NSC DS75451N, DS75451MX, DS75451M Datasheet

DS75451/2/3 Series Dual Peripheral Drivers
General Description
The DS7545X series of dual peripheral drivers is a family of versatile devices designed for use in systems that use TTL logic. Typical applications include high speed logic buffers, power drivers, relay drivers, lamp drivers, MOS drivers, bus drivers and memory drivers.
Features
n 300 mA output current capability n High voltage outputs n No output latch-up at 20V n High speed switching n Choice of logic function n TTL compatible diode-clamped inputs n Standard supply voltages n Replaces TI “A” and “B” series
Connection Diagrams (Dual-In-Line and Metal Can Packages)
DS005824-2
*
See (Note 5) and Appendix E regarding S.O. package power dissipation
constraints.
Top View
Order Number DS75451M or DS75451N
DS005824-3
Top View
Order Number DS75452M or DS75452N
See NS Package Numbers M08A
*
or N08E
DS005824-4
*
See (Note 5) and Appendix E regarding S.O. package power dissipation constraints.
Top View
Order Number DS75453M or DS75453N
See NS Package Numbers M08A
*
or N08E
February 2000
DS75451/2/3 Series Dual Peripheral Drivers
© 2000 National Semiconductor Corporation DS005824 www.national.com
Absolute Maximum Ratings (Note 1)
If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications.
Supply Voltage, (V
CC
) (Note 2) 7.0V Input Voltage 5.5V Inter-Emitter Voltage (Note 3) 5.5V Output Voltage (Note 4) 30V Output Current (Note 5) 300 mA
Maximum Power (Note 5)
Dissipation
at 25˚C
Molded DIP Package 957 mW
SO Package 632 mW Storage Temperature Range −65˚C to +150˚C Lead Temperature (Soldering, 4 sec.) 260˚C
Operating Conditions
Min Max Units
Supply Voltage, (V
CC
) 4.75 5.25 V
Temperature, (T
A
) 0 +70 ˚C
Derate molded package 7.7 mW/˚C above 25˚C, derate SO package 7.56
mW/˚C above 25˚C.
Electrical Characteristics
(Notes 6, 7)
Symbol Parameter Conditions Min Typ Max Units
V
IH
High-Level Input Voltage (
Figure 7
)2V
V
IL
Low-Level Input Voltage 0.8 V
V
I
Input Clamp Voltage V
CC
=
Min, I
I
=
−12 mA −1.5 V
V
OL
Low-Level Output Voltage V
CC
= Min, (
Figure 7
)
V
IL
=
0.8V I
OL
=
100 mA DS75451, DS75453 0.25 0.4 V
I
OL
=
300 mA DS75451, DS75453 0.5 0.7 V
V
IH
=
2V I
OL
=
100 mA DS75452 0.25 0.4 V
I
OL
=
300 mA DS75452 0.5 0.7 V
I
OH
High-Level Output Current V
CC
= Min, (
Figure 7
)
V
OH
=
30V V
IH
=
2V DS75451, DS75453
100 µA
V
IL
=
0.8V DS75452
100 µA
I
I
Input Current at Maximum Input Voltage
V
CC
=
Max, V
I
=
5.5V, (
Figure 9
)
1mA
I
IH
High-Level Input Current V
CC
=
Max, V
I
=
2.4V, (
Figure 9
)40µA
I
IL
Low-Level Input Current V
CC
=
Max, V
I
=
0.4V, (
Figure 8
) −1 −1.6 mA
I
CCH
Supply Current, Outputs High
V
CC
= Max, (
Figure
10
)
V
I
=
5V DS75451
711mA
V
I
=
0V DS75452
11 14 mA
V
I
=
5V DS75453
811mA
I
CCL
Supply Current, Outputs Low
V
CC
= Max, (
Figure
10
)
V
I
=
0V DS75451
52 65 mA
V
I
=
5V DS75452
56 71 mA
V
I
=
0V DS75453
54 68 mA
Switching Characteristics
(V
CC
=
5V, T
A
=
25˚C)
Symbol Parameter Conditions Min Typ Max Units
t
PLH
Propagation Delay Time, Low-to-High Level Output
C
L
=
15 pF, R
L
=
50,
I
O
200 mA, (
Figure 14
)
DS75451 18 25 ns DS75452 26 35 ns DS75453 18 25 ns
t
PHL
Propagation Delay Time, High-to-Low Level Output
C
L
=
15 pF, R
L
=
50,
I
O
200 mA, (
Figure 14
)
DS75451 18 25 ns DS75452 24 35 ns DS75453 16 25 ns
t
TLH
Transition Time, Low-to-High Level Output
C
L
=
15 pF, R
L
=
50,I
O
200 mA,
(
Figure 14
)
58 ns
t
THL
Transition Time, High-to-Low Level Output
C
L
=
15 pF, R
L
=
50,I
O
200 mA,
(Figure 14 )
712 ns
DS75451/2/3
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Switching Characteristics (Continued)
Symbol Parameter Conditions Min Typ Max Units
V
OH
High-Level Output Voltage after Switching
V
S
=
20V, I
O
300 mA, (
Figure 15
)
V
S
− 6.5 mV
Note 1: “Absolute MaximumRatings” are those values beyond which the safety ofthe 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: Voltage values are with respect to network ground terminal unless otherwise specified. Note 3: The voltage between two emitters of a multiple-emitter transistor. Note 4: The maximum voltage which should be applied to any output when it is in the “OFF” state. Note 5: Both halves of these dual circuits may conduct rated current simultaneously; however,power dissipation averaged over a short time interval must fall within
the continuous dissipation rating. Note 6: Unless otherwise specified min/max limits apply across 0˚C to +70˚C range. All typicals are given for V
CC
=
+5V and T
A
=
25˚C.
Note 7: All currents into device pins shown as positive, out of device pins as negative, all voltages referenced to ground unless otherwise noted.All values shown as max or min on absolute value basis.
Truth Tables (H
=
high level, L=low level)
DS75451
AB Y
L L L (ON State)
L H L (ON State) H L L (ON State) H H H (OFF State)
DS75452
AB Y
L L H (OFF State)
L H H (OFF State) H L H (OFF State) H H L (ON State)
DS75453
AB Y
L L L (ON State)
L H H (OFF State) H L H (OFF State) H H H (OFF State)
DS75451/2/3
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Schematic Diagrams
DS75451
DS005824-11
Resistor values shown are nominal.
DS75452
DS005824-12
Resistor values shown are nominal.
DS75453
DS005824-13
Resistor values shown are nominal.
DS75451/2/3
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DC Test Circuits
DS005824-15
Both inputs is tested simultaneously.
FIGURE 1. VIH,V
OL
DS005824-16
Each input is tested separately.
FIGURE 2. VIL,V
OH
DS005824-17
Each input is tested separately.
FIGURE 3. VI,I
IL
DS005824-18
Each input is tested separately.
FIGURE 4. II,I
IH
DS005824-19
Each input is tested separately.
FIGURE 5. I
OS
DS005824-20
Both gates are tested simultaneously.
FIGURE 6. I
CCH,ICCL
DS75451/2/3
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