NSC MM54C08J-883 Datasheet

TL/F/5878

MM54C08/MM74C08 Quad 2-Input AND Gate

February 1988

MM54C08/MM74C08 Quad 2-Input AND Gate

General Description

Employing complementary MOS (CMOS) transistors 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 N- and P-channel enhancement mode
transistors 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 V

CC

and GND.

Features

Y

Wide supply voltage range 3.0V to 15V

Y

Guaranteed noise margin 1.0V

Y

High noise immunity 0.45 VCC(typ.)

Y

Low power Fan out of 2
TTL compatibility driving 74L

Y

Low power consumption 10 nW/package (typ.)

Connection Diagram and Truth Table

Dual-In-Line Package

TL/F/5878– 1

Top View

Order Number MM54C08 or MM74C08

Inputs Outputs

AB Y

LL L
LH L
HL L
HH H

H

e

High Level LeLow Level

C

1995 National Semiconductor Corporation RRD-B30M105/Printed in U. S. A.

Absolute Maximum Ratings (Note 1)

If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.

Voltage at Any Pin

b

0.3V to V

CC

a

0.3V

Operating Temperature Range

MM54C08

b

55§Ctoa125§C

MM74C08

b

40§Ctoa85§C

Storage Temperature Range

b

65§Ctoa150§C

Power Dissipation (PD)

Dual-In-Line 700 mW
Small Outline 500 mW

Operating V

CC

Range 3.0V to 15V

Absolute Maximum V

CC

18V

Lead Temperature

(Soldering, 10 seconds) 260

§

C

DC Electrical Characteristics

Min/Max limits apply across the guaranteed temperature range, unless otherwise noted

Symbol Parameter Conditions Min Typ Max Units

CMOS TO CMOS

V

IN(1)

Logical ‘‘1’’ Input Voltage V

CC

e

5.0V 3.5 V

V

CC

e

10V 8.0 V

V

IN(0)

Logical ‘‘0’’ Input Voltage V

CC

e

5.0V 1.5 V

V

CC

e

10V 2.0 V

V

OUT(1)

Logical ‘‘1’’ Output Voltage V

CC

e

5.0V, I

O

eb

10 mA 4.5 V

V

CC

e

10V, I

O

eb

10 mA 9.0 V

V

OUT(0)

Logical ‘‘0’’ Output Voltage V

CC

e

5.0V, I

O

e

10 mA 0.5 V

V

CC

e

10V, I

O

e

10 mA 1.0 V

I

IN(1)

Logical ‘‘1’’ Input Current V

CC

e

15V, V

IN

e

15V 0.005 1.0 mA

I

IN(0)

Logical ‘‘0’’ Input Current V

CC

e

15V, V

IN

e

0V

b

1.0

b

0.005 mA

I

CC

Supply Current V

CC

e

15V 0.01 15 mA

CMOS/LPTTL INTERFACE

V

IN(1)

Logical ‘‘1’’ Input Voltage 54C, V

CC

e

4.5V V

CC

b

1.5 V

74C, V

CC

e

4.75V V

CC

b

1.5 V

V

IN(0)

Logical ‘‘0’’ Input Voltage 54C, V

CC

e

4.5V 0.8 V

74C, V

CC

e

4.75V 0.8 V

V

OUT(1)

Logical ‘‘1’’ Output Voltage 54C, V

CC

e

4.5V, I

O

eb

360 mA 2.4 V

74C, V

CC

e

4.75V, I

O

eb

360 mA 2.4 V

V

OUT(0)

Logical ‘‘0’’ Output Voltage 54C, V

CC

e

4.5V, I

O

e

360 mA 0.4 V

74C, V

CC

e

4.75V, I

O

e

360 mA 0.4 V

OUTPUT DRIVE (see 54C/74C Family Characteristics Data Sheet) T

A

e

25§C (short circuit current)

I

SOURCE

Output Source Current V

CC

e

5.0V, V

OUT

e

0V

b

1.75

b

3.3 mA

(P-Channel)

I

SOURCE

Output Source Current V

CC

e

10V, V

OUT

e

0V

b

8.0 15 mA

(P-Channel)

I

SINK

Output Sink Current V

CC

e

5.0V, V

OUT

e

V

CC

1.75 3.6 mA

(N-Channel)

I

SINK

Output Sink Current V

CC

e

10V, V

OUT

e

V

CC

8.0 16 mA

(N-Channel)

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.

2