SN74LS390 Series

Dual 4-Bit Decade Counters

Catalog

Dual 4-Bit Decade Counters

Part	Number of Bits per Element	Voltage - Supply [Min]	Voltage - Supply [Max]	Mounting Type	Supplier Device Package	Count Rate	Logic Type	Number of Elements	Package / Case	Package / Case	Package / Case	Direction	Operating Temperature [Max]	Operating Temperature [Min]	Trigger Type	Reset	Package / Case [x]	Package / Case [y]
Texas Instruments SN74LS390NSR	4	4.75 V	5.25 V	Surface Mount	16-SO	35 MHz	Counter Decade	2	0.209 "	16-SOIC	5.3 mm	Up	70 °C	0 °C	Negative Edge	Asynchronous
Texas Instruments SN74LS390D	4	4.75 V	5.25 V	Surface Mount	16-SOIC	35 MHz	Counter Decade	2		16-SOIC		Up	70 °C	0 °C	Negative Edge	Asynchronous	0.154 in	3.9 mm

Catalog

Dual 4-Bit Decade Counters

Key Features

• Dual Versions of the Popular '90A, 'LS90 and '93A, 'LS93'390, 'LS390 … Individual Clocks for A and B Flip-Flops Provide Dual ÷ 2 and ÷ 5 Counters'393, 'LS393 … Dual 4-Bit Binary Counter with Individual ClocksAll Have Direct Clear for Each 4-Bit CounterDual 4-Bit Versions Can Significantly Improve System Densities by Reducing Counter Package Count by 50%Typical Maximum Count Frequency … 35 MHzBuffered Outputs Reduce Possibility of Collector CommutationDual Versions of the Popular '90A, 'LS90 and '93A, 'LS93'390, 'LS390 … Individual Clocks for A and B Flip-Flops Provide Dual ÷ 2 and ÷ 5 Counters'393, 'LS393 … Dual 4-Bit Binary Counter with Individual ClocksAll Have Direct Clear for Each 4-Bit CounterDual 4-Bit Versions Can Significantly Improve System Densities by Reducing Counter Package Count by 50%Typical Maximum Count Frequency … 35 MHzBuffered Outputs Reduce Possibility of Collector Commutation

Description

Each of these monolithic circuits contains eight master-slave flip-flops and additional gating to implement two individual four-bit counters in a single package. The '390 and 'LS390 incorporate dual divide-by-two and divide-by-five counters, which can be used to implement cycle lengths equal to any whole and/or cumulative multiples of 2 and/or 5 up to divide-by-100. When connected as a bi-quinary counter, the separate divide-by-two circuit can be used to provide symmetry (a square wave) at the final output stage. The '393 and 'LS393 each comprise two independent four-bit binary counters each having a clear and a clock input. N-bit binary counters can be implemented with each package providing the capability of divide-by-256. The '390, 'LS390, '393, and 'LS393 have parallel outputs from each counter stage so that any submultiple of the input count frequency is available for system-timing signals. Series 54 and Series 54LS circuits are characterized for operation over the full military temperature range of -55°C to 125°C; Series 74 and Series 74LS circuits are characterized for operation from 0°C to 70°C. Each of these monolithic circuits contains eight master-slave flip-flops and additional gating to implement two individual four-bit counters in a single package. The '390 and 'LS390 incorporate dual divide-by-two and divide-by-five counters, which can be used to implement cycle lengths equal to any whole and/or cumulative multiples of 2 and/or 5 up to divide-by-100. When connected as a bi-quinary counter, the separate divide-by-two circuit can be used to provide symmetry (a square wave) at the final output stage. The '393 and 'LS393 each comprise two independent four-bit binary counters each having a clear and a clock input. N-bit binary counters can be implemented with each package providing the capability of divide-by-256. The '390, 'LS390, '393, and 'LS393 have parallel outputs from each counter stage so that any submultiple of the input count frequency is available for system-timing signals. Series 54 and Series 54LS circuits are characterized for operation over the full military temperature range of -55°C to 125°C; Series 74 and Series 74LS circuits are characterized for operation from 0°C to 70°C.