L ~

DC

ENABLE

16 ns

~

MUX

&

G3 SO

OUTPUT

-

.!ill.c:...

DELAY TIMES FROM

~

pin assignments

01 G,2

SC

typical performance

23.5 ns

B

9 10 11 12 13 14 15 16

illL..

logic symbol t

DATA

lG

~2V

jgL

8·LlNE TO 1·LlNE DATA

'LS354

r

1 2 3 4 5 6 7 8

SN74ALS353 (N,FNl

SN54AS353 (J,FHl

TYPE

pin assignments

ill..ilL-

,. 0

;;'1

1

[>

2

1 2 3 4 5 6 7 8 9 10

07 06 05 04 03 02 01 DO DC GNO

11 12 13 14 15 16 17 18 19 20

-S-c S2 Sl SO Gl G2 G3 W

Y VCC

FH. FN PACKAGES 1 07 11 SC 12 S2 2 06 13 Sl 3 05 14 SO 4 04 15 Gl 5 03 16 G2 6 02 17 G3 7 01 18 W 8 DO 19 Y 9 DC 10 GNO 20 vcc

\l ~V

3 4 5

90

6

90

7

\l ~w

en ..... C Q)

E :::J

'..... en

c

en

CIl

X

Q)

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFiCe BOX 225012 • DALLAS. TeXAS 75265

© Ie MASTER 1983

933

PRODUCT GUIDE

355

logic symbol t MUX

a-LINE TO 1·LINE DATA SELECTORS/MUL TIPLEXERS/

61

TRANSPARENT REGISTERS (open-collector outputs)

~1Y3 ~1Y4

1A4~

40 rnW 40rnW 40 rnW 295 rnW 295 rnW 60 rnW 60 rnW

2

(14)

\l

2 3 4 5 6 7 8

1G 1A1 1Y1 1A2 1Y2 1A3 1Y3 GND

9 10 11 12 13 14 15 16

1Y4 1A4 2Y1 2A1 2Y2 2A2

iG' Vee

(11) 2Y1 (13) 2Y2

logic symbol t

AO A1

state outputs)

A2

typical performance

SN54S370 (J)

\l

1A3~

POWER DISSIPATION

(512 4-bit words; three-

x

1Y4

1Y4 1A4 2Y1 2A1 2Y2 2A2

pin assignments

1A2~

MEMORIES

ADDRESS TIME 'S370 45 ns

[>

(14)

2048-BIT READ-ONLY

TYPE

1Y3

EN

(12)

1A1 (2)

370

c

~

~

1Y1 1Y2

9 1A1 10 1Y1· 11 1A2 12 1Y2 13 1A3 14

1~

FH. FN PACKAGES 11 nc nc 1Y4 12 2 1G 13 1A4 3 1A1 14 2Y1 4 1Y1 5 1A2 15 2A1 1

6 7 8 9 10

nc 1Y2 1A3 1Y3 GND

16 17 18 19 20

nc 2Y2 2A2 2G

Vee

SN74368A (J,N) SN74ALS368 (N,FN) SN74ALS368-1 (N,FN) SN74LS'368A (J,N,FN)

SN54LS368A (J,FH)

Jo..

~

~

1G (1)

typical performance

E :J ..... en

\l~

logic symbo\t

HEX BUS DRIVERS (inverted three-state outputs organized

Q)

(3)

[>

1 2 3 4 5 6 7 8

SN74367A (J,N) SN74ALS367 (N,FN) SN74ALS367-1 (N,FN) SN74LS367A (J,N,FN)

SN54LS367 A (J,FH)

en ..... c

J. N PACKAGES

EN

ELill-

1A1

typical performance

( 1)

pin assignments

A3

ENABLE TIME 15 ns

POWER! BIT 0.26 mW

SN74S370 (J,N)

A4 A5 A6 A7 AS

S

pin assignments J. N PACKAGES

ROM 512 X4

(5)

1 2

0

(6) (7) (4)

A\l 0 Am

(3) (2)

A\l A\l

(1 ) A\l

(12) (11) (10) , (9)

01 02 03

3 4 5 6 7 8

A6 A5 A4

9 10 11

A3 AO A1 A2 GND

12 13 14 15 16

04 03 02 01

S A8 A7

Vee

04

(15) (14) (13) ~

S

EN

For chip carrier information. contact the factory.

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

936

©

Ie MASTER 1983

PRODUCT GUIDE 371

logic symbol t

2048·BIT READ-ONLY MEMORIES

AO

(256 8-bit words; three.

A1

state outputs)

A2 A3

typical performance

A4

TYPE '5371

ADDRESS TIME 45 ns

ENABLE

POWERI

TIME 15 ns

5N54S371 (J,FH)

A5

BIT

A6

0.26 mW

5N745371 (J,N,FN)

373

A7

51 82

pin assignments ..... ROM 256 X 8

(1)

0

(2)

A\l

(3)

A\l

(4)

0

A 2s5

(5) (17)

A\l A\l A\l

(18)

A~

(6) (7)

(8)

A\l

7,.

(15) ....

A\l

&

(16) ,.."

02 03

(9) 04 (11) (12)

v

(19)

Q1

(13) (14)

05 06

Oc 10

10

20

20

30

30

SN54ALS373 (J,FH) SN54AS373 (J,FH) SN54LS373 (J,FH) SN54S373 (J,FH)

SN74ALS373 (N,FN) SN74AS373 (N,FN) SN74LS373 (J,N,FN) SN74S373 (J,N,FN)

1 2 3 4 5 6 7 8 9 10

FH. FN PACKAGES 11 e ~ 1a 12 5a 10 13 50 14 60 20 2a 15 6a 16 7a 3a 3D 17 70 40 18 80 4a 19 8a GNO 20 Vee

pin assignments

(1)

typical performance

120 mW 525 mW

FH. FN PACKAGES 11 a5 AO 12 a6 A1 13 Q7 A2 14 a8 A3 15 S1 A4 16 ~2 a1 17 A5 a2 18 A6 a3 a4 19 A7 GNO 20 Vee

08

output control, common enable)

TOTAL POWER 70mW

1 2 3 4 5 6 7 8 9 10

EN

(three-state outputs, common

OUT· TYPE DELAY PUTS Q 'ALS373 8 ns 'AS373 Q 'LS373 19 ns Q 'S373 7 ns

J. N PACKAGES 11 a5 AO 12 a6 A1 13 a7 A2 14 a8 A3 A4 15 S1 16 52 a1 17 A5 a2 18 A6 a3 a4 19 A7 GNO 20 Vee

07

logic symbol, 'L5373, 'AL5373, 'AS373 t

OCTAL D·TYPE LATCHES

1 2 3 4 5 6 7 8 9 10

40

40

50

50

60

60

70 (17) 80 (18)

70 (19)

1 2 3 4 5 6 7 8 9 10

J. N PACKAGES 11 e ~ 1a 12 5a 10 13 50 14 60 20 2a 15 6a 16 7a 3a 3D 17 70 40 18 80 4a 19 8a GNO 20 Vee

80

c 10

10

20

20

30

30

40

40

50

50

60

60

70

70

.....c:en

80

80

E

< Q)

D7

(3)

......

(2) (4) (1) (22) (15)

CONTROLLER AND WR BUS DRIVER I/OW HLDA'S428/'S438 MEMW

-..,

DBIN

......

(17) ::---

STSTB BUSEN

-,

""I/OR "-

(27)

"-.

(24)

(10) (19) (21) (8)

,.

0

0

-..... ..... --

\l CPUD

---c-.

(25)

'.

-

...-..

'.

(2S)

MEMR INTA ~

(12) ...-..

(S)

1 2 3 4 5 6 7 8 9 10

FH PACKAGE nc 11 nc lG 12 3Y 13 3A lA 14 3G lY nc 15 nc 16 4Y 2G nc

17

nc

2A 2Y GNO

18 19 20

4A 4G

Vee

pin assignments

CONTROLLER

POWER

FH PACKAGE 11 nc nc 12 3Y lU" lA 13 3A lY 14 30 nc 15 nc 16 4Y 2G nc 17 nc 2A 18 4A 2Y 19 4~ GNO 20 Vee

positive logic: Y = A

SYSTEM FOR 8080A

1 2 3 4

~3Y

4A~

CURRENT CURRENT

J. N PACKAGES lG 8 3Y lA 9 3A lY 10 3G 11 4Y 2G 5 2A 12 4A 13 4G 6 2Y 7 GNO 14 Vee

1Y

~2Y

2A~

typical performance

TYPE

1 2 3 4 5 6 7 8 9 10

pin assignments

1A (2)

hhree-state outputs, active-high enabling)

DELAY

J. N PACKAGES lIT 8 3Y lA 9 3A lY 10 3~ 11 4Y 2G 12 4A 2A 2Y 13 4G GNO 14 Vee

SN74425 (J,N)

426

TYPE

1 2 3 4 5 6 7

positive logic: Y=A

QUAD GATES

C

1

EN

.ill..-

4G~

4A

CURRENT CURRENT SN54425

pin assignments

2G~ 2A~ 3G~ 3A~

typical performance

en

\

logic symbol t

DBUS\l

7

7

(23) - INTA (13) (1S)

--.

(11)

-

(5)

-..

I/OW

M'EMw' i7O"R MEMR

(9)

DBO DB1 DB2 DB3

1 2 3 4 5 6 7 8 9 10 11 12 13 14

DB4 (18) DB5

J. N PACKAGES 15 DO HLOA 16 OBl 17 01 Wff DB IN 18 OB5 OB4 19 05 04 20 OB6 OB7 21 06 07 22 lru-sm 23 1NfA OB3 24 MEMR 03 OB2 25 02 26 ME'MW OBO 27 IIOW GNO 28 Vee

mm

mm

1 2 3 4 5 6 7 8 9 10 11 12 13 14

FN PACKAGE 15 DO HLOA 16 OBl 17 01 OBIN 18 OB5 OB4 19 05 04 20 OB6 06 OB7 21 07 22 lffiSm OB3 23 iN'TA 24 MEMR 03 OB2 25 17rnf 02 26 ~ 27 ITOw 060 GNO 28 Vee

~

wrr

(20) DBS (7) DB7

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

946

@)

Ie MASTER 1983

PR'ODUCT GUIDE

436, 437

logic symbol t

EN

Drives high-impedance loads

G2~

Provides high-speed switching Requires minimum input current

r

I

Damping output resistor for reducing transients ('436)

•

t>

lA~

2A~

~2Y

3A~

::::...J2!...3Y

DELAY

4A~

~4Y

typical performance LOW-LEVEL HIGH-LEVEL OUTPUT

OUTPUT

CURRENT

CURRENT

'S436

150 mA

-lmA

5.5 ns

5A~

::::-.....!.!.!5Y

'S437

150 mA

-lmA

5.5 ns

6A~

~6Y

SN54S436 (J,FH) SN54S437 (J,FH)

FH, FN PACKAGES nc 11 nc 12 4Y m 1A 13 4A 1Y 14 5Y 2A 15 5A nc 16 nc 2Y 17 6Y 3A 18 6A 3Y 19 G2 GND 20 VCC

1 2 3 4 5 6 7 8 9 10

FH, FN PACKAGES 11 SO CS 61 12 S1 C1 13 A4 14 A3 C2 15 A2 62 63 16 A1 17 GA C3 C4 18 G6 64 19 G'c GND 20 vCC

pin assignments

QUAD TRIDIRECTIONAL

444

1 2 3 4 5 6 7 8 9 10

SN74S436 (J,N,FN) SN74S437 (J,N,FN)

BUS TRANSCEIVERS

440 441 442 443

m

~lY

Total power ... 70 mW

TYPE

1 2 3 4 5 6 7 8

G1 ..!.!L.r::a..

DRIVER CIRCUITS - MOS MEMORY INTERFACE

N PACKAGES 9 4Y 1A 10 4A 1Y 11 5Y 12 5A 2A 13 6Y 2Y 14 6A 3A 15 G2 3Y GND 16 VCC

J,

&

LINE DRIVER/MEMORY

• • • •

pin assignments

N PACKAGES 11 SO 12 S1 61 13 A4 C1 14 A3 C2 15 A2 62 16 A1 63 17 GA C3 18 G6 C4 19 GC 64 GND 20 VCC

J,

1 2

(OPEN-COLLECTOR OUTPUTS, NONINVERTED LOGIC) (OPEN-COLLECTOR OUTPUTS, INVERTED LOGIC)

3

(THREE-STATE OUTPUTS, NONINVERTED LOGIC) (THREE-STATE OUTPUTS, INVERTED LOGIC) (THREE-STATE OUTPUTS, INVERTED AND NONINVERTED LOGIC) ALSO SEE 'LS448

4 5 6 7 8 9 10

CS

typical performance TYPE

DELAY

MAX

MAX

SOURCE

SINK

CURRENT CURRENT SN54LS440

22 ns

-

12 mA

SN74LS440

22 ns

24 mA

SN54LS441

15 ns

SN74LS441

15 ns

-

SN54LS442

11.5 ns

-12 mA

12 rnA

SN74LS442

11.5 ns

-15 mA

24 rnA

SN54LS443

8 ns

-12 rnA

12 rnA

SN74LS443

8 ns

-15mA

24 rnA

SN54LS444

9 ns

-12 mA

12 rnA

SN74LS444

9 ns

- 15

r:n A

24rn~

en

+"'

C

12 mA

(J)

24 rnA

E ::J ~

+"'

en

C

SN54 LS440 SN54LS441 SN54LS442 SN54LS443 SN54LS444

(J,FH) (J,FH) (J,FH) (J,FH) (J,FH)

SN74LS440 SN74LS441 SN74LS442 SN74LS443 SN74LS444

en CO >< (J)

(J,FN) (J,FN) (J,FN) (J,FN) (J ,FN)

J-

For logic symbols see next two pages.

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265 @

Ie MASTER 1983

947

PRODUCT GUIDE 440, 441, 442, 443, 444

(continued)

logic symbol

so S1

(12)

1

10(1/2) EN11

(1S)

.....

10(0/2) EN12

(19)

,....."

(17)

A1

Cs ... (1... ) _

..,

10(0/1) EN13

.rr Z4

-I..rr -I.-

Q 7,11

B1

(2)

Z5

6- -2 [C)

(3)

I.A2

B2 C2 A3 B3 C3 A4 B4

C4

.rr Z6 Q9,13

4-

(14)

-,

o [A)

I..rr - I.-

--

....

-

~

6«2 [e)

Q 7,11

B1 (2) _.. ZS·~

Z5

4(-1)0 [A)

Q8,12 6 2 [e)

2 [C) C1 (3)

.rr Z6

l..

'

Q9,13

G10

r-.....

10(1/2) EN11

(1S)

...... ......

10(0/1) EN13

4,(~'>0 [A)

A1 (2)

Z8- •

< (])

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

948

©

Ie MASTER 1983

PRODUCT GUIDE

440, 441, 442, 443, 444

(continued) 'LS444 t

'LS443 t

O} 0

so (11) Sl (12)

Cs

1

(1)

Sl (12)

Cs

f"o... Gl0

GA(17)

GC (19)

10(0/2) EN12

OB (18)

,......" 10(0/1) EN13

GC (19)

I Al (16) ...

-I.-I.-

Bl (2)

r-....

10(1/2) ENll

..

Cl (3)

I.-

2 [e) o

[AI

ilZ5

4

\78,12

6

2 [e]

ilZ6

4

o

5

1 [S]

\79,13

,....,

r

ilZ4

[A]

Bl (2) Z8-

~

1.1.-

.1..-

A2 (15) ..

A2(15)

B2 (5)

B2 (5) _ ....

G.l0 10(1/2) EN11 10(0/2) EN12

-,

10(0/1) EN13

< Q)

9

•

indicators directly

:::J

B

• •

10+-"

FH. FN PACKAGES

1

10

A

19

f

GNO

20

Vee

C (2)

0(61

SN74LS447 (J,N,FN)

....

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

FONT TABLE T2 -

NUMERICAL DESIGNATIONS AND RESULTANT DISPLAYS USING '441

101 11213HlslbIlIBI91c!::JIUElcl o

2

3

•

15

•

7

•

•

10' "

12

13

1.

I 115

TEXA~INSTRUMENTS INCOR PORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

950

©

Ie MASTER 1983

PRODUCT GUIDE

448 logic symbol t

QUAD TRIDIRECTIONAL

pin assignments

so (11)

BUS TRANSCEIVERS

O} G0-

Sl (12)

(OPEN-COLLECTOR OUTPUTS,

1

~(1)

,.....,.

GA (17)

.......

OB (18)

,.."

GC(19)

.......

INVERTED AND NONINVERTED LOGIC)

typical performance MAX MAX TYPE DELAY SOURCE SINK CURRENT CURRENT SN54LS448 17.5 ns 12 rnA SN74LS448 17.5 ns 24 rnA

3

Gl0 10(1/2) ENll 10(0/2) EN12 10(0/1) EN13

:J

~

OUT fMSPI . . . - - - -__ COUT

TO WR

AO. MUX SELECT

•

CiN

{PGM CTR MEM CTR

Ea . . . - - - - - - EaUAL

---.~{ SHIF :;R T MUX - - -....

UJ ...... c

HI·Z

8110 SEL

Q)

E ::J

J... ......

CCO OVER FLOW IMSPI

UJ

C

UJ ctS

XWRLFT

X

~

XWRRT

DATA OUT PORT

ADDRESS OUT PORT

TEXAS)NSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

953

PRODUCT GUIDE

482

pin assignments

4-BIT-SLICE

J, N PACKAGES

1 2 3 4 5 6 7 8 9 10

EXPANDABLE CONTROL ELEMENTS SN54S482 (J,FH) SN74S482 (J,N,FN)

S4 53

Cout Cin 51 S2 A3 A2 A1 GND

11 12 13 14 15 16 17 18 19 20

AO F3 F2 F1 FO

ClR S6 55

ClK VCC

1 2 3 4 5 6 7 8 9 10

FH, FN PACKAGES 11 AO 54 12 F3 53 Cout 13 F2 14 F1 Cin 51 15 FO 16 ClR 52 17 56 A3 18 S5 A2 A1 19 ClK GND 20 VCC

functional block diagram CLOCK CLEAR

CARRY INPUT

DATA IN

CK 4-BIT FULL ADDER

Ij~

__~_

~

____________~~______~

PUSH !POP CARRY OUT

S1 52

en c:

STACK (FILO)

CLR

4-BIT REGISTER Fj

DATA OUT

H

o L D

S3S4

S5S6

+-"

Q)

E

::s

'-

+-"

en c: en ttS

X

Q)

.....

nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

954

©

Ie MASTER 1983

PRODUCT GUIDE logic symbol 'S484 t

484. 485

pin assignments

BCD-TO-BINARY AND

J. N PACKAGES

1 2 3 4 5 6 7 B 9 10

BINARY-TO-BCD CODE CONVERTERS ('484 BCD-to-binary)

EN

('485 binary-to-BCD) typical performance DELAY TIME

TOTAL

PER PKG LEVEL

POWER

'S484

45 ns

525mW

'S485

45 ns

525mW

TYPE

~u~

SN54S484 (J,FH) SN54S485 (J,FH)

LSD {

:_::_--1

2/Gn

Ac __ B

Y1

4/Gn

(3)

Y2

8

Y3

nV(3

~

{MSD

{

(2) (1)

GHF::(:~::):::

B

A Y1 Y2 Y3 Y4 GNO

Y5 Y6 Y7 YB G1 G2 .

1 2 3 4 5 6 7 8 9 10

H

G F

Vee

FH. FN PACKAGES 11 Y5 E 0 12 Y6 13 Y7 e B 14 YB A 15 G1 Y1 16 G2 Y2 17 H Y3 18 G Y4 19 F GNO 20 Vee

Y5

20

Y6

40

Y7

80

(17)

0

e

11 12 13 14 15 16 17 18 19 20

9-BIT BINARY

Y4

10

E

160 _ _ _ _...

Y8

r...;.~

SN74S484 (J,N,FN) SN74S485 (J,N,FN)

logic symbol 'S485 t

EN

>318Vn

9-BIT BINARY

A

2

B

4

C D

8 16

2nV 4nv 8nV

E

32

F G

64

20nV

128

40nV

H

256

80nV

~:

Y4} MSD}

m

pin assignments CTRDIV10

typical performance COUNT FREQ

1CLR

CLEAR

TOTAL POWER

'490

25 MHz

HIGH

225mW

'LS490

35 MHz

HIGH

75mW

SN54490 (J,FH) SN54LS490 (J,FH)

SN74490 (J,N) SN74LS490 (J,N,FNI

1SET9 1CLK

(2) (4)

~

> o

Y7 Y8

logic symbol t

DUAL DECADE COUNTERS

TYPE

LSD

10n V

160n V

490

Y1 } Y2 Y3

CT=O CT=9

(1)

+

(3)

CT{ 10D

2CLR (14)

20A

2SET9 (12)

20B

2C L K......I..1;,;:;5....,;;:1IC>

1 2 3 4 5 6 7 8

J, N PACKAGES 1ClK 9 200 1ClR 10 20C 10.6. 11 20R 1SET9 12 2SET9 10a 13 20A 10c 14 2ClR 100 15 2ClK GNO 16 VCC

FH, FN PACKAGES

1 2 3 4 5 6 7 8 9 0

11 1ClK 12 1ClR 13 10A 14 1SET9 15 nc 16 10B 17 10C 18 100 19 GNO 20

nc

nc

200 20c .20a 2SET9 nc

20A 2ClR 2ClK

t Pin numbers shown on logic symbols are for J and N packages only.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DAllAS. TEXAS 75265

Ie MASTER 1983

E :J

:...... en

c en

{!!.

2QD

nc - no internal connection.

@

C

Q)

ctS X

VCC

20C (9)

en .....

955

PRODUCT GUIDE 518,519,~20,

521,522

logic symbol 'ALS518, 'ALS519t

8-BIT MAGNITUDE COMPARATORS

TYPE ALS518 ALSS19 ALS520 ALS521 ALS522

INPUT PULL-UP RESISTOR yes no yes no yes

OUTPUT FUNCTION COMPARE AND POWER TIME CONFIGURATION 17.5 ns 50 mW P =0 open-collector P = 0 open-collector 17.5 ns 37.5 mW P = 0 totem-pole 9 ns 50 mW P=n totem-pole 9 ns 37.5 mW P=Q open-colLector lS.S ns SO mW

J. N PACKAGES

t>

G

Compares two 8-bit words

•

pin assignments, 'ALS518, 'ALS519

COMP 1

SN74ALS518(N,FN) SN74ALS519 (N,FN) SN74ALS520 (N,FN) SN74ALS521 (N,FN) SN74ALS522 (N,FN)

logic symbol 'ALS520, 'ALS521 t

FH. FN PACKAGES P4 11 ~

1

2

PO

12

04

2

PO

12

04

3

00

13

PS

3

00

13

PS

P2

4

P1

14

OS

4

Pl

14

OS

P3

S

01

1S

P6

S

01

1S

P6

P4

6

P2

16

06

6

P2

16

06

PS

7

02

17

P7

7

02

17

P7

P6

8

P3

18

8

P3

18

07

9

03

19

07 p=o

9

03

19

P=O

GND

20

Vee

10

GND

20

Vee

P7

lP=O Q

(19)

P=O

00 01

(7) 02 03 (91 04 (12) (14) OS (16) 06 (18) 07

0

logic symbol 'ALS522 t

pin assignments, 'ALS520, 'ALS521, 'ALS522

COMP

t>

P4

Pl

COMP

G

11

PO

10

SN54ALS518(J,FH) SN54ALS519 (J,FH) SN54ALS520 (J,FH) SN54ALS521 (J,FH) SN54ALS522 (J,FH)

G

J. N PACKAGES

t>

G

1

G

11

P4

1

FH. FN PACKAGES P4 G 11

PO

PO

2

PO

12

04

2

PO

12

04

Pl

Pl

3

00

13

PS

3

00

13

PS

P2

P2

4

Pl

14

OS

4

Pl

14

OS

P3

P3

S

01

1S

P6

S

01

lS

P6

P4

6

P2

.16

P2

16

06

7

02

17

06 P7

6

PS

7

02

17

P7

8

P3

18

07

8

P3

18

07

9

03

19

P=O

9

03

19

P=O

GND

20

Vee

10

GND

20

Vee

P

P4 PS

P6

P6 P7

lP=O

P=O

P7

lP=OQ

10

00 (3) 01 (S) 02 (7) 03 (9)

0 U)

0

04 (12) (14)

05

+J

C

Q)

7

E

(16) 06 (18) 07

7

:::J

:10... +J

U)

C U)

ctS X

Q)

I-

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 22S012 • DALLAS, TEXAS 75265

956

@

Ie MASTER 1983

PRODUCT GUIDE

533

logic symbolt'

OC

OCTAL OoTYPE TRANSPARENT LATCHES

pin assignme'1ts

(1) ,......" .. EN

C (11 )

~1

•

Three-state buffer-type outputs drive bus lines directly

10

(3)

20

(4)

•

Inverting outputs

3D

(7)

...... (6)

40

(8)

r-.. (9)

typical performance

TYPE ALS533 AS533

OUTPUTS

DELAY

Q Q

10 ns 5 ns

10

[>

'V

50 (13) 60 (14)

TOTAL POWER 60mW

..... (2)

10

...... (5)

20 30

...... (12) ....... (15)

70

( 17)

t---.. (16)

80

(18)

t--,..

(19)

40 50

1 2 3 4 5 6 7 8 9 10

J. N PACKAGES 11 C OC 10 12 50 10 13 50 14 60 20 2li 15 6li 30' 16 70' 3D 17 70 40 18 80 4~ 19 80 GNO 20 vCC

OC 10' 10 20 2li" 3eT 3D 40 4eT

GND

11 12 13 14 15 16 17 18 19 20

C 50 50 60 6li 70 70 80 8li

vcc

66 70 80

SN74ALS533 (N,FN) SN74AS533 (N,FN)

SN54ALS533 (J,FH) SN54AS533 (J,FH)

534

logic symbolt

pin assignments

OCTAL OoTYPE EDGETRIGGERED FLIP-FLOPS

OC (1) -..

1 2 3 4 5 6 7 8 9 10

• •

FH. FN PACKAGES

1 2 3 4 5 6 7 8 9 10

EN

(11 ) Three-state buffer-type outputs drive bus lines directly

C1

ClK

Inverting outputs

10 20

(3)

-, 10

r[>

'V

50 60 70 80

(2)

10

(4)

r-.....

(7)

r...... (6) 30

(8)

r...... (9)

( 13)

........ (12)

3D 40

to......

(5)

20

J. N PACKAGES oc 11 ClK 12 50 10 10 13 50 14 60 20 15 60 20 3li 16 7eT 17 70 3D 40 18 80 40 19 80 GNO 20 vCC

FH. FN PACKAGES

1 2 3 4 5 6 7 8 9 10

DC 10 10 20 20 3(l 3D 40 4Q

GNO

11 12 13 14 15 16 17 18 19 20

ClK 50 50 60 6li 7li 70 80 80

vCC

Q)

40

E

50

::l

(14)

........ (15) 65

..... en

( 17)

....... (16)

en

( 18)

r-.... (19) 85

typical performance

~

c:

70

as X

{E.

DATA TIMES PWRI F/F SET-UP HOLD ALS534 50 MHz 10.4 mW AS534 165 MHz TYPE

F-MAX

SN54ALS534 (J,FH) SN54AS534 (J,FH)

SN74ALS534 IN,FN) SN74AS534 (N,FN)

tPln numbers shown on logic symbols are for J and N packages only.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS. TEXAS 75265 ~

Ie MASTER 1983

.....c:en

957

PRODUCT GUIDE

538

logic symbolt

pin assignments

x/v t>

3- TO 8-LINE DECODERS!

AL

DEMULTIPLEXERS

N/3

J. N PACKAGES

&

DE1 0E2

•

Three-state outputs

•

Output polarity control

•

Multiple enables for expansion

1

B

2 4

0, a,l3\l 1, a,/3\l 2, a,l3\l 3,a,/3\l 4, a,l3\l 5,a,/3\l 6, a,l3\l 7, a,l3\l

& ..

SELECT

ENABLE

TOTAL

TIME

TIME

POWER

'ALS538 SN54ALS538 (J,FH)

A C

typical performance TYPE

EN

SN74ALS538 (N, FN)

G2 G3 G4

Ga

(3)

OR

DMUX

AL

(12)

N10

t>

VO V1 V2 V3 V4 V5 V6 V7

Y2 Y1 YO l5'r1 cr2

1 2 3 4 5 6 7 8 9 10

A

11 12 13 14 15 16

Y7

AL G1 G2 G3 G4

B

17

e

Y5 Y6 GND

18 19 20

Y4 Y3

Vee

FH. FN PACKAGES

1 2 3 4 5 6 7 8 ·9 10

Y2 Y1 YO ~1

0£2

A B

Y5 Y6 GND

11 12 13 14 15 16 17 18 19 20

Y7

AL G1 G2 ~3

< Q) I-

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

958

@

Ie MASTER 1983

PRODUCT GUIDE

539

logic symbol.s t

2- TO 4-LINE DECODERSI

XIV

DEMUL TIPLEXERS

• •

pin assignments

Ni3

Three-state outputs

EN

Output polarity control

1 2

0, aJj\l 1,a,i3\l 2, aJj\l 3, a,i3\l

typical performance TYPE

SELECT

ENABLE

TOTAL

TIME

TIME

POWER

J, N PACKAGES

lYO 1Y1 lY2 1Y3

2YO 2Y1 2Y2 2Y3

'ALS539 SN54ALS539 (J,FH)

(3)

SN74ALS539 (N, FN)

OR

DMUX 1AL 10E

N10 EN

O}~ 1 3

0,10 1,10 2,10 3,10

\l \l \l \l

(3) 1YO (2) 1Y1 ( 1) 1Y2 (19) 1Y3

1 2 3 4 5 6 7 8 9 10

1Y2 1Y1 1YO 1AL 10E 2A 2B 2Y3 2Y2 GND

11 12 13 14 15 16 17 18 19 20

2Y1 2YO 2AL 20E 2G 1IT 1A 1B 1Y3

Vee

FH, FN PACKAGES

1 2 3 4 5 6 7 8 9 10

1Y2 1Y1 1YO 1AL 10E 2A 2B 2Y3 2Y2 GND

11 12 13 14 15 16 17 18 19 20

2Y1 2YO 2AL 20E 2G 1IT 1A 1B 1Y3

Vee

(12) 2YO (11) 2Y1 (9) 2Y2 (8) 2Y3

.. .. en

c: Q)

E :::s :10-

en

c:

en

ctS

x

Q)

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265 @

Ie MASTER 1983

959

PRODUCT GUIDE 540, 541

&

OCTAL BUFFERS AND LINE DRIVERS

G1

•

Th~ee-state

C1

Buffer-type outputs drive bus lines directly Inverted outputs

::J

12 13 14 15 16 17 1S 19 20

70

typical performance

+'"

10 20 3D 40 60 60 70 SO GNO

SO

TRIGGERED FLIP-FLOPS

TYPE

FH. FN PACKAGES 11 C OC

60

OCTAL D-TVPE EDGE-

•

1 2 3 4 6 6 7 S 9 10

SN74ALS563 (N,FN)

564 •

J. N PACKAGES 11 C OC 12 SCi 10 13 7Q 20 14 80 3D 16 6Ci 40 18 40 60 17 3Q 80 18 20 70 19 10 SO GNO 20 Vcc

(9)

+'"

FH. FN PACKAGES

1 2 3 4 5 6 7 8 9 10

oc 10 20 30 40 50 60 70 80 GNO

11 12 13 14 15 16 17 18 19 20

elK 80 70 60 50 40 30 20 10

Vec

70 80

en

c:

en >< CD ctS

I-

t Pin numbers shown on logic symbols are for J and N packages only.

TEXAS INSTRUMENTS INCORPORATED

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962

@

Ie MASTER 1983

PRODUCT GUIDE logic symbol t

568

Gl!ZLI::::::.

1.;:

ENT

'ALS568

Low

Ml (UP] M2 (DOWN]

CLK (2)_

typical performance CLEAR

EN10

U/D~

(decade, synchronous and asynchronous clear)

TYPE

J. N PACKAGES

CTROIV10

SYNCHRONOUS 4-81T UP/DOWN COUNTERS

COUNT FREQ 30 MHz

pin assignment

TOTAL POWER 93 mW

I--'

C5/1.4.7.8+/2.4.7.8-

Z6

1l.!L...r:::::.

G7

6.7.8.9

E N PJZ.L.r:::::,. G8

sClfi~

~RCO 2.7 (CT=O) G9

5CT=O

LOAD~

~CCO

1.7 (CT=9) G9

M3(LOAO]

FH. FN PACKAGES

1

u/t5

11

lOAD

1

U/D

11

lOAD

2

ClK

12

00

2

ClK

12

ENT

3

A

13

Co

3

A

13

Co

4

8

14

Cc

4

8

14

Cc

5

C

15

08

5

C

15

C8

6

0

16

CA

6

0

16

CA

17

(4)

3D

of'LS373 typical performance

10

(3)

20

Approximately half the power

TYPE

(2)

10

FH. FN PACKAGES

J. N PACKAGES

(1) _

DC

LATCHES Functioljlally equivalent to

(8)

(13)

(9)

(12)

30

1 2 3 4 5 6 7 8 9 10

OC 10 20 3D 40 50 60 70 80 GND

1 2 3 4 5 6 7 8 9 10

ClK

11 12 13 14 15 16 17 18 19 20

SO 70 60 50 40 30 20 10

Vce

OC 10 20 3D 40 50 60 70 80 GNO

11 12 13 14 15 16 17

18 19 20

elK SO 70 60 50 40 30 20 10

VCC

40 50 60 70 80

Rising edge of clock pulse

SN54ALS574 (J,FH) SN54AS574 (J,FH)

SN74ALS574 (N,FN) SN74AS574 (N,FN)

575

ac

OCTAL D-TYPE'EDGETRIGGERED FLIP-FLOPS

•

•

(14)

CLR

Noninverting outputs

10

typical performance

'ALS575 'AS575

f max

PWR/ F-F 50 MHz 8.4 mW

(21 ,.....".

ClK

3-state buffer-type outputs drive bus-lines directly

TYPE

pin assignment

logic symbol, 'AlS575. 'AS575

20

DATA TIMES SETHOLD UP 10 nst 4 nst

3D 40 50 60 70

tRising edge of clock pulse SN54ALS575 (J.FH) SN74ALS575 (N,FN) SN74AS575 (N.FN) SN54AS575 (J.FHI

(1) t-(3)

~

Cl lR

-, 10

FH. FN PACKAGES

J. N PACKAGES

EN

i' [>

(4) (5) (6) (7)

\l

(22) 10 (21) 20 (20) 30 (19) 40 (18) 50

(8)

(17)

(9)

(16)

(10)

(15)

80

60 70

1 2 3 4 5 6 7 S 9 10 11 12

ClR ~

10 20 3D 40 50 60 70 SO nc

GNO

13 14 15 16 17 1S 19 20 21 22 23 24

nc

ClK SO 70 GO SO 40 30 20 10 nc

Vce

1 2 3 4 5 6 7 8 9 10 11 12 13 14

nc

elR DC 10 20 3D 40 nc

50 60 70 80 nc

GNO

15 16 17 1S 19 20 21 22 23 24 25 26 27 2S

nc nc

ClK SO 70 60 50 nc

40 30 20 10 nc

Vee

SO

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED

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964

@

Ie MASTER 1983

PRODUCT GUIDE 576

pin assignments

logic symbol t

OCTAL D-TYPE EDGE-

•

Buffer-type outputs drive bus

•

I nverted outputs

(1) ....

OC

(11 )

ClK

lines directly (2)

10

PWRI F-F 804 mW

f max

'ALS576 50MHz 'AS576

.,

Cl

10

(3)

60 70

SN54ALS576 (J,FH) SN54AS576 (J,FH)

EN

r C>

~

V

80

SN74ALS576 (N,FN) SN74AS576 (N,FN)

577

(19)

_ 10

:::-!.!!L 20 :::-!!ZL 30-

20 (4) 3D (5) 40 (6) 50

typical performance TYPE

FH, FN PACKAGES

J, N PACKAGES

TRIGGERED FLIP-FLOPS

........ (16) 40

1 2 3 4 5 6 7 8 9 10

OC 10 20 3D 40 50 60 70 80 GNO

11 12 13 14 15 16 17 18 19 20

-elK 80 70 60 50 40 30 20 10

Vee

1 2 3 4 5 6 7 8 9 10

DC

10 20 3D 40 50 60 70 80 GNO

11 12 13 14 15 16 17 18 19 20

elK 80 7IT 60 5IT 40 30 20 10

Vee

.......... (15) 50

(7)

::::-.ll& 60

(8)

~7a

(9)

...... (12)

_ 80

pin assignment

logic symbol. 'ALS577, 'AS577 \

OCTAL OoTYPE EDGETRIGGERED FLIP-FLOPS

• •

•

DC ClK

m

Buffer-type outputs drive bus lines directly Inverted outputs

10

Synchronous clear

20

3D 40 50 60 70

(2) .......... (14) (1) _

~ Cl

-, lR

(3)

10

FH, FN PACKAGES

J, N PACKAGES

EN

r [>

\l .......

(22) 10

(4)

~ (21) 20

(5)

........ (20) 30 ........ (19) 40 ......... (18) 50

(6) (7)

......... (17) 60 ...... (16) 70 ...... (15)

(8) (9) (10)

80

1 2 3 4 5 6 7 8 9 10 11 12

ern rrc 10 20 3D 40 50 60 70 80 nc

GNO

13 14 15 16 17 18 19 20 21 22 23 24

nc

elK 80 70 6IT 50 4IT 30 2IT

lIT nc

Vee

1 2 3 4 5 6 7 8 9 10 11 12 13 14

nc

m OC 10 20 3D 40 nc

50 60 70 80 nc

GNO

15 16 17 18 19 20 21 22 23 24 25 26 27 28

nc nc

elK 80 70 60 5IT nc

4IT 30 2IT 10 nc

Vee

80

\

typical performance

TYPE 'ALS577 'AS577

f max

POWER/ F-F 50 MHz 8.4 mW

"-

DATA TIMES SETHOLD UP 10 nst 4 nst

. tRising edge of clock pulse SN54ALS577 (J,FH) SN74ALS577(N,FN) SN54AS577 (J,FH) SN74AS577(N,FN)

t Pin numbers shown on logic symbols are for J and N packages only

0

nc -- no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

965

PRODUCT GUIDE pin assignments

logic symbol t

580 OCTAL D-TYPE TRANSPARENT

(1)

OC

LATCHES WITH INVERTED

...

(11)

C

OUTPUTS

•

Three-state buffer-type outputs

(2)

10

drive bus lines directly

20

typical performance TYPE

30

DELAY 11 ns

'ALS580 'AS580

TOTAL POWER 67.5 mW

50

(18) 2Q

(4)

.....

(17) 30

-

(12)

CCKEN~ CCK (11)

CCLR~

register outputs

•

Counter has direct clear

CTRS G1

.,

1+

4~RCO

(CT = 255) Z4 " ..

CT=O

r

[::>

r

3

\l

MAX FREQ 'LS590 'LS591

20 MHz 20 MHz

I

PARALLEL

I

LOAD

CLEAR

TOTAL

SYNC

SYNC-L 166.5 mW

SYNC

155 mW

SN54LS590 (J,FH) SN54LS591 (J,FH)

SYNC-L

B

~OC ~Oo ~OE

~OF

POWER

1 2 3 4 5 6 7

(15) a (1) A

~OB

typical performance

COUNT

e 80 70 60 5/l 4/l 30 20 1Q

Vee

pin assignments

20

TYPE

GNO

11 12 13 14 15 16 17 18 19 20

-

C2

'LS590 has three-state register 'LS591 has open-collector

10 20 3D 40 50 60 70 80

80

EN3

RCK (13)

outputs

C'e

~70

(9)

G~

8-BIT BINARY COUNTERS WITH OUTPUT REGISTERS

•

(16) 4Q (15) 50

FH, FN PACKAGES

1 2 3 4 5 6 7 8 9 10

::::-l!!!.. 60

(8)

80

(19) 10

~

J, N PACKAGES 11 e ~ 10 12 80 20 13 70 14 60 3D 40 15 5/l 50 16 40 60 17 30 70 18 20 80 19 10 GNO 20 Vee

logic symbol, 'LS590 t

590, 591 •

\l~

(3)

(7)

60

SN74ALS580 (N,FN) SN74AS580 (N,FN)

r [>

10

(6)

70

SN54ALS580 (J,FH) SN54AS580 (J,FH)

,

C1

(5)

40

1 2 3 4 5 6 7 8 9 10

EN

~OG

~OH

FH. FN PACKAGES 1 2 3 4 5 6 7 B

9 10

SN74LS590 (J,N,FN) SN74LS591 (J,N,FN)

J. N PACKAGES 9 RCa 10 CCLR 11 CCK 00 12 CCKEN °E 13 RCK OF 14 IT °G 15 °A °H GNO 16 Vee

Os °c

nc

Os Oc 00

°E nc

OF °G QH GNO

11 12 13 14 15 16 17 18 19 20

nc

RCa CCLR CCK CCKEN nc

RCK "IT °A VCC

logic symbol, 'LS591 t

.....cen

G~

Q)

EN3

RCK (13)

E

C2

:::J

..... en ~

CCKEN~

c

CCK (11) -.~

en

CCLR

ctS

x t-

Q)

CTRS G1

.,

1+

(CT = 255) Z4-·

4~RCO

CT=O.

r

r 20 [>

3 Q --1ill.o A ---1!.LoB

.-ill:.ac

~Oo

--!!LOE

~OF

- - i l l . oG

-.-ill. OH

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE SOX 225012 • DALLAS. TEXAS 75265

966

©

Ie MASTER 1983

PRODUCT GUIDE

592

logic symbol t CTRS

8-BIT BINARY COUNTERS

CcDi

WITH INPUT REGISTERS

• •

illLr:::.

~~

Has parallel register inputs

CCK

Counter has direct overriding

CLOAD

load and clear

•

pin assignments

Guaranteed counter frequency

RCK

(11)

~ (13)

MAX COUNT

PARALLEL

CLEAR

LOAD

FREQ

SYNC

20 MHz

"

A

SYNC-L

TOTAL POWER 130mW

F

G~

SN74LS592 (J,N,FN)

H

8-BIT BINARY COUNTERS

G

WITH INPUT REGISTERS

G

(lS) .J""-..

CCKEN (15) (14)

CC"i G 15 A H 16 VCC GNO B

nc

B C

0 E nc

F

G H GNO

11 12 13 14 15 16 17 18 19 '20

nc

RCa CCLR CCK CCKEN nc

RCK CLOAO A Vcc

pin aSsignments

(19)

CCLR (12)

Counter has direct overriding

MAX

r

10

>---

Has parallel three-state I/O:

COUNT

Cl

.ill...-

register i nputs/cou nter

•

.,

logic symbol t

593

•

C2

(5)

SN54LS592 (J,FH)

•

~RCa

CT = 255

3+

""'"

~

~ B~ C~ D~ E~

typical performance

CT = 0 G3

""'"

... dc to 20 MHz

1 2 3 4 5 6 7 8

RCa

J. N PACKAGES 11 RCa 12 CCLR BlOB 13 CCK C/OC 14 crKrn 0/0 0 15 CCKEN E/OE 16 RCK F/OF 17 ~ G/OG 18 G H/OH CIQA'l) 19 G GNO 20 vcc A/OA

FH. FN PACKAGES

C3 Gl :>lC2

..,

t. V'

(11)

1 2 3 4 5 6 7 8 9 10

,.

r

20

3D 5,6

[>

Z5

(3) ....

C (4):: 0/ 0 0 (5) ~

1 2 3 4 5 6 7 8 9 10

A/OA BlOB

C/Oc 0/0 0 E/QE F/OF

G/OG H/OH

CTI5Al) GNO

11 12 13 14 15 16 17 18 19 20

RCa CCLR CCK

-crRm CCKEN RCK ~

(j G

.....en C

VCC

Q)

E/OE ..... FlO ,(6):: F (7)..... G/OG ..... H/O (SC: H ......

E ..... en :::J

'-

c

en

as X

Q)

I-

t Pin numbers shown on logic symbols' are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265 @

Ie MASTER 1983

967

PRODUCT GUIDE 594 8-BIT SHIFT REGISTERS

(12)

RCK

with storage

SRCK

Buffered outputs

3 4

SRG8

5

R

(11)

Cl/--+

(14) SER

Guaranteed shift frequency

1 2

C2

SRCLR~

Serial-in, parallel-out shift registers

• •

J. N PACKAGES

FfC[""R ~ R3

I

WITH OUTPUT LATCHES

•

pin assignments

logic symbol t

~

r

., 10

20 t>

typical performance

8

~O (3) C

1

nc

2 3 4

OB Oc 00 OE

~OO

SERIAL DATA

~O

ASYNC

TOTAL

CLEAR

POWER

INPUT 'lS594

(15) 0

0

(5) E -OF

20 [>

low

[>

~OG 3~OH ~OH'

SN54LS594 (J,FH) SN74LS594 (J,N,FN) logic symbol, 'LS595 t

595, 596

G~

8-BIT SHIFT REGISTERS

RCK

WITH OUTPUT LATCH ES

•

Serial-in, parallel-out shift

•

'LS595 has three-state parallel

SRCLR

registers with storage

SRCK SER

outputs

•

'LS596 has open-collector

•

Guaranteed shift frequency

(12)

~ ill)

INPUT 'LS595 'LS596

en ...... c Q)

D D

SN54LS595 (J,FH) SN54LS596 (J,FHI

E :::J .... ...... en c en

5 6 7

8 9 10

SRG8 R

Cl/--+

r

~ ~o

r

(15)

20t>3\l~ 0 (1) A ~OB

~OO ~O (5) E ~O

20t>3\l~ O~

~OH'

ASYNC TOTAL CLEAR POWER 167 mW 160mW

3 4 5 6 7 8

SN74LS595 (J,N,FN) SN74LS596 (J,N,FN)

SRCK (11) SER

~

16 17 18 19

nc

i"fCCl'\ SEA OA Vcc

20

OB Oc 00 OE OF °G OH GNO

9

OH'

10~

11 SACK 12 ACK 13 'IT 14 SEA 15 OA 16 VCC

FH. FN PACKAGES nc

2 3 4

OB Oc 00 OE

5 6 7

nc

OF OG OH GNO

11 12 13 14 15 16 17 18 19 20

nc

OH

"S"Wf SCK ACK nc

G SEA OA VCC

EN3

RCK (12)

SRcIR~

OH' SRCLA SACK ACK

13 14 15

1

8 9 10

logic symbol, 'LS596 t

G~

nc

J. N PACKAGES

~OF

LOW

11 12

OF OG OH GNO

---OC

LOW

SRCK RCK RCLR SER OA VCC

13 14 15 16

nc

1 2

C2

typical performance

DATA

SR'Wi

FH. FN PACKAGES

EN3

... dc to 20 MHz

SERIAL

°H'

pin assignments

parallel outputs

TYPE'

°E OF OG OH GNO

~A ~OB

... dc to 20 MHz

TYPE

r3

6 7

9 10 11 12

OB Oc 00

C2 SRG8 R

.,

Cl/--+

10

-

r

cu x

1 (15) 20 [>3Q~ 0A (1 ) ---"(2i °B ~OC

~O (4) 0

~

~OE

(5)

~OF ~OG 20[>3Q~ OH '(9)

~OH'

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

968

© Ie MASTER 1983

PRODUCT GUIDE logic symbol t

597 a-BIT SHIFT REGISTERS

•

riding load and clear

DATA INPUT

'LS597

D

TOTAL

E

...!!L.-

CLEAR POWER

ASYNC

F

....!.2L-

LOW

logic symbol t

SRCK (13) (9)

SiITOAi5

register outputs Shift register has direct over-

RCK OS

riding load and clear Guaranteed shift frequency ... dcto 20 MHz typical performance

INPUT 'LS598

ASYNC TOTAL

SN54LS598 (J,FH)

.......

(15)

I

BOB

(~-

G H GNO

177 mW

SN74LS598 (J,N,FN)

C2

20 \7 6,14

"'-'1..:; 20

0/0 0 (4) E/OE (5) F/OF (6)

G/OG

4C5/4C3

(7)

H/OH (8J

r f>

1,50 1,50

4-

-

J, N PACKAGES

R G4

Gl

C/Oc (3) . LOW

SRGS EN14

.,

(191

(lS) SERO SERl (17) (1 ) A/OA

CLEAR POWER

D

------

SRCLR (12) SCi 30

Z7

....~

.....Cen

...

~-

-

Q)

~.;.

1.-

20 \713,14

30

ldi

E ..... en ::J ~

(11) OH'

c en

as >< Q)

f-

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265 @

Ie MASTER 1983

969

PRODUCT GUIDE

599

logic symbol t

illl...t::..

a-BIT SHIFT REGISTERS

R Cl R RCK /(12)

WITH OUTPUT LATCHES

• • •

SRcCR~

Serial-in, parallel-out shift registers

SRCK (11)

Open-collector outputs Guaranteed shift frequency

SER

~

pin assignments R3 C2

1 2 3 4

SRGS R

..,

Cl/--+ I"

10

... dc to 20 MHz

r

(15) 20 C>3Q~ OA (1 )

~OB

SERIAL DATA INPUT 'LS599

0

~O (4) 0 ASYNC

TOTAL

CLEAR

POWER

~OE

1 2

---wi

3 4

(5)

--m

20 C> 3 Q -

Low

C>

SN54LS599 (J,FH)

7 8

~OC

typical performance

TYPE

5 '6

(9)

OF OG °H'

~OH'

5 6 7 8 9 10

SN74LS599 (J,N,FN)

J. N PACKAGES 9 OH OB 10 ~ Oc 11 SRCK 00 12 RCK OE 13 RcrR OF 14 SER OG 15 OA OH GNO 16 VCC

FH. FN PACKAGES nc 11 nc 12 OH' OB 13 SRCLR Oc 14 SRCK 00 15 RCK OE nc 16 I1C 17 Am OF 18 SER °G 19 OA OH GNO 20 VCC

en

+oJ

C

Q)

E :J L..

,

+oJ

en c en

ca x Q)

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

970

@

Ie MASTER 1983

PRODUCT GUIDE

600

logic diagramt

MEMORY REFRESH CONTROLLERS

•

Controls refresh cycle of 4K or 16K

•

Three-state outputs drive bus

•

Time to initiate refresh request

•

Refresh modes: transparent,

dynamic RAM's lines directly is

typi~allY

30 ns

burst SN74LS600A (J,N)

SN54LS600A (J)

pin assignments J.N PACKAGES

RC BURST ...:.ll:.;;,;91'--*--i

1

BUSY

11

RCRAS" HI

2

AO

12

RCRAS La

3

Al

13

REF REOl

4

A2

14

REF RE02

5

A3

15

RAS

6

A4

16

HOLD

7

A5

17

LATCHED RCa

8

A6

18

RESET LATCHED RCa

9

4K!16K

19

RC BURST

GND

20

VCC

10

RESET 1181 LATCHED - ' - - - - - I RCO

')0--------------------01

For chip carrier information, contact the factory.

601

logic diagram t

MEMORY REFRESH CONTROLLERS

•

Controls refresh cycle of 64K

•

Three-state outputs drive bus

•

Time to initiate refresh request

•

Refresh modes: transparent,

dynamic RAM's lines directly is typically 30 ns

.....Cen

burst SN54LS601 A (J)

SN74LS601 A (J,N)

Q)

E

pin assignments J,N PACKAGES

~

c en Ct1 >< Q)

RC RAS HI

1 BUSY 11 2 . AO 12

RC RAS La

3

Al

13

REF REO 1

4

A2

14

REF RE02

5

A3

15

6

A4

16

RAS 'RUm

7

A5

17

LATCHED RCa

8

A6

18

RESET LATCHED RCa

9

A7

19

RC BURST

GND

20

VCC

10

:::J

..... en

RC BURST .!.ll~91,--*-.,

L::~~!D l.:ll~81'--_ _r ' » - - - - - - - - - - - - - - - - - - - _ q RCO

f-

For chip carrier information, contact the factory. tPin numbers shown on logic symbols are for J and N packages only nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265 @

Ie MASTER 1983

971

PRODUCT GUIDE

602

logic diagram t

MEMORY REFRESH CONTROLLERS •

Controls refresh cycle of 4K or

RCRASHI~~~------------~

16K dynamic RAM's •

Three-state outputs drive bus

•

Time to initiate refresh request

•

Refresh modes: cycle steal,

lines directly is typically 30 ns burst

SN54LS602A (Jl

SN74LS602A (J,Nl

pin assignments J, N PACKAGES 1

MY

11

2

AO

12

RC~LO

3

A1

13

REF REQ1

4

A2

14

REF REQ2

S

A3

1S

6

A4

16

RAS Fmrn

7

AS

17

READY

8

A6

18

RC CYCLE STEAL

9 10

RC~HI

4K/16K 19

RC BURST

GND

VCC

20

STEAL

For chip carrier information, contact the factory.

603

logic diagram t

MEMORY REFRESH

r -______-e____________________~~--------(~15~1

CONTROLLERS •

Controls refresh cycle of 64K

•

Three-state outputs drive bus

•

Time to initiate refresh request

•

Refresh modes: cycle steal,

RC~HI~(l~1i~~------------r.

~

JO-......-q>--------.....- ' - i ~__--......:.(1'""1 BUSY

dynamic RAM's lines directly

en ..... C

is typically 30 ns

Q)

E ::J ..... en :10.-

burst

SN54LS603A (Jl

SN74LS603A (J,Nl ~--~---------4~----1~~--~(~161 H 5 V [OSC]

OSCILLATORS

lOSC GND

o V [OSC]

VOLTAGE·

•

FH. FN PACKAGES 1 nc 11 nc 2 OSC GND 12 Z 13 VCC 3 RNG 14 nc 4 CXl 15 nc 5 nc 6 CX2 16 nc 7 nc 17 nc 18 nc 8 !"N 19 FREQ CO NT 9 Y 10 GND 20 OSC VCC

Z

CX2

20 MHz

veo

Y

FC

lFC

FC

Separate supply voltage pins

lCXl

CX

for input/output isolation

lCX2

CX

•

Maximum output frequency

•

Improved version of original

lY (2)

1Z

=

20 MHz

20SC VCC

2Y

family

2Z

2CXl

626

SN74LS625 (J.N.FN)

typical performance

2CX2

logic symbol t

Separate supply voltage pins for input/output isolation Maximum output frequency =

5V [OSC]

lEN lFC lCXl

!G

lY

C> lZ

lCX2

20 MHz Improved version of original family SN54LS626 (J,FH)

2FC

SN74LS626 (J.N,FN)

(15)

2CXl

2Z

2CX2 (8)

t Pin numbers shown on logic symbols are for J and N

1 2 3 4 5 6 7 8

GND lZ lY lEN lCXl lCX2 OSC VCC OSC GND

2Y

2EN

OSC GND

nc -

FH. FN PACKAGES 11 nc GND 12 20SC GND lZ 13 20SC VCC 1Y 14 2FC lCXl 15 2CX2 nc 16 nc lCX2 17 2CXl lFC 18 2Y 10SC VCC 19 2Z 10SC GND 20 VCC

~ackages

nc

W ......

c:

J. N PACKAGES

(7)

OSCILLATORS

•

1 2 3 4 5 6 7 8 9 10

OSC VCC

CONTROLLED

•

J. N PACKAGES GND 9 20SC GND lZ 10 20SC VCC lY 11 2FC lCXl 12 2CX2 lCX2 13 2CXl lFC 14 2Y 10SC Vee 15 2Z 10SC GND 16 Vce

pin assignments

VOLTAGE·

•

1 2 3 4 5 6 7 8

20SC GND 2FC

SN54LS625 (J.FH)

J. N PACKAGES OSC GND 8 Z RNG 9 Vee eXl 10 nc CX2 11 nc 12 nc m Y 13 FREQ CO NT GND 14 OSC VCC

1 2 3 4 5 6 7

1 2 3 4 5 6 7 8 9 10

9 10 11 12 13 14 15 16

Q)

lFC 2FC 2CX2 2CXl 2m 2Y

E ::::::J J... ...... oW c:

W ctS

2Z

>


CX

RX~

family

nc

2

J. N PACKAGES

r(14)

Separate supply voltage pins for input/output oscillators

•

10 2CX2

11

pin assignments OSC VCC

I REPLACES I , LS324 l'LS628 I I

OSCILLATORS

•

20SC GND

9

nc

8

I TYPE

CONTROLLED

OSCILLATORS

1

4 lCX2 11 2CXl 10SC 12 2FC 5 GND 20SC 13 6 1Y vcc 7 GND 14 VCC

logic symbol t

typical performance

VOLTAGE-

CONTROLLED

3 lCXl

FH. FN PACKAGES

8 2Y

2CX2~

SN74LS627 (J,N,FN)

•

2 lFC

ex

2FC~

SN54LS627 (J,FH)

•

~1Y

FC

10SC VCC

1

20SCVCC ~

Improved version of original family

•

o V [OSC)

~

~ ~

J. N PACKAGES

! G C> 5 V [OSC)

(13)

20 MHz

•

~ ~

pin assignments

!G

C>

, ~

1Y

CX

~

1 2 3 4 5 6

FH. FN PACKAGES 11 nc 12 GND 2FC 13 2Y lFC 14 2EN lRNG 15 2CX1 lCXl 16 nc nc nc

7 lCX2 8

~2Y

l!L1L

2CX2~

J. N PACKAGES 9 GND 2FC ' 10 2Y 1FC lRNG 11 2EN lCXl 12 2CXl 1CX2 13 2CX2 lEN 14 2RNG OSC 15 7 lY vcc osc 16 VCC 8 GND

1 2 3 4 5 6

fEN

9 lY

OV [OSC]

10

OSC GND

17 2CX2 18 2RNG 19

ose Vec

20 VCC

1(8) OSeGND

t Pin numbers shown on logic symbols are for J and N packages only, nc -

no internal connection,

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265,

978

©

Ie MASTER 1983

PRODUCT GUIDE 630, 631

pin assignments

16-BIT PARALLEL ERROR 1 2 3 4 5 6 7 8 9 10 11 12 13 14

DETECTION AND CORRECTION CIRCUITS

•

Fast processing times: - Write cycle: generates check word in 45 ns typical - Read cycle: flags errors in 27 ns typical

•

Detects and corrects single

•

Detects and flags dual-bit

bit error

JD. N PACKAGES DEF 15 DB12 DBa 16 DB13 DBl 17 DB14 DB2 18 DB15 DB3 19 CB5 DB4 20 CB4 DB5 21 CB3 DB6 22 CB2 DB7 23 CBl DB8 24 CBO DB9 25 so DB10 26 Sl DBll 27 SEF GND 28 VCC

1 2 3 4 5 6 7 8 9 10 11 12 13 14

FH. FN PACKAGES DEF 15 DB12 DBa 16 DB13 DBl 17 DB14 DB2 18 DB15 DB3 19 CB5 DB4 20 CB4 DB5 21 CB3 DB6 22 CB2 DB7 23 CBl DB8 24 CBO DB9 25 so DB10 26 Sl DBll 27 SEF GND 28 VCC

errors typical performance TYPE

OUTPUT DELAY POWER

'LS630

3-State

27 ns

715 mW

'LS631

o-e

28 ns

565mW

SN54LS630 (JD,FH) SN54LS631 (JD,FH)

SN74LS630 (JD.N.FN) SN74LS631 (JD.N.FN)

functional block diagram

so

......

Sl

...

51 ~

FUNCTIO SELECTon

SO-51 SO-51

... ..-- ~

6/

LATCH

/

~ .

~C

PARITY GENERATOR

CHECK BIT 1/0, ~ CBO THRU CBS

Ir

V ,. 12

4- f - -

BUFFER

~

12/

6/

/

/

...-

OE ERROR DETECTOR

~SEF

en ......

~DEF

C

OE

...~

.--- ~ LATCH

,.

16 .... /

Q)

12

E

/

:::J

'...... en c en as >
ECB

27 2B 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52

CB3 CB2 CBl CBO OB16 OB17 OB18 OB19 OB20 OB21 OEB2 OB22 OB23 GNO OB24 OB25 OEB3 0826 OB27 OB28 OB29 0830 OB31 SO Sl VCC

....+-t_-~~--~

DB24-DB31 ......+-+-t_---::;.---~ BUFFERS

3

om -++---dl-. QEiij

--+----0

i:'E'DBO - - - - - - - - - - - - '

C CJ)

as

For chip carrier information. contact the factory.

X

{!?

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

980

© Ie MASTER 1983

PRODUCT GUIDE

634, 635

logic diagram (positive logic) DECODER XIV

32-I,lIT PARALLEL ERROR DETECTION AND CORRECTION CIRCUITS •

Detects and Corrects singlebit errors

•

Detects and Flags dual-bit errors

•

Fast processing times

O~----------------~ 3~--------------~

so Sl

LATCHES

typical performance

OUTPUT TYPE 'ALS634 3-State O-C 'ALS635 SN54ALS634 (JD) SN54ALS635 (JD)

DELAY

POWER 32

~~--------~----~--~

SN74ALS634 (N) SN74ALS635 (N)

pin assignments

OECB

-------- 27

7

60

7

B1

9

A6

21

10

A7

22

SBA

(191

11

A8

23

CBA

~-: B2

12

GNO

24

VCC

118)

..-

B3 (171

U~: B4

L.-

(201

(16)

~

11-

~ ....

~

~

L-

1-

~

B5

.... r

(151

...

B6

(14)

-

B7

(13) .... B8

logic symbol, 'ALS654, 'LS654 t GBA (21)

r--...

GAB (3) CBA (23)

G6

f'.. C6

SAB (21

..,

G7

(41

~1


~ =1

A2~

A10~

J. N PACKAGES

[ADDRESS COMPI [P ."umed;1!: 12.13.141

EN

(171

P3-

typical performance TYPE DELAY 'ALS679 'ALS680

pin assignmens, 'ALS679

logic symbol, 'ALS679t

*'

FH. FN PACKAGES

1

Al

11

Al0

1

Al

11

2

A2

12

All

2

A2

12

All

3

A3

13

A12

3

A3

13

A12

~

4

A4

14

PO

4

A4

14

PO

S

A5

15

Pl

5

A5

15

Pl

~

6

A6

16

P2

6

A6

16

P2

7

A7

17

P3

7

A7

17

P3

r--=1

8

A8

18

Y

8

AS

18

Y

9

A9

19

9

A9

19

C

I--=1 P '5 5 p. 6 ~ 6 P _. 7

10

GND

20

e Vce

GND

20

Vee

=1

P,11 P~' 2 2 P . 3 3 P . 4 4

~

&

10

Al0

~ ~y

7 I--P . 8 =1 8 P , 9 9 P ,·10 10 P>11 11 P ·12 12

I--=1 I--=1 I--=1

~

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

994

©

Ie MASTER 1983

PRODUCT GUIDE

681

logic symbol t (18)

4-BIT PARALLEL

ASO

BINARY

AS1

ACCUMULATORS

AS2 M

•

Contains two synchronous registers

RSO

•

B register frequency

•

Arithmetic operations include

=

20 MHz

B minus A and A minus B •

Cn

(17)

(16) (15) (6)

]M~IAlUI

J. N PACKAGES (0 ... 7) CG

P G

(0 ... 7) CO

Cn+4

(0 .•. 7) CP

CI

RS1

O} EN Q 13 P4

COMP

COMPARATORS

•

pin assignments

P1

TYPE

P2

TOTAL

TIME

OUTPUT

POWER

'lS686

17 ns

Totem-Pole

220 mW

'lS687

22 ns

O-C

220 mW

P3 P4 P5 P6

SN54LS686 (JT,FH) SN74LS686 (JT,NT,FN) SN54LS687 (JT,FH) SN74LS687 (JT,NT,FN)

P7 00 01 02 03 04 Ot: 06 07

(2)

......

(23) ...... (3)

t>

G1

2

G2

3 4

G1 PO

14 15 16

04 P5

FH. FN PACKAGES

1

nc

15

nc

2

P>n

16

P4

3

G1 PO

17 18

04 P5 05

5

00 P1

17

05 P6

(8)

6

01

18

06

(10)

7

nc

19

nc

6 7

8

P2

8

nc

22

nc

02

20 21

P7

9 10

07

9

nc

22 23

P='n 10

P2

23 24

P7

G2

11

02

25

24

VCC

12

P3

26

07 P="Q

13 14

03

27

G2

GND

28

VCC

ITO

(5)

)p

(13) (15)

1P=0

(17)

t.....

(22)

-P=O

11

(20)

12

IT 7...

(4)

ITO

(6) (9) 2P>0

( 11)

....... (1)

P3 03 GND

4

5

00

19

P1

20

P6

01

21

06 nc

-P>O

0

(14) (16) (18) (21)

IT7

logic symbol, 'LS687 t COMP 01 02 PO P1 P2

(2)

,......"

(23) ..... (3)

t>

G1 G2 IT

O~

(5) (8) (10)

P3 P4 P5 P6 P7 00 01 02 03 04 Of: 06 07

)p

(13) (15)

1P=0 Q

(17) (20) (4)

t.....

(22)

P=O

IT 7... IT

O~

(6) (9)

2P>0 Q .....

( 1)

P>Q

( 11) 0

(14) (16) (18) (21)

IT7

t Pin numbers shown on logic symbols are for JT and NT packages only, nc - no internal connection.

TEXAS)NSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265 @

Ie MASTER 1983

997

PRODUCT GUIDE

688, 689

COMP

COMPARATORS

•

G

Compares two 8-bit words

PO Pl

typical perforrnance

P2

TYPE COMPARE TIME OUTPUT 9.5 ns Totem-Pole 'ALS688 O-C 'ALS689 15 .. 5 ns Totem-Pole 14.5 ns 'LS688 23 ns O-C 'LS689 TYPE

TOTAL POWER 37.5 mW 37.5 mW 200 mW 200 mW

P3 P4 P5 PS P7 00

SN54ALS688 (J,FH) SN54ALS689 (J,FH) SN54LS688 (J,FH) SN54LS689 (J,FH)

pin assignments

logic symbol, 'ALS688, 'LS688t

8-BIT MAGNITUDE

SN74ALS688 (J,FN) SN74ALS689 (N,FN) SN74LS688 (J,N,FN) SN74LS689 (J,N,FN)

(1 ) (2)

~

1 2

0

3 4

(4) (5) (8) )P

( 11) (13) (15) (17)

(3)

~

7,

FH. FN PACKAGES

J. N PACKAGES

t>

Gl

(19)

1P=0

p=o

5 6 7 8 9 10

G PO 00 P1 01 P2 02 P3 03

GND

P4 11 12 04 13 P5 14 05 15 P6 16 06 17 P7 18 07 19 ·p=o 20 Vee

P4 04

1

G

2

PO 00 P1 01

11 12 13 14 15

P2 02 P3 03

16 17 18 19

P5 05 P6 06 P7 07 p=o

GND

20

Vee

3 4 5 6 7 8 9 10

O~

(5)

01 02 (7) 03 (9) (12) 04 (14) 05 (15) OS (18) 07

)0

7

logic symbol, 'ALS689, 'LS689t CaMP

G PO Pl P2 P3 P4 P5 P6 P7 00 01 02

(1 ) (2)

r-.. Gl

t>

0'

(4) (6) (8) ~P

(11 ) ( 13) (15)

........ (19)

(17)

7, (3)

lP=OO

P=O

0'

(5) (7) (9)

03 04 (12) , (14) 05 (15) 06 (18) 07

>0

7

t Pin numbers shown on logic symbols are for J and N packages only.

nc -

no 'internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

998

~

Ie MASTER 1983

PRODUCT GUIDE logic symbol, 'LS690 t

690, 691 692, 693

pin assignments J, N PACKAGES

1 2 3 4 5 6 7 8 9 10

SYNCHRONOUS COUNTERS WITH OUTPUT REGISTERS •

Multiplexed three-state

•

4-bit counters/registers

•

'LS690, 'LS692: Decade

•

'LS691, 'LS693: Binary

outputs

counters

A

V'I-....;.~-OA

B

TOTAL

C

OB Oc

POWER

D

°D'

typical performance MAX CLEAR

CLOCK FREQ

'LS690

Direct

20 MHz

237 mW

'LS691

Direct

20 MHz

237 mW

'LS692

Sync-L

20 MHz

237 mW

'LS693

Sync-L

20 MHz

237 mW

SN54LS690 SN54LS691 SN54LS692 SN54LS693

14 15 0 16 ENP 17 RCLR 18 RCK 19 GND 20 B

C

RIC

G LOAD ENT 00

Oc OB OA RCO VCC

FH, FN PACKAGES

CCK....loiii.---D

counters

TYPE

CCLR 11 CCK 12 A 13

(J,FH) (J,FH) (J,FH) (J,FH)

SN74LS690 SN74LS691 SN74LS692 SN74LS693

logic symbol, 'LS691 t

1 2 3 4 5 6 7 8 9 10

CCLR CCK A B C

11 12 13 14 15 0 16 ENP 17 RCLR 18 RCK 19 GND 20

RIC

G LOAD ENT 00

Oc OB °A RCO VCC

(J,N,FN) (J,N,FN) (J,N,FN) (J,N,FN)

CCK .......- - - D

A

OB Oc OD

B

C

D

logic symbol, 'LS692 t

logic symbol, 'LS693 t

3CT""15

CCK

Z22

CCK

A

OA

A

B

°B Oc OD

B

(2)

OB

C

'(4)

QC

D

' (8)

°D

C

D

OA

t Pin numbers shown on logic symbols are for J and N packages only.

nc - no internal connection.

TEXAS

INSTRUMENTS

INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

999

PRODUCT GUIDE

.696, 697, 698, 699

pin assignments FH. FN PACKAGES

J. N PACKAGES SYNCHRONOUSU~DOWN

1

UID

11

RIC

1

UID

11

RIC

2

CCK

12

G

2

CCK

12

G

COUNTERS W'ITH OUTPUT

3

A

13

LOAD

3

A

13

LOAD

REGISTERS, MULTIPLEXED

4

B

14

ENT

4

B

14

ENT

THREE-STATE OUTPUTS •

4-bit counters/registers

•

'LS696, 'LS698: Decade

•

'LS69 7, 'LS699: Binary

counters

5

C

15

00

5

C

15

00

6

0

16

°c

6

0

16

°c

7

ENP

17

°B

7

ENP

17

°B

8

CCLR 18

8

CCLR 18

9

RCK

19

°A RCO

9

RCK

19

°A RCO

10

GND

20

Vee

10

GND

20

Vce

counters typical performance MAX TYPE

CLOCK

CLEAR

.FREQ

TOTAL POWER

'LS696

20 MHz

Async-L 237 mW

'LS697

20 MHz

Async-L 237 mW

'LS698

20 MHz

Sync-L

237 mW

'LS699

20 MHz

Sync-L

237 mW

SN54LS696 SN54LS697 SN54LS698 SN54LS699

SN74LS696 SN74LS697 SN74LS698 SN74LS699

(J,FHI (J,FHI (J,FHI (J,FHI

(J,N,FNI (J,N,FNI (J,N,FNI (J,N,FNI logic symbol, 'LS697 t

logic symbol, 'LS696 t

en

+-'

RCO

C ,0>

E ::J

:r...

+-'

en C

en as >< 0>

A

A

I-

B

B

C

C D

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection,

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

1000

© Ie MASTER 1983

PRODUCT GUIDE 696, 697, 698, 699

continued logic symbol, 'LS699 t

logic symbol, 'LS69S t

cr~ R/C.1l.1L..-

cr.!..W...J::::..

MUX

EN24

R/C.i.1.l!.-

G21

RCK (9)

RCK (9)

Cll

J. N PACKAGES

Cll CTRDIV16

CcLR.ill..- 7R8

LOAD --i~ Ml

[LOAD) M2 [COUNT)

M1 [LOAD) M2 [COUNT)

M3 [UP) I~ M4 [DOWN)

ENi~ G5

3.5CT=9· ~222

ENP.lZLl:::.. G6 CCK (21 C7

[UP) I~ M3 M4 [DOWN)

U/D

U/D

22,23

~RCO

4,5CT=O f- V23

ENT~ ENP~ (2)

A~ 1,70

[1 )

B~

(2)

c..ill-

(4)

D~

(8)

r

8~1D

r

-....

r

21 C> 8 2124"7 ~QA

~QB ~Qc

~QD

3,5CT=15

G5 G6

t=l>.,

CCK

t:1>2,3,5,6' ~2,4,5,6-

45CT=O ,

222

22.23

UIO

11

M/C

2

CCK

12

G

3

A

13

LOAD

4

B

14

ENT

5

C

15

00

6

0

16

Oc

7

ENP

17

Os

8

CCLR

18

9

RCK

19

OA RCO

10

GNO

20

VCC

1

UIO

11

RIC

2

CCK

12

G LOAD

3

A

13

2,3,5,6'

4

B

14

ENT

~2.4,5,6-

5

C

15

00

6

0

16

Oc

7

ENP

17

OB

8

CCLR

18

9

RCK

19

°A RCO

10

GNO

20

vcc

[1 )

B~

(2)

c..ill-

(4)

D~

(8)

r-

r

r-

8~1D

21 C> ~QA 8 21 24"7 (17)

~QB

'~Qc

~QD

pin assignments J. N PACKAGES

DRIVERS

lA

typical performance

lB lC 10

HIGH·

LEVEL

LEVEL

POWER/

OUTPUT

OUTPUT

GATE

CURRENT

CURRENT

SN54AS800

40mA

-40mA

25mW

SN74AS800

48mA

-48mA

25mW

SN54AS800 (J,FH)

1

FH. FN PACKAGES

C7

A~ 1,70

TRIPLE 4-INPUT AND/NAND

LOW·

~RCO

V23

logic symbol t

800

TYPE

MUX

EN24 G21

CTRDIV10 CCIR.ill..- 7R8

LOAD --i~

pin assignments

2A

(1 ) (18)

(16)

.....

(19) (2)

2B 2C 20

SN74AS800 (N, F N )

&C>

(17)

3A 3B 3C 3D

(15\ (14)

(3) (4) 1-0....

(5) (6)

(13) (12)

(7) (8) J......

(9)

= ABCD Z = ABCi5

positive logic: Y

(11 )

lY lZ 2Y 2Z

1

1A

11

3Z

2

2A

12

3Y

3

2B

13

2Z

4

2C

14

2Y

5

20

15

1Z

6

3A

16

1Y

7

3B

17

1B

8

3C

18

1C

9 10

19

10

20

\fcc

FH. FN PACKAGES

3Y 3Z

3D

GNO

1

1A

11

3Z

2

2A

12

3Y

3

2B

13

2Z

4

2C

14

2Y

5

20

15

1Z

6

3A

16

1Y

7

3B

17

1B

8

3C

18

1C

9 10

3D

19

10

GNO

20

VCC

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

1001

PRODUCT GUIDE

802

logic symbol t

TRIPLE 4-INPUT OR/NOR

1A

LINE DRIVERS

18 1C

typical performance

TYPE

10 2A

LOW-

HIGH-

LEVEL

LEVEL

POWER/

OUTPUT

OUTPUT

GATE

28 2C 20

CURRENT CURRENT

3A

SN54ASS02

40mA

-40mA

25mW

SN74ASS02

4SmA

-4SmA

25mW

3C

SN74ASS02 (N ,F N)

30

SN54ASS02 (J,FH)

38

(1 )

pin assignments ;;'1[>

(16)

(17)

(1S)

(15)

I'-..

(19) (2)

(14)

(3) (4)

(13)

I'-..

(5) (6)

(12)

(7)

. (S)

(11)

t--.

(9)

1Y 1Z

3 4 5 6 7 8 9 10

2Y

2Z 3Y

FH. FN PACKAGES 1A 11 3Z 2A 12 3Y 3 2B 13 2Z 4 2C 14 2Y 5 20 15 1Z 6 3A 16 1Y 7 3B 17 1B 8 3C 18 1e 9 3D 19 10 10 GNO 20 Vec

3Z

positive logic: Y = A+B+C+D Z - A+B+C+D

logic symbol t

804

1A

HEX 2-INPUT NAND DRIVERS

18

typical performance

TYPE

2A

LOW-

HIGH-

LEVEL

LEVEL

OUTPUT

OUTPUT

28

DELAY

POWER/

38

GATE

4A

CURRENT CURRENT

U) +-'

c:

SN54ALSS04

12 mA

-12 mA

3 ns

3.4 mW

SN74ALSS04

24 mA

-15 mA

3 ns

3.4 mW

SN54AS804A

40mA

-40mA

2.7 ns

9mW

SN74ASS04A

4S mA

-4SmA

2.7 ns

9mW

SN54ALS804 (J,FH) SN54AS804A (J,FH)

3A

48 5A 58 6A . 68

SN74ALS804 (N,FN) SN74ASS04A (N,FN)

(1 )

J. N PACKAGES 1A 11 3Z 2A 12 3Y 2B 13 2Z 14 2Y 2C 20 15 1Z 3A 16 1Y 17 1B 3B 18 1C 3C 3D 19 10 GNO 20 VCC

pin assignments &[>

(2)

.......

(7)

(S) (12) (13) (15) (16) (1S) (19)

4 5 6 7 8 9 10

3 4 5 6 7 8 9 10

FH. FN PACKAGES 1A 11 4Y 1B 12 4A 1Y 13 4B 2A 14 5Y 2B 15 5A 2Y 16 5B 17 6Y 3A 3B 18 6A 3Y 19 6B GNO 20 Vce

1 2

(4) (5)

J. N PACKAGES 4Y 11 1A 12 4A 1B 13 4B 1Y 14 5Y 2A 2B 15 5A 2Y 16 5B 17 6Y 3A 18 6A 3B 19 6B 3Y GNO 20 Vee

(3) 1Y

1-0...

(6) 2Y

........

(9) 3Y

.......

(11) 4Y

-

(14)

.......

(17)

5Y 6Y

positive logic: Y=AB

Q)

E

:J 10...

+-' U)

c:

U)

ca X

Q)

I-

t Pin numbers shown on logic symbols are for J and N packages only. nc -

no internal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

1002

©

Ie MASTER 1983

PRODUCT GUIDE

805

logic symbol t (1 ) lA (2) 18 (4) 2A (5) 2B

HEX 2-INPUT NOR DRIVERS

typical performance

TYPE

LOW-

HIGH-

LEVEL

LEVEL

OUTPUT

OUTPUT

DELAY

POWER/

CURRENT CURRENT 12 mA

-12 mA

3.5 ns

4.2mw

SN74ALS805

24 mA

-15mA

3.5 ns

4.2mW

SN54AS805A

40mA

-40mA

2.7 ns

12mW

SN74AS805A

48mA

-48mA

2.7 ns

12mW

SN54ALS805 (J,FH) SN54AS805A (J,FH)

SN74ALS805 (N,FN) SN74AS805A (N,FN)

HEX 2-INPUT AND DRIVERS

lA (2) 18 (4) 2A (5) 28

(1 )

typical performance

TYPE

LEVEL

LEVEL

OUTPUT

OUTPUT

DELAY

POWER/

3A

GATE

38 4A

CURRENT CURRENT SN54ALS808

12 mA

-12 mA

4.3 ns

4.5mW

SN74ALS808

24mA

-15 mA

4.3 ns

4.5mW

SN54AS808A

40mA

-40mA

3.2 ns

13 mW

SN74AS808A

48mA

-48mA

3.2 ns

13 mW

SN54ALS808 (J,FH) SN54AS808A (J,FH)

(3) lY

~

(6) 2Y

~

(9) 3Y

~

(11) 4Y

~.

(14)

~

(17)

5Y

48 5A 58 6A 68

SN74ALS808 (N,FN) SN74AS808A (N,FN)

J, N PACKAGES

1 2 3 4 5 6 7 8 9 10

1A 18 1Y 2A 28 2Y 3A 38 3Y

GND

11 12 13 14 15 16 17 18 19 20

4Y 4A 48 5Y 5A 58 6Y 6A 68

Vee

FH. FN PACKAGES

6Y

positive logic: Y=A+B

logic symbol t

HIGH-

~

(7)

(8)

808 LOW-

~11>

38 (12) 4A (13) 48 (15) 5A (16) 58 (18) 6A (19) 68

GATE

SN54ALS805

3A

pin assignments

1 2 3 4 5 6 7 8 9 10

1A 18 1Y 2A 28 2Y 3A 38 3Y

GND

11 12 13 14 15 16 17 18 19 20

4Y 4A 48 5Y 5A 58 6Y 6A 68

Vee

pin assignments &1>

(7)

(8)

(3) lY (6) (9)

2Y 3Y

(12) (13) (15) (16) (18) (19)

positive logic: Y=AB

(11) 4Y (14)

J, N PACKAGES

1 2 3 4 5 6 7 8 9 10

1A 18 1Y 2A 28 2Y 3A 38 3Y

GND

11 12 13 14 15 16 17 18 19 20

4Y 4A 48 5Y 5A 58 6Y 6A 68

Vee

5Y FH. FN PACKAGES

(17)

6Y

1 2 3 4 5 6 7 8 9 10

1A 18 1Y 2A 28 2Y 3A 38 3Y

GND

11 12 13 14 15 16 17 18 19 20

4Y 4A 48 5Y 5A 58 6Y 6A 68

Vee

en

+"""

c:: Q)

E

::::s

~

+"""

en

c:: en

ctS X

~

t Pin numbers shown on logic symbols are for J and N packages only. nc - no internal connection.

TEXAS INSTRUMENTS INCORPORATED

POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

©

Ie MASTER 1983

1003

PRODUCT GUIDE logic symbol t

832

1A

HEX 2-INPUT OR DRIVERS

18

typical performance

TYPE

HIGH-

LEVEL

LEVEL

OUTPUT

OUTPUT

DELAY

(7) (12)

4A

12 mA

-12 mA

4 ns

5.3mW

SA

SN74ALS832

24mA

-15mA

4 ns

5.3mW

58

SN54AS832A

40mA

-40mA

3 ns

17mW

6A

SN74AS832A

48mA

-48mA

3 ns

17mW

68

SN74ALS832 (N,FN) SN74AS832A (N,FN)

(11) 4Y

(13)

48

SN54ALS832

(9) 3Y

(8)

38

GATE

(15)

(14)

(16) (18)

(17)

(19)

5Y

Z

positive logic: Y

3 4 5 6 7 8 9 10

= A+B

f}G~

S1 (23) (13) COMP

outputs True or complementary

1

3

N4 ~3

data

~3

SN74ALS857 (JT,NT) SN74AS857 (NT,FN)

1

~EN5

~1

~EN6

...

-1-2 (2) 1A

L

MUX

O

en +'" c:: Q)

(3) 11 18 (5) 2A 28 (6)'

E

3A (8)

~

38 (9)

+'"

en c:: en as >< Q)

r [>

&

4,5\7

12

::J

Vcc

11 12 13 14 15 '16 17 18 19 GND 20

1A 1B 1Y 2A 28 2Y 3A 38 3Y

4Y 4A 4B 5Y 5A 5B 6Y 6A 68 Vcc

(4) 1Y

(7) 2Y (10) 3Y (14) 4Y

48 (15) 5A (19)

(17) 5Y

58 (18) 6A (22)

(20) 6Y

68 (21) ~1

1 2 3 4 5 6 7 8 9 10 11 12

SO 1A 1B 1Y 2A 2B 2Y 3A 3B 3Y OPER=O

GND

13 14 15 16 17 18 19 20 21 22 23 24

COMP 4Y 4B 4A 5Y 5B 5A 6Y 6B 6A S1 VCc'

FH. FN PACKAGES

4A (16)

I-

4Y 4A 4B 5Y 5A 5B 6Y 6A 6B

pin assignments

SO (1)

Three-state buffer-type

SN54ALS857 (JT) SN54AS857 (JT,FH)

11 12 13 14 15 16 17 18 19 20

JT. NT PACKAGES

MULTIPLEXER

•

GND

1

6Y

HEX 2-TO-1 UNIVERSAL

•

1A 1B 1Y 2A 2B 2Y 3A 3B 3Y,

FH. FN PACKAGES

logic symbol t

857

1 2 3 4 5 6 7 8 9 10

(6) 2Y

(5)

3A

CURRENT CURRENT

J. N PACKAGES

(3) 1Y

(4)

28

POWERI

pin assignments ~1[>

(2)

2A

LOW-

SN54ALS832 (J,FH) SN54AS832A (J,FH)

(1 )

y3

[> 6\7

1 2 3 4 5

6 7 8 9 10 11 12 13 14

15 16 17 18 19 20 21 nc 22 2Y 23 24 3A 3B 25 3Y 26 OPER =0 27 GND 28 nc

nc

SO 1A 1B 1Y 2A 2B

COMP 4Y 4B 4A 5Y 5B nc

5A 6Y 6B 6A S1 VCC

(11) OPER=O

tPin numbers shown on'logic symbols are for J, JT. N. and NT packages only, nc -

no internal connection,

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS, TEXAS 75265

1004

© Ie MASTER 1983

PRODUCT GUIDE

866

pin assignments

logic symbolt

JO, N PACKAGES

CaMP

8-BIT MAGNITUDE COMPARATORS

l/A (2)

• Fast compare to zero • Arithmetic and logical comparison • Open-collector output for P = Q

M [lOGIC] M [ARITH, 2. CaMP] C1

(26~

PlE

M

PO (18)

J"-

lD 1-0

0

Pl (19) P2 (20) P3 (211 P4 (22) P5 (23)

>P

P6 (24) P7 (25) p>a (4) p:~

>

-




V

"""" """" .......

!

,......,

a·BIT UNIVERSAL TRANSCEIVER/PORT CONTROLLERS

SO~

Sl~ S2~

CLK~

3-state buffer-type outputs

"R~:~

,

C1

r

10

[>

V

(9)

'"

[PORT CONTROLLER)

JEN~

SRG8 9 ~(4/5/6)-

.,

Z9

,

9 ~Cl0/7R

;>1 Zll

.11

Z12

12

13,1

A2~

13

Z15

r

r ;>1

1=0 (4/5/6)100

(21)

(0/2)100 12 (1/3)100

(0/2/4) C>V' o Z13 2/4

1=0 15

(0/2)100

V'1 (0/2/4)C>V' 15

(1/3)100

o

Z16

(20) . - . ... 62

--..J

2/4

17(3/5)

Z17

(18) (17)

(16) (15)

201 202 203 204

1 2 3 4 5 6 7 8 9 0 1 12 13 14

JT, NT PACKAGES 1'J5Rr 13 2'J5Rr 14 2ClK 1~ 101 15 204 102 16 203 103 17 202 104 '19 201 201 19 104 202 20 103 203 21 102 204 22 101 20C 23 1 ClK GNO 24 vce

FH, FN PACKAGES nc 15 nc 2PRE 1~ 16 laC 17 2ClK 101 18 204 102 19 203 103 20 2(l2 104 21 201 22 nc nc 201 23 104 202 24 103 203 25 102 204 26 101 lClK 2~ 27 GNO 28 VCC

JT, NT PACKAGES FH, FN PACKAGES 15 nc 13 08 1 nc 50 16 08 51 14 B8 2 50 17 B8 15 B7 52 3 51 4 52 18 B7 16 B6 Al 19 B6 17 B5 A2 5 Al 20 B5 A3 18 B4 6 A2 21 B4 19 B3 7 A3 A4 22 nc 20 B2 8 nc 8 A5 23 B3 21 B1 9 A4 9 A6 24 B2 10 A7 22 5ER[N 10 A5 25 Bl 11 A8 23 ClK 11 A6 26 5ERIN 12 GNO 24 Vec 12 A7 13 A8 27 elK 14 GNO 28 VCC 1 2 3 4 5 6 7

63 ~1 ... (18) (17) : : (16) 66 (15) 67

A7~ ;>1

(11)

A8~

61

...,.J

Z14

;>1

16,1

A3~ A4~ A5~ A6~

I

'" '"

I'.

(10)

14(3/5)

24-pin 300-mil package

SN54AS877 (JT,FH) SN74AS877 (NT,FN)

104

1 2 3 4 5 6 7 8 9 10 11 12

pin assignments

V'

10

'V~

(9)

......

(16)

(10)

.....

(15)

logic Iymbol t

ARITHMETIC LOGIC UNITSI

SO~

Sl~

4-bit ALU's/Function

S2~

Generators

•

S3..ill....-

Same operating modes as 'AS181A, 'S181A expanded to include status register checks

CARRY TIME 'AS881A 7.5 ns

Cn~

16-BIT ADD TIME 20 ns

SN54AS881 A (JT,FH) SN74AS881 A (NT,FN)

TOTAL POWER 560 mW

80

1(13 104

2 3 4

loe 101 102 103 104

5 6 7 8 9 10 11 12

201 202 203 204 20C

GNO

13 14 15 16 17 18 19 20 21 22 23 24

2PRr 2C 2il4 203 202 201 104 103 102 101 lC VCC

FH, FN PACKAGES nc 15 nc 1PRE 16 2PRE 2 loe 17 2C 3 4 101 18 204 1

5

102

19

6 7

103 104

20 21 22 23 24

8 9 10 11 12 13

nc

14

203 202 201 nc

20C

25 26 27

104 103 102 101 lC

GNO

28

VCC

201 202 203 204

201 202 203 204

pin assignments ALU

JT, NT PACKAGES

0 ....

.r

(0 ... 15) CP 0

(0 ... 15) CG

al

6(P=0) Q (0 ••• 15) CO

~p

::::....!.lli..G' --.i1!L A=B ~Cn+4

-ill...c::. 0

So

2 3 4

AO

5 6 7

[1]

~l!o

[2]

~Fl

1

~F2

3 4

...,

Al~P "Bl~O A2 JlliJ:::. P

1

8 9 10 11 12

CI

I

AO~P

typical performance

TYPE

M...ill.-

102

,jS~

(18) (17)

881 •

(19)

.....

204

FUNCTION GENERATORS

(20)

101

EN

(8)

202 203

(21)

Cl

-"s

(7)

201

SN54ALS880(JT,FH) SN74ALS880 (NT,FN) SN54AS880 (JT,FH) SN74AS880 (NT,FN)

-

(22)

1

2

[4) 82E!!lb 0

[8)

~F3

so Cn M f"o ~1

F2

GNO

T3

15 16 17 18

Jr

19 20 21 22

A3 132 A2

23 24

A=B Cn +4 ~ B3

lh A1

vcc

FH, FN PACKAGES 15 nc BO 16 F3 AO 17 A=B nc

53 52

18 19

~

6 . 7

51

20 21

G

8

nc

9 10 11 12 13 14

Cn M FO Fl F2

25 ,26 27

A3 82 A2 Bl Al

GNO

28

VCC

5

A3~P B3~0

53 52 51

13 14

SO

22 23 24

Cn +4 S3

en

nc

+-'

s:::

Q)

E ::J J...

+-'

en

s:::

en ctS >< Q) I-

t Pin numbers shown on logic symbols are for JT and NT packages only.

nc - no intemal connection.

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

@

Ie MASTER 1983

1011

PRODUCT GUIDE 882

logic Iymbol t

pin ass,ignments

32·BIT LOOK·AHEAD CARRY GENERATORS

•

Directly compatible with 'AS181, 'AS881, and

Po

(3)

GO

(2) (5)

----

~1 (4)

152 (8)

typical performance

'AS882

n (1)

P1

'S181 ALU's

TYPE

C

CARRY

TOTAL

TIME

POWER

8 ns

325mW

SN54AS882 (JT,FH)

~2 (7) (10)

P3

CI CPO CGO CP1 CG1 CP2

C01

CG2 CP3

C03

G4 (13)

--

CG4

Ps

-

CP5

G3 (9) P4 (14)

(1S)

CP4

G5 (15) - CG5 PS (19) ... CPS (18) _ GS CGS (21) _ P7 CP7 (20) _ G7 CG7

885

logic symbol t

C05 C07

• •

Latchable P input ports; power clear

...en E ...en C

SN54AS885 (JT,FH) SN74AS885 (NT ,FN)

Q)

:J :r....

C

en

PLE

00

Q)

01

I-

b

(23) ,

(15) PO P1 (1S) (17) P2 (18) P3 (19) P4 (20) P5 (21) P6 (22) P7 (3) P>O (2) P0 G1 P1 Cn +8 G2 P2 G3 P3

13 14 15 16 17 18 19 20 21 22

11 12

Cn + 16 GND

23 24

02 03

(11 )

G4 P4 G5 15"5 Cn +24 G6 P6 G7 P7 Cn + 32 nc

Vce

10 11 12

P2 G3 P3

15 16 17 18 19 20 21 22 23 24 25 26

13 14

Cn +16 GND

27 28

1 2 3 4 5 6 7 8 9

nc Cn ~O

PO ~1

P1 Cn +8 nc G2

Cn+32

COMP ,_ (1) LA

Choice of logical or arithmetic comparisons

(11)

Cn+8

1 2 3 4 5 6 7 8 9 10

nc G4 P4 G5 P5 Cn +24 G6 nc P6


O POout POout PO P

E

xo

:J ~

+oJ

en c en a:s >< 0>

..

(5)

·· ·• ·

(1 ) X4 X5

IX15

0

4

(64)

·• · · ·•

VIIN)V7 • PR(OUT).

15

x

5

PR V7

{6 :

31

(54)

(9)

... (24) (25)

···

(40)

YO/PRO

V15/PR15 PR16

SN 54ALS 1616 (JD)

~

X4 X3 X2 Xl XO OElS ClKP ClKY YO/PRO Yl/PRl Y2/PR2 Y3/PR3 Y4/PR4 Y5/PR5 Y6/PR6 Y7/PR7 Y8/PR8 Y9/PR9 Yl0/PR10 Y1 1/PRl 1 Yl 2/PRl 2 Yl 3/PRl 3 Y14/PR14 Yl 5/PRl 5 PR16 PR17 PR18 PR19 PR20 PR21 PR22 PR23

33 34 35 36 27 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64

PR24 PR25 PR26 PR27 PR28 PR29 PR30 PR31 ClKOP OEMS OVR FT

OP2 GND GND CHGSIGN VCC OPl OPO RND ClKX X15 X14 X13 X12 Xll Xl0 X9 X8 X7 X6 X5

PR31

1~

OVER FLOW V7

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 20 31 32

OVR

For chip carrier information, contact the factory.

SN74ALS1616 (JD)

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

1020

© Ie MASTER 1983

PRODUCT GUIDE

1620, 1621, 1622, 1623 pin assignments

logic symbol, 'ALS 1620, 'LS 1620 t

OCTAL BUS TRANSCEIVERS •

'1 ,

Bidirectional bus transceivers

•

SN54ALS1620 SN74ALS1620 SN74ALS1620-1 SN54ALS1621 SN74ALS1621 SN74ALS1621-1 SN54ALS1622 SN74ALS1622 SN74ALS1622-1 SN54ALS1623 SN74ALS1623 SN7 4ALS 1623-1

OUTPUT 3-State 3-State 3-State O-C O-C O-C O-C O-C O-C 3-State 3-State 3-State

1 2 3 4 5 6 7 8 9 10

GAB------1

Low power version of ALS 620, 621, 622, 623 typical performance

TYPE

J. N PACKAGES

GBA ....'1_9_'.........~

MAX MAX SOURCE SINK CURRENT CURRENT -12 8 rnA -15 16 rnA -15 24 rnA 8 rnA N/A 16 rnA N/A 24 rnA N/A 8 rnA N/A 16 rnA N/A N/A 24 rnA -12 8 rnA -15 16 rnA -15 24 rnA

~~..,..:~t!:~=:Jt-~F

' A1'2'

~~'4~1~~--------1-~~

SN54ALS1621 (J,FH) SN54ALS1622 (J,FH) SN54ALS1623 (J,FH)

I

SN74ALS1620 (N,FN) SN74ALS1620-1 (N,FN) SN74ALS1621 (N,FN) SN74ALS1621-1 (N,FN) SN74ALS1622 (N,FN) SN74ALS162'2-1 (N,FN) SN74ALS1623 (N,FN) SN74ALS1623-1 (N,FN)

11 12 13 14 15 16 17 18 19 20

B8 B7 B6 B5 B4 B3 B2 B1 GBA

vee

FH. FN PACKAGES GAB 11 BS 12 B7 A1 A2 13 B6 14 B5 A3 15 B4 5 A4 16 B3 6 A5 7 A6 17 B2 8 A7 18 B1 19 GBA 9 A8 10 GND 20 Vee 1 2 3 4

logic symbol, 'ALS1622, 'LS1622t ~BA ....'1_9_).........::.4) (

GAB"';"1...;,)----1 Al '21

Bl

(31 A2'

logic symbol, 'ALS1621, 'LS1621 t

SN54ALS1620 (J,FH)

GAB A1 A2 A3 A4 A5 A6 A7 A8 GND

~BA ...;,'_19_I.Jo.,,;:IIII)

A3

(41

A4 (51

GAB ...;,'1...;.'----1 A l '_2-4)1. .---1d)1-;;:--l-.....~ Bl

A5 AS

(SI (71

A8 (91

A4 '_5-4)1. .---1r------L-~~ (141 B5 (131

A6(_71. .~~------~~~ BS

logic symbol, 'ALS1623, 'LS1623t GBA (191 GAB (11 f/)

(lSI

+""

Bl

'\71 2'\7

C

Q)

E ::J ~

A3

(41

lSI

+""

B3

CU

(61

(141

(7)

(131

AS A7 (SI

X

B5 BS

(121 B7

AS (91

tPin numbers shown on logic symbols are for J and N packages only. nc

no internal connection.

TEXAS INSTRUMENTS INCOR,PORATED POST OFfiCE BOX 225012 • DALLAS, TEXAS 75265

© Ie MASTER 1983

C f/)

A4 (51

A5

f/)

1021

Q)

.....

PRODUCT GUIDE logic symbol, 'ALS1638t

1638, 1639

G

OCTAL BUS TRANSCEIVERS • •

OIR

Bidirectional bus transceivers "A" bus outputs are opencollector: "B" bus outputs are three-state

A2

'ALS1638-inverting logic

•

'ALS1639-true logic

•

Low power versions of ' ALS638, , ALS639

A3 A4

typical performance

SN54ALS1638 SN74ALS1638 SN74ALS 1638-1 SN54ALS1639 SN74ALS1639 SN74ALS1639-1

DELAY 7 7 7 8 8 .8

ns ns ns ns ns ns

SN54ALS 1638 (J,FH) SN54ALS 1639 (J,FH)

3

MAX MAX SINK SOURCE CURRENT CURRENT -12 mA 8 mA -15 mA 16 rnA -15 rnA 24 rnA -12 rnA 8 rnA -15 mA 16 rnA -15 mA 24 mA

SN74ALS1638 (N,FN) SN74ALS 1639 (N,FN) SN74ALS1638-1 (N,FN) SN74ALS1639-1 (N,FN)

AS A6

B1 (3) (4) (5) (6) (7)

B3

(9)

G OIR

A2 A3

AS A6

11 12 13 14 15 16 17 18 19 20

B8 B7 B6 B5 B4 B3 B2 B1 G

vee

B4 B5 B6

B8

(2)

1 2 3 4 5 6 7 8 9 10

FH. FN PACKAGES OIR ·11 B8 A1 12 B7 A2 13 B6 A3 14 B5 A4 15 B4 A5 16 B3 A6 17 B2 A7 18 B1 A8 19 G GNO 20 vee

(31 (4)

B1 B2 B3 B4

(6) (7)

B5 B6

en c:

A7

B7

E

A8

B8

::::J

OIR A1 A2 A3 A4 AS A6 A7 A8 GNO

(11

A4

Q)

1 2 3 4 5 6 7 8 9 10

logic symbol, ,ALS 1639 t

A1

-....

B2

B7

A7 A8

J. N PACKAGES

(11

A1

•

TYPE

(19)

en c: en

as >


.Octai 19-input latched AND-OR

J..----Q

& 38 X 64

gate array

J-----.;J--- Q

pin assignments

en

C

JT, NT PACKAGES 1

OUTCLK

13

OE

2

lID

14

INLE/PRELOAD

:J

3

I/O

15

Q

en

4

I/O

16

Q

5

I/O

17

Q

en CO >< Q)

6

I/O

1.8

Q

Q)

E

"-

c

J-

7

I/O

19

Q

8

I/O

20

Q

9

I/O

21

Q

10

I/O

22

Q

11

I/O

23

I/O

12

GND

24

VCC

SN54PLT19R8 (JT)

I/O

OC2

11

1C2 20

11

J---J---Q

r-----r-----~~-Q

,..,

r-----r-----~~-

MO M1

Q

t---t---1----l- Q

-

J..--'--- Q

2

8

[> J..--+-- Q

8

SN74PLT19R8 (JT,NT)

TEXAS INSTRUMENTS INCORPORATED POST OFFICE BOX 225012 • DALLAS. TEXAS 75265

1034

©

Ie MASTER 1983

For Key Data On Every Ie On This. Board, The Place To Look Is ...

The Data System Design 7215 i's a single-board controller with pipelined architecture that can simultaneously control Winchester, streaming tape, and floppy drives. Device No. AM25LS2569 AM2910 AM26S02 AM27S35 AM8085 CA3130 2732 8237 DM7438 DM8334 DS75107 F74S132 MC4024 MK4802 PAL16L8 PAL16R6 PAL16R8 7407 74123 74368 74LS02 74LS04 74LS125 74LS138 74LS151 74LS161 74LS166

Description Up-Down Binary Counter with Synchronous Preset Dual Retriggerable Monostable Multivibrator Programmable Schottky Read-Only Memory 12-Bit Microprogram Controller Complete 8-Bit Parallel Central Processing Unit 5-to-16-Volt Single Stash Supply Op Amp 4096 x 8 TTL PROM DMA Controller Quad 2-lnput TTL NAND Buffer 8-Bit Addressable TTL Latch Differential Line Receiver Quad 2-lnput NAND Schmitt-Trigger Dual Voltage-Controlled TTL Multivibrator 2048 x 8 Static NMOS RAM Field Programmable Logic Array Field Programmable Logic Array Field Programmable Logic Array Hex Buffer/Driver Dual Retriggerable Monostable Multivibrator Hex Inverter, 3-State Quad 2-lnput TTL NOR Gate Hex Inverter Quad Gated TTL Buffer, 3-State 3 Line to 8 Line Decoder/Demultiplexer 8-lnput Multiplexer Binary Counter 8-Bit Parallel-In, Serial-Out Shift Register with Clear

Device No. 74LS174. 74LS240 74LS244 74LS257 74LS273 74LS299 74LS365 74LS373 74LS374 74LS393 74LS533 74LS670 74S00 74S03 74S04 74S112 74S151 74S153 74S174 74S175 74S240 74S32 74S51 74S64 74S74 75110

Description Hex D-Type Edge-Triggered Flip-Flop with Clear Octal Bus Driver (Schmitt Trigger) Octal Bus Driver (Schmitt Trigger), Non-Inverting Quad 2-lnput Multiplexer, Non-Inverting Octal D-Type Edge-Triggered Flip-Flop, 3-State 8-Bit Universal Shift Register Hex Buffer, 3-State 8-Bit Latch Octal D-Type Edge-Triggered Flip-Flop, 3-State Dual 4-Bit Binary Counter D-Type 8-Bit Latch 16-Bit (4x4) Register File with Simultaneous Read/Write Quad 2-lnput NAND Gate Quad 2-lnput NAND Gate, Open Collector Hex Inverter Dual "J-K" Negative Edge-Triggered Flip-Flop 8-lnput Multiplexer Dual 4-lnput Multiplexer Hex D-Type Edge-Triggered Flip-Flop with Clear Quad D-Type Edge-Triggered Flip-Flop with Clear Line Driver, Single Ended, 3-State, Inverting Quad 2-lnput OR Gate Dual 2-Wide 2-lnput AND-OR-Invert Gate 4-2-3-2-lnput AND-OR-Invert Gate Dual D-Type Positive Edge-Triggered Flip-Flop Line Driver, Differential, Twisted Pair Level Shifting

Representative list of les on the Data Systems Design 7215 board. Key specifications for all of these les can be found in Ie MASTER.

~rclC: MASTER BE SURE. BEGIN WITH THE Ie MASTER

Wherever you use \\eitek's NMOS 16 x 16's, you'll have 2.5W to spare. Until now, you've had to accept bipolar TTL multipliers and multiplier-accumulators that consume up to 5W of valuable power. Now Weitek introduces the WTL 1010 and WTL 1016. Through advanced NMOS VLSI design, they offer the same high speed processing at just half the power.

WTL 1016 Multiplier WTL 1010 MultiplierAccumulator

Data Size

Speed*

16x16 16x16

140 ns 165 ns

*TestConditions: TA = 0-75° C, Vee = 5V

Power* 2.5W 3.0W

± 5%

Whether you're designing military signal processing systems, graphics systems, digital filters or Fast Fourier Transform processors ... wherever you've used other 16 x 16 multipliers and multiplier - accumulators ... the WTL 1016 and WTL 1010 are pin-for-pin functional

1036

replacements. Power supply requirements of 5V and TTL input/ output levels are compatible, too. For immediate detailed information, phone Weitek now at (408) 727-6625. We'll tell you everything about WTL 1016 and WTL 1010. -The only question you'll have to answer is what to do with the power you'll have to spare.

All Weitek 16x16's are processed to MIL STD 883.

WEITEK Coming on Strong in VLSI 3255 Scott Blvd., Bldg. 2B (408) 727-6625

•

Santa Clara, California 95054 TELEX 171596 AAA Com Suvl ©

Ie MASTER 1983

WEITEK Coming on Strong in VLSI

WTL 1016

Features • • • • • • •

16x16 parallel array multiplier High speed, lOOns typical multiply time Standard NMOS Technology Low Power, 1.5W typical Single 5V supply Standard TTL compatible 110 levels Output latch mode selectable for clocked or transparent operation • Mixed mode two's complement and unsigned magnitude\multiplication • Pin-far-pin functional replacement for TRW MPY16HJ and AMD Am29516 • Processed to MIL STD 883

Description WTL 1016 is an NMOS 16x16 parallel array multiplier characterized by high speed, Block Diagram

16 x 16 ASYNCHRONOUS MULTIPLIER ARRAY

RS

CK ..

16 FT _ _----"M=SP_-+----'

Printed in the U.S.A.

©

high performance, and low power dissipation. A typical multiply time of lOOns, advanced NMOS processing, and a multiplication scheme based on Booth's algorithm, all provide state-of-the-art performance at a power dissipation level 50% less than that of existing bipolar TTL counterparts. A pin-far-pin functional replacement for TRW's MPY16HJ and AMD's Am29516, WTL 1016 operates from a.single 5 volt supply and is compatible with standard TTL logic levels. The architecture of WTL 1016 (see Block Diagram) generates a 32 bit product of two 16 bit data words input to the X and Y data latches. These operands can be specified as either two's complement or unsigned magnitude for mixed or unmixed mode operation. Input lines Cx and Cy control the input data representation. Two seriesconfigured 32 bit registers, at the output of the multiplier array, provide product . format adjustment and two 16 bit latch functions for the most and least significant halves (MSP and LSP) of the product. Feedthrough control line, FT, allows the flexibility of either clocked or asynchronous operation of the MSP and LSP latches. In the asynchronous mode, the product latches are transparent to data flow. The 32 bit product is output on two 16 bit three-state buses. The LSP portion of the product output and the Y input operand share common I/O pins. The WTL 1016 finds applications in a variety of digital signal processing functions and upgrades to mini and microcomputer systems. In the area of digital signal processing, applications include digital filtering, FFT, floating point, image/video, and speech (recognition and synthesis) processing.

Copyright 1982, WEITEK Corporation, All Rights Reserved.

Ie MASTER 1983

1037

WTL1516/1517

WEITEK

ADVANCED DATA

Coming on Strong in VLSI

Features

Description

• 16 X 16 parallel array multiplier • High-speed, 90 ns typical muitiply time • Standard NMOS technology (Icc = 230 mA typical)

The WTL1516/1517 are 16 X 16 parallel array, high-speed multipliers (Tm =90 ns typical) fabricated using NMOS silicon gate technology. J3y use of a modified Booths algorithm and advanced NMOS VLSI design processes, these multipliers provide a performance comparable to existing bipolar TTL multipliers at less than half the power consumption (Icc = 230 mA typical). The WTL1516/1517 also use standard TTL power supplies of 5V. The multipliers have input and output latches which can be operated in a clocked mode or transparent mode. Applications of the multipliers include a variety of digital signal processing systems including floating point processors, FFT processors, image/ video processors, speech recognition and synthesis, digital filtering; etc. Input data are accepted in the form of 16-bit two's complement and unsigned magnitude in mixed or unmixed mode. In the WTL1516 the X, Y, MSP and LSP registers have independent clocks (CKx, CKy, CKM, CKd. The output multiplexer control (MSPSEL) uses a pin which is a supply ground in the TRW MPY16HJ and WTL1016. When this control is LOW the function is that of the MPY16HJ and WTL1016, thus allowing full compatibility. The WTL1517 differs in that it has a single clock input (CK) and three register enables (ENX, ENY, ENP) for the two input registers and the entire product. This allows use of the WTL1517 in microprogrammed syst.ems. In both devices data are entered into the registers on the positive edge of the clock.

• Low power • WTL1517 optimized for microprogramming single clock with register enables • Standard TTL power 5V supply and input! output levels • Input/output latches selectable for clocked or transparent mode of operation • Mixed mode two's complement and unsigned magnitude multiplication • . WTL1516 pin-for-pin functional replacement for TRW MPY16HL AMD 29516/29517 and WTL1016 • WTL1517 pin-for-pin functional replacement for AMD 29517

Logic Diagrams CII'-t-+-t---+-t-----' ......

t'~+-+-_-+++_----'

fiii_~......

CII,--+-i~

FA

F1

MSPSEl

WTL1516

WTL1517

w _ _ _--../

3255 Scott Boulevard, Bldg. 2B • Santa Clara, CA 95050 • Telephone (408) 727-6625 • Telex 171596 AAA Com Suvl © Copyright 1982, WEITEK Corporation. All rights reserved.

1038

©

/ Ie MASTER 1983

WTL2516/2517 ADVANCED DATA

WEITEK

Coming on Strong in VLSI

Description

Features • • • • • •

• •

•

•

•

16 X 16 parallel array multiplier 200 ns typical multiply time NMOS technology Low power, 0.6W typical Low cost plastic package WTL2517 optimized for microprogramming single clock with register enables Standard TTL power 5V supply and input/output levels Input/output latches selectable for clocked or transparent· mode of operation Mixed mode two's complement and unsigned magnitude. multiplication WTL2516 pin-for-pin functional replacement for TRW MPY16HJ, AMD 29516/29517 and WTL1016 WTL2517 pin-for-pin functional replacement for AMD 29517

The WTL2516/2517 are 16 X 16 parallel array, high-speed multipliers (Tm = 200 ns typical) fabricated using NMOS silicon gate technology. By use of a modified Booths algorithm and advanced NMOS VLSI design processes, these multipli. ers provide a performance comparable to existing bipolar TTL multipliers at less than 1/4 the power consumption (Icc =120 mA typical). The WTL2516/2517 also use standard TTL power supplies of 5V. The multipliers have input and output latches which can be operated in a clocked m.ode or transparent mode. The multipliers are particularly useful in low to moderate performance, low cost, digital computationally intensive applications. These include low cost, relatively low resolution graphics functions involving 3D image rotation such as video games, small business 1desk-top computers and low cost graphics displays. Other functions include voice frequency, digital' filtering and processing for modems, speech synthesis, speech recognition and consumer audio. Input data are accepted in the form of 16-bit two's complement and unsigned magnitude in mixed or unmixed mode. In the WTL2516 the X, Y, MSP and LSP registers have independent clocks (CKx, CKy, CKM , CKL ). The output multiplexer control (MSPSEL) uses a pin which is a supply ground i~ the TRW MPY16HJ and 'WTL1016. When this control is LOW the function is that of the MPY16HJ and WTL1016, thus allowing full compatibility. The WTL2517 differs in that it has a single clock input (CK) and three register enables (ENX, ENY, ENP) for the two input registers and the entire product. This allows use of the WTL2517 in microprogrammed systems. In both devices data are entered into the registers on the positive edge of the clock.

Logic Diagrams CJI--t-~--+-+----' CJI~+--+-~_

MSPsEl

WTL2516

WTL2517

w-----.'\l

3255 Scott Bouleyard, Bldg. 2B • Santa Clara, CA 95050 • Telephone (408) 727-6625 • Telex 171596 AAA Com Suvl © Copyright 1982, WEITEK Corporation. All rights reserved.

© Ie MASTER

1983

1039

WEITEK

WTL1024 ADVANCED DATA

Coming on Strong in VLSI Features

Description

• 24 X 24 bit parallel multiplication with double precision output.

The WTL1024 is a 24 X 24 operand input, 48-bit product output parallel multiplier, fabricated using advanced NMOS VLSI design processes to provide high speed (Tm = 220 ns typical) at low power (Icc = 300 rnA typical). Pipelined architecture is used for ease of use in microcomputer based systems with operands and products loaded and unloaded 24 bits at a time. Inputs and outputs are latched with inputs having a separate chip select and outputs having three state capability. Separate operand data format controls are provided by TCX and TCY for classification of operands as two's complement or sign magnitude data. F1 and F2 are output flag signals derived from the most significant bits of the product register. The product can be shifted left from 0 to 3 bit positions by means of a pair of shift con': trol inputs, SHA and SHB. The output flag signals, F1 and F2, and shift control inputs, SHA and SHB, can be used in conjunction with a standard TTL ALU to provide exponent data normalization for floating point operations. Rounding of the product to 24 bits is under control of the RND control input and is performed after shifting. Flag F3 indicates when overflow occurs in the round operation. The two halves of the 48-bit product (MSP and LSP) are selected for output by the SELP output multiplexer control. Output enable signal OE controls three state. The WTL1024 is useful in integer operations such as in 16-bit computer/microcomputer data environment where recursive computations often require the ability to handle extended product operations. For floating point data multiplication operations, the WTL1024 can provide mantissa multiplication in conjunction with external readily available LSI circuits such as the 74S381 ALU and 2901 bit slice, etc., for exponent adjust.

• Pipelined architecture, with separate 24-bit wide inputs and outputs. • High-speed, Tm = 220 ns typical. • Low power NMOS fabrication, Icc = 300 rnA typical. • TTL compatible input! output. • Two's complement, unsigned magnitude selectable modes with mixed mode operation. • Product left shift up to three bits. • Product round with overflow flag. • Useful in 16-bit computer systems for extended integer arithmetic operations. • Provides floating point 24-bit mantissa multiply with external standard TTL for exponent adjust.

~ Q)

::

~ Logic Diagram CS CK,

Fl.F2_-+--~

....

~---

SHA. S H B - - - + - - - - - I

FJ-----{

SElP-------I

WTL1024

ll'E------

Ie MASTER

x

1983

MASTER SELECTION GUIDE

Software Support Programs Cross Assembler

x

High Level Language

Debug

Clagnostlc

Edit

X

X

X

x

x

x

x.

x

x

x

x

Alternate Sources

Model

Source

Hughes

COP1802BC

RCA

Hughes

COP1802C

RCA

(1459)

COP1802M

RCA

(1459)

Comments

Line

(1459)

x

x

S-bit counter on board.

COP1S04AC

RCA

(1461)

x

x

S-bit counter on board.

COP1805AC

RCA

(1461)

x

x

8-bit counter-timer on-board.

COP1805C

RCA

(1461)

x

x

8-bit counter on board.

COP1806AC

RCA

(1461)

x

x

8-bit counter-timer on-board.

COP1806C

RCA

(1461)

x

x

Motorola

Single chip CMOS CPU, 16 programmable bi-directional liD lines.

COP6805E2

RCA

x

x

Motorola

Single chip CMOS CPU, 20 programmable bi-directional liD lines, self check mode.

COP6805F2

RCA

x

x

Motorola

Single chip CMOS CPU, 32 programmable bi-directional liD lines, self check mode.

COP6805G2

RCA

Optional supply voltage -12,5.

PPS-8

Rockwell

Optional supply voltage -12,5.

PPS-8/2

Rockwell

Bus compatible with 6800.

R6500

Rockwell

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x x

x x

x x

MOS Technology, Synertek

Mostek, Zilog

R6500/1

Rockwell

On board USART, two 16 bit counters, 32 liD lines.

R6500/11

Rockwell

On board USART, two 16 bit counters, 56 liD lines.

R6500/12 .

Rockwell

On board USART, two 16 bit counters, 32 liD lines.

R6500/13

Rockwell

Bus compatible with 6800, 68000.

R6502

Rockwell

R6511

Rockwell

Enhanced R6502.

R6511Q

Rockwell

4 MHz optional.

ZSO/A

SGS

8080A software compatible.

LHOO80

Sharp

Any of the general purpose registers can be used as an index register.

2650A

Signetics

Any of the general purpose registers can be used as an index register.

x x

Software compatible with R6502, 32 liD lines. Other mOdels available with various features.

10

20

Q)

"0 2650A-1

Signetics

::J

Intel

8021

Signetics

(9

AMD, Fujitsu, Intel, NEC

8035

Signetics

C

8039

Signetics

AMD, Fujitsu, Intel, NEC-Micro

8040

Signetics

8048

Signetics

8049

Signetics

8050

Signetics

8X300

Signetics

8X305

Signetics

0 ~

U Q)

30

Q)

(f) 10..-

x

Bipolar with fixed Instructions.

x

x

x

x

x

AMD National, Fairchild, Eurotechnique 8 bit version of F16032 16 bit CPU. 32 bit internal architecture. Software upward compatible with F16016 and F16032.

x

x

x

Q) ~

en

CO ~

SY16008

Synertek

DMA based on a stopping CPU, address bus connections are not 3 state.

SY6500

Sya.rt.k (1526)

GTE,CSG

On chip clock,lRQ, NMI, RYD bus compatible with MC680D.

SY6502

Synertek

GTE Micro, CSG

On chip clock, IRQ, NMI, bus compatible with MC6800.

SY6503

Synertek

GTE Micro, CSG

On chip clock, IRQ bus compatible with MC680D.

SY6504

Synertek

GTE Micro, CSG

On chip clock, IRQ, RYD bus compatible with MC6800.

SY6505

Synertek

GTE Micro, CSG

On chip clock, IRQ bus compatible with MC6800.

SY6506

Synertek

GTE Micro, CSG

On chip clock, RYD bus compatible with MC6800.

SY6507

Synertek

GTE Micro, CSG

External clock,lRQ, NMI, RYO, bus compatible with MC6800.

SY6512

Synertek

GTE Micro, CSG

External clock, IRQ, NMI, bus compatible with MC6800.

SY6513

Synertek

MOSTechnology, Rockwell

~.

~ 40

Ie MASTER

1983

~

~e:

i=:::

Bald 'lcllndlcallSaddlllalil dill Is provided aD Ibl PIUI aalld.

~

~ !:.

1073

Ie MASTER MICROPROCESSORS (Cont'd) General

Data Word Size. or Structure

(For uC Only)

Supply Voltage (V)

Instruction Word Size (bits)

NMOS NMOS NMOS

5

8,16,32

5

8,16,32

5

8,16,24

126K

128

HMOS HMOS

5

8,16,32

120K

8

5

8,16,32

120K

8

NMOS

5

8,16,32

120K

8

NMOS NMOS NMOS NMOS

5

8,16,32

5

8,16,32

5

8,16,32

5

8,16,32

NMOS NMOS

5 5

8

NMOS' NMOS NMOS NMOS CMOS NMOS SMOS

8

Directly Address. Memory (Words)

Clock Freq. (MHz! Phases)

Interrupts

Levels

8K

2/1

yes

vectored

4K

2/1

yes

vectored

2K

8/1

yes

vectored

128

2K

11

yes

vectored

128

2K

11

yes

vectored

128

11

yes

vectored

120K

128

11

yes

vectored

128K

128

11

yes

vectored

128K

128

11

yes

vectored

120K

128

4K

yes

vectored

8,16,32

120K

128

4K

yes

vectored

8,16,32

120K

128

yes

vectored

5

8,16,32

120K

128

yes

vectored

5

8,16,32

120K

128

yes

vectored

5

8,16,32

120K

128

yes

vectored

5

8,16,32

128K

144

5

8,16,32

120K

128

2K

yes

vectored

5

8,16,32

6K

64K

lK

yes

vectored

5

8

64K

128

SMOS

5

8

64K

128

8

SMOS

5

8

64K

8

SMOS

5

8

8

SMOS

5

8

NMOS

8 8

8 8 8 8

8 8 8 8 8 8 8 8 8 8 8

Q)

Hardware Support

Architecture

Process Type

On-Chip RAM (bytes)

On-Chip (P)ROM (bytes)

Prototyping System

'-

InCircuit Emulator

x

x

8/1

x

x

2K

5/1

x

x

128

4K

5/1

x

x

64K

128

4K

8/1

yes

x

x

8

64K

128

4K

5/1

yes

x

x

4.5-10.5

8

64K

128

2K

4/1

yes

x

x

NMOS

5

8-16

4K

64

6/0

yes

vectored

x

x

NMOS NMOS

5

8-16

4K

128

5

8-16

4K

64

x x

x x

NMOS NMOS NMOS CMOS CMOS NMOS NMOS NMOS NMOS NMOS NMOS NMOS

5

8-16

4K

5

8,16,24

65K

x x x x x x x x x x x

x x x x x x x x x x x

-

11

"0 ::J

(!J C

0

...... 0

Q) Q)

en '-

Q)

......

8

lK

11/0

yes

vectored

610

yes

vectored

en (U

~

8 8 8

~

~

~

~ re:

r.

(it

~

==

8 8 8 8 8 8 8 8 8

1074

2K

11/0

yes

vectored

3/0

yes

vectored

5/0

yes

vectored

11/0

yes

vectored

11/0

yes

vectored

5

8,16,24

65K

5

8-16

4K

128

5

8-16

4K

128

5,12

16

65K

3.3/4

std.

4

5

8-32

65K

2.5/1

yes

vectored

5

8-32

65K

4/1

yes

vectored

5

8-32

65K

6/1

yes

vectored

5

8-32

65K

8/1

yes

vectored

5

8-32

65K

2.5/1

yes

vectored

5

8-32

500K

25/2

yes

vectored

2K

~

Ie MASTER

1983

MASTER SELECTION GUIDE

Software Support Programs Cross Assembier

High Level Language

Debug

Dlagnostlc

Edit

Alternate Sources

Comments

Model

Source

GTE Micro, CSG

External clock, IRa, bus compatible with MC6800.

SY6514

Synertek Synertek

GTE Micro, CSG x

x

x

Line

External clock, IRa, RYD, bus compatible with MC6S00.

SY6515

4 external interrupts, on-Chip UART, 2 counter/timers, 32 flO lines. 64-pin prototype version also Zbus compatible.

Z8

Synertek

SGS, Sharp, Zilog

On-chip UART, 2 counter/timers, 32 flO lines.

Z8601

Symtlk (1540)

SGS, Sharp, Zilog

On-Chip UART, 2 counter/timers, 32 flO lines, faster version of Z8601.

Z8601A

Syurtlk (1540)

GTE Micro

Development device simular to Z8601 but has memory control and interface lines for 4K bytes of memory.

Z8602

SY·lrtlk (1541)

GTE Micro

Same as Z8601 but faster CPU speed.

Z8602A

SY·lrtlk (1541)

SGS, Sharp, Zilog, GTE Micro

Photo typing Z8601 with socket for external 2716 EPROM.

Z8603

SYllrtlk (1542)

SGS, Sharp, Zilog, GTE Micro

Same as Z8603 but faster CPU speed.

Z8603A

SY·lrtlk (1542)

SGS, Sharp, Zilog, GTE Micro

On chip UART, 2 programmable counter/timers, 32110 lines. Simular toZ8601.

Z8611

SY·lrtlk (1543) 10

SGS, Sharp, Zilog, GTE Micro

Same as Z8611 but faster CPU speed.

Z8611A

SYllrtlk (1543)

SGS, Sharp, Zilog, GTE Micro

Development device simular to Z8611 but has memory counter and interface lines for 4K bytes of memory.

Z8612

SY·lrtlk (1544)

SGS, Sharp, Zilog, GTE Micro

Same as Z8612 but has faster CPU speed.

Z8612A

SY·lrtlt (1544)

SGS, Sharp, Zilog, GTE Micro

Prototyping Z8611 with socket for external 2716 EPROM.

Z8613

Syalrtlk (1545)

SGS, Sharp, Zilog, GTE Micro

Same as Z8613 but faster CPU speed.

Z8613A

Syaartek (1545)

Zilog

ROMless version of Z8601.

Z8681

Syalrtlt (1546)

x

CMOS version of Z8601.

Z86C01

SYllrtlk (1548)

Subset of Z8 instruction set. Programmable 8 bit counter/timer.

Z8S

Synertek

x

8 bit timer/event counter, optional memory expansion modules available to complement on chip ROM.

TMS7000

TI

(1556)

x

8 bit timer/event counter, optional memory expansion modules available to complement on chip ROM.

TMS7020

TI

(1556) 20

x

8 bit timer/event counter, optional memory expansion modules available to complement on chip ROM.

TMS7040

TI

(1556)

x

On chip UART serial port, 2 8-bit timer/counters, optional memory expansion modules available to complement on chip ROM.

TMS7041

TI

(1556)

""C

8 bit timer/event counter, 4K EPROM, optional memory expansion modules available to complement on chip EPROM.

TMS70E40

TI

(1556)

CJ

x

x

Low power: 35 MW, power down feature, 8-bit interval timer/event counter, optional memory expansion module available to complement on-Chip ROM.

Q)

::J C TMS70l22

TI

x

X

x

AMD, Intel, NEC-Micro, Fujitsu, Signetics

TMP8035

Toshiba

x

x

x

NEC-Micro, Fujitsu, Signetics

TMP8039

Toshiba

x

x

x

AMD, Intel, NEC-Micro, Fujitsu, Signetics

TMP8048

Toshiba

--00 +-'

Q)

-Q)

en ~

x

x

x

NEC-Micro, Fujitsu, Signetics

8748 has U.V. PROM.

en

TMP8049

Toshiba

x

x

x

x

x

AMD, Mitsubishi, NEC-Mlcro

TMP8085A

Toshiba

x

x

x

x

x

AMD, Mitsubishi, NEC-Micro

TMP8085A-2

Toshiba

x

x

x

x

NEC-Micro, National, OKI

TMP80C39

Toshiba

x

x

x

x

NEC-Micro, National, OKI

TMP80C49

Toshiba

x

x

Q) +-'

8080A compatible with multiplexed bus operation.

ct:S ~ 30 ~

[-:

Can cross assemble and simulate with DEC PDP-H.

CP1600

Western

x

x

x

x

x

Mostek, NEC-Mlcro, SGS, Sharp

8080A software compatible.

Z80

ZIIog

(1581)

x

x

x

x

x

Mostek, NEC-Micro, SGS, Sharp

8080A software compatible.

Z80A

ZIIog

(1581)

x

x

x

x

x

Mostek, NEC-Micro, SGS, Sharp

8080A software compatible.

Z80B

ZIIog

(1581)

x

x

x

x

x

Mostek, NEC-Mlcro, SGS, Sharp

High speed version of Z80.

Z80H

ZIIog

(1581)

x

x

x

x

x

Mostek, NEC-Mlcro, SGS, Sharp

low power version of Z80, slower speeds available.

Z80l

ZIIog

(1581)

The first of a series of processors. The devices ar~ binary code compatible with the Z80 CPU. 8 and 16 bit multiple and divide.

Z8108

ZIIog

(1584)

Bold fluladlcltlS IddltJoaal dltlls rowldld on thl PI DI noted. (C)

Ie MASTER

1983

1075

''..-

~

'.-

Ie MASTER

MICROPROCESSORS (Cont'd) General

(For uC Only)

Process Type

Supply Voltage (V)

Instructlon Word Size (bits)

Directly Address. Memory (Words)

On-Chip RAM (bytes)

On-Chip (P)ROM (bytes)

Clock Freq. (MHz! Phases)

Interrupts

Levels

8

NMOS

5

8,16,24

124K

128

2K

12/1

yes

vectored

x

x

8

NMOS

5

8,16,24

124K

128

12/1

yes

vectored

x

x

8

NMOS

5

8,16,24

124K

128

12/1

yes

vectored

x

x

x x

x x

Data Word Size, or Structure

4K

Prototyping System

InCircuit Emulator

8

NMOS

5

8-24

124K

128

12/1

yes

vectored

8

NMOS

5

8-24

124K

128

12/1

yes

vectored

8

NMOS

5

8-24

124K

128

12/1

yes

vectored

8

NMOS

5

8-24

124K

128

12/1

yes

vectored

x x

x x

128

x

x

8

NMOS

5

8-24

128K

12/1

yes

vectored

8116

HMOS

5

8-48

1M

5/1

yes

see comments

12

CMOS

5

12

64K

5/0

yes

vectored

12

CMOS

5

12

32K

4/0

yes

vectored 1

12

4K

4/0

std.

12,24

4K

1.2/0

yes

5

8,16

User defined

10/1

optional

vectored

5

8-48

1M

10/1

yes

vectored

NMOS

5

16,32

48M

4/1

yes

vectored

16

NMOS

5

16,32

384K

4/1

yes

vectored

16

HMOS

5

8-48

1M

8/1

yes

vectored

16

HMOS

5

8-48

16M

8/1

yes

vectored

16

HMOS

5

8-48

1M

10/1

yes

vectored

16

HMOS

5

8-48

1M

10/1

yes

vectored

16

CMOS

5

16-48

65K

3/1

yes

vectored

16

NMOS

5,12

16-48

65K

3.3/4

yes

vectored

16

CMOS

5

16-48

65K

5/1

yes

vectored

16

NMOS

5,12

16

32K

8.3/2

yes

vectored

16

NMOS

5

8-200

64K

6/2

yes

vectored

12

CMOS

5-10

12

PMOS

5

16

TIL

16

HMOS

16

Q)

"C

Hardware Support

Architecture

x x x x x

x x

::J

C.9 C

o +"'"

()

Q)

128

2K

Q)

en

x

x

16

NMOS

5

8-200

16M

6/2

yes

vectored

16

13L

5

16

32K

10/0

yes

vectored

x

16

13L

5

16

64

10

yes

vectored

x

x

16

NMOS

5

8-48

1M

8/1

yes

vectored

x

x

16

NMOS

5

8-48

1M

10/1

yes

vectored

x

x

"

1076

e Ie MASTER

1983

MASTER SELECTION GUIDE

Software Support Programs Cross Assembier

x

High Level Language

Debug

Dlagnostle

Edit

Comments

Model

Source

x

x

x

Synertek, SGS, Sharp, GTE Micro

On-chip UART, and 2 counter/timers. 4 external interrupts, 32 110 lines.

Z8601-MCU

ZIIog

(1596)

Synertek, SGS, Sharp, GTE Micro

Program storage in separate 2716 EPROM, 4 external interrupts. Has piggyback 24-pin socket to program memory.

x

Alternate Sources

Line

x

x

x

x

x

Z8603-MCU

ZIIog

(1596)

x

x

x

x

x

Synertek, SGS, Sharp, GTE Micro

On-Chip UART and 3 counterltimers, 32 I/O lines. 4 external interrupts.

Z8611-MCU

ZIIog

(1597)

x

x

x

x

x

Synertek, SGS, Sharp, GTE Micro

64 pin development version. 4 external interrupts. ROMless Z8601.

Z8612-MCU

ZIIog

(1597)

x

x

x

x

x

Synertek, SGS, Sharp, GTE Micro

ROMless Z8. Has piggyback 24-pin socket for direct interface to program memory. Permits program storage in separate EPROMs.

Z8613-MCU

ZIIog

(1597)

x

x

x

x

x

Single chip basic interpreter with Tiny Basic in ROM.

Z8671-MCU

ZIIog

(1597)

x

x

x

x

x

Single chip basic interpreter with Tiny Basic in ROM, power down bonding option.

Z8675-MCU

Zilog

x

x

x

x

x

Synertek

ROMlessZ8.

Z8681-MCU

ZIIog

Intel

I/O processor, concentrator and intelligent DMA controller. 4 special purpose input interrupts, 2 DMA requests interrups, 2 general purpose interrupt outputs.

AM8089

AMD

PDP-8 software compatible, high performance upgrade of HM6100 CPU.

HD6120

Harris 10 (669,1333,1341 )

PDP-8 instruction set compatible Fortrar, Basic, Focal, Pascal, available from outside vendors.

HM6100

Harris

Executive PDP-8, instruction set.

IM6100

Intersil

TLCS-12A

Toshiba

Interrupt requires AM2914 interrupt controller chip.

AM29116

AMD

Intel, Fujitsu

Same part as iAPX86/10.

AM8086

AMD

, Intersil x

x

x

x

x

x

..

HarriS

x

(1597)

(1224)

x

x

x

x

x

Zilog

Segmented, single step mode.

AMZ8001

AMD

x

x

x

x

x

Zilog

Non-segmented, single step mode.

AMZ8002

AMD

Intel

High performance-provides two times the performance of iAPX86. Upward compatible with iAPX86/88 software. 10 additional instruction types.

iAPX186

AMD

Intel

High performance 80286 processor with memory management. Upward compatible with iAPX86, 88 and iAPX 186 software.

iAPX286

AMD

(1231)

"'C ::J

Mitsubishi, NEC-Micro, Mostek, Siemens, Intel, Fujitsu

Same part as AM8086.

iAPX86/10

AMD

(1229) 20

(!J

Intel

Two chip set using iAPX86/10 plus AM8087 numeric data processor.

iAPX86/20

AND

(1229)

TI

Comments same as S99C91. Protyping chip for AMI Alterable Microcomputer Family.

AMUIPR

AMI

(1251)

TI

Instructions include hardware multiply, divide, software compatible with 990 minicomputers.

S9900

AMI

TI

Development tools available from Gould-Millennium. TMS9900 compatible.

S99C91

AMI

Software compatible with NOVA 3.

mN602

Data Gen

x

x

x

(1231)

C

o

(1252)

National, Synertek, Eurotechnique All features of F16032 plus 8080 code software compatible, 16 bit interval architecture.

F16016

Fairchild

National, Synertek, Eurotechnique 32 bit interval architecture, software multiply and divide.

F16032

Fllrcblld (1298)

x

x

x

x

x

Microcomputer performance. Multifunction instructions process several steps e.g. add/shift/check and skip.

F9440

Fairchild

x

x

x

x

x

Second generation Microframe microprocessor with enhanced instructions improved speed and multiprocessing capabilities using 13L bipolar tech. 16x16 bit multiply in 3.5!,sec.

F9445

Fllrcblld (1285,1288)

x

x

x

x

Mitsubishi, Mostek, Intel, Siemens, Assembly language compatible with 8080/8085. NEC-Micro

MBL8086

Flillsu

(1305) 30

x

x

x

x

Mitsubishi, Mostek, Intel, Siemens, Assembly language compatible with 8080/8085. NEC-Micro

MBL8086-1

Flillsu

(1305)

Ie MASTER

1983

...... () Q) Q)

en

Bold flCI IndlcltlS addlllonal dati Is provided on thl plgl notad.

"C

«

r-------CX

J.LC

Mc

o

'INTERNAL

1204

MUX &

POL

CT

MPR-060

@)

Ie MASTER 1983

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am290S Quad 2-lnput OC Bus Transceiver (with 3-State Receiver)

Am2906 Quad 2-lnput OC Bus Transceiver (with Parity)

• • • • • • • •

• • • • • • • • •

Quad High-Speed LSI Bus Transceiver Open-Collector Bus Driver 2-Port Input to 0- Type Register on Driver Bus Driver Output Sinks 100mA at O.BV (Max) Driver Clock to Bus in 21 ns (Typ) Receiver Has Output Latch for Pipeline Operation 3-State Receiver Outputs Sink 12mA 24-Pin DIP

Quad High-Speed LSI Bus Transceiver Open-Collector Bus Driver 2-Port Input to 0- Type Register on Driver Bus Driver Output Sinks 100mA at O.BV (Max) Internal Odd 4-Bit Parity Checker/Generator Driver Clock to Bus in 21 ns (Typ) Receiver Has Output Latch for Pipeline Operation Receiver Outputs Sink 12mA 24-Pin DIP

Am290S*

SELECT

D~~6~~

DRCP

BUS ENABLE

BE

'--------
---I-...J

I

STACK POINTER

D AND R

4% g~~!'i9~~D I I

ONLY

4X4FILE

I

DIRECT INPUTS

D

I

CLOCK

>----4~~....,

D

AR

So>--_...J MULTIPLEXER S1>---~

fP:.m2909oNi.

'l~:~

I

I'PC MICRDPROGRAM COUNTER REGISTER

en

Yl

Q)

o os:

OR 1 > - - i - - - + - - ,

Q)

o

L.:0~ _>-_-........- ,

o L.

o

:E 'U Q)

o

c: CU

>

'U

«

MPR-093

© Ie MASTER 1983

1207

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2910 12-Bit Microprogram Controller • Output Enable Controls for Three Branch-Address Sources Built-in decoder function enables external devices onto branch address bus, eliminates external decoder • All Registers Positive Edge-Triggered Simplifies timing problems Eliminates long set-up times • Fast Control from Condition Input Delay from condition code input to address output 21 ns (Typ) • 166ns (Max) for Conditional Jump Sequence (includes delay through PROM and registers) • 40-Pin DIP

• 12 Bits Wide Address up to 4096 words of microcode with one chip All internal elements a full 12 bits wide • Internal Loop Counter Presettable 12-bit down-counter for repeating instructions and counting loop iterations • Four Address Sources Microprogram Address can be selected from microprogram counter, branch address bus, 5-level push/pop stack or internal holding regJster • 16 Powerful Microinstructions Executes 16 sequence control instructions, most conditional. on external condition input and/or state of internal loop counter

RLD

C>----i

en

Q) (,)

> Q)

0

0

«

11

g

a:

0 0

"L.

(,)

cc cern

~

CI

Z 0

;:

"'C

0« :J-l

Q) (,)

a:

0..

Ii; !;

c

as

>

"'C

«

OE

Pi:

MAP

VEEf Vi

==>

12-Bit Data Path Control Path

MPR-106

1208

© Ie MASTER 1983

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2912 Quad Bus Transceiver • • • • • • •

Input to Bus Is Inverting Quad High-Speed Open-Collector Bus Transceiver Driver Outputs Sink 100mA at O.SV (Max) Bus Compatible with Am2905, Am2906, Am2907 Enable to Bus in 14ns (Typ) PNP Inputs to Reduce Input Loading 16-Pin DIP

BLI·D6l

Am2913 Priority Interrupt Expander • Encodes Eight Lines to 3-Line Binary • Expands Use of Am2914 • Cascadable

• Input to Output in 17ns (Typ) • Gated 3-State Output • 20-Pin DIP

en

Q)

0>0 Q)

0 0 0

10-

~ "C

u

«

°Am2916A logic diagram is similar to Am2915A except that

© Ie MA~TER 1983

BE input is replaced by parity output.

MPR-161

1211

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2917 A Quad 3-State Bus Transceiver (with Interface Logic) • • • • • •

Quad High-Speed LSI Bus Transceiver 3-State Bus Driver D-Type Register on Driver Bus Driver Output Sinks 48mA at O.SV (Max) Internal Odd 4-Bit Parity Checker/Generator Receiver Has Output Latch for Pipeline Operation

• Driver Clock to Bus in 21ns (Typ) • 3-State Receiver Outputs Sink 12mA • V OH = 3.SV (Min) for Direct MOS Microprocessor Interface • 20-Pin DIP

(J) Q) (.)

"> Q)

o

DRIVER CLOCK

DRCP

o

~

~~!BLE

(.)

~

R

ALE

RECEIVER LATCH ENABLE

'U Q) (.)

c

MPR-177

«S

> 'U

«

1212

@

Ie

MASTER 1983

Advanced Micro Devices ~. ..

BIPOLAR MICROPROCESSOR PRODUCTS Am2918/Am29LS18 Quad D Registers (with Standard and 3-State Outputs)

STANDARD OUTPUTS DO------i

Four D-Type Flip-Flops Four Standard Totem-Pole Outputs Four 3-State Outputs Clock to Output Time (Typ) 8.5ns for Am2918 18ns for Am29LS18 • 16-Pin DIP

o~--------------OO

• • • •

o THREE-STATE OUTPUTS

Ot-+----...J

CP CLOCK

DE

MPR-183

OUTPUT CONTROL

Am2919 Quad Register (with Dual3-State Outputs) • • • • • •

Two Sets of 3-State Outputs Four D-Type Flip-Flops Polarity Control on One Set of Outputs Buffered Common Clock Enable Buffered Common Asynchronous Clear Separate Buffered Common Output Enable for each Set of Outputs • Clock to Output in 22ns (Typ) • 20-Pin DIP

UJ Q) ()

oS; Q)

o

o

~

()

~ "'0

Q) ()

c

ca >

"'0

«

MPR-196

© Ie MASTER 1983

E ENABLE

CP CLOCK

CDi CLEAR

POL POLARITY

or=w

OE-Y OUTPUT ENABLE

1213

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2920 Octal D-Type Flip-Flop (with Clear, Clock Enable and 3-State Control) • • • •

B~ffered Common Clock Enable Input Buffered Common Asynchronous Clear Input 3-State Outputs a-Bit High-Speed Parallel Register with Positive Edge-Triggered, D-Type Flip-Flops

• Clock to Output in 24ns (Typ) • 22-Pin DIP

MPR-201

Am2921 One-of-Eight Decoder (with 3-State Outputs and Polarity Control) • 3-State Decoder Outputs • Buffered Common Output Polarity Control • Inverting and Non-inverting Enable Inputs

UJ Q) ()

• Input to Output in 20ns (Typ) • 20-Pin DIP

> Q) Cl

o

~

()

~ "0

A

Q) ()

c

E, - - - - - - - - '....._.

>.

~-----~

CO

>>-~Hr~+++_~~-~~~+++_~~--~H__,

"0

«

POL POLARITY

OUTPUT { CONTROL

DE, DE2 -----,&..-, MPR-207

1214

©

IC MASTER 1983

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2922 8-lnput Multiplexer (with Control Register) • High-Speed a-Input Multiplexer • On-Chip Multiplexer Select and Polarity Control Register • Output Polarity Control for Inverting or Non-inverting Output • Common Register Enable • Asynchronous Register Clear • 3-State Output for Exp,ansion • Clock to Output in 21 ns (Typ) • 20-Pin DIP

MPR-213

Am2923 8-lnput Multiplexer

-4>

• Switches One of Eight Inputs to Two Complementary Outputs • Input to Output in 13ns (Typ) • 3-State Output for Bus Organized Systems • 16-Pin DIP

-

H. H

>-en

4. d )-

0,

>--I..

=W-

(J) (,)

os: (J)

~-

0 0

--t.

:I...

H

=l~ »)o-~

(,) w~'"

~ "0 (J) (,)

H.

c cu >

t:i ) -

H.

"0

«

t:j ) - - - -

4-

= i )----

.... v

....

....

BU-069

© Ie IVIASTER 1983

---4>

-'" -v

.r=·v

¢

1215

....

~ I'

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2924 3-Line to 8-Line Decoder/Demultiplexer • Inverting and Non-inverting Enable Inputs • Select to Output in 8.0ns (Typ) • 16-Pin DIP

G2A----~

BLI-075

Am2925 System Clock Generator and Driver • Single-Chip Clock Generator and Driver • Four Different Clock Output Waveforms for Am2900 and Other Bipolar and MOS Systems • Crystal Controlled for Stable System Operation • Oscillator to 31 MHz Oscillator output for external system timing • Clock Haltr Single-Step and Wait Controls • Variable Cycle Lengths ' One of eight different cycle lengths can be microprogrammed to boost CPU throughput up to 25% • Slim 0.3" 24-Pin DIP

U)

Q) (.)

>

Q)

o

o

~

.~ ~ "0

OSCILLATOR

I

Xl

CRYSTAL

X2

CYCLE LENGTH

{~~:f]-EG L3

Q) (.)

r:: ro >

"0

«

MPR-217

1216

@

IC MASTER 1983,

Advanced· Micro Devices ..•.~ BIPOLAR MICROPROCESSOR PRODUCTS Am2926/Am2929 Schottky 3-State Quad Bus Driver/Receiver • • • • • •

48mA Driver Sink Current 3-State Outputs on Driver and Receiver PNP Inputs Am2926 Has Inverting Outputs Am2929 Has Non-inverting Outputs Driver/Receiver Propagation Delay (Typ) 10ns for Am2926 13ns for Am2929 • 16-Pin DIP

Am2926*

B/E

~----~-----r----~---BO ~----~----~---Bl

..------t--- B2 83

BLI·oao

·Outputs Bo-B3 are not inverted for Am2929.

Am2927/Am2928 Ql.ad 3-State Bus Transceivers (with Clock Enable) • o • • • • • • • • • •

Quad High-Speed LSI Bus Transceivers 3-State Bus Driver and Receiver Outputs D-Type Register on Drivers Latched Output on Am2927 Registered Output on Am2928 Output Data to Input Wraparound Gating Input Register to Output Transfer Gating with or without Driving Data Bus Clock Enabled Registers Bus Driver Outputs Sink 48mA at O.SV (Max) 3-StateReceiver Outputs Sink 20mA at O.SV (Max) V OH = 3.SV (Min) for Direct MOS Microprocessor Interface 20-Pin DIP

Am2927 BUS

DATA INPUT

OUTPUT y 0--

D MUX

EN

LATCH

en

Q) (.)

AIT S SELECT

ENDR DRIVER ENABLE

CP BE CLOCK BUS INPUT ENABLE

RECEIVER LATCH ENABLE

0:; Q)

DE

o a

OUTPUT ENABLE

~

Am2928

(.)

~ "0 Q) (.)

c

co

>

"0

«

S SELECT

ENDR DRIVER ENABLE

BE BUS ENABLE

ENREC CP RECEIVER CLOCK ENABLE INPUT

DE OUTPUT ENABLE

BLI·oaa

@IC MASTER 1983

1217

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2940 DMA Address Generator • DMA Address Generation Generates memory address, word count and DONE signal for DMA transfer operation • Expandable 8-Bit Slice Any number of Am2940s can be cascaded to form larger memory addresses Three devices address 16 megawords • Repeat Data Transfer Capability Initial memory address and word count saved so data transfer can be repeated

A~~=~~-4______C~

• Programmable Control Modes Provides four types of DMA transfer control plus memory address increment/decrement • 24mA Output Current Sink Capability • Microprogrammable Executes eight different instructions • 109ns (Max) Cycle Time for 16-Bit Configuration Allows up to nine million words/second DMA • 28-Pin DIP

____~__________~__+-~~____________________~

OE A r:>-4------....J

en

Q) (,)

0:;;

(g:~~~~~----~~--------~~--------------------------------------~

Q)

o

~L.

o

INSTRUCTION _ _IN_S_TR_U_C_TI_O_N_ (10-12) ~ DECODER

~

e:.

..... •

CLOCK~ CP~

(,)

~ "0

MPR·226

Q) (,)

c

cu

>

"0

«

1218

@

Ie MASTER 1983

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2942 Programmable Timer/Counter, DMA Address Generator • 22-Pin Version of Am2940 Provides multiplexed address and data lines plus additional instruction input and instruction enable pins • Used as DMA Address Generator or Programmable Timer Counter • Executes 16 Instructions Eight DMA instructions Eight Timer/Counter instructions • Provides Two Independent Programmable 8-Bit Up/Down Counters Counters can be cascaded to form single-chip 16-bit up/down counter

• Reinitialize Capability Counters reinitialized from on-chip registers • Expandable 8-Bit Slice Any number of Am2942s can be cascaded' Three devices provide a 48-bit counter • Programmable Control Modes Four types of control • 24mA Output Current Sink Capability • 109ns (Max) Cycle Time for 16-Bit Configuration • 22-Pin DIP

UJ

Q) (J

>

OED c:::::>--I----,

Q)

Q

o

DONE

DATA

(0 -0 ) K)I~~--< 0 7

l---"L-------

INSTRUCTION ENABLE (IE)

INSTRUCTlON'---" (10-13)

------------------1

L.

(J

~ "C

I L

4 ,

INSTRUCTION DECODE

CLOCK

c:::>------{:>o

Q) (J

C

ctS

>

"C

«

MPR-231

© IC MASTER 1983

1219

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2946/Am2947 Octal3-State Bidirectional Bus Transceivers • 8-Bit Bidirectional Data Flow Reduces System Package Count • 3-State Inputs/Outputs for Bus-Oriented System Interface • PNP Inputs Reduce Input Loading • VOH = Vee -1.1SV for TTL, MOS, CMOS Interface • 48mA, 300pF Bus Drive Capability .• Am2946 Has Inverting Transceivers

• Am2947 Has Non-inverting Transceivers • Transmit/Receive and Chip Disable Simplify Control Logic • Low-Power 8.0mA per bidirectional bit • Bus Port Stays in High-Impedance State during Power Up/Down • A Port to B Port Delay Time - 11 ns (Typ) • 20-Pin DIP

Am2946·

CHIP DISABLE - . - .

~

CD

TRANSMITI

iiECEii7f Tiii

BLI-101

"Am2947 has non-inverting transceivers.

Am2948/Am2949 Octal3-State Bidirectional Bus Transceivers

en

(J.) (,)

os; (J.)

o

o

~

(,)

~ "'0

• 8-Bit Bidirectional Data Flow Reduces System Package Count • 3-State Inputs/Outputs for Bus-Oriented System Interface • PNP Inputs Reduce Input Loading • VOH = Vee -1.1SV for TTL, MOS, CMOS Interface • 48mA, 300pF Bus Drive Capability • Am2948 Has Inverting Transceivers

• Am2949 Has Non-inverting Transceivers • Separate Transmit and Receive Enables • Low-Power 8.0mA per bidirectional bit • Bus Port Stays in High-Impedance State during Power Up/Down • 20-Pin DIP

Am2949*

(J.) (,)

c:: >

as "'0

«

BLI-107

"Am2948 has inverting transceivers.

@

Ie

MASTER 1983 ;

Advanced Micro Devices .~. BIPOLAR MICROPROCESSOR PRODUCTS Am2950/Am2951 8-Bit BidirectionalI/O Ports • Inverting and Non-inverting Versions Am2950 provides non-inverting data outputs Am2951 provides inverting data outputs • 24mA Output Current Sink Capability o 20ns Clock to Flag, 27ns (Max) for Output Enable Allows up to 8 million words/second data transfer rate • 28-Pin DIP

• 8-Bit, Bidirectional I/O Port with Handshake Two 8-bit, back-to-back registers store data moving in both directions between two bidirectional busses • Register Full/Empty On-chip flag flip-flops provide data transfer handshaking signals • Separate Clock, Clock Enable and 3-State Output Enable for each Register • Separate, Edge-Sensitive Clear Control for each Flag Flip-Flop

Am2950·

Y"

CPA

+ ,. 0i I C6E

FA

CLR

EDGE DETECT

Y

CE A

t'K~

I Ao

CP Do

A, 0,

0,

A2 O2

02

a: w

A3

1/1

03

a:

04

~

03

aw

A4 04

Ii:

As Os

Os

06

06

07

· 07

A6 A7

W ......

V

r-t --c --c

V2

----.... ----....

,

V3 V4

"

Vs

"

V6

--c

V7

CL

OE SA Bo B, B2 B3 B4 Bs B6 B7

(J)

~~ V, !A -F--r V21A -N Y31A F--r V4~

r-«

OEAS

CL Rs

I

0,

0,

o

O2

o

1/1

03

(.)

w a:

04

02

a

ch

Os

Os

V6~

06

06

0 7 CE

r

~

I

CED

FS CLR CP

y

Ie MASTER 1983

~ "C

Q) (.)

C

tU

>

CP 0 7

I

r-

"C

«

CPs

CE s Vee

1

·Outputs 80-87 are inverted on the Am2951.

@

Q)

~

~

04

10

EDGE DETECT

a: w

03

-J>o-

Fs

oS;

Do

vs~

V7~

Q) (.)

-

00

MPR-573

1221

Advanced ,Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am2954/Am2955 Octal Registers (with 3-State Outputs) • • • •

8-Bit High-Speed Parallel Registers Am2954 Has Non-inverting Inputs Am2955 Has Inverting Inputs Positive Edge-Triggered D-Type Flip-Flops

• • • •

Buffered Common 3-State Control and Clock VOL = O.5V (Max) at IOL = 32mA Clock to Output 11 ns (Typ) 20-Pin DIP

Am2954*

OE OUTPUT ENABLE

Yo

Y,

BLI·110

"Inputs DO through 07 are inverted on the Am2955.

Ain2956/ Am2957 Octal Latches (with 3-State Outputs) • • • • •

en

Q) (,)

os: Q)

o

Eight Latches in a Single Package Am2956 Has Non-inverting Outputs Am2957 Has Inverting Outputs VOL = O.5V (Max) at IOL = 32mA 3-State Outputs for Bus-Oriented System Interface

• Hysteresis on Latch Enable Input for Improved Noise Margin • Clock to Output 12ns (Typ) • 20-Pin DIP

o

'-

(,)

Am2956*

~ "'0

Q) (,)

c cu >

"'0

«

"Inputs DO through 07 are inverted on the Am2957.

1222

MPR·360

@

Ie MASTER 1983

Advanced Micro Devices .~.. BIPOLAR MICROPROCESSOR PRODUCTS Am2958/Am2959 Octal Buffers/Line Drivers/Line Receivers (with 3-State Outputs) • 3-State Outputs Drive Bus Lines Directly • Hysteresis at Inputs Improve Noise Margin • PNP Inputs Reduce dc Loading on Bus Lines

Am2958*

1A1

1Y1

2A1

2Y1

1A2

1Y2

2A2

2Y 2

1A3

1Y3

2A3

2Y 3

1A4

1Y4

2A4

2Y4

=

• VOL 0.55V at IOL = 65mA for commercial product at IOL = 48mA' for military product • Data-to-Output Propagation Delay Am2958 Inverting - 4.5ns (Max) Am2959 Non-inverting - 6.0ns (Max) • Enable-to-Output 15ns (Max) ., 20-Pin DIP

2G

·Outputs Yl through Y4 are not inverted on the Am2959.

BLI-115

Am29112 Interruptable 8-Bit Microprogram Sequencer • Fast Designed to operate in 10MHz microprogrammed systems • Expandable One Am29112 directly addresses up to 256 words of microcode Two Am29112s can directly address up to words of microcode • Interruptable at Microcycle Completion Internal states saved on the stack Branches automatically to the interrupt service routine • Many Addressing Modes Immediate, relative and n-way ",nrira"",ir,n • 31-Level Stack On-chip 31-level stack used for interrupts and loops • Single or Double Pipeline • 40-Pin DIP

©

Ie

MASTER 1983

en

Q) ()

> Q)

o

o

~

()

~ "0

Q) ()

c

co >

"0

«

~_.~ •. ~_ .. ,. __".

1223

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am29116 16-Bit Bipolar Microprocessor • Designed for Controller Applications Instruction set designed for high performance peripheral controllers, communications controllers, industrial controllers and digital modems ... but general purpose too. Excellent solution for applications requiring speed and bit-manipulation power • Fast Design objective of 100ns (Max) microcycle time for all instructions Allpws a 10MHz clock rate

• Powerful Instruction Set All instructions executable in single cycle on full 16-bit word or on a-bit byte: Add, Subtract Rotate and Merge n-Bit Rotate Rotate and Compare Shift-Up/Shift-Down CRC Generation Set-Bit/Reset-Bit Priority Encode Add/Subtract 2n • Powerful Data Manipulation Full 16-bit data path 32 registers on-chip Direct data input for immediate mode instructions • 52-Pin DIP

RESERVED D - vccD-vccD-GNDD-GNDD-32-WORD X 16-BIT RAM

cpD-lEND--

. . - - - - - - - - - - - + - 1 ADDRESS .16-BIT LATCH

en Q) (,)

">Q) 0

1

OC

0

"-

SRE

(,)

~ "'0 Q) (,)

C CCS

DET

> "'0

« T1 . 4

CT

MPR-740

1224

@

Ie MASTER 1983

Advanced Micro Devices BIPOLAR MICROPROCESSOR PRODUCTS Am29705 16-Word by 4-Bit 2-Port RAM

• 16 Word x 4-Bit 2-Port RAM • Two Output Ports Each with separate output control Separate 4-bit latches on each • Data Output Non-inverting with Respect to Data Input

• Chip Select and Write Enable Inputs for Ease in Cascading • 53ns (Max) Access Time • 28-Pin DIP

63

A2

-A

Al

ADDRESS DECODER

16WORD 6Y 4-61T TWO-PORT RAM

A ADDRESS

6 ADDRESS DECODER

6 ADDRESS

62 61 60

A-PORT

WE

B PORT

CS

'---1-1-+-+---~~----O~

LE

A=-co FORCE A ZERO

ADATA 4BIT LATCH

B-DATA 4-BIT LATCH

1------0

8-BIT INTERNAL DATA BUS

Q)

0

I/O PC3'PCO

0

L.

(.)

~

Ril-O WR Al Ao

"C READ/ WRITE CONTROL LOGIC

Q)

(.)

c:::

I/O PB7,PBo

a:s > "C

RESET

« CS------'

© Ie MASTER 1983

1237

Advanced Micro Devices MOS MICROPROCESSOR PRODUCTS

Am8257/Am9557 Direct Memory Access (DMA) Controller

I

The Am8257/Am9557 is a 4-channel direct memory access controller which permits the high-speed transfer of data directly between peripherals and memory in microcomputer systems.

necessary control signals and memory address required for the data transfer. It maintains a byte count for each channel and issues a terminal count signal upon completion of the programmed number of transfers.

When peripheral requests are received, the Am8257/ Am9557 issues a HOLD signal to the host CPU, assumes control of the system busses, selects the highest priority peripheral for servicing, and generates the

The Am8257/Am9557 requires a single, 5V supply and is available in either a plastic or hermetic 40-pin DIP. For improved functional and performance characteristics; see the Am9517A Multimode DMA controller.

ORDO 0 0 -0 7

DATA BUS BUFFER

OACK O

ORD l

lOR lOW

OACK 1 ·

ClK RESET

en Q)

AO

()

Al

Q)

A3

oS;

READ! WRITE lOGIC ORQ2

A2

0 0

Cs'

()

A4

~

A6

"C

A7

Jo-.

OACK 2

ORQ3

AS

Q)

0

READY

c:

ct1

HRQ

"C

HlDA

>

«

INTERFACE AND OPERATION CONTROL lOGIC

OACK3

MEMR . MEMW AEN ADSTB TC MARK

1238

©

Ie

MASTER 1983

Advanced Micro Devices MOS MICROPROCESSOR PRODUCTS

Am8279 Keyboard/Display The Am8279 programmable keyboard/display I/O interface controls data input and display functions in microprocessor systems. It connects directly to the microcomputer data bus and all operating modes are CPU programmable.

and strobed inan 8-character FIFO. The display portion contains a 16 x 8 Display RAM which can be organized into dual 16 x 4. It provides a scanned display interface for LED, incandescent and other popular display technologies. Both right-entry calculator and left-entry typewriter display formats are possible.

The Am8279 has two sections: keyboard and display. The keyboard portion can provide a scanned interface to a 64-contact key matrix, a sensor array or a strobed interface keyboard. Key depressions can be 2-key lockout or N-key rollover. Keyboard entries are debounced

ClK

RESET

Available in two speed versions, the Am8279 requires a Single, 5V supply and is packaged in either a plastic or hermetic 40-pin DIP.

DB()'7

DATA BUFFERS

RD

WR

CS

I/O CONTROL

Ao

IRQ

FIFO/SENSOR RAM STATUS

en

DISPLAY ADDRESS REGISTERS

Q) C,)

axa FIFO/SENSOR RAM

16 X 8 DISPLAY RAM

.>

KEYBOARD DEBOUNCE AND CONTROL

Q)

Cl

o

L.

.2 ~

TIMING AND CONTROL

'0 Q) C,)

c ctS >

'0

« OUT AO-3

© Ie MASTER 1983

OUT B O_3

SlO_3

RlO_7

CNTUSTB

1239

Advanced Micro Devices MOS MICROPROCESSOR PRODUCTS

Am9511A Arithmetic Processing Unit (APU) The Am9511 A arithmetic processing unit is used to enhance the computational capability of a wide variety of a-bit microprocessor systems. It provides high performance 16 and 32-bit fixed-point and 32-bit floating-point arithmetic operations, performs trigonometric and inverse trigonometric functions, and executes a variety of mathematical operations such as square root, logarithm and exponentiation. Data are transferred to and from the APU via a CPU by using conventional programmed I/O, or by a direct memory access device if higher transfer speeds are required. All transfers, including operand, result, status

and command information, take place over an a-bit bidirectional data bus. Operands are pushed onto an internal stack and a command is issued to perform operations on the data in the .stack. Results are then available to be retrieved from the stack. or additional commands may be entered. Upon completion of each command, the APU issues an end of execution signal; this Signal may be used as an interrupt by the CPU to help coordinate program execution. The Am9511 A is available with a 2MHz, 3MHz or 4MHz maximum clock frequency in a hermetic 24-pin DIP.

BUS CONTROL

WR

WORKING REGISTERS

C/O PAUSE

DBO-DB7

--0

BUS BUFFER

CONSTANT ROM MICROPROGRAMMED CONTROllER

en Q)

END

0

":;

CONTROL ROM

SVREO

Q)

0

SVACK

0

RESET

J....

.2

ClK

~

"tJ Q)

0

c:::

as

>

"tJ

«

1240

© Ie MASTER 1983

Advanced Micro Devices MOS MICROPROCESSOR PRODUCTS

Am9512 Floating-Point Processing Unit (FPU) The Am9512 floating-point processing unit enhances the computational capability of the CPU in a-bit microprocessor systems. It provides single precision (32-bit) and double precision (54-bit) add, subtract, multiply and divide operations. Data are transferred between the Am9512 and the CPU by using programmed I/O or direct memory access techniques. The operand, result, status and command information transfers occur over an a-bit bidirectional

data bus. Operands are pushed onto an internal stack by the CPU and a command is issued to perform an operation on the data stack. The results of this operation are available to the CPU by popping the stack. Upon completion of an operation, the Am9512 issues an end of execution signal; this signal can be used to interrupt the CPU. The FPU is available in two speed versions and is packaged in a hermetic 24-pin. DIP.

TWO PORT DATA STACK 8 X 17

ERR

INTERFACE CONTROL

UJ

Q)

o

"S: Q)

o

o

CONTROL ROM 768 X 16

"-

o

~ "0 Q)

o

c:

«S

>

"0

Q)

PRIORITY

EO

L.

o

IRR

c_~..,~~r-~C-OL-----l"--------II~~~~~~~T

_____

INTERRUPT REOUESTS

o L.

REGISTER

(.)

GINT _ -_ _ _ _ _ _ _ _ _ _ _ _ _ _---1

~ "'0 Q) (.)

c:

ca >

"'0

«

©

Ie

MASTER 1983

1245

Advanced Micro Devices MOS MICROPROCESSOR PRODUCTS

Am9520 Burst Error Processor (BEP) The Am9520 burst error processor provides a tool for implementing the most common error detection and correction schemes in microprocessor-based digital data-handling systems. Because modern disks use high data recording densities, the probability of errors occuring during data recovery is increased. Burst error detection and correction schemes based on Fire codes. are used to correct such errors and to enhance the overall disk system performance. The Am9520 provides four standard polynomials, including the popular 56-bit and 48-bit versions; logic levels on two inputs select the desired polynomial. For encoding, the data stream is divided by a selected polynomial using rules of algebra in polynomial fields.

Vss

This division results in a remainder which is appended to the data as check bits. For error checking, the bit stream containing both data and check bits is divided by the same selected polynomial. If there are no detectable errors, this division results in a zero remainder. If an error is detected, the Am9520 will extract the burst error pattern and the location of the burst in the data stream. The Am9520 requires a single-phase clock and a 5V supply. It is packaged in either a plastic or hermetic 40-pin DIP.

Vee

l l

1--.......- - ERROR (ER)

RESET (MR) - - - - - - - - - .

1 - - 1 - - - - ALIGNMENT EXCEPTION (AE)

CLOCK (CP) - - - - - - - .

1--.......- - ERROR PATTERN (EP) FUNCTION - - - - - - ' " SELECT (C2-CO) - _... ".

PATTERN MATCH (PM4-PM2)

READ ERROR PATTERN (REP) - - - - I

(J)

DATA OUT

Q) ()

POLYNOMIAL SHIFT CONTROL (P3-PO)

os:

(OrOo)

---'--"~"

LOCATED ERROR PATTERN (LP3-LPO)

Q)

o

POLYNOMIAL _ . _ - , . SELECT (51-SO)

o

~

()

~ -o~

DATA IN ~-------1'-----..L.----'" (07-00)

Q) ()

POLYNOMIAL DIVIDE MATRIX

L ----------

c

SELECTABLE POLYNOMIAL DIVIDERS

as

>

-0

I I I

~

~

1246

@

Ie MASTER 1983

S6809/S68A09/S68B09 8-81T MICROPROCESSING UNIT Features

General Description

o

Interfaces With All S6800 Peripherals

o

Upward Compatible Instruction Set and Addressing Modes

o

Upward Source Compatible Instruction Set and Addressing Modes

The 86809 is an advanced processor within the 86800 family offering greater throughput, improved byte efficiency, and increased adaptability to various software disciplines. These include position independence, reentrancy, recursion, block structuring, and l¥gh level language generation.

[l

o

Because the 86809 generates position-independent code, software can be written in modular form for easy user expansion as system requirements increase. The 86809 is hardware compatible with all 86800 peripherals, and any assembly language code prepared for the 86800 can be passed through the 86809 assembler to produce code which will run on the S6809.

Two 8-Bit Accumulators Can Be Concatenated - Into One IS-Bit Accumulator On-Chip Crystal Oscillator (4 times XTAL)

Block Diagram

Pin Configuration

(.)

+--

vee

+--

Vss

INSTRUCTION DECODE (IR)

C

HALT

Vssl

NMi

XTAL

iRli

EXTAL

FIRO

RESET

BS

MRDY

en

E Q)

~

en

~

Ul

0

"-

BA

(.)

Vcc 1

~

AD

DMA/BREO

Al

R/W

A2

10

DO

"L;:

A3

11

01

FIRO

A4

12

02

E

IRO

AS

13

03

DMA/BREO R/W

A6

14

04

A7

15

05

A8

16

06

. . . - - - RESET NMI

HALT BA BS XTAL EXTAL MRDY

C

CO

(.) S6809 S68A09 S68B09

A9

17

07

Al0

18

A15

All

19

AU

A12

20

A13

Q)


clock. Instruction Set The F38E70 executes the entire instruction set of the multi-chip F8 family (F3850 family). Of course, the STORE instruction is of little use in the F38E70 because only read-only memory exists in the addressing range of the data counter (the data counter, however, is incremented if STORE is executed).

©

Ie MASTER 1983

External Mode

ATCUT1-4MHz

OPEN

RC Mode

EXTERNAL CLOCK

LC Mode Vee

~ ~L -=-

~* ..L

CEXTERNAL (OPTIONAL-CAN BE OMITTED)

L_-ir- _.J CEXTERNAL (OPTIONAL)

Minimum R = 4kf/

Minimum L= 0.1 mH Minimum Q = 40

C = 20.5 pF ± 2.5 pF + CEXTERNAL

Maximum CEXTERNAL = 30 pF

1

fMIN == 1.1 RC+65ns 1

f MAX == 1-.0-R-C-+-1-5-ns

C= 10 pF± 1.3 pF+CEXTERNAL 1 f==--

- 27r vIC

Example with CEXTERNAL = 0

Example with CEXTERNAL =.0

R= 15 kf/± 5% f == 2.9MHz±26%

L= 0.3 mH ± 10% f == 3.0 MHz± 10%

1267

Fa Family

FAIRCHILD A Schlumberger Company

Controller Products F3850

CPU with 64 bytes of RAM and two 8-bit bidirectional 1/0 ports

F3851 A

PSU with two 8-bit bidirectional 1/0 ports and 1K bytes of FAIRBUG bootstrqp debugging program

F3851

PSU with two 8-bit bidirectional 1/0 ports and 1K bytes of user-programmable mask ROM

F3853

Memory interface for static RAM or ROM

F3856

.PSU with two 8-bit bidirectional 1/0 ports and 2K bytes of user-programmable mask ROM, and an on-board binary timer

/

I

F3856A F3861A F3861B F3861C F3861D F3861E F3871E F3871F F3871G F3871H

PSU with two 8-bit bidirectional 1/0 ports and 2K bytes of KD-BUG monitor program ROM PIO with two 8-bit bidirectional 1/0 ports and a software-programmable polynomial timer

PIO with two 8-bit,bidirectional 1/0 ports and an F3870-type, software-programmable binary timer

I

F8 FAMILY ORGANIZATION

F3850 CENTRAL PROCESSING UNIT

F3851 PROGRAM STORAGE UNIT

f---

"C ......

-

.c (,)

L..

co

LL

F3853 STATIC MEMORY INTERFACE

f---

F3856 PROGRAM STORAGE UNIT

~

F3871 PERIPHERAL INPUT/OUTPUT

F3861 PERIPHERAL INPUT/OUTPUT

1268

@

Ie MASTER 1983

F6800 Family

FAIRCHILO A Schlumberger Company

Product Listing Device No. F6800P F6800CP F6800S F6800CS F68AOOP F68AOOS F68BOOP F68BOOS F6802P F6802S F6882P F6882S F6808P F6808S F6809P F68A09P F68B09P F6809E F68A09E F68B09E F6810P F6810S F68A10P . F68A10S F68B10P F68B10S F6820P

Description MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU MPU RAM RAM RAM RAM RAM RAM PIA

Device No. F6820S F6821P F6821S F68A21P F68A21S F68B21P F68B21S F6840P F6840S F68A40P F68A40S F68B40P F68B40S F6844P F68A44P

Description PIA PIA PIA PIA PIA PIA PIA PIM PIM PIM PIM PIM PIM DMAC DMAC

F6845P F68A45P F68B45P F6845AP

CRT CRT CRT CRT

F68A45AP F68B45AP F6846P F6846S

CRT Controller CRT Controller COMBO COMBO

Controller Controller Controller Controller

Device No. F6847P F6847S F6850P F6850S F68A50P F68A50S F68B50P F68B50S F6852P F6852S F68A52P F68A52S F68B52P F68B52S F6854P F6854S F68A54P F68A54S F68B54P F68B54S

Description VDG VDG ACIA ACIA ACIA ACIA ACIA ACIA SSDA SSDA SSDA SSDA SSDA SSDA ADLC ADLC ADLC ADLC ADLC ADLC

F6856P F6856S F3846P F3846S F68456P F68456S F68488P F68488S

SPCC SPCC SPCC SPCC SPCC SPCC GPIA GPIA

Development Board PEP 68-F6802, F6809 Prototyping Module "C

ROM Family

..c:

(,)

'-

Fairchild

©

Equivalent EPROM

Fairchild

Equivalent EPROM

16K ROM F35316 F68316

16K EPROM, 2716 2716

64K ROM 24-Pin F3564 F3565 F3566

64K ROM 24-Pin 68764 68764 68766

32K ROM F3533 F68332 F3532

32K EPROM 2732 2732 2732

64K ROM 28-Pin F3568 F3569 F3570

64K ROM 28-Pin 2764 2764 2764

Ie MASTER 1983

1269

ctS U.

FAIRCHILD A Schlumberger Company

F6801/F6803 Single-Chip Microcomputer Microprocessor Product

Description The Fairchild F6801/F6803 is an 8-bit single-chip microcomputer unit (MCU) which significantly enhances the capabilities of the F6800 family. It includes an upgraded F6800 microprocessor unit (MPU) with upward-source and object-code compatibility. The F6801lF6803 MCU can function as a monolithic microcomputer or can be expanded to a 64K byte address space. Features of the F6801/F6803 MCU include: • • • • • • • • • • • • •

•

Enhanced F6800 Instruction Set 8 x 8 Multiply Instruction Serial Communications Interface (SCI) 16·bit Three·Function Programmable Timer Bus Compatibility with the F6800 Family 2048 Bytes of ROM (F6801 Only) 128 Bytes of RAM 64 Bytes of RAM, Retainable During Powerdown 29 Parallel 1/0 and Two Handshake Control Lines Internal Clock. Generator With Divide·by·Four Output Interrupt Capability TTL compatible 40·Pin Ceramic or Plastic Package + 5V Power Supply

The F6801/F6803 MCU can be configured to function in a wide variety of applications. This flexibility is provided by its ability to be hardware-programmed into eight different operating modes. The operating mode controls the configuration of 18 of the 40 MCU pins, available on-chip resources, memory map, location of interrupt vectors, and type of external bus. Configuration of the remaining 22 pins is not dependent on the operating mode.

Connection Diagram E

Vss XTAL1

39

SC,

EXTAL2

38

SC 2

NM

37

P 30

IR01

36

P 3,

RESET

35

P 32

Vee

34

P 33

P 20

33

P 34

P 2,

32

P 35

P 22

10

31

P 36

P 23

11

30

P 37

P 24

12

29

P 40

P,o

13

28

P 4,

P"

14

27

P 42

P'2

15

26

P 43

P'3

16

25

P 44

P 14

17

24

P 45

P'5

18

23

P 46

P'6

19

22

P 47

PH

20

21

Vee STANDBY

The F6803 can be considered an F6801 that operates in Modes 2 and 3 only (either internal RAM with no ROM, or no internal RAM or ROM, respectively).

"0

.r:::.

.0 ~

1270

@

Ie MASTER 1983

F6801/F6803

FAIRCHILD A Schlumberger Company

Block Diagram

MODE

I 1Ft

EXPANDED MULTIPLEXED

MPU

~ EXPANDED NON·MULTIPLEXED

I

_ - - -...

I/O ...... I/O ......

A7/D7 As/Os As/Os A4 1D4 A3/ D3 A2/D2 A11D1

D7 Os 05 04 03 02 01

Ao/Do

Do

I/O

R/W R/W

OS3 IS3

AS lOS

SINGLE CHIP

110 ...... 110 ...... 110 ......

PORT 3

"'~~-"--I--+-"'" P20

PORT 2 MUX

"'~I----""'-+-..... P 21 I.~I--~--...........

P 22

I.~I--~~--.....

P23

"'~I--~.f--I-

__..... P 24

I/O

110

TIMER

SC1

P47 P 4S P4S P 44 P 43 P42 P 41 P 40

@

A1S A14 A13 A12 A11 A10 A9 As

A1 As As A4 A3 A2 Al

Ao

Ie MASTER 1983

II

PORT 4

PORT 1

•

P 10 P 11 P 12 P 13 P 14 P 1S P 1S P 11

1271

FAIRCHILD A Schlunlroerger C9mpany

F6809/F68A09/F68B09 Central Processing Unit Microprocessor Product

Description

The Fairchild F6809 8-bit Microprocessor is an advanced, high-performance member of the F6800 family, It offers greater throughput, improved byte efficiency, and increased adaptability to various software disciplines, including position-independent code, re-entrancy, recursion, block structuring, and high-level language generation, The F6809 is compatible with all F6800 peripheral devices and is upward source code compatible with F6800-series microprocessors. The device is available in three frequency ranges: 1.0 MHz (F6809). 1.5 MHz (F68A09). and 2.0 MHz (F68B09). Architectural improvements, such as additional 16-bit registers and dual 8-bit data paths, allow for powerful enhancements to the instruction set and addressing capabilities. •

• • • • • • • • • • • •

• ccs

LL.

• • • •

Compatible with Entire F6800 Family -Hardware Interfaces with all F6800 Peripherals -Software Has Upward·Compatible Instruction Set and Addressing Modes Two 16·Bit Index·Registers Two Indexable 16·Bit Stack Pointers Two 8·Bit Accumulators Can Be Concatenated to Form One 16·Bit Accumulator Direct Page Register Allows Direct Addressing Throughout Memory Map Single + 5 V Supply On·Chip Oscillator MRDY Input Extends Data Access Time for Use with Slow Memory , DMA/BREQ Allows Access to Bus for DMA and Memory Refresh Fast Interrupt Request (FIRQ) Stacks Only Program Counter and Condition Code Register Interrupt Acknowledge Output Allows Vectoring by Device Sync Acknowledge Output Allows for Synchronization to External Event 16·Bit Arithmetic (ADD, SUBTRACT, COMPARE, LOAD, STORE) 8 x 8 Unsigned Multiply Transfer/Exchange all Registers Push/Pull all Registers Ten Addressing Modes Expanded Indexed Addressing, Accumulator or up to 16·Bit Offset, Auto·lncrement/Decrement by One

Connection Diagram

HALf

Vss NMI

39

XTAL

IRa

38

EXTAL

FIRO

37

RES

BS

36

MROY

BA

35

a

Vee

34

E

Ao

33

OMA/BREO

Al

32

R/W

A2

10

31

Do

A3

11

30

01

A4

12

29

O2

As

13

28

03

A6

14

27

04

A7

15

26

Os

As

16

25

06

Ag

17

24

07

A 10

18

23

A 1S

All

19

22

A14

21

A 13

A12 (Top View)

or Two • •

True Indirect Addressing Load·Effective Address

1272

© Ie MASTER 1983

FAIRCHILD

F6809/68A09/F68B09

A Schlumberger Company

Block Diagram

_--RES

NMI

_ - - DMA/BREO R/W

HALt BA BS ---XTAL EXTAL MRDY

E L.---~O

© Ie MASTER 1983

1273

FAIRCHILD A Schlumberger Company

F6809E/F68A09E/F68B09E Central Processing Unit Microprocessor Product

Description The Fairchild F6809E 8-bit microprocessor is an advanced, high-performance member of the F6800 family. It offers greater throughput, improved byte efficiency, and increased adjustability to various software disciplines, including position-independent code, re-entrancy, recursion, block structuring, and high-level language generation. The F6809E is compatible with all F6800 peripheral devices and is upward source code compatible with F6800-series microprocessors. It is available in three frequency ranges: 1.0 MHz (F6809E); 1.5 MHz (F68A09E); 2.0MHz (F68B09E). Architectural improvements, such as additional 16-bit registers and dual 8-bit data paths, allow for powerful enhancements to the instruction set and addressing capabilities. External clock inputs are provided on the F6809E to allow synchronization with peripherals, systems, or other MPUs. • Compatible with Entire F6800 Family . Hardware Interfaces with All F6800 Peripherals • Software Has Upward·Compatible Instruction Set and Addressing Modes • Two 16·Bit Index Registers • Two Indexable 16·Bit Stack Registers • Two 8·bit Accumulators Can Be Connected to Form One 16·Bit Accumulator • Direct Page Register Allows Direct Addressing Throughout Memory Map • External E and a Clock Inputs Allow Synchronization • TSC Input Controls Internal Bus Buffers • LlC Output Indicates Opcode Fetch • AVMA Output Allows Efficient use of Common Resources in a· Microprocessor System • ' Fast Interrupt Request Input Stacks Only Program Counter and Condition Code Register • Interrupt Acknowledge Output Allows Vectoring by Device • Sync Acknowledge Output Allows for Synchronization to External Event • Single Bus·Cycle Reset • Single + 5 V Supply • Early Address Valid Allows Use with Slower Memories • Early Write· Data for Dynamic Memories • 10 Addressing Modes • True Indirect Addressing • Expanded Indexed Addressing • 1464 Instructions with Unique Addressing Modes • Recognizes 8x8 Unsigned Multiply • 16·Bit Arithmetic

1274

Connection Diagram

Vss

HALT

NMI

22

TSC

iRa

23

LlC

FIRQ

24

RES

BS

25

AVMA

BA

6

Vee

Ao Al

26

Q

27

E

28 9

BUSY Rm

A2

10

A3

11

31

01

A4

12

32

O2

As

13

As

14

DO

03 34

04

A7

15

05

As

16

06

Ag

17

07

A10

18

A 15

All

19

A14

A12

20

A13

© Ie MASTER 1983

F=AIRCHILO

F6809E/F68A09E/F68B09E

A Schlumberger Company

Block Diagram

---Vee ~Vss

....----RES NMI FIRO IRO

.......Jr.::=-l~ LlC ....---..... AVMA

RNi

TSC

HALT

BA BS L - -...... BUSy

.......- - E

'------0

@

Ie MASTER 1983

1275

FAIRCHILD A Sc;hlumberger Company

F6845/F6845A CRT Controller Microprocessor Product

Description The Fairchild F6845 CRT Controller (CRTC) provides an interface between a microprocessor (MPU) and a raster scan CRT device. The CRTC is used in microprocessor-based controller systems for CRT terminals in stand-alone or multiterminal configurations, including smart, programmable CRT terminals, video games, and information displays.

Connection Diagram

GND

VS

RESET

HS

lPSTB

RAO

MAO

RA1

MA1

RA2

MA2

RA3

MA3

RA4

MA4

DO

MAS

01

The F6845 CRTC is designed with an optimum hardware/software balance that achieves integration of all key functions and maintains flexibility. All keyboard functions, read/write operations, cursor movements, and editing are under microprocessor control. The F6845 provides video timing and refresh memory addressing.

• • • • • • • • • • •

"0

.c 0

~

"cu u..

• • • • • •

Monochrome or Color CRT Applications Used with "Glass·Teletype", Smart, Programmable, Intelligent CRT Terminals; Video Games; Information Displays Alphanumeric, Semigraphic, and Full Graphic Capability Fully Programmable via Processor Data Bus; Timing can be Generated for Almost Any Alphanumeric Screen Format (e.g., 80 x 24, 72 x 64, and 132 x 20) Single + 5 V Supply F6800·Compatible Bus Interface TTL·Compatible Inputs and Outputs Start Address Register Provides Hardware Scroll (By Page, Line, or Character) Programmable Cursor Register Allows Control of Cursor Format and Blink Rate Light Pen Register Refresh (Screen) Memory Can Be Multiplexed Between the CRTC and the MPU, Thus Removing the Requirements for Line Buffers or External DMA Devices Programmable Interlace or Non·lnterlace Scan Modes 14-Blt Refresh Address Allows up to 16K of Refresh Memory for Use in Character or Semlgraphic Displays 5·Blt Row Address Allows up to 32 Scan·Line Character Blocks 512K Address Space is Available for Graphics System by Using Both the Refresh and Row Addresses Refresh Addresses are Provided During Retrace, Allow· ing the CRTC to Provide Row Addresses to Refresh Dynamic RAM . Programmable Skew for Cursor and Display Enable (DE)

MA6

02

MA7

03

MAS

04

MA9

05

MA10

06

MA11

07

MA12

CS

MA13

RS E

DE CURSOR

RtW

VCC

ClK

Signal Functions

cs . DEVICE CONTROL

{ --..

RS E_

RIW RESET DO 01

DATA BUS

02 03

DISPLAY MEMORY ADDRESSING

04 05 06

VS HS DE CURSOR ClK lPSTB

1276

©

Ie MASTER 1983

FAIRCHILD A Schluml::lerger Company

F6856 Synchronous Protocol Communications Controller Microprocessor Product

Description The F6856 Synchronous Protocol Communications Controller (SPCC) is a monolithic n-channel MaS LSI circuit designed to satisfy the major interface requirements of the bit-oriented protocol (BOP) and bytecontrol protocol (BCP). The SPCC converts parallel data from the CPU into a continuous serial data stream for transmission. Simultaneously, it converts received serial data to parallel data for the CPU. The SPCC is organized to interface with either an 8- or 16-bit bidirectional data bus, is fully TTL-compatible, and operates from a single + 5 V supply. • • •

•

•

•

©

F6aOO and aoao Bus Compatible Data Rate From DC to 1M BPS Bit·Oriented Line Control Protocols: SDLC,ADCCP,HDLC • Automatic Detection and Generation of Special Control Sequences (e.g., Flag, Abort, Go·Ahead) • Zero Insertion and Deletion • Primary or Secondary Station Select • Global Address • Automatic Extended Address • One or Two Control Bytes • Data Character Length From Five to Eight Bits with 1· to a·Bit Residual Last Character • CCITT·CRC Error Detection • Interrupt on End of Message e IBM Retail Store Loop Mode Byte Control Protocol: IBM BISYNC • Special Character Generation: OLE, SYNC • Special Character Detection: OLE, SYNC, SOH, STX, ITB, ETB, ETX • ASCII or EBCDIC • Non·Transparent Mode and Transparent Mode • a·Bit Character Length • Automatic Fill Character Insertion with Selectable Stripping • CCITT or CRC·16 Error Detection • Interrupt on End of Message Byte Control Protocols: DDCMP and Other Programmable SYNC Characters • 5· to a·Bit Character Length • Selectable CRC Error Detection • Automatic Fill Character Insertion with Selectable Stripping Directly Addressable Parameter Control Registers: Mode, SYNC/Address, Transmitter Control, and Receiver Control

Ie

MASTER 1983

• Separate Addressable Status and Data Registers for Receiver and Transmitter • Modem Handshake Signals: RTS, CTS, DTR, DSR, and CD • NRZ or NRZI (Zero·Complementing) • Full· or Half·Duplex Operation • Self·Test Loop Mode • a· or 16·Bit Bidirectional l·State Data Bus • TTL·Compatible • Single + 5 V Supply • 40·Pin Package Connection Diagram 40·Pin DIP Vee

TSO

TCLK

RCLK

RTS

RSI

a

RSOF

R/W

OSR

08

00

09

01

010

02

011

03

012

04

013

05

014

Os

015

07

ROA

CD

A2

CTS

Al

TBMT

Ao

IRQ.

BYTE

OTR MISC

E

CE

Vss (Top View)

1277

FAIRCHILD A Schlumberger Company

F6800 MICROPROCESSING UNIT (MPU) GENERAL DESCRIPTION - The F6800 is a monolithic 8·bit microprocessor forming the central control function for Fairchild's F6800 family. Compatible with TTL, the F6800, as with all F6800 system parts, requires only one 5.0 V power supply and no external TTL devices for bus interface. NON M"5U.BlE INTERRUPT INMI)

The F6800 is capable of addressing 65K bytes of memory with its 16·bit address lines. The 8·bit data bus is bi·directional as well as 3·state, making direct memory addressing and multiprocessing applications possible. Two temperature ranges are available. The F6800 is O°C to 70°C and the F6800C is _40°C to +85°C. • • • • • • • • • • • • • • •

B-BIT PARALLEL PROCESSING BI·DIRECTIONAL DATA BUS 16-BIT ADDRESS BUS - 6SK BYTES OF ADDRESSING 72 INSTRUCTIONS - VARIABLE LENGTH SEVEN ADDRESSING MODES - DIRECT, RELATIVE,IMMEDIATE,INDEXED, EXTENDED, IMPLIED AND ACCUMULATOR VARIABLE LENGTH STACK VECTORED RESTART MASKABLE INTERRUPT VECTOR SEPARATE NON·MASKABLE INTERRUPT - INTERNAL REGISTERS SAVED IN STACK SIX INTERNAL REGISTERS - TWO ACCUMULATORS, INDEX REGISTER, PROGRAM COUNTER, STACK POINTER AND CONDITION CODE REGISTER DIRECT MEMORY ADDRESSING IDMAI AND MULTIPLE PROCESSOR CAPABILITY CLOCK RATES 1 MHz, 1.S MHz, 2 MHz SIMPLE BUS INTERFACE WITHOUT TTL HALT AND SINGLE INSTRUCTION EXECUTION CAPABILITY TWO TEMPERATURE RANGES - F6BOO O°C TO 70°C F6BOOC _40°C TO +BSoC

Vee Vss

DATA BUFFER

Pin 8 Pins 1 21

tttttttt

26

21

18

29

30

31

32

07

06

Os

04

OJ

02

D,

lJ Do

F6800 MPU

F6802/F6882 WITH CLOCK AND RAM GENERAL DESCRIPTION - The F6802/F6882 is a monolithic 8·bit microprocessor that contains all the registers and accumulators of the F6800, plus an interval clock oscillator and driver on the same chip. It also has 128 bytes of RAM on·board, located at hex addresses $0000 to $007F. The F6802/F6882 is completely software·compatible with the F6800 microprocessor and the entire F6800 family of parts. • • • • • • • • •

ON·CHIP CLOCK CIRCUIT 128 x 8·BIT ON·CHIP RAM 8 BYTES OF RAM ARE RETAINABLE ON THE F6882 32 BYTES OF RAM ARE RETAINABLE ON THE F6802 SOFTWARE·COMPATIBLE WITH THE F6800 STANDARD TTL·COMPATIBLE INPUTS AND OUTPUTS 8·BIT BIDIRECTIONAL DATA BUS 16·BIT MEMORY ADDRESSING INTERRUPT CAPABILITY

Vee Vss

Pins 8.35 PinS 1,21.36

F6802/F6882 MPU

F6808 MPU WITH CLOCK GENERAL DESCRIPTION - The f6808 is a monolithic 8·bit microprocessor that con· tains all the registers and accumulators of the present F6800 plus an internal clock oscillator and driver on the same chip. The F6808 is completely software compatible with the F6800 as well as the entire F6800 family of parts. The F6808 is expandable to 65K words. This very cost-effective MPU allows the designer to use the F6808 in consumer as well as industrial applications without sacrificing industrial specifications.

'U

.c (,) ~

"(ij LL

• • • • • • •

ON·CHIP CLOCK CIRCUIT SOFTWARE COMPATIBLE WITH THE F6BOO EXPANDABLE TO 6SK WORDS STANDARD TTL COMPATIBLE INPUTS AND OUTPUTS B·BIT WORD SIZE 16·BIT MEMORY ADDRESSING INTERRUPT CAPABILITY

F6810128

X

MEMORVREAOY

3_

ENABLE

37

RESET

"0

NONMASKA8lE INTERRUPT

6

BUS AVAll"BlE

7

VAUOMEMORYAOORES5

~

8-BIT RANDOM ACCESS MEMORY (RAM) F6808 MPU

GENERAL DESCRIPTION - F6810 is a byte·organized memory designed for use in bus·organized systems. It is fabricated with .N·channel silicon·gate technology. For ease of use, the device operates from a single power supply, has compatibility with TTL and DTL, and needs no clocks or refreshing because of static operation. The memory is compatible with the F6800 Microcomputer Family, providing random storage in byte increments. Memory expansion is provided through multiple Chip Select. inputs. • • • • • • •

ORGANIZED AS 12B BYTES OF EIGHT BITS STATIC OPERATION BI·DIRECTIONAL 3·STATE DATA INPUT/OUTPUT SIX CHIP SELECT INPUTS IFOUR ACTIVE LOW, TWO ACTIVE HIGHt SINGLE S V POWER SUPPLY TTL COMPATIBLE MAXIMUM ACCESS TIME = 350 ns - F6B10-l 450 ns - F6Bl0

1278

AO AI A2 A3 AS A6

23 22 21 20 19 13 17

CSS CS4

IS 14

CS3

13

CS2 CSI

12 11

A4

ICC· PIN 24 Vss' PIN 1

CSO

F6810 RAM

© Ie MASTER .1983

FAIRCHILD A Schlumberger Company

F6821 PERIPHERAL INTERFACE ADAPTER (PIA) A

GENERAL DESCRIPTION - The F6821 Peripheral Interface Adapter provides the uni· versal means of interfacing peripheral equipment to the F6BOO Microprocessing Unit (MPU). This device is capable of interfacing the MPU to peripherals through two B·bit bi·directional peripheral data buses and four control lines. 'No external logic is required for interfacing to most peripheral devices.

CONTRUlS

Il~A

DATA

The functional configuration of the PIA is programmed by the MPU during system initialization. Each of the peripheral data lines can be programmed to act as an input or output, and each of the four control/interrupt lines may be programmed for one of several control modes. This allows a high degree of flexibility in the overall operation of the interface.

• • • • • • • • •

INTERfAC'

S-BIT BI·DIRECTIONAL DATA BUS FOR COMMUNICATION WITH THE MPU TWO BI·DIRECTIONAL S-BIT BUSES FOR INTERFACE TO PERIPHERALS TWO PR-OGRAMMABLE CONTROL REGISTERS TWO PROGRAMMABLE DATA DIRECTION REGISTERS FOUR INDIVIDUALL Y·CONTROLLED INTERRUPT INPUT LINES; TWO USABLE AS PERIPHERAL CONTROL OUTPUTS HANDSHAKE CONTROL LOGIC FOR INPUT AND OUTPUT PERIPHERAL OPERATION HIGH IMPEDANCE 3·STATE AND DIRECT TRANSISTOR DRIVE PERIPHERAL LINES PROGRAM CONTROLLED INTERRUPT AND INTERRUPT DISABLE CAPABI LlTY CMOS DRIVE CAPABILITY ON SIDE A PERIPHERAL LINES

Vss

- L . -_ _ _ _ _-:-~

t· ·

CB, CB,

I' CONTBROLS

F6821 PIA

F6840 PROGRAMMABLE TIMER (PTM) GENERAL DESCRIPTION-The F6840 IS a programmable subsystem component of the F6800 family designed to provide variable system time intervals. The F6840 has three 16-blt binary counters. three corresponding control registers and a status register. These counters are under software control and may be used to cause system interrupts andlor generate output signals. The F6840 may be utilized for such tasks as frequency measurements. event counting. interval measuring and similar. tasks. The device may be used for square wave generation. gated delay signals. single pulses of controlled duration. and pulse width modulation as well as system Interrupts.

• • • •

~

Vss

) Vee

1 R"ESff

TTTTTTI

OPERATES FROM A SINGLE 5 VOLT POWER SUPPLY FULLY TTL COMPATIBLE SINGLE SYSTEM CLOCK REQUIRED (ENABLE) SELECTABLE PRESCALER ON TIMER ~ CAPABLE OF A 4 MHz INPUT

I •

~EGiSTER SE~ECT

• PROGRAMMABLE INTERRUPTS (IRQ) OUTPUTS TO MPU • READABLE DOWN COUNTER INDICATES COUNTS TO GO TO TIME-OUT • SELECTABLE GATING FOR FREQUENCY OR PULSE-WIDTH COMPARISON

• RESET INPUT • THREE ASYNCHRONOUS EXTERNAL CLOCK ANa GATE! TRIGGER INPUTS INTERNALLY SYNCHRONIZED • THREE MASK ABLE OUTPUTS

F6844 DIRECT MEMORY ACCESS CONTROLLER GENERAL DESCRIPTION - The F6844 Direct Memory Access Controller (DMAC) transfers data directly between memory and peripheral device controllers. In busorganized systems, such as those based on the F6800 microprocessor, the DMAC, rather than the MPU, controls the address and data buses.

F6840 PTM

Block Diagram A, 13

""0 A" A,2 Au 14 15 16 11

A,. HI

A,~

19

The DMAC bus interface includes select, read/write interrupt, transfer request/grant, and bus interface logic to permit data transfer over an 8-bit bidirectional data bus. The F6844 functional configuration is programmed through the data bus. The internal structure provides for control and handling of four individual channels, each of which is separately configured. Programmable control registers provide control for the transfer location and length, individual channel control and transfer mode configuration, priority of servicing, data chaining, and interrupt control. Status and control lines serve the peripheral controllers. The mode of transfer for each channel can be programmed as cycle-stealing or burst transfer. Typical applications include use with the F6856 Synchronous Protocol Communications Controller, the F6854 Advanced Data Link Controller, and the F68488 IEEE-488 Bus Controller. • • • • • • •

@

FOUR DMA CHANNELS, EACH HAVING A 16-BIT ADDRESS REGISTER AND A 16·BIT BYTE COUNT REGISTER 2M BYTE/SEC MAXIMUM DATA TRANSFER RATE SELECTION OF FIXED OR ROTATING PRIORITY SERVICE CONTROL SEPARATE CONTROL BITS FOR EACH CHANNEL DATA CHAIN FUNCTION ADDRESS INCREMENT OR DECREMENT UPDATE PROGRAMMABLE INTERRUPTS AND DMA END TO PERIPHERAL CONTROLLERS

Ie MASTER 1983

F6844DMAC

1279

_

I=AIRCHILD A Schlumberger Company

F6846 ROM-I/O-TIMER

0,_

0._

O2 0)_

GENERAL DESCRIPTION-The F6846 combination chip provides the means. In conjunction with the F6802. to develop a basic 2-chip microcomputer system. The F6846 consists of 2048 bytes of mask programmable ROM. an 8-blt bl-dlrectional data port with control lines. and a 16-bit programmable timer-counter.

0 °S-

This device is capable of interfacing with the F6802 (basic F6800. clock and 128 bytes of RAM) as well as the F6800 if desired. No external logic is required to Interface with most peripheral devices.

'CS o 'CS,140 -

.' 2048 8·BIT BYTES OF MASK·PROGRAMMABLE ROM • 8-BIT BI·DIRECTIONAL DATA PORT FOR PARALLEL INTERFACE PLUS TWO CONTROL LINES '. PROGRAMMABLE INTERVAL TIMER·COUNTER FUNCTIONS • PROGRAMMABLE I/O PERIPHERAL DATA, CONTROL AND DIRECTION REGISTERS • COMPATIBLE WITH THE COMPLETE F6800 MICROCOMPUTER PRODUCT FAMILY • nL·COMPATIBLE DATA AND PERIPHERAL LINES • SINGLE 5 VOLT POWER SUPPLY

_

6

01-

Composite

Status Register

14,_ 142 _ Chip A _ ,::~~cl J

A. _

Addre ••

Input. As-

14 6 _

_cP,

and

Logic

- c P1

Al_

Ae_

14

_

~PP'I

9 14'0_

. - . PP, Peripheral ....--.. PP,> Interface ~ pp (

'B~f~rs

2048 Byte

PP, -PP',

-

ROM 'Muk

....--. PP f , -pp.

Progr.mmable

F6846 RIOT

F68488 GENERAL PURPOSE INTERFACE ADAPTER (GPIA)

vcc

I

TR, BUS HANDSHAKE

GENERAL DESCRIPTION-The F68488 GPIA provides the means to interface between the IEEE 488 standard instrument bus and the F6800. The 488 instrument bus provides a n.eans for controlling and moving data from complex systems of multiple instruments. BUS

Tile F68488 will automatically handle all handshake protocol needed on the instrument bus. • • • • • • • • • • •

MGMT

II

r

3:1 ". r"

~

~

SRO

03

F3448

IFC

SINGLE OR DUAL PRIMARY ADDRESS RECOGNITION SECONDARY ADDRESS CAPABILITY COMPLETE SOURCE AND ACCEPTOR HANDSHAKES PROGRAMMABLE INTERRUPTS RFD HOLD·OFF TO PREVENT DATA OVERRUN PPERATES WITH DMA CONTROLLER ~ERIAL AND PARALLEL POLLING CAPABILITY TALK·ONLY OR LlSTEN·ONLY CAPABILITY 6ELECTABLE AUTOMATIC FEATURES TO MINIMIZE SOFTWARE SYNCHRONIZATION TRIGGER OUTPUT F6800 BUS COMPATIBLE

>-I-~f----

~- L -_ _.+-J

--

~ ~ ~ ~ ~

F68488 GPIA

010,

-

~ ~ 0104

R'W

~

~

~

01°5 010 6

~EG

010 7

DATA 110

BUS

RFD DAV

~

F3448

F6800

~ ~ ~

~ ~

F3448

~

~

~RANT

,I

TR2

I

VSS

F68488 GPIA INTERFACE

F6850 ASYNCHRONOUS COMMUNICATIONS INTERFACE ADAPTER (ACIA) "0

.c

...o

°cu u.

GENERAL DESCRIPTION - The F6850 Asynchronous Communications Interface Adapter (ACIA) provides the data formatting and control to interface serial asynchronous data communications -information to bus organized systems such as the F6800 Microprocessing Unit, ' The bus interface of the F6850 includes select, enable, read/write, interrupt and bus interface logic to allow data transfer over an 8-bit bi-directional data bus, The parallel data of the bus system is serially transmitted and received by the asynchronous data interface, with proper formatting and error checking, The functional configuration of the ACIA is programmed via the data bus during system initialization. A programmable Control Register provides variable word lengths, clock division ratios, transmit control, receive control, and interrupt control. For peripheral or modem operation, three control lines are provided. These lines allow the ACIA to interface directly with the F6860 0-600 ,bps digital modem,

TRANSMIT CLOCK IT. elk)

4 _ _ _ _ _---,

.NA8l."'14----. REAQ/WRITE (RIWI13----..

11

_ _____

_

CHIP SElECT OleSOI 8 _____ CHIP SELECT 1 IC$,I 10

---+-

CHIP SElECT 21CS2' 9---+REGISTER SelECT IRS) 11---+-

00 22 . . .

°1 21 . . . . °2

2

° ....

°3 '9 . . .

• • • • • • • • • •

L----___il>-------

0.18.,.

8 AND 9-BIT TRANSMISSION OPTIONAL EVEN AND ODD PARITY PARITY, OVERRUN AND FRAMING ERROR CHECKING PROGRAMMABLE CONTROL REGISTER OPTIONAL +1. +16, AND +64 CLOCK MODES UP TO 500 kbps TRANSMISSION FALSE-START BIT DELETION PERIPHERAL/MODEM CONTROL FUNCTIONS DOUBLE BUFFERED ONE OR TWO STOP BIT OPERATION

130:0., .. CAHHI[ H

D517~

mUC1·DCI>'

°6 '6 . . . . °7 15 , . . .

Vee

Vss

RECEIVE CLOCK

(R~

elkl

3 _ _ _ _ _ _ _ _ _ _ _ _•

F6850 ACIA

1280

@

Ie MASTER 1983

FAIRCHIL.D A Schlumberger Company

F6852 SYNCHRONOUS SERIAL DATA ADAPTER (SSDA) GENERAL DESCRIPTION - The F6852 Synchronous Serial Data Adapter provides a bi· directional serial interface for synchronous data information interchange. It contains interface logic for simultaneously transmitting and receiving standard synchronous com· munications characters in bus organized systems such as the F6800 Microprocessor systems. .----------.:.::~;:':~::.:'

The bus interface of the F6852 includes Select, Enable, R,ead/Write, Interrupt, and bus interface logic to allow data transfer over an 8·bit bi·directional data bus. The parallel data of the bus system is serially transmitted and received by the synchronous data inter· face with synchronization, fill character insertion/deletion, and error checking. The func· tional configuration of the SSDA is programmed via the data bus during system initializa· tion. Programmable control registers provide control for variable word lengths, transmit control, receive control, synchronization control, and interrupt control. Status, timing and control Hnes provide peripheral or modem control. Typical applications include floppy disk controllers, cassette or cartridge tape controllers, data communications terminals, and numerical control systems.

1-+-+-+-+-----"-- ,~:~~"' 1.....-+-+-+----

• PROGRAMMABLE INTERRUPTS FROM TRANSMITTER, RECEIVER, AND ERROR DETECTION LOGIC • CHARACTER SYNCHRONIZATION ON ONE OR TWO SYNC CODES • EXTERNAL SYNCHRONIZATION AVAILABLE FOR PARALLEL·SERIAL OPERATION • PROGRAMMABLE SYNC CODE REGISTER • UP TO 600 KBPS TRANSMISSION • PERIPHERAL/MODEM CONTROL FUNCTIONS • THREE BYTES OF FIFO BUFFERING ON BOTH TRANSMIT AND RECEIVE • SEVEN, EIGHT, OR NINE BIT TRANSMISSION • OPTIONAL EVEN AND 000 PARITY • PARITY, OVERRUN, AND UNDERFLOW STATUS

,~~~:",

",_TCHI

oAfiTEiliiii"Nii'

Vee Vss

Pm 12 Pin 1

F6852 SSDA

F6854 ADVANCED DATA LINK CONTROLLER (ADLC) GENERAL DESCRIPTION - The F6854/F68A54 Advanced Data Link Controllers (ADLCs) perform the complex MPU/data communication link function. for the Advanced Data Communication Control Procedure (ADCCP), High·level Data Link Control (HDLC) and Synchronous Data Link Control (SDLC) standards, The ADLC provides key interface requirements with improved software efficiency. The ADLC is designed to provide the data communications interface for both primary and secondary stalions in stand·alone, polling and loop configurations. • •

• • • •

F6800 COMPATIBLE PROTOCOL FEATURES • AUTOMATIC FLAG DETECTION AND SYNCHRONIZATION • ZERO INSERTION AND DELECTION • AUTOMATIC ADDRESS FIELD EXTENSION (OPTIONAL) • EXTENDED CONTROL FIELD (OPTIONAL) • AUTO EXTENDABLE LOGIC CONTROL FIELD (OPTIONAL) • VARIABLE WORD LENGTH INFORMATION FIELD (5·, 6·, 7·, OR 8·BIT) • AUTOMATIC FRAME CHECK SEQUENCE GENERATION AND CHECK • ABORT DETECTION AND TRANSMISSION • IDLE DETECTION AND TRANSMISSION MODEMIDATA CHANNEL CONTROL LINES LOOP MODE SINGLE 5 V POWER SUPPLY ENHANCED SPEED OPTIONS·

F35316/F683162048

X

8 ROM F6854 ADLC

GENERAL DESCRIPTION - The F35316/F68316 is a mask·programmable byte· organized MOS Read Only Memory (ROM) designed for use in bus·organized systems requiring non·volatile data storage. It is fabricated with n·channel silicon· gate technology. For ease of use, the F35316/F68316 operates from a single + 5 V power supply, inputs and outputs are TTL and DTL compatible, and the device needs no clocks or refreshing because of its static operation. The F35316/F68316 is compatible with the F6800, F8 and other microcomputer families providing read only storage in byte increments. To facilitate memory expansion, the device contains three programmable Chip Select inputs providing any combination of active HIGH or LOW or an optional DON'T CARE state coupled with output wired·OR capability. Chip select code and memory content are user defined and are fixed during the masking process. The F35316/F68316 provides maximum circuit density, reliability and performance yet maintains low power diSSipation and yields significant cost advantages over an EPROM approach.

"0 00 A, A, 03 04

as

.c

o

06 07

~

'«3 u.. AlO

A9 A8

A6 As

• • • • • • •

• •

©

2048 x 8·BIT BUS·COMPATIBLE ORGANIZATION FULLY STATIC OPERATION 3·STATE DATA OUTPUTS FOR WIRED·OR CAPABILITY MASK·PROGRAMMABLE CHIP SELECTS FOR SIMPLIFIED MEMORY EXPANSION SINGLE + 5 V ± 10% POWER SUPPLY TTL AND DTL·COMPATIBLE INPUTS MULTIPLE SPEED GRADES t ACC 250 ns, 300 ns (F35316) t ACC = 350 ns, 450 ns, 500 ns (F68316) DIRECTLY COMPATIBLE WITH 2316E PIN COMPATIBLE WITH F2708 and F2716 EPROMs

=

Ie MASTER 1983

18,384·BIT CELL MATRIX 128.128

Ao

F35316/F68316 ROM

1281

FAIRCHILD A Schlumberger Company

F3532/F68332/F35334096 (ROM)

X

8·BIT READ ONLY MEMORY 00 0, 0, OJ O. 0, O. 0,

An

GENERAL DESCRIPTION - The F3532/F68332 and F3533 are 4096 x 8-bit maskprogrammable read only memories (ROMs), fabricated with n-channel silicon gate technology. They are designed for use in bus-organized systems requiring nonvolatile data storage. For ease of use, the F3532/F68332 and F3533 require only a single + 5 V power supply, have TIL-compatible inputs and outputs, and, due to their static operation, need no clocking or refreshing. Electrically identical, the F3532/F68332 and F3533 represent both JEDEC standard pinouts, thus providing compatibility with other available 32K ROMs and EPROMs. To facilitate memory expansion, these devices offer two programmable Chip Select inputs whose active levels are user defined. The F3523-30/F3533:30 and F3532/F3533-35 are high speed devices, allowing interface with faster generations of NMOS microprocessors. • • • • • • • • •

COMPLETELY STATIC OPERATION 8-BIT BUS COMPATIBLE ORGANIZATION 3-STATE OUTPUTS TWO-PROGRAMMABLE CHIP, SELECT INPUTS SINGLE + 5 V ± 10% SUPPLY FULLY TIL COMPATIBLE' 3 SPEED GRADES-t ACC = 300,.350, 450 ns BOTH JEDEC STANDARD PINOUTS PIN COMPATIBLE WITH OTHER 32K ROMs AND EPROM.

F35648192

X

CHIP ... CS, SElECT INPUT

32.768-BIT CELL MATRIX

BUFFER

... CS2

F3532/F68332/F3533 ROM

8·BIT READ ONLY MEMORY (ROM)

GENERAL DESCRIPTION - The F3564 8192 x 8-blt (64K) mask-programmable read-only memory (ROM) is designed for use In bus-organized systems requiring non-volatile memory storage. Because of Its high speed, It readily Interfaces with all generations of NMOS microprocessors. Fabricated with n-channel silicon-gate technology, the F3564 has Industry-standard pinouts and is compatible with other available 24-pln 16K, 32K, and 64K ROMs and EPROMs. • • • • • • • • •

ADDRESS LATCH FEATURE SINGLE 5 V POWER SUPPLY AUTOMATIC POWER-DOWN ACCESS TIME (t AA) OF 250 n. FOR F3584·25 AND 350 ns FOR F3564-35 LOW POWER DISSIPATION (440 mW, MAXIMUM, ACTIVE; 55 mW, MAXIMUM, STANDBY) FULLY TTL-COMPATIBLE THREE·STATE OUTPUT MASK-PROGRAMMABLE ENABLE FUNCTION PIN-COMPATIBLE WITH OTHER STANDARD 24·PIN 16K, 32K, AND 64K ROMs AND EPROM.

The programmable enable (E) Input of the F3564 controls the output and the activestandby modes of operation, The active level of the E input and the memory contents are user-defined, .

A'2 Al1 A, o Ag As A7

As As A. A3 A2

.c o

"-

as

LL

F35658192

X

65536·BIT CELL MATRIX

A, Ao

The F3564 requires only a single + 5 V power supply, has TIL-compatible inputs and outputs, and, due to Its static operation, requires no clocking or refreshing.

"0

ADDRESS INPUT BUFFERS

F3564 ROM

8-BIT READ ONLY MEMORY (ROM)

GENERAL DESCRIPTION - The F3565 8192 x 8-bit (64K) mask-programmable read-only memory (ROM) Is designed for use in bus-organized systems requiring non-volatile memory storage. Because of its high speed, it readily interfaces with all generations of NMOS microprocessors. Fabricated with n-channel silicon-gate technology, the F3565 has industry-standard pinouts and Is compatible with other available 24-pin 16K, 32K, and 64K ROMs and EPROMs. • • • • • • • • •

COMPLETELY STATIC OPERATION SINGLE 5 V POWER SUPPLY AUTOMATIC POWER-DOWN ACCESS TIME (tAA ) of 250 ns FOR F3565-25 AND 350 ns FOR F3565-35 LOW POWER DISSIPATION (440 mW, MAXIMUM, ACTIVE; 55 mW, MAXIMUM, STANDBY) FULLY TTL-COMPATIBLE THREE·STATE OUTPUT MASK·PROGRAMMABLE ENABLE FUNCTION PIN·COMPATIBLE WITH OTHER STANDARD 24-PIN 16K, 32K, AND 64K ROMs AND EPROMs

The programmable enable (E) input of the F3565 controls the output and the active/standby modes of operation. The active level of the E input and the memory contents are user:defined. The F3565 requires only a single + 5 V power supply. has TTL-compatible inputs and outputs. and. due to ils static operation. requires no clocking or refreshing.

'1282

F3565 ROM

©

Ie MASTER 1983

FAIRCHILD A Schlumberger Company

F3566 8192

X

8·BIT READ ONLY MEMORY (ROM)

GENERAL DESCRIPTION - The F3566 8192 x 8·bit (64K) read·only memory (ROM) is designed for use in bus·organized systems requiring non·volatile memory storage. Because of its high speed, it readily interfaces with all generations of NMOS micro· processors.

00 0 ,

a, a, o. as a. a, TS

A"

Fabricated with n·channel silicon·gate teChnology, the F3566 has industry·standard pinouts and is compatible with other available 24·pin 16K, 32K, and 64K ROMs and EPROMs. • • .• • • • • • •

All A,O

COMPLETELY STATIC OPERATION SINGLE 5 V POWER SUPPLY HIGH·SPEED DATA VALID TIME OF 120 ns ACCESS TIME (t AA ) OF 250 ns for F3566·25 AND 350 ns F3566·35 LOW POWER DISSIPATION (440 mW, MAXIMUM, ACTIVE) FULLY TIL·COMPATIBLE THREE·STATE OUTPUT MASK·PROGRAMMABLE ENABLE FUNCTION PIN·COMPATIBLE WITH OTHER STANDARD 24·PIN 16K, 32K, and 64K ROMs AND EPROMs

A. A. A, A. As

ADDRESS INPUT BUFFERS

A. A, A, A, Ao

The output enable (G) input controls the output and provides test data and valid time for high·speed microprocessor applications. The G input and the memory are user· defined. .

F35688192

X

F3566 ROM

8·BIT READ ONLY MEMORY (ROM)

GENERAL DESCRIPTION - The F3568 8192 x 8·bit (64K) mask·programmable, read·only memory (ROM) is designed for use in bus·organized systems requiring non·volatile memory storage. Because of its high speed, it readily interfaces with all generations of NMOS·microprocessors. Fabricated with n·channel silicon·gate technology, the F3568 has industry·standard pinouts and is compatible with other available 64K ROMs and EPROMs. • • • • • • • • •

ADDRESS LATCH FEATURE AUTOMATIC POWER·DOWN ACCESS TIME (tAA ) OF 250 ns FOR F3568·25 AND 350 ns FOR F3568·35 LOW POWER DISSIPATION (440 mW, MAXIMUM, ACTIVE; 55 mW, MAXIMUM, STANDBY) FULLY TIL·COMPATIBLE THREE·STATE OUTPUTS MASK·PROGRAMMABLE ENABLE FUNCTION SINGLE 5 V POWER SUPPLY PIN·COMPATIBLE WITH OTHER STANDARD 28·PIN 64K PROMs AND EPROMs

The chip enable (CE) input of the F3568 latches the addresses and controls the active and standby modes of operation; the output enable (OE) input controls the chip outputs and provides fast data valid time for high·speed microcomputer applications. Two chip select (CS) inputs are provided for memory expansion. The active levels of the CE and CS inputs, and the memory contents, are user·defined.

F35698192

X

F3568 ROM

"C

8·BIT READ ONLY MEMORY (ROM)

..c: (.)

GENERAL DESCRIPTION - The F3569 8192 x 8·bit (64K) mask·programmable read·only memory (ROM) is designed for use in bus·organized systems requiring non·volatile memory storage. Because of its high speed, it readily interfaces with all ., : generations of NMOS microprocessors.

00

'-

a, 0,0,0,0,0.07

Fabricated with n·channel silicon·gate technology, the F3569 has industry·standard , . pinouts and is compatible with other available 28·pin 64K ROMs and EPROMs. • AUTOMATIC POWER· DOWN . •• ACCESS TIME (t AA) OF 250 ns FOR F3569·25 AND 350 ns FOR F3569·35 LOW POWER DISSIPATION (440 mW, MAXIMUM, ACTIVE; 55 mW, MAXIMUM, STANDBY) • FULLY TIL·COMPATIBLE • THREE·STATE OUTPUTS • MASK·PROGRAMMABLE ENABLE FUNCTION • SINGLE 5 V POWER SUPPLY • COMPLETELY STATIC OPERATION • PIN·COMPATIBLE WITH OTHER STANDARD 28·PIN 64K ROMs and PROMs The chip enable (CE) input of the F3569 controls and acive and standby modes of operation; the output enable (OE) input controls the chip output and provides fast data available time for high·speed microcomputer applications. Two chip select (CS) inputs are provided for memory expansion. The active levels of the CE and CS· inputs, and the memory contents, are user·defined. @

Ie MASTER 1983

F3569 ROM

1283

F3570 64K ROM

FAIRCHILD A ~Chlumberger Company

Microprocessor Product

Description The Fairchild F3570 8192 x 8-bit (64K) mask-programmab"le, r'ead-onlY memory (ROM) is designed for use in bus-organized systems requiring non-volatile memory storage. Because of its high speed, it readily interfaces with all generations of NMOS microprocessors.

• • • •

Fabricated with n-channel silicon-gate technology, the F3570 has industry-standard pinouts and is compatible with other available 28-pin 64K ROMs and EPROMs.

The output enable (OE) input controls the chip output and provides fast data valid time for high-speed microprocessor applications. Two chip select (CS) inputs are provided for memory expansion. The active levels of the CS inputs, and the memory contents, are user-defined.

• • • • •

Access Time (tAA ) of 250 ns for F3570·25 and 350 ns for F3570·35 High·Speed Data Valid Time of 120 ns Low Power Dissipation (440 mW, Maximum, Active) Fully TTL·Compatible Three·State Outputs

Mask·Programmable Chip Select Active Levels Single 5 V Power Supply Completely Static Operation Pin·Compatible with Other Standard 28·Pin 64K ROMs . and EPROMs

The F3570 requires only a single + 5 V power supply, has TIL-compatible inputs and outputs, and, due to its static operation, requires no clocking or refreshing.

QOQ1Q2Q3Q4QSQ6Q7

OE

OUTPUT BUFFERS

A12 A11 A10 Ag

CHIP SELECT INPUT BUFFERS

Y DECODER 1·0F·32 BYTES

As A7 A6 As A4 A3

'U

..c

A2

'-

A1

(J

CU

u.

Ao

1284

ADDRESS INPUT BUFFERS

en

CS1/CS1 CS2/CS2

256

1 2

a:;:

WO

Ca:"

°eo WN (J1l)

Cu.;

xO ,....

•• •

65536·BIT CELL MATRIX

256

© Ie MASTER 1983.

F9445 Family

FAIRCHILO A Schlumberger Company

16-Bit High-Speed Microprocessor 13L® Bipolar VLSI Technology Device

PkgType

Features

F9445CPU Clock Speed 16MHz 20 MHz 24 MHz

40-Pin DIP or Chip Carrier

• Advanced Parallel Architecture • Fast Execution Times -16 x 16 Bit Multiply: 3.5!J.s (20 MHz Clock) • Operating Temperature Range: -55 0 C to + 1250 C

F9447

64-Pin, 50-Mil DIP or Chip Carrier

• 1/0 Controller - Provides All Timing and Decode Signals for IB Access for Peripheral Devices - F9445 1/0 and Data Channel Timing • Operating Temperature Range: -55 0 C to + 1250 C

F9448

64-Pin, 50-Mil DIP or Chip Carrier

• Programmable Multiport Interface - Four Independent 1/0 Ports Provide Interface Between F9445 and Industry-Standard 1/0 Devices. - Memory-Mapped and Programmed 1/0 - Interfaces With Serial, Parallel DMA, and Other SpecialPurpose Devices - Programmable Peripheral Timing • Operating Temperature Range: -55 0 C to + 1250 C

F9449

64-Pin, 50-Mil DIP or Chip Carrier

• Multiple Data Channel Controller • - Provides Control of Four Independent Data Channels - Internal Priority Arbitration - Supports Memory-to-Memory Transfers • Operating Temperature Rang~: -55 0 C to + 1250 C

F9444

64-Pin, 50-Mil DIP or Chip Carrier

• Memory Management and Protection Unit - Expands Memory Addressing to 4M Bytes - 1/0 Protection - Validity Protection - Runaway Defer Protection - Auto Increment/Decrement Protection • Operating Temperature Range: -55 0 C to + 1250 C

F9446

64-Pin, 50-Mil DIP or Chip Carrier

• Dynamic Memory Controller - 16K or64K Memories - Automat:c Page Mode - Complete Memory Timing Signals - 3-State Outputs for Multiport Memories - Internal Refresh Rate Ti mer • Operating Temperature Range: -55 0 C to + 1250 C

40-Pin DIP

• Console and Communication Controller - Provides Console. Control for F9445 System • Operating Temperature Range:-55° C to + 1250 C • NMOS Technology

1/0 Interface

Memory Interface

Console F9470

© Ie MASTER 1983

1285

F9443 Floating-Point Processor

FAIRCHILD A Schlumberger Company

Microprocessor Product Description

•

The F9443 Floating-Point Processor is designed to provide enhancement to the numeric capabilities of 16-bit microprocessors by providing a set of floatingpoint instructions. It can interface with the F9445, F9450 . or any other standard 16-bit microprocessor, and it uses the microprocessor memory to directly fetch the required operands. It has eight general-purpose registers on-chip and supports all the basic functions with on-chip microcode. Use of additional off-chip microcode readonly memories (ROMs) provides extended capabilities. Figure 1 is a block diagram of the F9443.

•

Circuit Description

• •

• • • • • • •

Full IEEE SP D DX Floating-Point Standard Support (80 Bits) Fast Algorithms for Add, Subtract, Multiply, Square ' Root, and Divide Functions Support for Full Set of Trigonometric Exponential and Logarithmic Functions . Expandable Instruction Set That Can Include Macro Operations (e.g., Vector rotate, Fourier Transform, Array and Matrix Applications) User-Alterable Microcode for User Functions Support of Integer Decimal and Logical Functions Standard 64·Pin Package 13L ® High Speed Bipolar Logic Low·Power Schottky·Compatible 110 Very Fast Execution Times Interface to Any 16·Bit Microprocessor

The F9443 includes special hardware to provide fast , algorithms for the basic functions. This hardware includes full-carry look-ahead for add and subtract (ADD/SUB) functions, recoding logic for multiply and square root functions, and partial-remainder-prediction logic for divide functions. An advanced control scheme provides a 2-level microcode/nanocode control with offchip microcode expansion. The off-chip microcode can be programmable ROM (PROM) or random-access memory (RAM), with easy expansion for fast implementation of user algorithms. Operation of the F9443 can proceed in parallel with the host processor to maximize throughput. Multiple F9443s can be connected to the host processor ,for array processing or other high-speed applications.

Figure 1

9443 Block Diagram

SYSTEM

(!)

BU~

INSTRUCTION REGISTER

MICROCODE ROM

18·BIT ARITHMETIC AND LOGIC UNIT

16·BIT ARITHMETIC AND LOGIC UNIT

NANOCODE ROM

8 )( 40 RAM

32.BIT ARITHMETIC AND LOGIC UNIT

IEEE 488 DATA BUS (8)

CS.RD·~

IEEE 488 STATE DIAGRAM AND CONTROL LOGIC

CTTL

DMAR DMAG TRIG OR DMAE

CPU(8)

cs------.-J

1304

© Ie MASTER 1983

FUJITSU

MBLS086

MICROELECTRONICS

16·BIT GENERAL PURPOSE :MICROPROCESSOR

MBL8086

GENERAL DESCRIPTION The MBL8086 is a new high performance microprocessor fabricated using N-channel, depletion load, silicon gate technology and packaged in a 40-pin package. The processor has attributes of both 8- and 16-bit microprocessors. It addresses memory as a sequence of 8-bit bytes, but has a 16-bit wide physical path to memory for high performance. The MBL8086 is compatible with Intel 8086 microprocessor and will be supported with several peripheral devices, including the MBL8089 1/0 processor device during 1982.

FEATURES • Assembly language compatible with 8080/8085 microprocessors • Bit. byte, word and block operations • 24 Operand Addressing Modes • 8-and 16-bit Signed and unsigned arithmetic in binary or decimal, including multiply and divide • 5 MHz Clock Rate • 14 word, by 16-bit Register Set with Symmetrical Operations

PIN ASSIGNMENT GND AD14 AD13 AD12 AD11 AD10 AD9 AD8 AD7 AD6 ADS AD4 AD3 AD2 AD1 ADO NMI INTR ClK GND

Vee AD1S A16/S3 A17/S4 A18/SS A19/S6 BHE/S7 MN/MX RD RQ/GTO (HOLD) RQ/Gn (HlDA) lOCK (WR) 52 (M/iO)

51

(DTlR)

SO

(DEN) QSO (ALE) QS1 (lNTA) TEST READY RESET

• Compatible with Intel 8086

MICROCOMPUTER AND PERIPHERAL GUIDE Description

Max. Power Dissipation (W)

Alternate Source (Intel)

High-Performance 16-Bit Microprocessor/ 1M-Byte Memory Direct Addressing Capability/14-Word. By 16-Bit Register Set with Symmetrical Operations/ 24 Operand Addressing Modes

2.5

8086 8086-2

Numeric Processor Extension used with 8086 and 8088 I/O Processor Extension used with 8086 and 8088

-

8087

-

8089

2.5

8088

Device Number MBL8086 MBL8086-2

°MBL8087 MBL8089 MBL8088

8-Bit Microprocess/16-Bit Internal Architecture with 8-Bit Interface Direct Software Compatible with MBL8086

UJ

o

c o 20...... o

Q) Q)

MBL8259A

-

o

Programmable Interrupt Controller/ 8 Level Priority/Expandable to 64 Levels/ Programmable Interrupt Modes/ Indivisual Request Mask Capability

1

MBL8282

8-Bit Latch (Non-Inverting)

1

MBL8283

8~Bit Latch (Inverting)

1

8283

05'

MBL8284A

1

8284A

LL

MBL8286

Clock Generator and Driver for MBL8086 Series 8-Bit Transceiver (Non-Inverting)

1

8286

MBL8287

8-Bit Bus Transceiver (Inverting)

1

8287

MBL8288

Bus Controller for MBL8086 Series Bipolar Driver Capability Advanced CommandslWide System-Configuration Flexibility

1.5

8288

MBL8289

Bus Arbiter

1

8289

8259A

20-

o

~ :::J UJ

8282

=:

• Available soon . For complete data sheets contact: Fujitsu Microelectronics • 2985 Kifer Road • Santa Clara, CA 95051 • (408) 727-1700· Telex 1/11: 910-338-0190

@

Ie MASTER 1983

1305

FUJITSU

MB884 0 IMB88400 Series MB885 0 IMB885 0 0 Series

MICROELECTRONICS

SINGLE COMPONENT 4-BIT· MICROCOMPUTER SERIES

MB88200Series

GENERAL DESCRIPTION

FEATURES

This 4-bit series, available in both CMOS and NMOS, provides the user with a common architecture, instruction set and speed regardless of which device in the family is selected. As shown, various combinations of options are available so that a processor can specifically be tailored to an application and thereby be cost effective. On-board timers, LCD driver, AID or D/A converter and power down options are available. To facilitate . prototype development, devices with piggyback EPROMS are available for each subseries. Devices are provided in standard DIP, skinny DIP (70 mil pin spacing) or flatpack.

• Various RAM and ROM levels available • 57 I/O lines maximum • 3 p.S Instruction Cycle Time at 2 MHz clock rate • TTUCMOS compatible I/O level • 70 powerful instructions for NMOS version • 72 powerful instructions including power saving HALT and STOP modes for CMOS version

Technology

Device Number MB8841 MB8842 MB8843 MB8844 MB88401 MB88411

NMOS

MB88413 MB88421 MB88423 MB8851 MB8853 MB8854 MB8851A MB8854A MB8851L MB8854L MB88501

MB88503 CMOS

MB88535 MB88536 MB88541 MB88201 MB88202

Package 42-pin 28-pin 42-pin 28-pin 42-pin 42-pin 42-pin 42-pin 42-pin 42-pin 64-pin 64-pin

DIP DIP DIP DIP DIP SDIP DIP SDIP DIP SDIP SDIP SDIP

42-pin 42-pin 28-pin 42-pin 28-pin 42-pin 28-pin _42-pin 42-pin

DIP DIP DIP DIP DIP DIP DIP DIP SDIP

42-pin DIP 42-pin SDIP 42-pin DIP 42-pin SDIP 42-pin DIP 42-pin SDIP 7a-pin FLTPK 16-pin DIP 16-pin DIP

ROM

RAM

I/O Ports

VCC

2Kx 8 2Kx 8 1Kx 8 1K x 8

128 x 4 128 x4 64x4 64x4

37 23 37 23

+5V +5V +5V +5V

4Kx 8

192 x4

36

+5V

On-board PLA

4Kx 8

192 x4

32

+5V

8-bit ND converter

2Kx 8

192 x 4

32

+5V

8-bit ND converter

4Kx 8 2Kx 8

192 x4 128 x4

57 57

+5V +5V

Watch-dog timer, Detect circuit for power down

1Kx 8 1K x 8 1Kx 8 2Kx 8 1K x 8 2Kx 8 1K x 8

64Kx4 64Kx4 64x4 128 x4 64x4 128 x 4 64x4

37 37 23 37 23 37 23

+5V +5V +5V

4Kx 8

192 x4

36

Comments

-

Vee = 6.0 - 3.5V Vee=3.5-2.5V -S: 5V

2Kx 8

128 x4

36

2Kx 8

128 x4

34

2Kx 8

128 x4

34

4Kx 8 512 x 8 1024 x 8

196 x 4 16 x 4 32 x4

29 12 12

-A: 3.5 - 6.0V

-

-L: 2.5 - 4.0V -S: 5V -A: 3.5 - 6.0V -L: 2.5 - 4.0V 6-bif, 3 CHL +5V D/A converter 6-bit, 3 CHL 13-bit +5V 1 CHL D/A converter LCD Driver +5V Low cost series +5V Low cost series +5V

For complete data sheets contact: Fujitsu Microelectronics • 2985 Kifer Road • Santa Clara, CA 95051 • (408) 727·1700. Telex 1111: 910·338·0190

1306

© Ie MASTER 1983

FUJITSU

MBL80C49 MBL80C39

MICROELECTRONICS

CMOS SINGLE CHIP 8·BIT MICROCOMPUTER GENERAL DESCRIPTION The Fujitsu MBL80C49/MBB0C39 is a totally self-contained 8-bit single-chip microcomputer fabricated with silicon-gate CMOS technology. The MBL80C49 has a 2K x 8 ROM program memory, a 128 x 8 RAM data memory, 27 I/O ports, an 8-bit timer/counter, and clock generator on chip. The MBL80C39 is identical to the MBL80C49 except without program memory. It can be used with external memory for system prototyping and pre-

production systems. The design is optimized for low cost and high performance applications because the MBL80C49/ MB80C39 is fabricated on a Single silicon chip and can be used for applications that require additional expansion of ROM, RAM, I/O ports, etc. This microcomputer permits external program operation and Single-step operation.

Low power applications are possible by using the stand-by mode feature. The software is upward compatible with the MBL8049/ MBL8039 and Intel i8049/i8039. The MBL80C49/MB80C39' uses a Single power supply of +5V. It is packaged in a standard 40-pin DIP and operation is guaranteed over the range of -40°C to +85°C.

FEATURES • •

• •

12-bit Addressing 98 Instructions (232 Instruction Codes): 70% of Instructions are Single Byte 2.51LS Instruction Cycle: All Instructions are 1 or 2 Cycles On-chlp Clock Generator (or External Clock Source) Device Number

MBL80C49 MBLBOC39 (ROM-less) MBLB051 MBLB031 (ROM-less)

• • • • • • •

2K x bit ROM 128 x 8 bit RAM 27110 Lines 8-bit Interval TimerlEvent Counter 8-Level Stack 8 pairs of Working Registers Low-power Standby Mode Capability by HALT and STOP Instructions

• • • • •

External Program Mode Capability Single-step Operation Capability Easily Expandable Memory and 1/0 Single-level Interrupt Capability ALU Functions: Addition, Decimal Adjust Addition, and Logic Operations

Freq.

Power Supply (V)

Power DiSSipation (mW Max.)

CMOS18-Bit Microcomputerl 98 Instructions with Bit Operationsl On-

f-

tr

E

~

::J

:....

...... en r:::: RAM (48 x 8) F20·F77

CO :....

PROGRAM ROM 1024 x 13

a> r:::: a>

(!J

0 f-

tr

~

10 RT

8-BIT DATA BUS MCLR

© Ie MASTER 1983

1309

PIC1670 ARCHITECTURAL DESCRIPTION The firmware architecture of the PIC1670 microcomputer is based on a register file concept with simple yet powerful instruction commands designed to optimize the code for bit, byte, and register transfer operations. The instruction set also supports computing functions as well as these control and interface functions. Internally, the functional blocks of the PIC1670 are connected by an a-bit bidirectional bus: the 64 a-bit registers of which the first 16 are special purpose, an Arithmetic Logic Unit, and a user defined program ROM composed of 1024 x 13 words. The register file is divided into two functional groups: operational registers and general purpose registers. The first sixteen are the operational registers and they include the Real Time Clock Counter A and B, four I/O registers, two Status registers, a Program Counter and a File Select Register. The general purpose registers are used for data and control information under command of the· instructions.

The Arithmetic Logic Unit contains one temporary working register (W Register), an adder, and hardware for decimal adjust. Manipulation between data in the working register and any other register can be performed. The Program ROM contains the user defined application program and is supported by an instruction decoder and instruction register. Sequencing of microinstructions is controlled via the Program Counter (PC) which automatically increments to execute in-line programs. The Program Counter is modified by bit test, jump, call or branch instructions and the lower a-bits can be modified for computed addresses by file register instructions. In addition, an on-chip six level stack is employed to push and pull the contents of the program counter. This provides easy to use subroutine nesting. Activating the MCLR input on power-up initializes the ROM program to address 17778 .

PIN FUNCTIONS Signal

Function

OSC1 (Input), OSC2 (output)

Oscillator pins. The on-board oscillator can be driven by an external crystal, ceramic resonator or LC network, or an external clock via these pins.

RT (Input)

Real Time Input. Negative transitions onthis pin increment the RTCC (F6) register. This pin can also be used for an interrupt input. This pin uses a Schmitt trigger input. There is no internal active pull-up device.

RAO-7, RBO-7, RCO-7, RDO-7

User programmable input/output lines. These lines can be used as inputs and/or outputs and are under direct control of the program.

MCLR (Input)

Master Clear. Used to initialize the internal ROM program to address 1777e, latch all I/O registers high, and disables the interrupts. This pin uses a Schmitt trigger input. There is no internal active pull-up device.

TEST

Test pin. This pin is used for testing purposes only. It must be grounded for normal operation.

Voo

Power supply pin.

Vss CLKOUT

Ground pin. Clock Output. A signal derived from the internal oscillator. May be used by external circuitry to synchronize with PIC1670 timing.

PIN CONFIGURATION 40 LEAD DUAL IN LINE Top View

.....

--;;..OSCl

Q)

-OSC2

e:

E :::J

.....en ~

e:

(ij ~

Q)

e: Q)' (!)

MCLR~

~AAO ~RAl

RD7~

~RA2

RD6~

_RA3

RDS~

-CLKOUT _AA4

RD4~

_RAS _RA6

RD2~

_RA7

RDO~

~RBO

RC7~

RD3~

RD1~

~RBl

RC6~

~RB2

RCS_

~RB3

_

RB4

_RBS ~RB6

_

RB7

- , Vss

1310

voo -

R'T_

AC4~

RC3 _

RC2~

RC1 _

RCO~

TEST ___

© Ie MASTER 1983

GENERAL INSfRUMENT

PIC1670 REGISTER FILE ARRANGEMENT File (Octal) FO F1

Function . Not a physical register. FO calls for contents of the FSR (F4) to be used to select a file register. F4 is used as an indirect address pointer. W Register - The working register.

F2

Program Counter -

F3

Arithmetic Status Register 7

654

Points to the next program ROM address to be executed.

321

0

I 0 I X IA91ABlovi z loci C I Bit 0 (C) -

Bit 0 is the carry flag, and is usually the carry from the A.L.U., also used as a borrow in subtract instructions.

Bit 1 (DC) - Bit 1 is the half carry (decimal carry) and is used to indic~te a carry from bit 3 in the A.L.U. as the result of an addition (byte). This bit is used in the decimal adjust instruction to allow B.C.O. decimal addition. Bit 2 (Z) Bit 3 (OV) -

Bit 2 is the zero flag and is set to a one if the results of the previous operation was identically zero. Bit 3 is the overflow flag, and is set to a one by operations which cause a signed two's complement arithmetic overflow. The bit is set when the carry from the MSB in the A.L.U. is opposite to the carry from the MSB-1 bit.

Bit 4 (AB) -

Bit 4 is the 9th bit of the program counter. This bit is a read only bit.

Bit 5 (A9) -

Bit 5 is the 10th bit of the program counter. This bit is a read only bit.

F4

File Select Register - The FSR is used in generating effective file register addresses under program control.

F5

Interrupt Status Register X CNTE AlB CNTS RTCIR XIR RTCIE XIE Used to control interrupts and registers F6 and F7. RTCCA and RTCCB - Real Time Clock Counters A & B respectively can be configured as a single 16 bit counter, an 8 bit counter and an 8 bit general purpose register, or two general purpose registers when no external counting is required. The RTCC registers can be loaded and read by the program, as well as count negative transitions on the RT pin or count at 1/8 the frequency of the oscillator. If data are being stored into RTCCA simultaneous with a negative transition on the RT pin (and CNTE=1 and CNTS=1), RTCCA will contain the new stored value and the external transition will be ignored by the microcomputer. (See the section "Real Time Clock Interrupt" for further details about the RTCC.)

F6,F7

F10,11

I I

I I

I

I

I

I

I-

I/O Port A

F12,13

I/O Port B

F14,15

I/O Port C

F16,17

I/O Port 0

F20,77

General Purpose Registers-Used for temporary and general purpose storage during program execution time.

NOTE:

F10, 12, 14 & 16 are the I/O registers and F11, 13, 15 & 17 are used for reading the actual pin levels.

.....c Q)

E :J J... ..... en c

as J... Q)

C Q)

CJ

©

Ie MASTER 1983

1311

GENERAL INSfRUMENT

PIC1670

Basic Instruction

Se~

Summary

"d" is one, the result is returned to the file register specifif~d in the instruction. For bit-oriented instructions, "b" represents a bit field designator which selects the number of the bit affected by the operation, while "f" represents the number of the file in which the bit is located. For literal and control operations, "k" represents an eight or nine bit constant or literal value. For an oscillator frequency of 4MHzthe instruction execution time is 2.0llsec unless a conditional test is true or the program counter is changed as a result of an instruction. I n these two cases, the instruction execution time is 4.0 Ilsec.

Each PIC instruction is a 13-bit word divided into an OP code which specifies the instruction type and one or more operands which further specify the operation of the instruction. The follow-: ing PIC instruction summary lists byte-oriented, bit-oriented, and literal and control operations. For byte-oriented instructions, "f" represents a file register designator and "d" represents a destination designator. The file register designator specifies which one of the PIC file registers is to be utilized by the instruction. The destination designator specifies where the result of the operation performed by the instruction is to be placed. If "d" is zero, the result is placed in the PIC W register. If (12-7)

Inllrucllon-Blnary (Oclal)

Name

6 0 0

000 000 000 000 000 001 001 001 001 o10 o10 o10 o10 o1 1 o1 1 o11 o1 1

000 00 1 1d 10 d 1 , d 00 d Old 10 d 1 1d 00 d Old 10 d 1 1d 00 d Old 10 d 1 1d

.

000 I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I ( I I I I I I I I I I I I I

1 I I I I I I I I I I

00 I I I I I I I I I I I I I I I I I I I I I I I I I I I I

(00004) (00100) (00200) (00400) (00600) (01000) (01200) (01400) (01600) (02000) (02200) (02400) (02600) (03000) (03200) (03400) (03600)

000 000 000 000 000 000 000 000

000 001 o10 o1 1 100\ 101 1 10 11 1

I I I I I I I I

I I I I I I I I

(10000) (10100) (10200) (10300) (10400) (10500) (10600) (10700)

0 0 0 0

1 00 101 1 1 0 111

b b b b

(04000) (05000) (06000) (07000)

b b

b b b b b b

(])

LITERAL AND CONTROL OPERATIONS

E

Inllructlon-Blnary (Octal)

...... (J)

0 0 0 0 1

~

c

(ij ~

(])

c

(])

~

'000 000 000 000 001 001 o10 010 o11 o11

000 000 000 000 ok k 1 k k ok k 1 k k ok k 1 k k

000 000 000 000 k k k k k k k k k k k k k k k k k k

Mnemonic, Operandi

(12-6)

(5-0)

OP CODE

f (FILE II)

(00000) (00001) (00002) (00003) (11000) (11400) (12000) (12400) (13000) (13400)

Mnemonic, Operands

Operallon

MOVFW CLRF RRNCF RLNCF CPFSL T CPFSEQ CPFSGT TESTF

I-W 0-1 I(n)-d(n-l). f(O). -1(7) I(n)-d(n+ 1). 1(7) . .,-1(0) I - W. Skip il C 0 I - W. Skip il ~ =:= 1 I - W. Skip if Z • C 1 I-I

=

kkk kkk

kkk kkk

Sialul Affecled Z Z

=

=

(12-9)

(8-6)

(5-0)

OP CODE

b (BIT II)

f (FILE II)

Z

Name

Mnemonic, Operandi

Operallon

Bit Bit Bit Bit

BCF BSF BTFSC BTFSS

O-I(b) l-I(b) Bit Test I(b): skip il clear Bit Test I(b): skip il set

clear II Ie set Ille test. skip II clear test. skip II set

I.b I.b I.b I.b

Sialul Affecled

(7-0) k (LITERAL)

Name

Mnemonic, Operands

Operation

No Operation Halt In PIC1665 Return Irom Interrupt Return Irom Subroutine Move Literal to W Add literal to W Inclusive OR Literal to W And literal and W Exclusive OR literal and W Return and load literal in W

NOP HALT RETFI RETFS MOVLW ADDLW IORLW ANDLW XORLW RETLW

Stack - PC Stack - PC k':'W k+W-W kVW-W k.W-W k0w-w k-W. Stack -PC

(12-10)

(9-0)

OP CODE

k (LITERAL)

Instruction-Binary (Oclal) 10k 11k

Sialul Affected

Move 'Ile to W Clear Ille Rotate Ille rlght/no carry Rotate Ille lell/no carry Compare Ille to W. skip II F < W Compare Ille to W. skip II F W Compare Ille to W. skip II F > W Move Ille to Itself

(12-8) OP CODE

000 001 o10 o1 1 k k k k k k k k k k k k k k k k k k

I I.d I.d I.d I.d I.d I·.d I.d I.d I.d I.d I.d I.d I.d I.d I.d

Operallon

(Note 1) C W-I f+W+c -d OV,C,DC,Z OV,C.DC,Z f+W + 1-d I -l-d OV.C.DC.Z WVI-d Z W.I-d Z W01-d Z W+I-d OV,C.DC,Z W+f+c-d OV.C.DC.Z f-d Z f+1-d OV.C.DC.Z I - 1- d. skip il zero I(n)-d(n-l). c-d(7). I(O)-c C f(n)-d(n+l). c-d(O). f(7)-c C 1(0-3)~ (4-7)-d 1+1 -d. skip II zero

Name

BIT ORIENTED fiLE REGISTER OPERATIONS Inllructlon-Blnary (Oclal)

.

DAW Decimal adJust W Move W to Ille MOVWF Subtract W Irom Ille wi borrow SUBBWF SUBWF Subtract W Irom Ille Decrement Ille DECF Inclusive or W with file IORWF And W with Ille ANDWF Exclusive OR W with Ille XORWF Add W with Ille ADDWF Add W to Ille with carry ADCWF Complement Ille COMPF Increment Ille INCF Decrement Ille. skip II zero DECFSZ Rotate Ille right thru carry RRCF Rotate Ille lelt thru carry RLCF Swap upper and lower nibble 01 Ille SWAPF Increment Ille. skip II zero INCFSZ

I Inllrucllon-Blnary (Octal)

::J

(5-0)

r----O-P-C-O-D-E---
.-d~I--t-(F':"'I-LE~II)--'

0 0 0 0 0 0 0 0 0 0 0 0 0 0

.....c

(6)

BYTE ORIENTED fiLE REGISTER OPERATIONS

OV.C.DC.Z

Z Z Z

Mnemonic, Operands kkk kkk

(14000) (16000)

Go to address' Call Subroutine

GO TO CALL

k-PC PC+1-Slack. k-PC

NOTE: DAW: Decimal Adjust W.

This instruction adjusts the eight bit number in the W register to form two valid BCD (binary coded decimal) digits, one in the lower and one in the upper nibble. (The results will only be meaningful if the number in W to be adjusted is the result of adding together two valid two digit BCD numbers.) The adjustment obeys the following two step algorithm: 1. If the lower nibble is greater than 9 or the digit carry flag (DC) is set, 06 is added to the W register. 2. Then. if the upper nibble is greater than 9 or the carry from the original or step 1 addition is set, 60 is added to the W register. The carry bit is set if there is a carry from the original, step 1 or step 2 addition.

1312

©

Ie MASTER 1983

GENERAL INSfRUMENf

PIC1670 INT,ERRUPT SYSTEM The interrupt system of the PIC1670 is comprised of an external interrupt and a real-time clock counter interrupt. These have different interrupt vectors, enable bits and status bits. Both interrupts are controlled by the status register (F5)*" shown below.

7"

6

5

4

3

o

2

"Bit 7 is unused and is read as zero. ""Register 5 will power up to all zeroes.

EXTERNAL INTERRUPT On any high to low transition of the RT pin the external interrupt request (XIR) bit will be set. This request will be serviced if the external interrupt enable (XI E) bit is set or if it is set at a later point in the program. The latter allows the processor to store a request (without interrupting) while a critical timing routine is being executed. Once external interrupt service is initiated, the processor will clear the XIR bit, delay one cycle (to execute the current instruction), then push the cu rrent prog ram counter onto the stack and execute the instruction at location 1760 8, It takes three to four instruction cycles from the transition on the RT pin until the instruction at 1760 8is executed. No new interrupts can be serviced until a return from interrupt (RETFI) instruction has been executed.

REAL-TIME CLOCK INTERRUPT The real-time clock counter (RTCCA & RTCCB, file registers F6 and F7) have a similar mechanism of interrupt service. The RTCCA register will increment if the count enable (CNTE) bit is set. If this bit is not set the RTCCA & RTCCB will maintain their present contents and can therefore be used as general purpose.

RAM registers. The count source (CNTS) bit selects the clocking source for RTCCA. If CNTS is cleared to a '0', then RTCCA will use the internal instruction clock and increment at 1/8 the frequency present on the OSC pins. If CNTS is set to a '1', then RTCCA will increment on eacl) high to low transition of the RT pin. RTCCB can only be incremented when RTCCA makes a transition from 377 8to oand the AlB status bit is set. This condition links the two eight bit registers together to form one sixteen bit counter. An interrupt request under these condition~ will occur when the combined registers make a transition from 1777778 to O. If, however, the AlB bit is not set, then RTCCA will be the only incrementing register and an interrupt request will occur when RTCCA makes a transition from 3778 to O. (In this setup the RTCCB register will not increment and can be used as a general purpose RAM register.) Once a request has come from the real-time clock counter, the real-time clock interrupt request (RTCIR) bit will be set. At this point, the request can either be serviced immediately if the realtime clock interrupt enable (RTCIE) bit is set or be stored if RTCIE is not set. The latter allows the processor to store a real-time clock interrupt while a critical timing routine is being executed. Once interrupt service is initiated, the processor will clear the RTCI R bit, delay one cycle (to execute the current instruction), then push the present program counter onto the stack and execute the instruction at location 1740slt takes three instruction cycles from when the RTCC (A or B) overflows until the instruction of 1740 is executed. No new interrupts can be serviced until a RETFI instruction has been executed. The RETFI instruction (00002 8 ) must be used to return from any interrupt service routine if any pending interrupts are to be serviced. External interrupts have priority over RTCC driven interrupt in the event both types occur simultaneously. Interrupts cannot be nested but will be serviced sequentially. The existence of any pending interrupts can be tested via the state of the XIR (bit 2) and RTCIR (bit 3) in the status word F5.

INTERRUPT SYSTEM BLOCK DIAGRAM

~

EDGE TO SYNC PULSE GEN

INTERNAL CLOCK

.rL

.......

c E (J)

::J ~

.......

UJ C

1740.

©

Ie MASTER 1983

1313

GENERAL INSTRUMENT

PIC1670

1/0 TIMING ~l---"'"

CLK OUT

\

~REMENT

1\

PC ADDRESS ROM FOR NEXT INSTRUCTION

1\ GATE ANSWER

1\

EXECUTE INSTRUCTION INTERNAL BUS

1/0

__I_~~

OUTPUT

I

~

WRIT=---.! TO

I

VAUO

NOTE: Rise and fall times are load dependent

I

thl.-

I INPUT

r ~ 'l.tcv ~ I r----~ I

CLK OUT TIMING

J

------;0 ~-----------------------~~ ~ I

cv

CLKOUT~

t,41-----:y.t

,

I

1~~----------------tCy--------------·~~1

,I ...

RTCCTIMING +-'

C

Q)

E ::J

RTCC

'-

-------~

~1'4

tATH

I

j

\

I

I

+-'

en c

I~

tAT

tATl

~I

I

l I

~I

L

(ij 'Q)

c

SCHMITT TRIGGER CHARACTERISTICS (Typical)

Q)

4.0

(!J

-

3.0 II"""""'" VTHRESHOlO

(VOLTS)

V.THL

2.0

1.0 4.5

5.5

5.0 Voo (VOLTS)

1314

©

Ie MASTER 1983

PIC1670

PIC1670 OSCILLATOR OPTIONS (TYPICAL CIRCUIT) LC OPERATION

...------1 t----iIIIt---:l~

OSC1 (PI N 1)

fosc

2" 'l/L (C l

+ C 1NT )

,

where C 1NT = 10pF. L

'---..........f r---_-~~

Typical values for 4MHz operation: L = 70J.lH C L = 10pF

OSC2 (PIN 2)

CRYSTAL INPUT OPERATION 20pF

t--tt---..,_---..

OSC1 (PIN 1)

OSC2 (PIN 2) 20pF

1K

* or ceramic resonator, parallel resonant (0.8 - 5.0MHz)

EXTERNAL CLOCK INPUT OPERATION

---[>---------~)~

CLOCK FROM EXTERNAL SYSTEM

OSC1 (PIN 1)

~ NO CONNECTION --->~ OSC1 (PIN2)

MASTER CLEAR (TYPICAL CIRCUIT)

R ~ 100K

R

---........;~

C

I

MCLR (PIN 39)

O.1J.1F

Master Clear requires 10ms delay (assuming a 4MHz crystal) before activation after power is applied to the Voo pin, for the crystal to start up. To achieve this, an external RC configuration as shown can be used (assuming Voo is applied as a step function).

© Ie MASTER 1983

1315

PIC1670

POWER DISSIPATION DERATING GRAPH

1000 ~

800

~

700

0

~ -< ....

'0

Cf.

~l> ....