Philips 74HCT181N, 74HCT181D, 74HCT181U, 74HC181U, 74HC181N3 Datasheet

DATA SH EET

Product specification
Supersedes data of September 1993
File under Integrated Circuits, IC06

1998 Jun 10

INTEGRATED CIRCUITS

74HC/HCT181

4-bit arithmetic logic unit

For a complete data sheet, please also download:

•The IC06 74HC/HCT/HCU/HCMOS Logic Family Specifications

•The IC06 74HC/HCT/HCU/HCMOS Logic Package Information

•The IC06 74HC/HCT/HCU/HCMOS Logic Package Outlines

1998 Jun 10 2

Philips Semiconductors Product specification

4-bit arithmetic logic unit 74HC/HCT181

FEATURES

• Full carry look-ahead for high-speed arithmetic
operation on long words

• Provides 16 arithmetic operations: add, subtract,
compare, double, plus 12 others

• Provides all 16 logic operations of two variables:
EXCLUSIVE-OR, compare, AND, NAND, NOR, OR plus
10 other logic operations

• Output capability: standard,

A=B open drain

• I

CC

category: MSI

GENERAL DESCRIPTION

The 74HC/HCT181 are high-speed Si-gate CMOS devices
and are pin compatible with low power Schottky TTL
(LSTTL). They are specified in compliance with JEDEC
standard no. 7A.

The 74HC/HCT181 are 4-bit high-speed parallel
Arithmetic Logic Units (ALU). Controlled by the four
function select inputs (S

0

to S3) and the mode control input
(M), they can perform all the 16 possible logic operations
or 16 different arithmetic operations on active HIGH or
active LOW operands (see function table).

When the mode control input (M) is HIGH, all internal
carries are inhibited and the device3 performs logic
operations on the individual bits as listed. When M is LOW,
the carries are enabled and the “181” performs arithmetic
operations on the two 4-bit words. The “181” incorporates
full internal carry look-ahead and provides for either ripple
carry between devices using the C

n+4

output, or for carry
look-ahead between packages using the carry
propagation (P) and carry generate (G) signals. P and
G 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 (C

n+4

) signal to the carry input (Cn) of the next unit.

For high-speed operation the device is used in conjunction
with the “182” carry look-ahead circuit. One carry
look-ahead package is required for each group of four
“181” devices. Carry look-ahead can be provided at
various levels and offers high-speed capability over
extremely long word lengths.

The comparator output (A=B) of the device goes HIGH
when all four function outputs (F0to F3) are HIGH and can
be used to indicate logic equivalence over 4 bits when the
unit is in the subtract mode. A=B is an open collector
output and can be wired-AND with other A=B outputs to
give a comparison for more than 4 bits. The open drain
output A=B should be used with an external pull-up
resistor in order to establish a logic HIGH level. The A=B
signal can also be used with the C

n+4

signal to indicate

A > B and A < B.
The function table lists the arithmetic operations that are

performed without a carry in. An incoming carry adds a one
to each operation. Thus, select code LHHL generates
A minus B minus 1 (2s complement notation) without a
carry in and generates A minus B when a carry is applied.

Because subtraction is actually performed by
complementary addition (1s complement), a carry out
means borrow; thus, a carry is generated when there is no
under-flow and no carry is generated when there is
underflow.

As indicated, the “181” can be used with either active LOW
inputs producing active LOW outputs or with active HIGH
inputs producing active HIGH outputs.
For either case the table lists the operations that are
performed to the operands.

ORDERING INFORMATION

TYPE

NUMBER

PACKAGE

NAME DESCRIPTION VERSION

74HC181N3;
74HCT181N3

DIP24 plastic dual in-line package; 24 leads (300 mil) SOT222-1

74HC181N;
74HCT181N

DIP24 plastic dual in-line package; 24 leads (600 mil) SOT101-1

74HC181D;
74HCT181D

SO24 plastic small outline package; 24 leads; body width 7.5 mm SOT137-1

1998 Jun 10 3

Philips Semiconductors Product specification

4-bit arithmetic logic unit 74HC/HCT181

QUICK REFERENCE DATA

GND = 0 V; T

amb

=25°C; tr=tf=6ns

Notes

1. C

PD

is used to determine the dynamic power dissipation (PDin µW):

PD=CPD× V

CC

2

× fi+ ∑ (CL× V

CC

2

× fo) where:
fi= input frequency in MHz
fo= output frequency in MHz
∑ (CL× V

CC

2

× fo) = sum of outputs
CL= output load capacitance in pF
VCC= supply voltage in V

2. For HC the condition is VI= GND to V

CC

For HCT the condition is VI= GND to VCC− 1.5 V

SYMBOL PARAMETER CONDITIONS

TYPICAL

UNIT

HC HCT

t

PHL

/ t

PLH

propagation delay CL= 15 pF; VCC=5V

An or Bn to A=B 28 30 ns

C

n

to Cn+41721ns

C

I

input capacitance 3.5 3.5 pF

C

PD

power dissipation capacitance
per L package

notes 1 and 2 90 92 pF

Fig.1 Pin configuration. Fig.2 Logic symbol. Fig.3 IEC logic symbol.

A B

1998 Jun 10 4

Philips Semiconductors Product specification

4-bit arithmetic logic unit 74HC/HCT181

PIN DESCRIPTION

PIN NO. SYMBOL NAME AND FUNCTION

1, 22, 20, 18

B0to B

3

operand inputs (active LOW)

2, 23, 21, 19

A0to A

3

operand inputs (active LOW)

6, 5, 4, 3 S

0

to S

3

select inputs

7C

n

carry input
8 M mode control input
9, 10, 11, 13

F0to F

3

function outputs (active LOW)
12 GND ground (0 V)
14 A=B comparator output
15

P carry propagate output (active LOW)

16 C

n+4

carry output
17

G carry generate output (active LOW)

24 V

CC

positive supply voltage

Fig.4 Functional diagram.

k, halfpage

MBK219

A

0

A

1

A

2

2
23
21
19

1
22
20
18 15

17

14

16

13

11

10

9

A

3

B

0

B

1

C

n+4

F

3

F

2

F

1

F

0

A=B

G

B

2

P

B

3

7

C

n

6

S

0

5

S

1

4

S

2

3

S

3

8M

Fig.5 Active HIGH operands - active LOW operands.

1998 Jun 10 5

Philips Semiconductors Product specification

4-bit arithmetic logic unit 74HC/HCT181

FUNCTION TABLES

Notes to the function tables

1. Each bit is shifted to the next more significant position.

2. Arithmetic operations expressed in 2s complement
notation.

H = HIGH voltage level
L = LOW voltage level

MODE SELECT

INPUTS

ACTIVE HIGH INPUTS AND

OUTPUTS

S3S2S1S

0

LOGIC

(M=H)

ARITHMETIC

(2)

(M=L; Cn=H)

L
L
L
L

L
L
L
L

L

L
H
H

L
H
L
H

A
A + B
AB
logical 0

A
A+B
A+B
minus 1

L
L
L
L

H
H
H
H

L

L
H
H

L
H
L
H

AB
B
A ⊕ B
AB

A plus AB
(A + B) plus AB
A minus B minus 1
AB minus 1

H
H
H
H

L
L
L
L

L

L
H
H

L
H
L
H

A+B
A⊕B
B
AB

A plus AB
A plus B
(A + B) plus AB
AB minus 1

H
H
H
H

H
H
H
H

L

L
H
H

L
H
L
H

logical 1
A+

B
A+B
A

A plus A

(1)

(A + B) plus A
(A + B) plus A
A minus 1

Notes to the function tables

1. Each bit is shifted to the next more significant position.

2. Arithmetic operations expressed in 2s complement
notation.

H = HIGH voltage level
L = LOW voltage level

MODE SELECT

INPUTS

ACTIVE LOW INPUTS AND

OUTPUTS

S

3

S2S1S

0

LOGIC

(M=H)

ARITHMETIC

(2)

(M=L; Cn=L)

L
L
L
L

L
L
L
L

L

L
H
H

L

H

L

H

A
AB
A+B
logical 1

A minus 1
AB minus 1
AB minus 1
minus 1

L
L
L
L

H
H
H
H

L

L
H
H

L

H

L

H

A + B
B
A ⊕ B
A+B

A plus (A + B)
AB plus (A + B)
A minus B minus 1
A+B

H
H
H
H

L
L
L
L

L

L
H
H

L

H

L

H

AB
A ⊕ B
B
A + B

A plus (A + B)
A plus B
AB plus (A + B)
A+B

H
H
H
H

H
H
H
H

L

L
H
H

L

H

L

H

logical 0
A

B
AB
A

A plus A

(1)

AB plus A
AB plus A
A

1998 Jun 10 6

Philips Semiconductors Product specification

4-bit arithmetic logic unit 74HC/HCT181

Fig.6 Logic diagram.