TL/F/5816
DS1631/DS3631/DS1632/DS3632/DS1633/DS3633/DS1634/DS3634
CMOS Dual Peripheral Drivers
July 1992
DS1631/DS3631/DS1632/DS3632/DS1633/DS3633/
DS1634/DS3634 CMOS Dual Peripheral Drivers
General Description
The DS1631 series of dual peripheral drivers was designed
to be a universal set of interface components for CMOS
circuits.
Each circuit has CMOS compatible inputs with thresholds
that track as a function of VCC (approximately (/2 VCC). The
inputs are PNPs providing the high impedance necessary
for interfacing with CMOS.
Outputs have high voltage capability, minimum breakdown
voltage is 56V at 250 mA.
The outputs are Darlington connected transistors. This al-
lows high current operation (300 mA max) at low internal
VCC current levels since base drive for the output transistor
is obtained from the load in proportion to the required load-
ing conditions. This is essential in order to minimize loading
on the CMOS logic supply.
Typical VCC e5V power is 28 mW with both outputs ON.
VCC operating range is 4.5V to 15V.
The circuit also features output transistor protection if the
VCC supply is lost by forcing the output into the high impe-
dance OFF state with the same breakdown levels as when
VCC was applied.
Pin-outs are the same as the respective logic functions
found in the following popular series of circuits: DS75451,
DS75461. This feature allows direct conversion of present
systems to the MM74C CMOS family and DS1631 series
circuits with great power savings.
The DS1631 series is also TTL compatible at VCC e5V.
Features
YCMOS compatible inputs
YHigh impedance inputs PNP’s
YHigh output voltage breakdown 56V min
YHigh output current capability 300 mA max
YSame pin-outs and logic functions as DS75451 and
DS75461 series circuits
YLow VCC power dissipation (28 mW both outputs ‘‘ON’’
at 5V)
Connection Diagrams (Dual-In-Line and Metal Can Packages)
TL/F/5816–1
Top View
Order Number DS1631J-8
or DS3631N
TL/F/5816–2
Top View
Order Number DS1632J-8
or DS3632N
TL/F/5816–3
Top View
Order Number DS1633J-8
or DS3633N
TL/F/5816–4
Top View
Order Number DS1634J-8
or DS3634N
See NS Package Number J08A or N08E
TL/F/5816–5
Top View
(Pin 4 is electrically connected to the
case.)
Order Number DS1631H
TL/F/5816–6
Top View
(Pin 4 is electrically connected to the
case.)
Order Number DS1632H
TL/F/5816–7
Top View
(Pin 4 is electrically connected to the
case.)
Order Number DS1633H
TL/F/5816–8
Top View
(Pin 4 is electrically connected to the
case.)
Order Number DS1634H
See NS Package Number H08C
C1995 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.
Supply Voltage 16V
Voltage at Inputs b0.3V to VCC a0.3V
Output Voltage 56V
Storage Temperature Range b65§Ctoa
150§C
Maximum Power Dissipation*at 25§C
Cavity Package 1133 mW
Molded Package 1022 mW
TO-5 Package 787 mW
Lead Temperature (Soldering, 4 sec. 260§C
*Derate cavity package 7.6 mW/§C above 25§C; derate molded package
8.2 mW/§C above 25§C; derate TO-5 package 5.2 mW/§C above 25§C.
Operating Conditions
Min Max Units
Supply Voltage, VCC
DS1631/DS1632/ 4.5 15 V
DS1633/DS1634
DS3631/DS3632/ 4.75 15 V
DS3633/DS3634
Temperature, TA
DS1631/DS1632/ b55 a125 §C
DS1633/DS1634
DS3631/DS3632/ 0 a70 §C
DS3633/DS3634
Electrical Characteristics (Notes 2 and 3)
Symbol Parameter Conditions Min Typ Max Units
ALL CIRCUITS
VIH Logical ‘‘1’’ Input Voltage (
Figure 1
)V
CC e5V 3.5 2.5 V
VCC e10V 8.0 5 V
VCC e15V 12.5 7.5 V
VIL Logical ‘‘0’’ Input Voltage (
Figure 1
)V
CC e5V 2.5 1.5 V
VCC e10V 5.5 2.0 V
VCC e15V 7.5 2.5 V
IIH Logical ‘‘1’’ Input Current VCC e15V, VIN e15V, (
Figure 2
) 0.1 10 mA
IIL Logical ‘‘0’’ Input Current VIN e0.4V, (
Figure 3
)V
CC e5V b50 b120 mA
VCC e15V b200 b360 mA
VOH Output Breakdown Voltage VCC e15V, IOH e250 mA, (
Figure 1
)5665V
V
OL Output Low Voltage VCC eMin, (
Figure 1
),
DS1631, DS1632, IOL e100 mA 0.85 1.1 V
DS1633, DS1634 IOL e300 mA 1.1 1.4 V
VCC eMin, (
Figure 1
),
DS3631, DS3632, IOL e100 mA 0.85 1.0 V
DS3633, DS3634 IOL e300 mA 1.1 1.3 V
DS1631/DS3631
ICC(0) Supply Currents VIN e0V, (
Figure 4)
VCC e5V Output Low 7 11 mA
VCC e15V Both Drivers 14 20 mA
ICC(1) (
Figure 4
)V
CC e5V, VIN e5V Output High 2 3 mA
VCC e15V, VIN e15V Both Drivers 7.5 10 mA
tPD1 Propagation to ‘‘1’’ VCC e5V, TAe25§C, CLe15 pF, RLe50X,V
Le10V, 500 ns
(
Figure 5
)
tPD0 Propagation to ‘‘0’’ VCC e5V, TAe25§C, CLe15 pF, RLe50X,V
Le10V, 750 ns
(
Figure 5
)
DS1632/DS3632
ICC(0) Supply Currents (
Figure 4
)V
CC e5V, VIN e5V Output Low 812mA
V
CC e15V, VIN e15V 18 23 mA
ICC(1) VIN e0V, (
Figure 4
)V
CC e5V Output High 2.5 3.5 mA
VCC e15V 9 14 mA
tPD1 Propagation to ‘‘1’’ VCC e5V, TAe25§C, CLe15 pF, RLe50X,V
Le10V, 500 ns
(
Figure 5
)
tPD0 Propagation to ‘‘0’’ VCC e5V, TAe25§C, CLe15 pF, RLe50X,V
Le10V, 750 ns
(
Figure 5
)
2
Electrical Characteristics (Notes 2 and 3) (Continued)
Symbol Parameter Conditions Min Typ Max Units
DS1633/DS3633
ICC(0) Supply Currents VIN e0V, (
Figure 4
)V
CC e5V Output Low 7.5 12 mA
VCC e15V 16 23 mA
ICC(1) (
Figure 4
)V
CC e5V, VIN e5V Output High 2 4 mA
VCC e15V, VIN e15V 7.2 15 mA
tPD1 Propagation to ‘‘1’’ VCC e5V, TAe25§C, CLe15 pF, RLe50X,V
Le10V, 500 ns
(
Figure 5
)
tPD0 Propagation to ‘‘0’’ VCC e5V, TAe25§C, CLe15 pF, RLe50X,V
Le10V, 750 ns
(
Figure 5
)
DS1634/DS3634
ICC(0) Supply Currents (
Figure 4
)V
CC e5V, VIN e5V Output Low 7.5 12 mA
VCC e15V, VIN e15V 18 23 mA
ICC(1) VIN e0V, (
Figure 4
)V
CC e5V Output High 3 5 mA
VCC e15V 11 18 mA
tPD1 Propagation to ‘‘1’’ VCC e5V, TAe25§C, CLe15 pF, RLe50X,V
Le10V, 500 ns
(
Figure 5
)
tPD0 Propagation to ‘‘0’’ VCC e5V, TAe25§C, CLe15 pF, RLe50X,V
Le10V, 750 ns
(
Figure 5
)
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 b55§Ctoa
125§C temperature range for the DS1631, DS1632, DS1633 and DS1634 and
across the 0§Ctoa
70§C range for the DS3631, DS3632, DS3633 and DS3634. All typical values are for TAe25§C.
Note 3: 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.
Test Circuits
TL/F/5816–9
Input Other Output
Circuit Under Input Apply Measure
Test
DS3631 VIH VIH IOH VOH
VIL VCC IOL VOL
DS3632 VIH VIH IOL VOL
VIL VCC IOH VOH
DS3633 VIH GND IOH VOH
VIL VIL IOL VOL
DS3634 VIH GND IOL VOL
VIL VIL IOH VOH
Note: Each input is tested separately.
FIGURE 1. VIH ,V
IL ,V
OH ,V
OL
3
Test Circuits (Continued)
TL/F/5816–10
Each input is tested separately.
FIGURE 2. IIH
TL/F/5816–11
Note A: Each input is tested separately.
Note B: When testing DS1633 and DS1634 input not under test is grounded.
For all other circuits it is at VCC.
FIGURE 3. IIL
TL/F/5816–12
Both gates are tested simultaneously.
FIGURE 4. ICC for AND and NAND Circuits
Schematic Diagram (Equivalent Circuit)
TL/F/5816–15
4
Switching Time Waveforms
TL/F/5816–13
TL/F/5816–14
Note 1: The pulse generator has the following characteristics: PRR e500 kHz, ZOUT &50X
Note 2: CLincludes probe and jig capacitance
FIGURE 5. Switching Times
5
Physical Dimensions inches (millimeters)
Metal Can Package (H)
Order Number DS1631H, DS1632H, DS1633H or DS1634H
NS Package Number H08C
6
Physical Dimensions inches (millimeters) (Continued)
Ceramic Dual-In-Line Package (J)
Order Number DS1631J-8, DS1632J-8, DS1633J-8 or DS1634J-8
NS Package Number J08A
7
DS1631/DS3631/DS1632/DS3632/DS1633/DS3633/DS1634/DS3634
CMOS Dual Peripheral Drivers
Physical Dimensions inches (millimeters) (Continued)
Molded Dual-In-Line Package (N)
Order Number DS3631N, DS3632N,
DS3633N and DS3634N
NS Package Number N08E
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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.
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