NSC DP8308 8-bit tri-state bidirectional transceiver (non-inverting) Datasheet

DP8308 8-Bit TRI-STATEÉ
Bidirectional Transceiver (Non-Inverting)
General Description
Features
The DP8308 is a high speed Schottky 8-bit TRI-STATE bidirectional transceiver designed to provide bidirectional drive
for bus oriented microprocessor and digital communications
systems. It is capable of sinking 16 mA on the A ports and
48 mA on the B ports (bus ports). PNP inputs for low input
current and an increased output high (VOH) level allow compatibility with MOS, CMOS, and other technologies that
have a higher threshold and less drive capabilities. In addition, it features glitch-free power up/down on the B port
preventing erroneous glitches on the system bus in power
up or down.
DP8308 is featured with Transmit (T) and Receive (R)
control inputs.
Y
Y
Y
Y
Y
Y
Y
Y
Y
8-bit bidirectional data flow reduces system package
count
Bidirectional TRI-STATE inputs/outputs interface with
bus oriented systems
PNP inputs reduce input loading
Output high voltage interfaces with TTL, MOS, and
CMOS
48 mA/300 pF bus drive capability
Pinouts simplify system interconnections
Independent T and R controls for versatility
Compact 20-pin dual-in-line package
Bus port glitch free power up/down
Logic and Connection Diagrams
Dual-In-Line Package
TL/F/8795 – 1
Logic Table
Control Inputs
Resulting Conditions
Transmit
Receive
A Port
B Port
1
0
OUT
IN
0
1
IN
OUT
1
1
TRI-STATE
TRI-STATE
0
0
TL/F/8795 – 2
Top View
Order Number DP8308N
See NS Package Number N20A
Both Active*
*This is not an intended logic condition and may cause oscillations.
TRI-STATEÉ is a registered trademark of National Semiconductor Corp.
C1996 National Semiconductor Corporation
TL/F/8795
RRD-B30M36/Printed in U. S. A.
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DP8308 8-Bit TRI-STATE Bidirectional Transceiver (Non-Inverting)
February 1996
Absolute Maximum Ratings (Note 1)
Recommended Operating
Conditions
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Supply Voltage
Input Voltage
Output Voltage
Storage Temperature
Supply Voltage (VCC)
DP7308
DP8308
Temperature (TA)
DP7308
DP8308
7V
5.5V
5.5V
b 65§ C to a 150§ C
Maximum Power Dissipation* at 25§ C
Cavity Package
Molded Package
Lead Temperature (soldering, 4 sec.)
Min
Max
Units
4.5
4.75
5.5
5.25
V
V
b 55
a 125
a 70
§C
§C
0
1667 mW
1832 mW
260§ C
*Derate cavity package 11.1 mW/§ C above 25§ C; derate molded package
14.7 mW/§ C above 25§ C.
DC Electrical Characteristics (Notes 2 and 3)
Symbol
Parameter
Conditions
Min
Typ
Max
Units
A PORT (A0 – A7)
VIH
Logical ‘‘1’’ Input Voltage
T e VIL, R e 2.0V
VIL
Logical ‘‘0’’ Input Voltage
T e VIL, R e 2.0V
VOH
2.0
Logical ‘‘1’’ Output Voltage T e 2.0V, R e VIL
0.8
V
DP7308
0.7
V
IOH e b0.4 mA
IOH e b 3 mA
VOL
Logical ‘‘0’’ Output Voltage T e 2.0V,
R e VIL
V
DP8308
VCCb1.15 VCCb0.7
2.7
IOL e 16 mA (8308)
0.35
IOL e 8 mA (both)
V
3.95
V
0.5
V
0.3
0.4
V
b 38
b 75
mA
0.1
80
mA
1
mA
b 70
b 200
mA
b 0.7
b 1.5
V
VIN e 0.4V
b 200
mA
VIN e 4.0V
80
mA
IOS
Output Short Circuit
Current
T e 2.0V, R e VIL, VO e 0V
VCC e Max (Note 4)
IIH
Logical ‘‘1’’ Input Current
T e VIL, R e 2.0V, VIH e 2.7V
II
Input Current at Maximum
Input Voltage
R e T e 2.0V, VCC e Max, VIH e 5.25V
IIL
Logical ‘‘0’’ Input Current
T e VIL, R e 2.0V, VIN e 0.4V
VCLAMP
Input Clamp Voltage
T e R e 2.0V, IIN e b12 mA
IOD
Output/Input
TRI-STATE Current
T e R e 2.0V
b 10
B PORT (B0 – B7)
VIH
Logical ‘‘1’’ Input Voltage
T e 2.0V, R e VIL
VIL
Logical ‘‘0’’ Input Voltage
T e 2.0V, R e VIL
VOH
2.0
Logical ‘‘1’’ Output Voltage T e VIL, R e 2.0V
0.8
V
DP7308
0.7
V
IOH e b0.4 mA
2.7
3.9
IOH e b10 mA
2.4
3.6
Logical ‘‘0’’ Output Voltage T e VIL, R e 2.0V
IOS
Output Short Circuit
Current
T e VIL, R e 2.0V, VO e 0V,
VCC e Max (Note 4)
IIH
Logical ‘‘1’’ Input Current
T e 2.0V, R e VIL, VIH e 2.7V
II
Input Current at Maximum
Input Voltage
T e R e 2.0V, VCC e Max, VIH e 5.25V
IIL
Logical ‘‘0’’ Input Current
T e 2.0V, R e VIL, VIN e 0.4V
VCLAMP
Input Clamp Voltage
IOD
Output/Input
TRI-STATE Current
T e R e 2.0V, IIN e b12 mA
T e R e 2.0V
VIN e 0.4V
VIN e 4.0V
2
VCCb1.15 VCCb0.8
IOH e b5 mA
VOL
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V
DP8308
V
V
V
IOL e 20 mA
0.3
0.4
V
IOL e 48 mA
0.4
0.5
V
b 50
b 150
mA
0.1
80
mA
1
mA
b 70
b 200
mA
b 0.7
b 1.5
V
b 200
mA
a 200
mA
b 25
DC Electrical Characteristics (Notes 2 and 3) (Continued)
Symbol
Parameter
Conditions
Min
Typ
Max
Units
CONTROL INPUTS T, R
VIH
Logical ‘‘1’’ Input Voltage
VIL
Logical ‘‘0’’ Input Voltage
2.0
IIH
Logical ‘‘1’’ Input Current
VIH e 2.7V
II
Maximum Input Current
VCC e Max, VIH e 5.25V
IIL
Logical ‘‘0’’ Input Current
VIL e 0.4V
VCLAMP
Input Clamp Voltage
V
DP8308
0.8
V
DP7308
0.7
V
0.5
20
mA
1.0
mA
R
b 0.1
b 0.25
mA
T
b 0.25
b 0.5
mA
b 0.8
b 1.5
V
T e R e 2.0V, VIN e 0.4V, VCC e Max
70
100
mA
T e VINA e 0.4V, R e 2V, VCC e Max
90
140
mA
IIN e b12 mA
POWER SUPPLY CURRENT
ICC
Power Supply Current
AC Electrical Characteristics VCC e 5V, TA e 25§ C
Symbol
Parameter
Conditions
Min
Typ
Max
Units
A PORT DATA/MODE SPECIFICATIONS
tPDHLA
Propagation Delay to a Logical ‘‘0’’ from
B Port to A Port
T e 2.4V, R e 0.4V (Figure A)
R1 e 1k, R2 e 5k, C1 e 30 pF
14
18
ns
tPDLHA
Propagation Delay to a Logical ‘‘1’’ from
B Port to A Port
T e 2.4V, R e 0.4V (Figure A)
R1 e 1k, R2 e 5k, C1 e 30 pF
13
18
ns
tPLZA
Propagation Delay from a Logical ‘‘0’’ to
TRI-STATE from R to A Port
B0 to B7 e 0.4V, T e 2.4V (Figure B)
S3 e 1, R5 e 1k, C4 e 15 pF
11
15
ns
tPHZA
Propagation Delay from a Logical ‘‘1’’ to
TRI-STATE from R to A Port
B0 to B7 e 2.4V, T e 2.4V (Figure B)
S3 e 0, R5 e 1k, C4 e 15 pF
8
15
ns
tPZLA
Propagation Delay from TRI-STATE to
a Logical ‘‘0’’ from R to A Port
B0 to B7 e 0.4V, T e 2.4V (Figure B)
S3 e 1, R5 e 1k, C4 e 30 pF
24
35
ns
tPZHA
Propagation Delay from TRI-STATE to
a Logical ‘‘1’’ from R to A Port
B0 to B7 e 2.4V, T e 2.4V (Figure B)
S3 e 0, R5 e 5k, C4 e 30 pF
21
30
ns
B PORT DATA/MODE SPECIFICATIONS
Propagation Delay to a Logical ‘‘0’’ from
A Port to B Port
T e 0.4V, R e 2.4V (Figure A)
R1 e 100X, R2 e 1k, C1 e 300 pF
R1 e 667X, R2 e 5k, C1 e 45 pF
18
11
23
18
ns
ns
Propagation Delay to a Logical ‘‘1’’ from
A Port to B Port
T e 0.4V, R e 2.4V (Figure A)
R1 e 100X, R2 e 1k, C1 e 300 pF
R1 e 667X, R2 e 5k, C1 e 45 pF
16
11
23
18
ns
ns
tPLZB
Propagation Delay from a Logical ‘‘0’’ to
TRI-STATE from T to B Port
A0 to A7 e 0.4V, R e 2.4V (Figure B)
S3 e 1, R5 e 1k, C4 e 15 pF
13
18
ns
tPHZB
Propagation Delay from a Logical ‘‘1’’ to
TRI-STATE from T to B Port
A0 to A7 e 2.4V, R e 2.4V (Figure B)
S3 e 0, R5 e 1k, C4 e 15 pF
8
15
ns
tPZLB
Propagation Delay from TRI-STATE to
a Logical ‘‘0’’ from T to B Port
A0 to A7 e 0.4V, R e 2.4V (Figure B)
S3 e 1, R5 e 100X, C4 e 300 pF
S3 e 1, R5 e 667X, C4 e 45 pF
25
17
35
25
ns
ns
Propagation Delay from TRI-STATE to
a Logical ‘‘1’’ from T to B Port
A0 to A7 e 2.4V, R e 2.4V (Figure B)
S3 e 0, R5 e 1k, C4 e 300 pF
S3 e 0, R5 e 5k, C4 e 45 pF
24
17
35
25
ns
ns
tPDHLB
tPDLHB
tPZHB
3
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AC Electrical Characteristics
(Continued)
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.
Note 2: Unless otherwise specified, min/max limits apply across the supply and temperature range listed in the table of Recommended Operating Conditions.
All typical values given are for VCC e 5V and TA e 25§ C.
Note 3: All currents into device pins are positive; all currents out of device pins are negative. All voltages are referenced to ground unless otherwise specified.
Note 4: Only one output at a time should be shorted.
Switching Time Waveforms and AC Test Circuits
TL/F/8795 – 3
TL/F/8795 – 4
Note: C1 includes test fixture capacitance.
FIGURE A. Propagation Delay from A Port to B Port or from B Port to A Port
TL/F/8795 – 5
TL/F/8795 – 6
Note: C4 includes test fixture capacitance. Port input is in a fixed logical condition. See AC Table.
FIGURE B. Propagation Delay to/from TRI-STATE from R to A Port and T to B Port
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4
5
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DP8308 8-Bit TRI-STATE Bidirectional Transceiver (Non-Inverting)
Physical Dimensions inches (millimeters)
Molded Dual-In-Line Package (N)
Order Number DP8308N
NS Package Number N20A
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