NSC 5962-8870401FA, 5962-8870401EA, 5962-88704012A, 54ACT258MDA Datasheet

54AC258•54ACT258
Quad 2-Input Multiplexer with TRI-STATE

®

Outputs

General Description

The ’AC/’ACT258 is a quad 2-input multiplexer with
TRI-STATE outputs. Four bits of data from two sources can
be selected usinga common data select input. The four out­puts present the selected data in the complement (inverted)
form. The outputs may be switched to a high impedance
state with a HIGH on the common Output Enable (OE) input,
allowing the outputs to interface directly with bus-oriented
systems.

Features

n ICCand IOZreduced by 50

%

n Multiplexer expansion by tying outputs together
n Inverting TRI-STATE outputs
n Outputs source/sink 24 mA
n ’ACT258 has TTL-compatible inputs
n Standard Military Drawing (SMD)

—’ACT258: 5962-88704
—’AC258: 5962-91604

Logic Symbols

Pin Names Description

S Common Data Select Input
OE

TRI-STATE Output Enable Input

I

0a–I0d

Data Inputs from Source 0

I

1a–I1d

Data Inputs from Source 1

Z

a–Zd

TRI-STATE Inverting Data Outputs

TRI-STATE®is a registered trademark of National Semiconductor Corporation.
FACT

®

is a registered trademark of Fairchild Semiconductor Corporation.

DS100287-1

IEEE/IEC

DS100287-2

August 1998

54AC258

•

54ACT258 Quad 2-Input Multiplexer with TRI-STATE Outputs

© 1998 National Semiconductor Corporation DS100287 www.national.com

Connection Diagrams Functional Description

The ’AC/’ACT258 is a quad 2-input multiplexer with
TRI-STATE outputs. It selects four bits of data from two
sources under control of a common Select input (S). When
the Select inputis LOW, the I

0x

inputs are selectedand when

Select is HIGH, the I

1x

inputs are selected. The data on the
selected inputs appears at the outputs in inverted form. The
’AC/’ACT258 is the logic implementation of a 4-pole,
2-position switch where the position of the switch is deter­mined by the logic levels supplied to the Select input. The
logic equations for the outputs are shown below:

Z

a

=

OE

•

(I

1a

•

S+I

0a

•

S)

Z

b

=

OE

•

(I

1b

•

S+I

0b

•

S)

Z

c

=

OE

•

(I

1c

•

S+I

0c

•

S)

Z

d

=

OE

•

(I

1d

•

S+I

0d

•

S)

When the Output Enable input (OE) is HIGH, the outputs are
forced to a high impedance state. If the outputs of the
TRI-STATE devices are tied together, all but one device must
be in the high impedance state to avoid high currents that
would exceed the maximum ratings. Designers should en­sure that Output Enable signals to TRI-STATE devices
whose outputs are tied together are designed so there is no
overlap.

Truth Table

Output Select Data Outputs
Enable Input Inputs

OE

SI

0

I

1

Z

HXXXZ

LHXLH
LHXHL
LLLXH
LLHXL

H

=

HIGH Voltage Level
L=LOW Voltage Level
X=Immaterial
Z=High Impedance

Pin Assignment

for DIP and Flatpak

DS100287-3

Pin Assignment

for LCC

DS100287-4

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Logic Diagram

DS100287-5

Please note that this diagram is provided only for the understanding of logic operations and should not be used to estimate propagation delays.

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