NSC MM54HC643

MM54HC640/MM74HC640
Inverting Octal TRI-STATEÉ Transceiver
MM54HC643/MM74HC643
True-Inverting Octal TRI-STATE Transceiver
General Description
These TRI-STATE bi-directional buffers utilize advanced silicon-gate CMOS technology, and are intended for two-way
asynchronous communication between data buses. They
have high drive current outputs which enable high speed
operation even when driving large bus capacitances. These
circuits possess the low power consumption and high noise
immunity usually associated with CMOS circuitry, yet have
speeds comparable to low power Schottky TTL circuits.
Each device has an active low enable G and a direction
control input, DIR. When DIR is high, data flows from the A
inputs to the B outputs. When DIR is low, data flows from
the B inputs to the A outputs. The MM54HC640/
MM74HC640 transfers inverted data from one bus to other
and the MM54HC643/MM74HC643 transfers inverted data
from the A bus to the B bus and true data from the B bus to
the A bus.
These devices can drive up to 15 LS-TTL Loads, and all
inputs are protected from damage due to static discharge by
diodes to VCC and ground.
Features
Y
Y
Y
Y
Y
Typical propagation delay: 13 ns
Wide power supply range: 2 – 6V
Low quiescent current: 80 mA maximum (74 HC)
TRI-STATE outputs for connection to bus oriented
systems
High output drive: 6 mA (min)
Connection Diagrams
Dual-In-Line Package
Dual-In-Line Package
TL/F/5344 – 2
TL/F/5344 – 1
Top View
Top View
Order Number MM54HC640 or MM74HC640
Order Number MM54HC643 or MM74HC643
Truth Table
Control
Inputs
Operation
G
DIR
640
643
L
L
B data to A bus
B data to A bus
L
H
A data to B bus
A data to B bus
H
X
Isolation
Isolation
H e high level, L e low level, X e irrelevant
TRI-STATEÉ is a registered trademark of National Semiconductor Corp.
C1995 National Semiconductor Corporation
TL/F/5344
RRD-B30M105/Printed in U. S. A.
MM54HC640/MM74HC640 Inverting Octal TRI-STATE Transceiver MM54HC643/MM74HC643
True-Inverting Octal TRI-STATE Transceiver
January 1988
Absolute Maximum Ratings (Notes 1 & 2)
Operating Conditions
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Supply Voltage (VCC)
Supply Voltage (VCC)
DC Input Voltage DIR and G pins (VIN)
DC Output Voltage (VIN, VOUT)
Clamp Diode Current (ICD)
DC Output Current, per pin (IOUT)
DC VCC or GND Current, per pin (ICC)
Storage Temperature Range (TSTG)
Power Dissipation (PD)
(Note 3)
S.O. Package only
Lead Temperature (TL)
(Soldering 10 seconds)
DC Input or Output Voltage
(VIN, VOUT)
b 0.5 to a 7.0V
b 1.5 to VCC a 1.5V
Operating Temp. Range (TA)
MM74HC
MM54HC
b 0.5 to VCC a 0.5V
g 20 mA
Min
2
Max
6
Units
V
0
VCC
V
b 40
b 55
a 85
a 125
§C
§C
1000
500
400
ns
ns
ns
Input Rise/Fall Times
VCC e 2.0V
(tr, tf)
VCC e 4.5V
VCC e 6.0V
g 35 mA
g 70 mA
b 65§ C to a 150§ C
600 mW
500 mW
260§ C
DC Electrical Characteristics (Note 4)
Symbol
Parameter
Conditions
VCC
TA e 25§ C
Typ
74HC
54HC
TA eb40 to 85§ C TA eb55 to 125§ C Units
Guaranteed Limits
VIH
Minimum High Level Input
Voltage
2.0V
4.5V
6.0V
1.5
3.15
4.2
1.5
3.15
4.2
1.5
3.15
4.2
V
V
V
VIL
Maximum Low Level Input
Voltage**
2.0V
4.5V
6.0V
0.5
1.35
1.8
0.5
1.35
1.8
0.5
1.35
1.8
V
V
V
VOH
Minimum High Level Output
Voltage
VIN e VIH or VIL
lIOUTl s20 mA
2.0V
4.5V
6.0V
2.0
4.5
6.0
1.9
4.4
5.9
1.9
4.4
5.9
1.9
4.4
5.9
V
V
V
4.5V
6.0V
4.2
5.7
3.98
5.48
3.84
5.34
3.7
5.2
V
V
2.0V
4.5V
6.0V
0
0
0
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
V
V
V
VIN e VIH or VIL
lIOUTl s6.0 mA
lIOUTl s7.8 mA
4.5V
6.0V
0.2
0.2
0.26
0.26
0.33
0.33
0.4
0.4
V
V
VIN e VCC or GND
VIN e VIH or VIL
lIOUTl s6.0 mA
lIOUTl s7.8 mA
VOL
Maximum Low Level Output
Voltage
VIN e VIH or VIL
lIOUTl s20 mA
IIN
Input Leakage
Current (G and DIR)
6.0V
g 0.1
g 1.0
g 1.0
mA
IOZ
Maximum TRI-STATE Output VOUT e VCC or GND 6.0V
Leakage Current
Enable G e VIH
g 0.5
g 5.0
g 10
mA
ICC
Maximum Quiescent Supply
Current
8.0
80
160
mA
VIN e VCC or GND
IOUT e 0 mA
6.0V
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: b 12 mW/§ C from 65§ C to 85§ C; ceramic ‘‘J’’ package: b 12 mW/§ C from 100§ C to 125§ C.
Note 4: For a power supply of 5V 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
with this supply. Worst case VIH and VIL occur at VCC e 5.5V and 4.5V respectively. (The VIH value at 5.5V is 3.85V.) The worst case leakage current (IIN, ICC, and
IOZ) occur for CMOS at the higher voltage and so the 6.0V values should be used.
**VIL limits are currently tested at 20% of VCC. The above VIL specification (30% of VCC) will be implemented no later than Q1, CY’89.
2
AC Electrical Characteristics VCC e 5V, TA e 25§ C, tr e tf e 6 ns
Symbol
Parameter
Conditions
Guaranteed
Limit
Typ
Units
tPHL, tPLH
Maximum Propagation Delay
CL e 45 pF
13
17
ns
tPZH, tPZL
Maximum Output Enable Time
RL e 1 kX
CL e 45 pF
33
42
ns
tPHZ, tPLZ
Maximum Output Disable Time
RL e 1 kX
CL e 5 pF
32
42
ns
AC Electrical Characteristics VCC e 2.0V to 6.0V, CL e 50 pF, tr e tf e 6 ns (unless otherwise specified)
Symbol
Parameter
Conditions
TA e 25§ C
VCC
Typ
tPHL,
tPLH
tPZH,
Maximum Propagation Delay
Maximum Output Enable
tPZL
74HC
TA eb40 to 85§ C
54HC
TA eb55 to 125§ C
Units
Guaranteed Limits
CL e 50 pF
CL e 150 pF
2.0V
2.0V
29
38
72
96
88
116
96
128
ns
ns
CL e 50 pF
CL e 150 pF
4.5V
4.5V
14
18
18
24
22
29
24
32
ns
ns
CL e 50 pF
CL e 150 pF
6.0V
6.0V
14
18
18
24
22
29
24
32
ns
ns
CL e 50 pF
CL e 150 pF
2.0V
2.0V
70
80
184
216
224
260
240
284
ns
ns
CL e 50 pF
CL e 150 pF
4.5V
4.5V
35
41
46
54
56
65
60
71
ns
ns
CL e 50 pF
CL e 150 pF
6.0V
6.0V
31
36
41
47
50
57
54
62
ns
ns
RL e 1 kX
tPHZ,
tPLZ
Maximum Output Disable
Time
RL e 1 kX
CL e 50 pF
2.0V
4.5V
6.0V
47
33
31
172
43
41
208
52
50
224
56
54
ns
ns
ns
tTHL, tTLH
Output Rise and Fall Time
CL e 50 pF
2.0V
4.5V
6.0V
20
6
5
60
12
10
75
15
13
90
18
15
ns
ns
ns
CPD
Power Dissipation
Capacitance (Note 5)
G e VIL
G e VIH
CIN
Maximum Input Capacitance
5
10
10
10
pF
CIN/OUT
Maximum Input/Output
Capacitance, A or B
15
20
20
20
pF
120
12
pF
pF
Note 5: CPD determines the no load dynamic power consumption, PD e CPD VCC2 f a ICC VCC, and the no load dynamic current consumption, IS e CPD VCC f a ICC.
3
Logic Diagrams
’HC640
’HC643
TL/F/5344 – 5
TL/F/5344 – 6
4
5
MM54HC640/MM74HC640 Inverting Octal TRI-STATE Transceiver MM54HC643/MM74HC643
True-Inverting Octal TRI-STATE Transceiver
Physical Dimensions inches (millimeters)
Order Number MM54HC640J, MM54HC643J, MM74HC640J or MM74HC643J
See NS Package J20A
LIFE SUPPORT POLICY
Order Number MM74HC640N or MM74HC643N
See NS Package N20A
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:
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systems which, (a) are intended for surgical implant
into the body, or (b) support or sustain life, and whose
failure to perform, when properly used in accordance
with instructions for use provided in the labeling, can
be reasonably expected to result in a significant injury
to the user.
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2. A critical component is any component of a life
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