INTEGRATED CIRCUITS

CMOS

INTEGRATED CIRCUITS

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Introduction

74C is a CMOS pin for pin, function for function, equivalent to the 7400 TTLP family. This new concept in CMOS was designed with the engineer in mind. Strict design' rules were adhered to in the input and output' characteristics, such as making all outputs capable of sinking 360 J.J.A (two LPT2L loads) and specifying all AC parameters at

50

pF.

loads. These consistent design rules will simplify system design by giving the engin.eer realistic and workable parameters. The engineer can take full advantage of his knowledge of the 7400 line and utilize the design tricks he has learned.

For those designs that require 400 Series, National manufactu res these circuits.

©

National Semiconductor Corporation 2900 Semiconductor Drive, Santa Clara, California 95051 (408) 737-5000(TWX (910) 339-9240

National does not assume any responsibility for use of any circuitry described; no circuit patent licenses are Implied, and National reserves the right, at any time without notice, to change said circuitry.

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Manufactured under one or more of the following U.S. patents: 3083262, 3189758, 3231797, 3303356, 3317671,3323071, 3381071, 3408542, 3421025, 3426423, 3440498, 3518750, 3519897, 3557431, 3560765, 3566218, 3571630, 3575609, 3579059, 3593069, 3597640, 3607469, 3617859, 3631312, 3633052, 3638131, 3648071, 3651565, 3693248.

~ Numerical Index and Table of Contents

Introduction . . . 1

CMOS Guide . . . 7

, Specs 'for "B" Series . . . 11

54C/74C Power Consumption Characteristics Guide . . . 12

CMOS Cross Reference Guide . . . 13 74C DATA SHEETS IN NUMERICAL ORDER

MM54COO/MM74COO Quad 2-lnput NAND Gate .... ~ . . . 1-3 MM54C02/MM74C02 Quad 2-lnput NOR Gate . . . 1-3 MM54C04/MM74C04 Hex Inverter . . . 1·3 MM54C08/MM74C08 Quad 2·lnput AND Gate . . . 1-7 MM54Cl0/MM74Cl0 Triple 3-lnput NAND Gate . . . 1-3 MM54C14/MM74C14 Hex Schmitt Trigger . . . 1-10 MM54C20/MM74C20 Dual 4-lnput NAND Gate . . . 1-3 MM54C30/MM74C30 8-lnput NAND Gate . . . 1-13 MM54C32/MM74C32 Quad l-Input OR Gate . . . 1-16 MM54C42/MM74C42 BCD-to-Decimal Decoder . . . : . . . 1-18 MM54C48/MM74C48 BCD-to-7 Segment Decoder . . . ' . . . 1-20 MM54C73/MM74C73 Dual J-K Flip-Flops withClear . . . 1-24 MM54C74/MM74C74 Dual D Flip-Flop . . . 1-27 MM54C76/MM74C76 Dual J-K Flip-Flops with Clear and Preset .. ',' . . . 1-24 MM54C83/MM74C83 4-Bit Binary Full Adder . . . 1-30 MM54C85/MM74C85 4-Bit Magnitude Comparator . . . 1-34 MM54C86/MM74C86 Quad 2-lnput EXCLUSIVE-OR Gate . . . 1-7 MM54C89/MM74C89 64-Bit TRI-STATE® Random Access Read/Write Memory . . . 1-37 MM54C90/MM74C90 4-Bit Decade Counter . . . ; . . . 1-42 MM54C93/MM74C93 4-Bit Binary Counter . . . .' . . . 1-42 MM54C95/MM74C95 4-Bit Right-Shift/Left-Shift Register . . . 1-46 MM54Cl07/MM74Cl07 Dual J-K Flip-Flops with Clear . . . 1-24 MM54C150/MM74C150 16-Line to l-Line Multiplexer . . . 1-48 MM54C151/MM74C151 8-Channel Digital Multiplexer . . . 1-53 MM54C154/MM74C154 4-Line to 16-Line Decoder/Demultiplexer . . . 1-56 MM54C157/MM74C157 Quad 2-lnput Multiplexer . . . 1-59 MM54C160/MM74C160 Decade Counter with Asynchronous Clear . . . ~ ... 1-61 . MM54C161 /MM74C161 Binary Counter with Asynchronous Clear . . . 1-61 MM54C162/MM74C162 Decade Counter with Synchronous Clear . . . 1-61 MM54C163/MM74C163 Binary Counter with Synchronous Clear . . . 1-61 MM54C164/MM74C164 8-Bit Parallel-Out Serial Shift Register . . . 1-65 MM54C165/MM74C165 Parallel-Load 8-Bit Shift Register . . . 1-68 MM54C173/MM74C173 TRI-STATE® Quad D Flip-Flop. ' . . . 1-72 MM54C174/MM74C174 Hex' D Flip-Flop . . . : . . . 1-75 MM54C175/MM74C175 Ouad D Flip-Flop . . . 1-78 MM54C192/MM74C192 Synchronous 4-Bit Up/Down Decade Counter . . . 1-81 MM54C193iMM74C193 Synchronous 4-Bit Up/Down Binary Counter . . . 1-81 MM54C195/MM74C195 4-Bit Register . . . • . . . 1-84 MM54C200/MM74C200 256-Bit TRI-STATE® Random Access Read/Write Memory ... 1-87 MM54C221/MM74C221 Dual Monostable Multivibrator . . . 1-92 MM54C373/MM 74C373 Octal Latch . . . 1-95 MM54C374/MM74C374 Octal D-Type Flip:Flop . . . _ . . . 1-95 MM54C901/MM74C901 Hex Inverting TTL Buffer . . . 1-97 MM54C902/MM74C902 Hex Non-Inverting TTL Buf,fer . . . 1-97 MM54C903/MM 74C903 Hex I nverting CMOS Buffer . . . 1-97

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Numerical Index and Table of Contents·

74C DATA SHEETS IN NUMERICAL ORDER (cent.)

MM54C904/MM74C904 Hex Non-Inverting CMOS Buffer . . . 1-97 MM54C905/MM74C90512-Bit Successive Approximation Register . . . 1-101 MM54C906/MM74C906 Hex Open Drain N-Channel Buffer . . . 1-106 MM54C907/MM74C907 Hex Open Drain P-Channel Buffer . . . 1-106 MM74C908 Dual CMOS 30 Volt Driver . . . 1-109 MM54C909/MM74C909 Quad Comparator . . . 1-113 MM54C910/MM74C9l0 256-Bit TRI-STAT!=® Random Access Read/Write Memory .. 1-118 MM74C911 Display Controller . . . ' .... ; . . . 1-122 MM74C912 Display Controller. . . . 1-122 MM74C913 Display Controller . . . _ . . . 1-122 MM54C914/MM74C9l4 Hex Schmitt Trigger with Extended Input Voltage . . . 1-125 MM54C915/MM74C9l5 7-Segment-to-BCD Converter . . . 1-128 MM74C918 Dual CMOS 30 Volt Driver . . . 1-109 MM54C920/MM74C920 1024-Bit Static Silicon Gate CMOS RAM . . . 1-132 MM54C921/MM74C921 1024-Bit Static Silicon Gate CMOS RAM . . . 1-132 MM54C922/MM74C922 16-Key Encoder .... : .. ' . . . 1-136 MM54C923/MM74C923 20-Key Encoder . . . 1-136 MM74C925 4-Digit Counter with Multiplexed 7-Segment Output Driver . . . _ .. 1-141 MM74C926 4-Digit Cou nter with Multiplexed 7-Segment Output Driver . . . 1-141 MM74C927 4-Digit Counter with Multiplexed 7-Segment Output Driver . . . 1-141 MM74C928 4-Digit Counter with Multiplexed 7-Segment Output Driver . . . 1-141 MM54C929/MM74C929 1024-Bit Static Silicon Gate CMOS RAM . . . 1-145 MM54C930/MM74C930 1024-Bit Static Silicon Gate CMOS RAM . . . 1-145 MM74C935/MM74C935-1 (ADD3500/ADD3501) 3Y:z-Digit DVM with Multiplexed

7- Segment Output . . . ,' . . . 1-149 MM74C936 3~-Digit DVM with Multiplexed 7-Segment Output . . . 1-158 MM74C937 3Y:z-Digit DVM with Multiplexed BCD Output . . . 1-158 MM74C938 3~-Digit DVM with Multiplexed BCD Output . . . 1-158 MM74C948 CMOS 8:Bit A/D Converter with 16-Channel Analog Multiplexer . . . 1-159 MM74C949 CMOS 8-Bit A/D Converter with 8-Channel Analog Multiplexer . . . 1-159 MM74C950 CMOS 8-Bit A/D Converter with 8-Channel Analog Multiplexer and

Sample and Hold ... _ . . . ' . . . ' . . . 1-159 MM70C95/MM80C95 TRI-STATE® Hex Buffers . . . 1-162 MM70C96/MM80C96 TRI-STATE® Hex Inverters . . . 1-162 MM70C97/MM80C97 TRI-STATE® Hex Buffers . . . 1-162 MM70C98/MM80C98 TRI-STATE® Hex Inverters ... " . . . ' ... 1-162 MM72C19/MM82C19 TRI-STATE® 16-Line to 1-Line Multiplexer.. . . . 1-48 MM78C29/MM88C29 Quad Single-Ended Line Driver . . . 1-167 MM78C30/MM88C30 Dual Differential Line Driver . . . _ . . . 1-167 CD4000-DATA SHEETS IN NUMERICAL ORDER

CD4000M/CD4000C Dual 3-lnput NOR Gate Plus Inverter . . . 2-3 CD4001M/CD4001C Quadruple 2-lnput NOR Gate . . . " . . . 2-6 CD4001MB/CD4001BC Quad 2-lnput NOR Buffered B Series Gate . . . 2-9 CD4002M/CD4002C Dual4-lnput NOR Gate . . . ' . . . " .... 2-14 CD4006M/CD4006C l8-Stage Static Shift Register . . . 2-16 CD4007M/CD4007C Dual Complementary Pair Plus Inverter .. ' . . . 2-19 CD4008BM/CD4008BC 4-Bit Full Adder . . . 2-22 CD4909M/CD4009C Hex Buffer (I nverting) . . . 2-25 CD401 OM/CD401 OC Hex Buffer (Non-I nverting) . . . 2-25 CD4011 M/CD4011 C Quad 2-1 nput NAN D Buffered B Series Gate . . . 2-27 C;;D4011 BM/CD4011 BC Quad 2-1 nput NAN D Buffered B Series Gate . . . 2-9 CD4012M/CD4012C Dual4-lnput NAND Gate . . . 2-27 CD4013BM/CD4013BC Dual D Flip-Flop . . . 2-29 CD4014M/CD4014C a-Stage Static Shift Register . . . : . . . 2-34 CD4015M/CD4015C Dual 4-Bit Static Register . . . 2-37 CD4016M/CD4016C Quad Bilateral Switch . . . 2-41

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Numerical Index and Table of ' Contents

CD4000 DATA SHEETS IN NUMERICAL ORDER (cont.l

CD4017BM/CD4017BC Decade Counter/Divider with 10 Decoded Outputs . . . 2-45 CD4018BM/CD4018BC Presettable Divide-by-N Counter . . . 2-50 CD401 9BM/CD401 9BC Quad AN D-OR Select Gate . . . 2-54 CD4020BM/CD4020BC 14-Stage Ripple-Carry Binary Counter/Divider . . . 2-57 CD4021 M/CD4021 C 8·Stage Static Shift Register • . . . 2-62, CD4022BM/CD4022BC Divide-by-8 Counter/Divider with 8 Decoded Outputs . . . 2-45 CD4023M/CD4023C Triple 3·lnput NAND Gate, . . . ' . . . 2-27 CD4023BM/CD4023BC Triple 3-lnput NAND Gate . . . 2-65 CD4024BM/CD4024BC 7·Stage Ripple·Carry Binary Counter/Divider . . . 2-69 CD4025M/CD4025C Triple 3·lnput NOR Gate . . . 2-72 CD4025BM/CD4025BC Triple 3-lnput NOR Gate. ',' . . . ' . . . 2·65 CD4027BM/CD4027BC Dual J-K Master/Slave Flip-Flop with Set and Reset . . . 2-75 CD4028BM/CD4028BC BCD·to·Decimal Decoder . . . , . . . 2-79 CD4029BM/CD4029BC Presettable Binary/Decade Up/Down Counter . . . 2·82 CD4030M/CD4030C Quad EXCLUSIVE-OR Gate . . . 2·88 CD4031BM/CD4031BC 64-Stage Static Shift Register . . . 2·91 CD4034BM/CD4034BC S·Stage TRI-STATE® Bidirectional Parallel/Serial

Input/Output Bus Register . . . ' . . . 2·95 CD4035BM/CD4035BC 4·Bit Parallel·ln/Parallel-Out Shift Register . . . 2·103 CD4040BM/CD4040BC 14-Stage Ripple Carry Binary Counters . . . 2-57 CD4041 M/CD4041 C Quad True Complement Buffer . . . 2·107 CD4042BM/CD4042BC Quad Clocked 0 Latch . . . 2-11 CD4043M/CD4043C Quad TRI-STATE® NOR R/S Latches . . . 2-115 CD4044M/CD4044C Quad TRI·STATE® NAND R/S Latches . . . 2·115 CD4046BM/CD4046BC Micropower Phase-Locked Loop . . . 2'·119 CD4047BM/CD4047BC Low Power Monostable/Astable Multivibrator . . . 2·126 CD4048BM/CD404SBC TRI-STATE® Expandable S·Function 8-lnput Gate . . . 2·131 CD4049BM/CD4049BC Hex Inverting Buffer . . . . • . . . 2·137 CD4050BM/CD4050BC Hex Non-Inverting Buffer . . . '.' . . . 2·137 CD4051BM/CD4051 BC Analog Multiplexers/Demultiplexers . . . 2-142 CD4052BM/CD4052BC Analog Multiplexers/Demultiplexers . . . 2·142 CD4053BM/CD4053BC Analog Multiplexers/Demultiplexers.' .. , . . . 2·142 CD4060BM/CD4060BC 12-Stage Ripple Carry Binary Counters . . . 2-57 CD4066BM/CD4066BC Quad Bilateral Switch . . . 2-150 CD4069M/CD4069C Inverter Circuits . . . 2-156 CD4070BM/CD4070BC Quad 2-lnput EXCLUSIVE-OR Gate . . . 2·160 CD4Q71 BM/CD4071 BC Quad 2·1 nput OR Buffered B Series Gate . . . 2-164 CD4073BM/CD4073BC Double Buffered Triple 3-lnput NAND Gate . . . 2·169 CD4075BM/CD4075BC Double Buffered Triple 3-lnput NOR Gate . • . . . 2-169 CD4076BM/CD4076BC TRI-STATE®Quad 0 Flip·Flop . ' . . . 2·173 CD4081BM/CD4081BC Quad 2·lnput AND Buffered B Series Gate . . . 2·164 C'D40S9BM/CD40S9BC Binary Rate Multiplier . . . 2·177 CD4093BM/CD4093BC Quad 2-lnput NAND Schmitt Trigger . . . 1-184 CD4099BM/CD4099BC 8·Bit Addressable Latches .... , . . . 2·227 CD401 06BM/CD401 06BC Hex Schmitt T~igger . . . 2·189 CD40160BM/CD40160BC Decade Counter with Asynchronous Clear . . . 2·193 CD40161 BM/CD40161 BC Binary Counter with Asynchronous Clear . . . 2-193 CD40162BM/CD40162BC Decade Counter with Synchronous Clear . . . 2-193 CD40163BM/CD40163BC Binary Counter with Synchronous Clear . . . 2-193 CD40174BM/CD40174BC Hex 0 Flip·Flop . . . 2-19S CD40175BM/CD40175BC,Quad 0 Flip-Flop . . . 2-198 CD401 92BM/CD401 92BC Synchronous 4-Bit l:Jp/Down Decade Counter . . . 2·201 CD401 93BM/CD401 92BC Synchronous 4·B it Up/Down Binary Counter . . . 2-201 CD451 OBM/CD451 OBC BC 0 Up/Down Counter . . . 2-206 CD4511 BM/CD4511 BC BCD-to-7 Segment Latch Decoder/Driver . . . 2·213 CD4516BM/CD4516BC Binary Up/Down Counter . . . , ... " . . . 2·206 CD4518BM/CD4518BC Dual Synchronous Up Counter .. " . . . 2·218

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Numerical Index. and Table of Contents

CD4000 DATA SHEETS IN NUMERICAL ORDER (cont.)

CD4519BM/CD4519BC 4-Bit AN D/OR Selector . . . 2-223 CD4520BM/CD4520BC Dual Synchronous Up'Counter . . . ',' . . . 2-218 CD4527BM/CD4527BC BCD Rate Multipli~r . . . 2-177 CD4723BM/CD4723BCDuaI4-Bit Addressable Latch . . . _ . . . 2-227 CD4724BM/CD4724BC 8-Bit Addressable Latch . . . ' . . . _ .... _ . . . 2-227 CMOS COMPATIBLE BIPOLAR INTERFACE CIRCUITS

DS1630lE>S3630 Hex CMOS Compatible Buffer . . . 3-3 DS1631/DS3631 Dual Peripheral Driver . . . " . . . 3-6 DS 1632/DS3632 Dual Peripheral Driver . . . 3-6 DS 1633/DS3633 Dual Peripheral Driver . . . 3-6 DS 1634/DS3634 Dual Peripheral Driver . . . ' . . . 3-6 DS1686/DS3686 Positive Voltage Relay Driver . . . ' . . . 3-12 DS1687/DS3687 Negative Voltage Relay Driver .: . . . 3-14 DS78C20/DS88C20 Dual Compatible Differential Line Receiver . . . 3-16 ADC0800P (MM4357B/MM5357B) 8-Bit A/D Converter . . . 3-19 LM 146/LM246/LM346 Programmable Quad Operational Ampl ifier . . . 3-25 LM 195/LM295/LM395 Ultra Reliable Power Transistors . . . 3-27

CMOS CONSUMER PRODUCTS

MM5369 Programmable Oscillator Divider . . . , . . . 4-3 MM5393 Push Button Telephone Dialer . . . 4-6 MM5395 Touch Tone® Generator . . . 4-9 MM53100 Programmable TV Timer . . . ' . . . .4·14

• MM53104 TV Game Clock Generator ... " . . . .4·19 MM53105 Programmable TV Timer . . . .4-14 MM55104 Phase Lock Loop Frequency Synthesizer . . . ; . . . : . . . .4-22 MM55106 Phase Lock Loop Frequency Synthesizer . . . , . . . .4-22 MM55114 Phase Lock Loop Frequency Synthesizer. .. ; .... ; . . . .4·22 MM55116 Phase Lock Loop Frequency Synthesizer . . . , . . . .4-22 MM5840 TV Channel and Time Circuit . . . : . . . .4-26 MM5841 TV Channel and Time Circuit . . . .4-31 MM58106 Digital Clock and TV Display Circuit . . . ' . . . 4·35 High Reliability CMOS . . . ; ... , . . . .4-39 , A+ Program . . . : . . . 4·42 B+ Program ... ~ . . . ; . . . 4-44 APPLICATION NOTES/BRIEFS

AN-77, CMOS, The Ideal Logic Family . . . ' .. : . . . 5-3 AN-88,CMOS Linear Applications . . . ; . . . 5·11 AN·90, 54C/74C Family Characteristics . . . 5-14 AN·118, CMOS Oscillators . . . .' . . . 5-20 AN-138, Using the CMOS Dual Monostable Multivibrator . . . 5-24 AN·140, CMOS Schmitt Trigger - A Uniquely Versatile Design Component . . . 5-30 AN-165, Dual Polarity 3V,-Digit DVM Realized with Simple CMOS Interface . . . 5-36 AN-l77, Designing with MM74C908/MM74C918 Dual High Voltage CMOS Drivers .... 5-38 DB·5, Keyboard Programmable Divide·by-N Counter with Symmetrical Output . . . 5-50 MB-18, MM54C/MM74C VoltageTranslation/Buffering . . . 5-50 ORDERING INFORMATION

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PHYSICAL DIMENSIONS

Ordering Information . . . 6·3 CMOS Packages . . . '. . . 6-4

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~ CMOS GUide.

GATES

MM54COO/MM74COO Quad 2-lnput NAND Gate MM54C02/MM74C02 Quad 2-lnput NOR Gate MM54C04/MM74C04 Hex Inverter

MM54C08/MM74C08 Quad 2-lnput AND Gate MM54C10/MM74C10Triple 3-lnput NAND Gate MM54C20/MM74C20 Dual 4-lnput NAND Gate MM54C30/MM74C30 8-.lnput NAND Gate MM54C32/MM74C32 Quad 2-lnput OR Gate MM54C86/MM74C86 Quad 2-lnput EXCLUSIVE-OR Gate

CD4000M/CD4000C Dual 3-lnput NOR Gate Plus Inverter

CD4001M/CD4001C Quadruple 2-lnput NOR Gate CD4001 BM/CD4001 BC Quad 2-lnput NOR Buffered B Series Gate

CD4002M/CD4002C Dual 4-lnput NOR Gate CD4007M/CD4007C Dual Complementary Pair Plus Inverter

CD4011M/CD4011C Quad 2-lnput NAND Buffered B Series Gate

CD4011 BM/CD4011 BC Quad 2-1 nput NAN D Buffered B Series Gate

CD4012M/CD4012C Dual 4-lnput NAND Gate CD4019BM/CD4019BC Quad AND-OR Select'Gate CD4023M/CD4023C Triple 3-lnput NAND Gate CD4023BM/CD4023BC Triple 3-lnput NAND Gate CD4025M/CD4025C Triple 3-lnput NOR Gate CD4025BM/CD4025BC Triple 3-lnput NOR Gate CD4030M/CD4030C Quad EXCLUSIVE-OR Gate CD4048BM/CD4048BC TR I-STATE@ Expandable 8-Functio'n 8-lnput Gate

CD4069M/CD4069C Inverter Circuits

CD4070BM/CD4070BC Quad 2-lnput EXCLUSIVE-OR Gate

CD4071BM/CD4071BC Quad 2-lnput OR Buffered B Series Gate

CD4073BM/CD4073BC Double Buffered Triple 3-lnput NAND Gate

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GATES (cont.)

CD4075BM/CD4075BC Double Buffered Triple 3-lnput NOR Gate

CD4081BM/CD4081BC Quad 2-lnput AND Buffered B Series Gate

CD4519BM/CD4519BC 4-Bit AND/OR Selector BUFFERS

MM54C901/MM74C901 Hex Inverting TTL Buffer MM54C902/MM74C902 Hex Non-Inverting TTL Buffer MM54C903/MM74C903 Hex Inverting PMOS Buffer MM54C904/MM74C904 Hex Non-Inverting PMOS Buffer .

MM54C906/MM74C906 Hex Open Drain N-Channel Buffer

MM54C907/MM74C907 Hex Open Drain P-Channel Buffer

MM74C908 Dual CMOS 30 Volt Driver MM74C918 Dual CMOS 30 Volt Driver MM70C95/MM80C95 TRI-STATE@ Hex Buffers MM70C96/MM80C96 TRj-STATE® Hex Inverters MM70C97/MM80C97 TRI-STATE® Hex Buffers MM70C98/MM80C98 TRI-STATE® Hex Inverters MM78C29/MM88C29 Quad Single-Ended Line Driver MM78C30/MM88C30 Dual Differential Line Driver CD4009M/CD4009C Hex Buffer (Inverting) CD4010M/CD4010C Hex Buffer (Non-Inverting) CD4041 M/CD4041C Quad True/Complement Buffer CD4049BM/CD4049BCHex Inverting Buffer CD4050BM/CD4050BC Hex Non-Inverting Buffer DS1630/DS3630 Hex CMOS Compatible Buffer DS78C20/DS88C20 Dual Compatible Differential Line Receiver

LM 195/LM295/LM395 Ultra Reliable Power Transistors FLIP-FLOPS

MM54C73/MM74C73 Dual J-K Flip-Flops with Clear MM54C74/MM74C74 Dual D Flip-Flop

n s:

o en

G')

c

C

m

CMOS Guide

F LlP·FLOPS (cent.)

MM54C76/MM74C76 Dual J-K Flip-Flops with Clear and Preset

MM54Cl07/MM74Cl07 Dual J-K Flip-Flops with Clear MM54C173/MM74C173 TRI-STATE@QuadDFlip-Flop MM54C174/MM74C174 Hex D Flip-Flop

MM54C175/MM74C175 Quad D Flip-Flop MM54C373/MM74C373 Octal Latch

MM54C374/MM74C374 Octal D-Type Flip-Flop CD4013BM/CD4013BC Dual D Flip-Flop

CD4027BM/CD4027BC Dual J-K Master/Slave Flip-Flop with Set and Reset

CD4042BM/CD4042BC Quad Clocked D Latch CD4043M/CD4043C Quad TRI-STATE@NOR R/S Latches

CD4044M/CD4044C Quad TRI-STATE@NAND R/S Latches .

CD4076BM/CD4076BC TRI-STATE@Quad D Flip-Flop CD4099BM/CD4099BC 8-8 it Addressable Latches CD40174BM/CD40174BC Hex D Flip-Flop CD40175BM/CD4017,5BC Quad D Flip-Flop CD4723BM/CD4723BC Dual 4-Bit Addressable Latch CD4724BM/CD4724BC 8-Bit Addressable Latches COUNTERS

MM54C90/MM74C90 4-Bit Decade Counter MM54C93/MM74C93 4-Bit Binary Counter MM54C160/MM74C160 Decade Counter with Asynchronous Clear

MM54C161/MM74C161 Binary Counter with Asynchronous Clear

MM54C162/MM74C162 Decade Counter with Synchronous Clear .

MM54C163/MM74C163 Binary Counter with Synchronous Clear

MM54C192/MM74C192 Synchronous 4-Bit Up/Down Decade Counter

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COUNTERS (cent.)

MM54C193/MM74C193 Synchronous 4-Bit Up/Down Binary Counter

MM74C925 4-Digit Counter with MUltiplexed 7-Segment Output Driver

MM74C926 4-Digit Counter with Multiplexed 7-Segment Output Driver

MM74C927 4-Digit Counter with Multiplexed 7-Segment Output Driver

MM74C928 4-Digit Counter with Multiplexed 7-Segment Output Driver

CD4017BM/CD4017BC Decade Counter/Divider with 10 Decoded Outputs

CD4018BM/CD4018BC Presettable Divide-by-N Counter CD4020BM/CD4020BC 14-Stage Ripple-Carry Binary Counter/Divider

CD4022BM/CD4022BC Divide-by-8 Counter/Divider with 8 Decoded Outputs

CD4024BM/CD4024BC 7-Stage Ripple-Carry Binary . Counter/Divider

CD4029BM/CD4029BC Presettable Binary/Decade Up/Down Counter

CD4040BM/CD4040BC 14-Stage Ripple Carry Binary Counters

CD4060BM/CD4060BC 12-Stage Ripple Carry Binary Counters

CD40160BM/CD40160BC.Decade Counter with Asynchronous Clear

CD40161BM/CD40161BC Binary Counter with Asynchronous Clear

CD40162BM/CD40162BC Decade Counter with Synchronous Clear

CD40163BM/CD40163BC Binary Counter with Synchronous Clear

CD40192BM/CD40192BC Synchronous 4-Bit Up/Down Decade Counter, .

CD40193BM/CD40193BC Synchronous 4-Bit Up/Down Binary Counter

CD451 OBM/CD451 aBC BCD Up/Down Counter CD4516BM/CD4516BC Binary Up/Down Counter CD4518BM/CD4518BC Dual Synchronous Up Counter

CMOS Guide

COUNTERS (cont.)

CD4520BM/CD4520BC Dual Synchronous Up Counter MM5369 Programmable Oscillator Divider

SHIFT REGISTERS

MM54C95/MM74C95 4-Bit Right Shift Left Shift Register MM54C164/MM74C164 8-Bit Parallel-Out Serial Shift Register

MM54C165/MM74C165 Parallel-Load 8-Bit Shift Register

CD4006M/CD4006C l8-Stage Static Shift Register CD40l4M/CD40l4C 8-Stage Static Shift Register CD40l5M/CD4015C Dual 4-Bit Static Register CD4021M/CD4021C 8-Stage Static Shift Register CD4031BM/CD4031BC 64-Stage Static Shift Register CD4034BM/CD4034BC 8-Stage TRI-STATE@

Bidirectional Parallel/Serial Input/Output Bus Register CD4035BM/CD4035BC 4-Bit Parallel-I n/Parallel-Out Shift Register

DECODERS/MUL TIPLEXERS

MM54C42/MM74C42 BCD-to-Decimal Decoder MM54C48/MM74C48 BCD-to-7 Segment Decoder MM54C150/MM74C150 16-Line to l-Line Multiplexer MM54C15l/MM74C151 8-Channel Digital Multiplexer MM54C154/MM74C154 4-Line to l6-Line Decoder/

Demultiplexer r

MM54C157/MM74C157 Quad 2-lnput Multiplexer MM54C922/MM74C922 16-Key Encoder MM54C923/MM74C923 20-Key Encoder

MM74C19/MM82C19 TRI-STATE@16-Line to l-Line Multiplexer

CD40l6M/CD4016C Quad Bilateral Switch CD4028BM/CD4028BC BCD-t6-Decimal Decoder CD4051BM/CD4051BC Analog Multiplexers/

Demultiplexers

9

DECODER-S/MUL TlPLEXERS (cont.) CD4052BM/CD4052BC Analog Multiplexers/

Demultiplexers

CD4053BM/CD4053BC Analog Multiplexers/

Demultiplexers -

CD4066BM/CD4066BC Quad Bilateral Switch CD4511BM/CD4511BC BCD-to-7 Segment Latch Decoder/Driver

MEMORIES

MM54C89/MM74C89 64-BitTRI-STATE@Random Acce_ss Read/Write Memory

MM54C200/MM74C200 256-Bit TRI-STATE@ Random Access ReadlWrite Memory

MM54CD10/MM74CD10 25(3-[3 it TRI-STATE(I<) Random Access Read/Write Memory

- MM54C920/MM74C920 1024-Bit Static Silicon Gate CMOS RAM

MM54C921/MM74C921 1024-Bit Static Silicon Gate CMOS RAM

MM54C929/MM74C929 1024-Bit Static Silicon Gate CMOS RAM

MM54C930/MM74C930 1024-Bit Static Silicon Gate CMOS RAM

ARi"THMETIC FUNCTIONS

MM54C83/MM74C83 4-Bit Binary Full Adder MM54C85/MM74C85 4-Bit Magnitude Comparator CD4008BM/CD4008BC 4-Bit Full Adder SPECIAL FUNCTIONS

MM54C14/MM74C14 Hex Schmitt Trigger

MM54C221/MM74C221 Dual Monostable Multivibrator MM54C909/MM74C909 Quad Comparator

- MM74C911 Display Controller , MM74C912 Display Controller MM74C913 Display Controller

MM54C914/MM74C914 Hex Schmitt Trigger with Extended Input Voltage

n s::

o en

G')

c

C m

CMOS Guide

SPECIAL FUNCTIONS (cont.)

MM54C915/MM74C915 7-Segment-to-BCD Converter MM74C935/MM74C935-1 (ADD3500/ADD3501) 3y:!-Digit DVM with Multiplexed 7-Segment Output MM74C936 3%-Digit DVM with Multiplexed 7-Segment Output

MM74C937 3Y:!-Digit DVM with Multiplexed BCD Output

MM74C938 3%-Digit DVM with Multiplexed BCD Output

CD4046BM/CD4046BC Micropower Phase-Locked Loop CD4047BM/CD4047BC Low Power Monostable/Astable Multivibrator

CD4089BM/CD4089BC Binary Rate Multiplier CD4093BM/CD4093BC Quad 2-lnput NAND Schmitt

Triggcr '

CD401 OGBM/CD401 06BC Hcx Schmitt Trigger CD4527BM/CD4527BC BCD Rilte Multiplier DS1631/DS3631 Dual Peripheral Driver OS 1632/DS3632 Dual Peripheral Driver DS1633/DS3633 Dual Peripheral Driver OS 1634/DS3634 Dual Peripheral Driver DS1686/DS3686 Positive. Voltage Relay Driver DS1687/DS3687 Negative Voltage Relay Driver

10

SPECIAL FUNCTIONS (cont.)

LM 146/LM246/LM346 Programmable Quad Operational Amplifier

MM5393 Push Button Telephone Dialer MM5395 Touch Tone® Generator MM53100 Programmable TV Timer

MM531D,4 TV Game Clock Generator MM53105 Programmable TV Timer

MM55104 Phase Lock Loop Frequency Synthesizer MM55106 Phase Lock Loop Frequency Synthesizer MM55114 Phase Lock Loop Frequency Synthesizer MM55116 Phase ~ock Loop Frequency Synthesizer MM5840 TV Channel and Time Circuit

MM5841 TV Channel and Time Circuit MM58106 Digital Clock and TV Display Circuit

A-TO-D CONVERTERS

MM74C948 CMOS 8-Bit A/D Converter with 16-Channel Analog Multiplexer

MM74C949 CMOS 8-Bit A/D Converter with 8-Channel Analog Multiplexer

MM74C950 CMOS 8-Bit A/D Converter with 8-Channel Analog Multiplexer and Sample and Hold

ADC0800P (MM4357B/MM5357B) 8-Bit A/D Converter

~ Specifications for

^~~B"

Series

National Semiconductor complies with the CMOS "B" Series specification as called out in JEOEC Standard No. 13A. All parts called out as "B"

are double buffered and will meet as a minimum the electrical parameters listed in table A. As agreed upon. in the JEOEC Spec. products called out as UB are not double buffered but meet table A specifications with the exception of VI L and VI H. which will be 20% and BO%. respectively.

of VOO. The 54C/74C family meets or exceeds the "B"/"UB" specifications as given in table A but are not marked "B"/"UB."

Limits

Temp VOO TLOW· +25°C THIGH*

Parameter Range (Vdc) . - Conditions Min Max Min Typ Max Min Max Units

5 0.25 0.25 7.5

100 Quiescent

Mil 10 VI = VSS or VOO 0.5 0.5 15 /JAdc

Device Current

15 1.0 1.0 30

GATES

5 1.0 1.0 7.5

Comm 10 All valid input combinations 2.0 2.0 15 /lAdc

15 4.0 4.0 30

5 1.0 1.0 30

Mil 10 VI = VSS or VOO 2.0 2.0 60 /JAdc

BUFFERS. 15 ^- 4.0 4.0 120

FLIP-FLOPS 5 4.0 4.0 30

Comm 10 All valid input combinations B.O 8.0 60 /lAdc

15 16.0 16.0 120

5 5 5 150

Mil 10 VI = VSS or VOO 10 10 300 jlAdc

15 20 20 600

MSI 5 20 20 150

Comm 10 All valid input combinations 40 40 300 !JAdc

15 80 80 600

Low:Level ' 5

VI = VSS or VOO 0.05, 0.05 0.05

VOL All 10 0.05 0.05 0.05 Vdc

Output Voltage

15 1101 < l/JA 0.05 0.05 0.05

.----

High-Level 5

VI = VSS or VOO 4.95 ,4.95 4.95

VOH All- 10 9.95 9.95 9.95 Vdc

Output Voltage

15 1101 < l/lA 14.95 14.95 14.95

._--

Input Low 5 VO= 0.5Vor 4.5V. 1101 < l/JA 1.5 1.5 1.5

VIL Voltage All 10 VO= 1.0Vor9.0V. 1101 < l/JA 3.0 3.0 3.0 Vdc

15 Va = 1.5Vor 13.5V.1I01 < 1 /JA 4.0 4.0 4.0

._--

Input High 5 Va = 0.5Vor4.5V. 1101 < 1 /JA 3.5 3.5 3.5

VIH Voltage All 10 Va = 1.0 V or 9.0V. 1101< l/JA 7.0 7.0 7.0 Vdc

15 Va = 1.5Vor 13.5V.1101 < l/JA 11.0 11.0 11.0

----

Output Low 5 Va = 0.4 V. V I = 0 V or 5 V 0.64 0.51 0.36

10L (Sink) Current Mil 10 Va = 0.5V. VI = OVor 10V 1.6 1.3 0.9 mAdc

15 Va = 1.5V. VI = OVor 15V 4.2 3.4 2.4

5 Va = O".4V. VI- OVor5V 0.52 0.44 0.36

Comm 10 Va = 0.5V. VI a OVor 10V 1.3 1.1 0.9 mAdc

15 Va = 1.5V. VI - OVor 15V 3.6 3.0 2.4

Output High 5 VO=4.6V.VI-OVor5V· -0.25 -0.2 -0.14

10H (Source) Current Mil 10 Va = 9.5V. VI - OVor 10V -0.62 -0.5 -0.35 mAdc

15 Va = 13.5V. VI - 0 Vor 15V -loB' -1.5 -1.1

5 VO=4.6V.VI-OVor5V -0.2 -0.16 -0.12

Comm 10 Va = 9.5V. VI - OV or 10V -0.5 -0.4 -0.3 mAdc

15 Va = 13.5V. VI- OVor 15V -1.4 -1.2 -1.0

II Input Current . Mil J5 VI=OVor15V ±0.1 ±0.1 11.0 /JAdc

Comm 15 VI=OVor15V ±0.3 ±0.3 11.0 /JAdc

Input

CI Capacitance All

--

Any Input 7.5 pF

per Unit Load

... _- .- -

Note: For current flow the convention is positivu for current flowing into the device and negative flowing out of the device.

*TLOW • -55°C for Military Temp Range device, -40'C for Commercial Temp Range device.

·THIGH a +125°C for Military Temp Range dovlcCl, IIl&"C for Commercial Temp Rango device.

11

tn

"0

m n

!! n

~ o

Z tn

"

o ::c

tn m

::c

m tn

w C

:::::>

C!'

CI)' (.)

~ ~

rx:

W I-(.)

a:

~

~

J:

(.)

Z 0

i=

Q.

:E

:::J

CI)

Z 0

(.)

rx:

W

0 ~

Q.

(.)

" r:t

(.)

~ in

~ 54C/74C Power Consumption Characteristics G,uide

Typical characteristics T A = 25°C.

cPo tpd (ns)

DEVICE TYPE/PRODUCT DESCRIPTION (pF) CL = ^{50 pF}

(Note ~) VCC = ^5.0V

MM54COO/MM74COO Quad 2·lnput NAND Gate 12 50

MM54C02/MM74C02 Quad 2·lnput NOR Gate 12 50

MM54C04/MM 74C04 Hex Inverter 12 50

MM54C08/MM74C08 Quad 2·lnput AND Gate 14 80

MM54Cl OfMM74Cl 0 Triple 3-lnput NAND Gate 18 60

MM54C14/MM74C14 Hex Schmitt Trigger 20 220

MM54C20/MM74C20 Dual 4-lnput NAND Gate 30 70

MM54C30/MM74C30 a·lnput NAND Gate 26 125

MM54C32/MM74C32 Quad 2·lnput OR Gate 15 80

MM54C42/MM74C42 BCD·to·Decimal Decoder 50 200

MM54C48/MM74C48 BCD·to·7 Segment Decoder NA 45011)

MM54C73/MM74C73 Dual J·K Flip-Flop 40 180

MM54C74/MM74C74 Dual 0 Flip-Flop 40 180

MM54C76/MM74C76 Dual J·K Flip·Flop 40 180

MM54C83/MM74C83 4·Bit Binary Full Adder 120 300

MM54C85/MM74C85 4-Bit Magnitude Comparator 45 220 III

MM54C86/MM74C86 Quad 2-lnput EXCLUSIVE·OR Gate 20 110

MM54C89/MM74C89 64-bit.tRI·STATE® Random Access Memory 230 270

MM54C90fMM74C90 4-Bit Decade Counter 45 400

MM54C93/MM74C93 4·Bit Binary Counter 45 400

MM54C95/MM74C95 4·Bit R-SfL·S Register 100 200

MM54Cl07/MM74Cl07 Dual J-K Flip·Flop 40 180

MM54C150fMM74C150 16:1 Multiplexer 100 250

MM54C151 /MM74C 151 8-Channel Digital Multiplexer 50 20011 )

MM54C 154/MM 74C 154 4: 16 DecoderlDemultiplexer 60 275 11)

MM54C157/MM74C157 Quad 2-lnput Multiplexer 20 15011)

MM54C160/MM74C160 Sync Decade Counter 95 25012)

MM54C161/MM74C161 Sync 4·Bit Binary Counter 95 25012)

MM54C162/MM74C 162 Sync Dec<fde Counter' 95 25012)

MM54C163/MM74C163 Sync 4·Bit Binary Counter 95 25012)

MM54C164/MM74C164 8-Bit SI/PO SIR 140 23012)

MM54C165/MM74C165 8-Bit PI/SO SIR 55 ' 21012)

MM54C173/MM74C173 TRI-STATE® Quad 0 Flip·Flop 100 220 (2)

MM54C174/MM74C 174 Hex 0 Flip·Flop 95 150 (2)

MM54C175/MM74C175 Quad 0 Flip-Flop 130 190 (2)

MM54C192/MM74C192 Sync UplDown Decade Counter 100 250 (2)

MM54C193/MM74C193 Sync Up/Down Binary Counter 100 250 (2)

MM54C195/MM74C195 4-Bit Parallel SIR 130 200 (2)

MM54C221/MM74C221 Dual Monostable Multivibrators NA 250 (2)

MM54C901/MM74C901 Hex Inverting TTL Buffer 30 38

MM54C902/MM74C902 Hex Non-Inverting TTL Buffer 50 57

MM54C903/MM74C903 Hex Inverting TTL Buffer 30 38

MM54C904fMM74C904 Hex Non.lnverting TTL Buffer 50 57

MM54C905/MM74C905 12·Bil Successive Approximation Register 100 200

MM54C90S/MM74C906 Hex Open Drain N-Channel Buffers 30 NA

MM54C907/MM74C907 Hex Open Drain P·Channel Buffers 30 NA

MM54C908/MM74C908 Dual High Voltage CMOS Driver NA 150 (1)

MM54C918/MM74C918 Dual High Voltage CMOS Driver NA 150 (11

MM70C95/MM80C95 TRI·STATE® Hex Non·lnverting Buffer 60 60

MM70C96/MM80C96 TRI·STATE® Hex Inverting Buffer. 60 70

MM70C97fMM80C97 TRI·STATE® Hex Non-Inverting Buffer 60 60

MM70C98/MM80C98 TRI·STATE® Hex Inverting Buffer 60 70

MM72C19/MM82C19 TRI·STATE® 16:1 Multiplexer 100 250

MM74C914 Hex Schmitt Trigger 20 220

MM78C29/MM88C29 Quad Single Ended line Driver 150 200

MM78C30/MM88C30 Dual Differential line Driver 200 350

Note 1: tpd shown is from data input to output. For more detailed specifications 'see individual data sheet.

Note 2: tpd shown is from clock to output. For more detailed specifications see_ individual data sheet.

~tpd/pF LTTL (TTL)·

CURVE FAN OUT

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

NA 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 1"

A ·2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

A 2

B 2"

B 2"

B 2"

B 2"

A 2

NA 2"

NA 2"

NA NA

NA NA

B 1"

B 1"

B 1"

B 1"

A 1"

A 2

NA 5"

NA 5"

Note 3: CPO numbers shown are for independent identical functions within a package. For instance the total CPO for a MM74C157 is 4 x 20 pF = 80 pF while the total CpO for the MM74C173 is 100pF because all flip-flops have a common clock.

Normalized Typical Power Consumption vs Frequency

to' 10' 10' FREQUENCY (Hz)

to'

TOTAL POWER· Vee' x , x (Cpo. Cl ) . Vee IlEAKAGE

Typical Propagation Delay per pF of Load Capacitance vs Power Supply

:; 0.5

a:: I

I

~ ^{I 5.0 to 15}

Vee - POWER SUPPL Y VOL TAGE (V)

I

tpd I ' (C -501 pF" l>;;" • tpdl .

Cl "c Cl "50 pF

Guaranteed Noise Margin Over Temperature vs Vec 15V

>

4.05

~

^3.05 _{VIN (0)}

1.45 0.45

4.50V 10V

Vee

For complete explanation on use ot curves see application note AN-gO, 54C174C Family Characteristics.

12

13.5 12.5

2.5 1.5

15V

~ Cross Reference Guide

National RCA Harris Teledyne

MM74COO HD74COO MM74COO

MM74C02 HD74C02 MM74C02

MM74C04 CD4069 HD74C04 MM74C04

MM74C08 HD74C08

MM74C10 HD74C10 MM74C10

MM74C14 CD40106 HD74C14

MM74C20 HD74C20 MM74C20

MM74C30 HD74C30

MM74C32 HD74C32

MM74C42 HD74C42 MM74C42

MM74C48 HD74C48

MM74C73 HD74C73 MM74C73

MM74C74 HD74C74 MM74C74

MM74C76 HD74C76 MM74C76

MM74C83 HD74C83

MM74C85 HD74C85

MM74C86 {CD4030 HD74C86

MM74C89 CD4070B HD74C89

MM74C90 MM74C93

MM74C95 HD74C95 MM74C95

MM74C107 HD74C107

MM74C151 HD74C151 MM74C151

MM74C154 HD74C154 MM74C154

MM74C157 HD74C157 MM74C157

MM74C160 HD74C160 MM74C160

MM74C161 ^\ HD74C161 MM74C161

MM74C162 HD74C162 MM74C162

MM74C163 HD74C163 MM74C163

MM74C164 HD74C164 MM74C164

MM74C165 HD74C165

MM74C173 CD4076 HD74C173 MM74C173

MM74C174 HD74C174

MM74C175 HD74C175

MM74C192 CD40192 HD74C192 MM74C192

MM74C193 CD40193 HD74C193 MM74C193

MM74C195 HD74C195 MM74C195

MM74C200 HD74C200

MM74C221 HD74C221

MM74C901 HD74C901

MM74C902 HD74C902

MM74C903 HD74C903

MM74C904 HD74C904

MM74C905

MM74C906 HD74C906

MM74C907 HD74C907

MM74C908 MM74C918

MM80C95 HD80C95

MM80C97

MM80C98 HD80C98

MM88C29 MM88C30

13

Motorola TI

--

MC14584

MC14507

MC14160 TP4360

MC14161 TP4361

MC14162 TP4362

MC14163 TP4363

MC14076 MC14174 MC14175 MC14192 MC14193 MC14195

MC14503

Fairchild

340014

F340160 F340161 F340162 F340163

F340174 F340175 F340192 F340193 F340195

F340097 F340098

(') :XJ

o

(J) (J) :XJ

m

"T1

m

:XJ

m Z

(')

m

G')

c:

C

m

MM54COO/MM74COO quad two-input NAN D gate MM54C02/MM74C02 quad two-input NOR gate MM54C04/MM74C04 hex inverter

MM54C10/MM74C10 triple three-input NAND gate MM54C20/MM74C20 dual four-input NAND gate general description features

These logic gates employ complementary MOS (CMOS) to achieve wide power supply operating range, low power consumption, high noise im- munity and sy~metric controlled rise and fall times. With features such as this the 54C/74C logic family is close to ideal for use in d,igital systems. Function and pin out compatibility with series 54/74 devices minimizes design time for those designers already familiar with the standard 54/74 logic family.

• Wide supply voltage range 3.0V to 15V

All inputs are protected from damage due to static discharge by diode clamps to Vee and GND.

connection diagrams

• Guaranteed noise margin

• High noise immunity

• Low power consumption

• Low power TTL compatibility

1.0V

0.45 Vee typo

10 nW/package typo fan out of 2 driving 74L

MM54COO/MM74COO MM54C02/MM74C02 MM54C04/MM74C04

TOP VIEW TOP VIEW TOP VIEW

MM54C10/MM74C10 MM54C20/MM74C20

TOP VIEW

1·3

absolute maximum ratings

(Note 1) Voltage at Any.Pin

Operating Temperature Range 54C

74C

Storage Temperature Range Operating Vee Range Maximum Vee Voltage

Package Dissipation

Lead Temperature (Soldering, 10 seconds)

dc electrical characteristics

-0.3V to Vee + 0.3V -55°C to +125°C -40⁰ C to +85° C -65°C to +150°C 3.0V to 15V 18V 500 mW 300°C

Min/max limits apply across the guaranteed temperature range unless otherwise noted.

PARAMETER CONDITIONS MIN TYP

CMOS TO CMOS

Logical "I" Input Voltage (V IN III) Vee; 5.0V 3.5

Vee; 10V 8.0

Logical "0" Input Voltage (VINIOI) Vee; 5.0V Vee; 10V

Logical ''1'' Output Voltage (V o.UTi1I ) Vee ~ 5.0V, 10. ; -101lA 4.5 Vee; 10V, 10. '" -10pA 9,0 Logical "0" Output Voltage _{(V o.UT} (01) Vee; 5,OV, 10. ; +10pA

Vee; 10V, 10. ; +10pA

Logical "I" Input Current {liN Ill) Vee; 15V, V IN = 15V 0,005 Logical "0" Input Current (IINIQ)) Vee; ,15V, V IN = OV -1.0 -0.005

Supply Current {Ieel Vee; 15V 0.01

LOW POWER TO CMOS

Logical "I" Input Voltage (V INIIl ) 54C, Vee ; 4.5V Vee -1.5

74C, Vee ; 4,75V Vee -1.5

Logical "0" I nput Voltage {V IN loll 54C, Vee ; 4.5V 74C, Vee; 4.75V

Logical "I" Output Voltage (Vo.UTlll) 54C, Vee = 4.5V, 10 ; -10/JA 4.4 74C, Vee; 4.75V, 10 ; ^-10/JA 4.4 Logical "0" Output Voltage {VouTloil 54C, Vee = 4,5V, 10 = +1 011 A

74C, Vee; 4,75V, 10 ; +101lA CMOS TO LOW POWER

Logical "I" Input Voltage (V INlll ) 54C, Vee; 4.5V 4.0

74C, Vee; 4.75V 4.0

Logical "0" Input Voltage (VINIQ)) 54C, Vee; 4.5V 74C, Vee; 4.75V

Logical "I" Output Voltage (VOUTlll) 54C, Vee; 4,5V, 10 = -360/JA 2.4 74C, Vee; 4,75V, 10. ; -360/JA 2.4 Logical "0" Output Voltage (Vo.UTIOI) 54C, Vee = 4,5V, 10 = 360llA

74C, Vee = 4,75, 10. ='360/JA OUTPUT DRIVE (See 54C/74C Family Characteristics Data Sheet)

Output Source Current (I So.UReE) Vee = 5,OV, VINIOI ; OV -1.75 TA = 25°C, V o.UT ; OV

Output Source Current (ISo.UReE) Vee = 10V, VINIOI = OV -8.0 T A ; 25°C, V o.UT = OV

Output Sink Current (ISINK) Vee; 5,OV, _{V INIII} = 5,OV 1.75 T A = 25°C, V o.UT = Vee

Output Sink Current (ISINK) Vee; 10V, VINIII = 10V 8.0 T A = 25°C, Vo.UT' = Vee

1·4

MAX UNITS

'V V

1.5 V

2.0 V

V V

0,5 V

1.0 V

1.0 /JA

/JA

,15 /JA

V V

0.8 V

0,8 V

V V

0.4 V

0.4 V

V V

1.0 V

1,0 V

V V

0.4 V

0.4 V

mA

mA

mA

mA

ac electrical characteristics

T A

=

25°C, C_L

=

50 pF, unless otherwise specified.

PARAMETER CONDITIONS MIN TYP MAX UNITS

MM54COO/MM74COO, MM54C02/MM74C02, MM54C04/MM74C04

Propagation Delay Time to Logical Vcc - 5.0V 50 gO ns

"'" or "0" (tpd) Vcc .- .'OV 30 60 ns

Input Capacitance (CIN ) (Note 2) 6.0 pF

Power Dissipation Capacitance (Cpo) (Note 3) Per Gate or Inverter 12 pF

MM54C10/MM74C10

Propagation Delay Time to Logical Vcc - 5.0V 60 100 ns

"'" or "0" (t pd ) Vce - 10V 35 70 ns

Input Capacitance (CIN ) (Note 2) 7.0 pF

Power Dissipation Capacitance (Cpo) (Note 3) Per Gate 18 pF

MM54C20/MM74C20

Propagation Delay Time to Logical Vcc - 5.0V 70 115 ns

"I" or "0" (tpd) Vcc - 10V 40 80 ns

Input Capacitance (CIN ) (Note 2) g pF

Power Dissipation Capacitance (Cpo) (Note 3) Per Gate 30 pF

Note 1: "Absolute Maximum Ratings" are those values beyond which the safety of the device cannot be guaranteed. Except for "Operating Temperature Range" they are not meant to imply that the devices should be operated at these limits. The table of "Electrical Characteristics" provides conditions for actual device operation.

Note 2: Capacitance is guaranteed by periodic testing.

Note 3: CpO determines the no load ac power consumption of any CMOS device. For complete explanation see 54C174C Family Characteristics application note - AN-90

typical performance characteristics

Power Dissipation vs Frequency

( MM54COO/MM74COO,

Guaranteed Noise Margin MM54C02/MM74C02,

Gate Transfer Characteristics Over Temperature vs VCC MM54C04/MM74C04

IS 15V 10'

E ~O~E2:'gISSIPATION FOR -

.,...

- - - TA = 125 C GUARANTEED DUTPU~ 13.5 §"

--TA=-55C V_OUT (II @INPUTS=VIN (0)

12.5 ^.3 OTHER DEVICES IS GIVEN -

w BVP.-tCt.+C,oltVcc!'1 -

~

^{~ 10' 'l1}

Vee = 10V a: ~;L.!iOPF

10 _~ Vee = 15V- r ^{w Vcc} I~I~IOV

2

+

4.05 ^{z 0} 103~'t""'FIIIIIII

:J GUARANTEED OUTPUT "0" LEVEL >= ^Vcc·1OV

° ^3.05 VOUT (O)@ INPUTS = VIN (I) ^~

>

5.0 Vee' 5.0V ill

Ii\ V IN (0) _ _ _ " " .-. 2.5 Q 102 I 11111111 r1J.ffiJ1("" Tii"iit ~~c·.l!ti~,.

11: _I 1.45 _~~ 1.5 ^a:

~

Ct.-!iOPF,RI

III

-

^Vcc·SOY

1'1.1 0.45 10 Yl iJ'IUjf'" Yl 1111 1111

0 5.0 10 IS 4.S0V 10V 15V 10³ 10' IDS 10· 10⁷

V_IN (V) Vee INPUT FREQUENCY (Hz)

Propagation Delay vs Propagation Delay vs Propagation Delay Time vs

Ambient Temperature Ambient Temperature Load Capacitance

MM54COO/MM74COO, MM54COO/MM74COO, MM54COO/MM74COO,

MM54C02/MM74C02, MM54C02/MM74C02, MM54C02/MM74C02,

MM54C04/MM74C04 MM54C04/MM74C04 MM54C04/MM74C04

100 50

!

^{150 .I[} TA"25°C _ t--

~EE ;~'~~ST

^{CI RC UIT} t-

~EE ;~~~ST

CIRCUIT ~ -Vee = 3.0V fr~EE ACTEST-

BO

!

⁴⁰

-

>- 1 >- ... 1-'" ^>= >- ^{:/ CIRCUIT} _j,.;' ^-

g

60 ^{. I} C_L = 50 pF ^{_, ...}

g

3D ^CL = 50 pF ... V

g

¹⁰⁰ Vee'5i~t-

z ^-~ z

..J...r

^z: ... LJ I ~

0 >= ₄₀

-~ -I J

⁰ >= ^{CL =15pF_} I-'" ^{~ 0} >= _Vee=I~~

~ CL(~

-

^{~ 20 -1-"'- ~}

i

²⁰

^- - ^-I

^{1 l -}

i

¹⁰

i

^{I 50 20}

^{.... ...}

^{~I ~5V} J 111

1 J.

0 0

-50 -25 0 25 50 75 100 125 -SO -25 0 25 50 75 100 125 0 20 50 100 ISO AMBIENT TEMPERATURE (OC) AMBIENT TEMPERATURE (OC) CL - LOAD CAPACITANCE (pF)

1-5

typical performance characteristics (con't)

Propagation Delay Time vs Load Capacitance MM54C 1 O/MM7 4C 1 0

50 100

Cl -LOAD CAPACITANCE (pF) 150

Propagation Delay Time vs Load Capacitance MM54C20/MM74C20 ] 150 f-++-+--ill'~TA' 25°C _

~ A /I SEE AC TEST CIRCUIT;;

;:

> ..., Vee =J.OV

g

^{I DO} 1-+-+-'H-+-1H-~H-+-1-+--+-I

~ - Vee' 5.0V -J.,.A-+-+-+-+-+-+--l

5

f-++~=-"9I'-+-+

yeT

=~ ^... ~'"

i

⁵⁰ 1-+-+-f.-::±.~F-.-r+-..-l-I""-Hi:;;,j..-I""'Iq...+-J

J

^{I-+'''I'' .... ~-+-+} ref =,I5,V

50 100 150

C_{l -}LOAD CAPACITANCE (pF)

switching time waveforms and ac test circuits

CMOS to CMOS

NOTE: DELAYS MEASURED WITH INPUT I" It S; 20 ns.

1-6

MM54C08/MM74C08 quad 2-input AND gate

MM54C86/MM74C86 quad 2-input EXCLUSIVE-OR gate

general description

Employing complementary MOS (CMOS)transis- tors to achieve wide power supply operating range, low power consumption and high noise margin these gates provide basic functions used in the implementation of digital integrated circuit systems.

The Nand P-channel enchancement mode transis- tors provide a symmetrical circuit with output swing essentially equal to the supply voltage. No dc power other than that caused by leakage current is consumed during static condition. All inputs are protected from damage due to static discharge by diode clamps to Vee and GND.

connection diagrams

MM54C08/MM74C08

Vee U lB lA lY

18 IA - -1B IY GND

TDPVIEW

truth tables

MM54C08/MM74C08

INPUTS OUTPUT

A B Y

L L L

L H L

H L L

H H H

H = High Level L= Low Level

'·7

features

• Wide supply voltage range 3.0V to l5V

• Guaranteed noise margin 1.OV

• High noise immunity 0.45 Vee typ

• Low power fan out of 2

TTL compatibility driving 74L

• Low power consumption 10 nW /package typ

• The MM54C86/MM74C86 follows the MM54L86 /MM74L86 pinout

MM54C86/MM74C86

TOP VIEW

MM54C86/MM74C86

INPUTS OUTPUTS

A B ' y

L L L

L H H

H L H

H H L