National Semiconductor MM54HC365, MM54HC366, MM54HC367, MM54HC368, MM74HC365 Service Manual

January 1988

MM54HC365/MM74HC365 Hex TRI-STATEÉBuffer
MM54HC366/MM74HC366 Inverting Hex TRI-STATE Buffer
MM54HC367/MM74HC367 Hex TRI-STATE Buffer
MM54HC368/MM74HC368 Inverting Hex TRI-STATE Buffer

General Description

These TRI-STATE buffers are general purpose high speed
inverting and non-inverting buffers that utilize advanced sili­con-gate CMOS technology. They have high drive current
outputs which enable high speed operation even when driv­ing large bus capacitances. These circuits possess the low
power dissipation of CMOS circuitry, yet have speeds com­parable to low power Schottky TTL circuits. All 4 circuits are
capable of driving up to 15 low power Schottky inputs.

The MM54/74HC366 and the MM54/74HC368 are inverting
buffers, where as the MM54/74HC365 and the MM54/
74HC367 are non-inverting buffers. The MM54/74HC365
and the MM54/74HC366 have two TRI-STATE control in­puts (G1

and G2) which are NORed together to control all

Connection Diagrams Dual-In-Line Packages/Top Views

six gates. The MM54/74HC367 and the MM54/74HC368
also have two output enables, but one enable (G1
4 gates and the other (G2

All inputs are protected from damage due to static dis­charge by diodes to V

) controls the remaining 2 gates.

and ground.

CC

) controls

Features

Y

Typical propagation delay: 15 ns

Y

Wide operating voltage range: 2V –6V

Y

Low input current: 1 mA maximum

Y

Low quiescent current: 80 mA maximum (74 Series)

Y

Output drive capability: 15 LS-TTL loads

MM54HC365/MM54HC366/MM54HC367/MM54HC368/

MM74HC365/MM74HC366/MM74HC367/MM74HC368

Order Number MM54HC365 or MM74HC365

Order Number MM54HC367 or MM74HC367

TRI-STATEÉis a registered trademark of National Semiconductor Corporation.

C

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

TL/F/5209

TL/F/5209– 1

Order Number MM54HC366 or MM74HC366

TL/F/5209– 3

Order Number MM54HC368 or MM74HC368

TL/F/5209– 2

TL/F/5209– 4

Absolute Maximum Ratings (Notes1&2)

Operating Conditions

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

Supply Voltage (V

CC

)

DC Input Voltage (VIN)

DC Output Voltage (V

OUT

)

Clamp Diode Current (IIK,IOK)

DC Output Current, per pin (I

OUT

)

DC VCCor GND Current, per pin (ICC)

Storage Temperature Range (T

STG

b

b

)

b

0.5 toa7.0V

1.5 to V

CC

0.5 to V

CC

g

g

b

g

65§Ctoa150§C

a

1.5V

a

0.5V

20 mA

35 mA

70 mA

Supply Voltage (V

)26V

CC

DC Input or Output Voltage 0 V

(V

IN,VOUT

)

Operating Temp. Range (TA)

MM74HC
MM54HC

Input Rise or Fall Times

e

V

2.0V(tr,tf) 1000 ns

CC

e

V

4.5V 500 ns

CC

e

V

6.0V 400 ns

CC

Power Dissipation (PD)

(Note 3) 600 mW
S.O. Package only 500 mW

Lead Temp. (T

) (Soldering 10 seconds) 260§C

L

DC Electrical Characteristics (Note 4)

e

T

25§C

Symbol Parameter Conditions V

CC

A

Typ Guaranteed Limits

V

Minimum High Level Input 2.0V 1.5 1.5 1.5 V

IH

Voltage 4.5V 3.15 3.15 3.15 V

6.0V 4.2 4.2 4.2 V

V

Maximum Low Level Input 2.0V 0.5 0.5 0.5 V

IL

Voltage** 4.5V 1.35 1.35 1.35 V

6.0V 1.8 1.8 1.8 V

V

Minimum High Level Output V

OH

Voltage

e

VIHor V

l

IN

I

OUT

IL

s

20 mA 2.0V 2.0 1.9 1.9 1.9 V

l

4.5V 4.5 4.4 4.4 4.4 V

6.0V 6.0 5.9 5.9 5.9 V

e

V

VIHor V

IN

I

l

OUT

I

l

OUT

l

IN

I

OUT

e

V

Maximum Low Level Output V

OL

Voltage

IL

s

6.0 mA 4.5V 4.2 3.98 3.84 3.7 V

l

s

7.8 mA 6.0V 5.7 5.48 5.34 5.2 V

l

VIHor V

IL

s

20 mA 2.0V 0 0.1 0.1 0.1 V

l

4.5V 0 0.1 0.1 0.1 V

6.0V 0 0.1 0.1 0.1 V

e

V

VIHor V

IN

I

l

OUT

I

l

OUT

I

IN

I

OZ

I

CC

Maximum Input Current V
Maximum TRI-STATE Output V

Leakage Current G
Maximum Quiescent Supply V

Current I

Note 1: Maximum Ratings are those values beyond which damage to the device may occur.

Note 2: Unless otherwise specified all voltages are referenced to ground.

Note 3: Power Dissipation temperature derating Ð plastic ‘‘N’’ package:

Note 4: For a power supply of 5V

with this supply. Worst case V

) occur for CMOS at the higher voltage and so the 6.0V values should be used.

I

OZ

**V

limits are currently tested at 20% of VCC. The above VILspecification (30% of VCC) will be implemented no later than Q1, CY’89.

IL

g

10% the worst case output voltages (VOH, and VOL) occur for HC at 4.5V. Thus the 4.5V values should be used when designing

and VILoccur at V

IH

IN

OUT

e

IN

OUT

CC

e

e

e

IL

s

6.0 mA 4.5V 0.2 0.26 0.33 0.4 V

l

s

7.8 mA 6.0V 0.2 0.26 0.33 0.4 V

l

VCCor GND 6.0V

e

VCCor GND 6.0V

V

IH

g

0.1

g

0.5

VCCor GND 6.0V 8.0 80 160 mA

e

0 mA

b

12 mW/§C from 65§Cto85§C; ceramic ‘‘J’’ package:b12 mW/§C from 100§Cto125§C.

5.5V and 4.5V respectively. (The VIHvalue at 5.5V is 3.85V.) The worst case leakage current (IIN,ICC, and

74HC 54HC

eb

T

40 to 85§CT

A

g

1.0

g

5.0

Min Max Units

CC

b
b

40
55

eb

A

a

85

a

125

55 to 125§C

g

1.0 mA

g

10 mA

V

§

§

Units

C
C

2

AC Electrical Characteristics MM54HC365/MM74HC365

e

e

e

5V, T

V

CC

A

25§C, t

Symbol Parameter Conditions Typ

t

PHL,tPLH

t

PZH,tPZL

t

PHZ,tPLZ

Maximum Propagation C
Delay

Maximum Output Enable R
Time C

Maximum Output Disable R
Time C

e

t

6ns

r

f

Guaranteed

e

45 pF 15 22 ns

L

e

1kX 29 40 ns

L

e

45 pF

L

e

1kX 25 36 ns

L

e

5pF

L

AC Electrical Characteristics MM54HC365/MM74HC365

e

V

2.0–6.0V, C

CC

Symbol Parameter Conditions V

t

PHL,tPLH

t

PZH,tPZL

t

PHZ,tPLZ

t

THL,tTLH

C

PD

C

IN

C

OUT

Note 5: CPDdetermines the no load dynamic power consumption, P

e

L

50 pF, t

e

e

t

6 ns (unless otherwise specified)

r

f

CC

e

T

25§C

A

Typ Guaranteed Limits

Maximum Propagation C
Delay C

Maximum Output Enable R
Time C

Maximum Output Disable R
Time C

Maximum Output Rise C
and Fall Time 4.5V 7 12 15 18 ns

Power Dissipation Any Enabled 45 pF
Capacitance (Note 5) A Input

Maximum Input 5 10 10 10 pF
Capacitance

Maximum Output 10 20 20 20 pF
Capacitance

e

50 pF 2.0V 35 105 130 150 ns

L

e

150 pF 2.0V 45 135 168 205 ns

L

e

50 pF 4.5V 14 24 30 36 ns

C

L

e

150 pF 4.5V 17 29 36 45 ns

C

L

e

50 pF 6.0V 11 19 24 28 ns

C

L

e

C

150 pF 6.0V 15 24 30 36 ns

L

e

1kX

L

e

50 pF 2.0V 90 230 287 345 ns

L

e

C

150 pF 2.0V 98 245 306 367 ns

L

e

50 pF 4.5V 31 44 55 66 ns

C

L

e

150 pF 4.5V 38 53 66 80 ns

C

L

e

50 pF 6.0V 25 35 43 52 ns

C

L

e

150 pF 6.0V 29 41 51 62 ns

C

L

e

1kX 2.0V 58 175 218 260 ns

L

e

50 pF 4.5V 26 44 55 66 ns

L

e

50 pF 2.0V 25 60 75 90 ns

L

6.0V 22 37 46 55 ns

6.0V 6 10 13 15 ns

Any Disabled 8 pF
A Input

2

e

CPDV

D

faICCVCC, and the no load dynamic current consumption, I

CC

Limit

Units

74HC 54HC

eb

T

40 to 85§CT

A

eb

A

55 to 125§C

e

CPDVCCfaICC.

S

Units

Truth Table

’HC365

Inputs Output

G1 G2 AY

HXX Z
XHX Z

LLH H
LLL L

3

AC Electrical Characteristics (Continued) MM54HC366/MM74HC366

e

CC

A

e

5V, T

V

Symbol Parameter Conditions Typ

t

PHL,tPLH

t

PZL,tPZH

t

PHZ,tPLZ

e

25§C, t

Maximum Propagation C
Delay

Maximum Output Enable R
Time C

Maximum Output Disable R
Time C

e

t

6ns

r

f

Guaranteed

Limit

e

45 pF 12 18 ns

L

e

1kX 29 40 ns

L

e

45 pF

L

e

1kX 25 36 ns

L

e

5pF

L

AC Electrical Characteristics MM54HC366/MM74HC366

e

V

2.0–6.0V, C

CC

Symbol Parameter Conditions V

t

PHL,tPLH

t

PZH,tPZL

t

PHZ,tPLZ

t

THL,tTLH

C

PD

C

IN

C

OUT

Note 5: CPDdetermines the no load dynamic power consumption, P

e

L

50 pF, t

e

e

t

6 ns (unless otherwise specified)

r

f

CC

e

T

25§C

A

eb

T

A

Typ Guaranteed Limits

Maximum Propagation C
Delay C

Maximum Output Enable R
Time C

Maximum Output Disable R
Time C

Maximum Output Rise C
and Fall Time 4.5V 7 12 15 18 ns

Power Dissipation Any Enabled 45 pF
Capacitance (Note 5) A Input

Maximum Input 5 10 10 10 pF
Capacitance

Maximum Output 10 20 20 20 pF
Capacitance

e

50 pF 2.0V 33 82 102 125 ns

L

e

150 pF 2.0V 43 107 134 160 ns

L

e

50 pF 4.5V 12 19 24 30 ns

C

L

e

150 pF 4.5V 16 26 32 39 ns

C

L

e

50 pF 6.0V 10 16 20 24 ns

C

L

e

C

150 pF 6.0V 14 22 27 33 ns

L

e

1kX ns

L

e

50 pF 2.0V 90 230 287 345 ns

L

e

C

150 pF 2.0V 98 245 306 367 ns

L

e

50 pF 4.5V 31 44 55 66 ns

C

L

e

150 pF 4.5V 38 53 66 80 ns

C

L

e

50 pF 6.0V 25 35 43 52 ns

C

L

e

150 pF 6.0V 29 41 51 62 ns

C

L

e

1kX 2.0V 58 175 218 260 ns

L

e

50 pF 4.5V 26 44 55 66 ns

L

e

50 pF 2.0V 25 60 75 90 ns

L

6.0V 22 37 46 55 ns

6.0V 6 10 13 15 ns

Any Disabled 6 pF
A Input

2

e

CPDV

D

faICCVCC, and the no load dynamic current consumption, I

CC

Units

74HC 54HC

40 to 85§CT

eb

A

55 to 125§C

e

CPDVCCfaICC.

S

Units

Truth Table

’HC366

Inputs Output

G1 G2 AY

HXX Z
XHX Z
LLH L
LLL H

4

AC Electrical Characteristics (Continued) MM54HC367/MM74HC367

e

e

e

5V, T

V

CC

A

25§C, t

Symbol Parameter Conditions Typ

t

PHL,tPLH

t

PZL,tPZH

t

PHZ,tPLZ

Maximum Propagation C
Delay

Maximum Output Enable R
Time C

Maximum Output Disable R
Time C

e

t

6ns

r

f

Guaranteed

Limit

e

45 pF 13 22 ns

L

e

1kX 23 37 ns

L

e

45 pF

L

e

1kX 25 33 ns

L

e

5pF

L

AC Electrical Characteristics MM54HC367/MM74HC367

e

V

2.0–6.0V, C

CC

Symbol Parameter Conditions V

t

PHL,tPLH

t

PZH,tPZL

t

PHZ,tPLZ

t

THL,tTLH

C

PD

C

IN

C

OUT

Note 5: CPDdetermines the no load dynamic power consumption, P

e

L

50 pF, t

e

e

t

6 ns (unless otherwise specified)

r

f

CC

e

T

25§C

A

eb

T

A

Typ Guaranteed Limits

Maximum Propagation C
Delay C

Maximum Output Enable R
Time C

Maximum Output Disable R
Time C

Maximum Output Rise C
and Fall Time 4.5V 7 12 15 18 ns

Power Dissipation Any Enabled 45 pF
Capacitance (Note 5) A Input

Maximum Input 5 10 10 10 pF
Capacitance

Maximum Output 10 20 20 20 pF
Capacitance

e

50 pF 2.0V 35 105 130 150 ns

L

e

150 pF 2.0V 45 135 168 205 ns

L

e

50 pF 4.5V 14 24 30 36 ns

C

L

e

150 pF 4.5V 17 29 36 45 ns

C

L

e

50 pF 6.0V 11 19 24 28 ns

C

L

e

C

150 pF 6.0V 15 24 30 36 ns

L

e

1kX ns

L

e

50 pF 2.0V 69 172 216 250 ns

L

e

C

150 pF 2.0V 75 187 233 280 ns

L

e

50 pF 4.5V 24 38 47 57 ns

C

L

e

150 pF 4.5V 29 46 57 69 ns

C

L

e

50 pF 6.0V 22 35 43 52 ns

C

L

e

150 pF 6.0V 26 42 52 63 ns

C

L

e

1kX 2.0V 47 117 146 220 ns

L

e

50 pF 4.5V 22 35 44 52 ns

L

e

50 pF 2.0V 25 60 75 90 ns

L

6.0V 19 31 39 46 ns

6.0V 6 10 13 15 ns

Any Disabled 8 pF
A Input

2

e

CPDV

D

faICCVCC, and the no load dynamic current consumption, I

CC

Units

74HC 54HC

40 to 85§CT

eb

A

55 to 125§C

e

CPDVCCfaICC.

S

Units

Truth Table

’HC367

Inputs Output

G AY

HX Z

LH H
LL L

5

AC Electrical Characteristics (Continued) MM54HC368/MM74HC368

e

CC

A

e

5V, T

V

Symbol Parameter Conditions Typ

t

PHL,tPLH

t

PZL,tPZH

t

PHZ,tPLZ

e

25§C, t

Maximum Propagation C
Delay

Maximum Output Enable R
Time C

Maximum Output Disable R
Time C

e

t

6ns

r

f

Guaranteed

Limit

e

45 pF 11 18 ns

L

e

1kX 23 37 ns

L

e

45 pF

L

e

1kX 19 33 ns

L

e

5pF

L

AC Electrical Characteristics MM54HC368/MM74HC368

e

V

2.0–6.0V, C

CC

Symbol Parameter Conditions V

t

PHL,tPLH

t

PZH,tPZL

t

PHZ,tPLZ

t

THL,tTLH

C

PD

C

IN

C

OUT

Note 5: CPDdetermines the no load dynamic power consumption, P

e

L

50 pF, t

e

e

t

6 ns (unless otherwise specified)

r

f

CC

e

T

25§C

A

eb

T

A

Typ Guaranteed Limits

Maximum Propagation C
Delay C

Maximum Output Enable R
Time C

Maximum Output Disable R
Time C

Maximum Output Rise C
and Fall Time 4.5V 7 12 15 18 ns

Power Dissipation Any Enabled 45 pF
Capacitance (Note 5) A Input

Maximum Input 5 10 10 10 pF
Capacitance

Maximum Input 10 20 20 20 pF
Capacitance

e

50 pF 2.0V 33 82 102 125 ns

L

e

150 pF 2.0V 43 107 134 160 ns

L

e

50 pF 4.5V 12 19 24 30 ns

C

L

e

150 pF 4.5V 16 26 32 39 ns

C

L

e

50 pF 6.0V 10 16 20 24 ns

C

L

e

C

150 pF 6.0V 14 22 27 33 ns

L

e

1kX ns

L

e

50 pF 2.0V 69 172 216 250 ns

L

e

C

150 pF 2.0V 75 187 233 280 ns

L

e

50 pF 4.5V 24 38 47 57 ns

C

L

e

150 pF 4.5V 29 46 57 69 ns

C

L

e

50 pF 6.0V 22 35 43 52 ns

C

L

e

150 pF 6.0V 26 42 52 63 ns

C

L

e

1kX 2.0V 47 117 146 220 ns

L

e

50 pF 4.5V 22 35 44 52 ns

L

e

50 pF 2.0V 25 60 75 90 ns

L

6.0V 19 31 39 46 ns

6.0V 6 10 13 15 ns

Any Disabled 6 pF
A Input

2

e

CPDV

D

faICCVCC, and the no load dynamic current consumption, I

CC

Units

74HC 54HC

40 to 85§CT

eb

A

55 to 125§C

e

CPDVCCfaICC.

S

Units

Truth Table

’HC368

Inputs Output

G AY

HX Z
LH L
LL H

6

Logic Diagrams

MM54HC365/MM74HC365

MM54HC366/MM74HC366

MM54HC367/MM74HC367

TL/F/5209– 5

TL/F/5209– 7

TL/F/5209– 6

MM54HC368/MM74HC368

TL/F/5209– 8

7

Physical Dimensions inches (millimeters)

Order Number MM54HC365J, MM54HC366J, MM54HC367J, MM54HC368J,

MM74HC365J, MM74HC366J, MM74HC367J, or MM74HC368J,

NS Package J16A

MM74HC365/MM74HC366/MM74HC367/MM74HC368

MM54HC365/MM54HC366/MM54HC367/MM54HC368/

Order Number MM74HC365N, MM74HC366N, MM74HC367N, or MM74HC368N

NS Package N16E

LIFE SUPPORT POLICY

NATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF NATIONAL
SEMICONDUCTOR CORPORATION. As used herein:

1. Life support devices or systems are devices or 2. A critical component is any component of a life
systems which, (a) are intended for surgical implant support device or system whose failure to perform can
into the body, or (b) support or sustain life, and whose be reasonably expected to cause the failure of the life
failure to perform, when properly used in accordance support device or system, or to affect its safety or
with instructions for use provided in the labeling, can effectiveness.
be reasonably expected to result in a significant injury
to the user.

National Semiconductor National Semiconductor National Semiconductor National Semiconductor
Corporation Europe Hong Kong Ltd. Japan Ltd.

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Tel: 1(800) 272-9959 Deutsch Tel: (
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National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.

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