54ACT283 Datasheet, PDF(1/8 Page) National Semiconductor (TI) – 4-Bit Binary Full Adder with Fast Carry

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54ACT283 Datasheet, PDF (1/8 Pages) National Semiconductor (TI) – 4-Bit Binary Full Adder with Fast Carry

September 1998

54ACT283

4-Bit Binary Full Adder with Fast Carry

General Description

The âACT283 high-speed 4-bit binary full adder with internal

carry lookahead accepts two 4-bit binary words (A0âA3,

B0âB3) and a Carry input (C0). It generates the binary Sum

outputs (S0âS3) and the Carry output (C4) from the most sig-

nificant bit. The âACT283 will operate with either active HIGH

or active LOW operands (positive or negative logic).

Features

n Guaranteed 4000V minimum ESD protection

n Outputs source/sink 24 mA

n TTL-compatible inputs

n Available to Mil-Std-883

Logic Symbols

Pin Assignment for LCC

IEEE/IEC

DS100977-1

DS100977-4

Connection Diagrams

Pin Assignment

for DIP and Flatpak

DS100977-2

DS100977-3

Functional Description

The âACT283 adds two 4-bit binary words (A plus B) plus the

incoming Carry (C0). The binary sum appears on the Sum

(S0âS3) and outgoing carry (C4) outputs. The binary weight

of the various inputs and outputs is indicated by the subscript

numbers, representing powers of two.

20 (A0 + B0 + C0) + 21 (A1 + B1)

+ 22 (A2 + B2) + 23 (A3 + B3)

= S0 + 2S1 + 4S2 + 8S3 + 16C4

Where (+) = plus

Interchanging inputs of equal weight does not affect the op-

eration. Thus C0, A0, B0 can be arbitrarily assigned to pins 5,

6 and 7 for DIPS, and 7, 8 and 9 for chip carrier packages.

Due to the symmetry of the binary add function, the âACT283

can be used either with all inputs and outputs active HIGH

(positive logic) or with all inputs and outputs active LOW

(negative logic). See Figure 1. Note that if C0 is not used it

must be tied LOW for active HIGH logic or tied HIGH for ac-

tive LOW logic.

Due to pin limitations, the intermediate carries of the

âACT283 are not brought out for use as inputs or outputs.

However, other means can be used to effectively insert a

carry into, or bring a carry out from, an intermediate stage.

Figure 2 shows how to make a 3-bit adder. Tying the oper-

and inputs of the fourth adder (A3, B3) LOW makes S3 de-

pendent only on, and equal to, the carry from the third adder.

Using somewhat the same principle, Figure 3 shows a way

of dividing the âACT283 into a 2-bit and a 1-bit adder. The

third stage adder (A2, B2, S2) is used merely as a means of

getting a carry (C10) signal into the fourth stage (via A2 and

B2) and bringing out the carry from the second stage on S2.

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