NSC DS75365N, DS75365MX, DS75365M Datasheet
TL/F/7560
DS75365 Quad TTL-to-MOS Driver
June 1992
DS75365 Quad TTL-to-MOS Driver
General Description
The DS75365 is a quad monolithic integrated TTL-to-MOS
driver and interface circuit that accepts standard TTL input
signals and provides high-current and high-voltage output
levels suitable for driving MOS circuits. It is used to drive
address, control, and timing inputs for several types of MOS
RAMs including the 1103.
The DS75365 operates from the TTL 5V supply and the
MOS V
SS
and VBBsupplies in many applications. This de-
vice has been optimized for operation with V
CC2
supply volt-
age from 16V to 20V, and with nominal V
CC3
supply voltage
from 3V to 4V higher than V
CC2
. However, it is designed so
as to be usable over a much wider range of V
CC2
and V
CC3
.
In some applications the V
CC3
power supply can be elimi-
nated by connecting the V
CC3
to the V
CC2
pin.
Features
Y
Quad positive-logic NAND TTL-to-MOS driver
Y
Versatile interface circuit for use between TTL and
high-current, high-voltage systems
Y
Capable of driving high-capacitance loads
Y
Compatible with many popular MOS RAMs
Y
Interchangeable with Intel 3207
Y
V
CC2
supply voltage variable over side range to 24V
maximum
Y
V
CC3
supply voltage pin available
Y
V
CC3
pin can be connected to V
CC2
pin in some
applications
Y
TTL compatible diode-clamped inputs
Y
Operates from standard bipolar and MOS supply
voltages
Y
Two common enable inputs per gate-pair
Y
High-speed switching
Y
Transient overdrive minimizes power dissipation
Y
Low standby power dissipation
Schematic and Connection Diagrams
TL/F/7560– 1
Dual-In-Line Package
TL/F/7560– 2
Top View
Positive Logic: Y
e
A#E1#E2
Order Number DS75365N or DS75365WM
See NS Package Number M16B or N16A
C
1995 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 Range of V
CC1
b
0.5V to 7V
Supply Voltage Range of V
CC2
b
0.5V to 25V
Supply Voltage Range of V
CC3
b
0.5V to 30V
nput Voltage 5.5V
Inter-Input Voltage (Note 4) 5.5V
Storage Temperature Range
b
65§Ctoa150§C
Maximum Power Dissipation* at 25
§
C
Cavity Package 1509 mW
Molded Package 1476 mW
SO Package 1488 mW
Lead Temperature (Soldering, 10 sec) 300
§
C
* Derate cavity package 10.1 mW/§C above 25§C; derate molded package
11.8 mW/
§
C above 25§C, derate SO package 11.9 mW/§C above 25§C.
Operating Conditions
Min Max Units
Supply Voltage (V
CC1
) 4.75 5.25 V
Supply Voltage (V
CC2
) 4.75 24 V
Supply Voltage (V
CC3
)V
CC2
28 V
Voltage Difference Between 0 10 V
Supply Voltages: V
CC3–VCC2
Operating Ambient Temperature 0 70§C
Range (T
A
)
Electrical Characteristics (Notes 2 and 3)
Symbol Parameter Conditions Min Typ Max Units
V
IH
High-Level Input Voltage 2 V
V
IL
Low-Level Input Voltage 0.8 V
V
I
Input Clamp Voltage I
I
eb
12 mA
b
1.5 V
V
OH
High-Level Output Voltage V
CC3
e
V
CC2
a
3V, V
IL
e
0.8V, I
OH
eb
100 mAV
CC2
b
0.3 V
CC2
b
0.1 V
V
CC3
e
V
CC2
a
3V, V
IL
e
0.8V, I
OH
eb
10 mA V
CC2
b
1.2 V
CC2
b
0.9 V
V
CC3
e
V
CC2,VIL
e
0.8V, I
OH
eb
50 mAV
CC2
b
1V
CC2
b
0.7 V
V
CC3
e
V
CC2,VIL
e
0.8V, I
OH
eb
10 mA V
CC2
b
2.3 V
CC2
b
1.8 V
V
OL
Low-Level Output Voltage V
IH
e
2V, I
OL
e
10 mA 0.15 0.3 V
V
CC3
e
15V to 28V, V
IH
e
2V, I
OL
e
40 mA 0.25 0.5 V
V
O
Output Clamp Voltage V
I
e
0V, I
OH
e
20 mA V
CC2
a
1.5 V
I
I
Input Current at Maximum V
I
e
5.5V
1mA
Input Voltage
I
IH
High-Level Input Current V
I
e
2.4V A Inputs 40 mA
E1 and E2 Inputs 80 mA
I
IL
Low-Level Input Current V
I
e
0.4V A Inputs
b
1
b
1.6 mA
E1 and E2 Inputs
b
2
b
3.2 mA
I
CC1(H)
Supply Current from V
CC1,VCC1
e
5.25V, V
CC2
e
24V
48mA
All Outputs High V
CC3
e
28V, All Inputs at 0V, No Load
I
CC2(H)
Supply Current from V
CC2
,
b
2.2
a
0.25 mA
All Outputs High
b
2.2
b
3.2 mA
I
CC3(H)
Supply Current from V
CC3
,
2.2 3.5 mA
All Outputs High
I
CC1(L)
Supply Current from V
CC1,VCC1
e
5.25V, V
CC2
e
24V
31 47 mA
All Outputs Low V
CC3
e
28V, All Inputs at 5V, No Load
I
CC2(L)
Supply Current from V
CC2
,
3mA
All Outputs Low
I
CC3(L)
Supply Current from V
CC3
,
16 25 mA
All Outputs Low
I
CC2(H)
Supply Current from V
CC2,VCC1
e
5.25V, V
CC2
e
24V
0.25 mA
All Outputs High V
CC3
e
24V, All Inputs at 0V, No Load
I
CC3(H)
Supply Current from V
CC3
,
0.5 mA
All Outputs High
2
Electrical Characteristics (Notes 2, 3) (Continued)
Symbol Parameter Conditions Min Typ Max Units
I
CC2(S)
Supply Current from V
CC2
,V
CC1
e
0V, V
CC2
e
24V
0.25 mA
Stand-By Condition V
CC3
e
24V, All Inputs at 5V, No Load
I
CC3(S)
Supply Current from V
CC3
,
0.5 mA
Stand-By Condition
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 0
§
Ctoa70§C range for the DS75365. All typical values are for T
A
e
25§C and V
CC1
e
5V and
V
CC2
e
20V and V
CC3
e
24V.
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.
Note 4: This rating applies between any two inputs of any one of the gates.
Switching Characteristics V
CC1
e
5V, V
CC2
e
20V, V
CC3
e
24V, T
A
e
25§C
Symbol Parameter Conditions Min Typ Max Units
t
DLH
Delay Time, Low-to-High Level Output C
L
e
200 pF 11 20 ns
t
DHL
Delay Time, High-to-Low Level Output
R
D
e
24X
10 18 ns
t
TLH
Transition Time, Low-to-High Level Output
(
Figure 1
)
20 33 ns
t
THL
Transition Time, High-to-Low Level Output 20 33 ns
t
PLH
Propagation Delay Time, Low-to-High Level Output 10 31 48 ns
t
PHL
Propagation Delay Time, High-to-Low Level Output 10 30 46 ns
AC Test Circuit and Switching Time Waveforms
TL/F/7560– 3
TL/F/7560– 4
Note 1: The pulse generator has the following characteristics: PRRe1 MHz, Z
OUT
e
58X.
Note 2: C
L
includes probe and jig capacitance.
FIGURE 1. Switching Times, Each Driver
3
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