NSC DS26F31MW-MLS, DS26F31MMW8, DS26F31MMD8, DS26F31MJ Datasheet

DS26F31M Quad High Speed Differential Line Drivers
General Description
The DS26F31 is a quad differential line driver designed for digital data transmission over balanced lines. The DS26F31 meets all the requirements of EIA Standard RS-422 and Federal Standard 1020. It is designed to provide unipolar dif­ferential drive to twisted-pair or parallel-wire transmission lines.
The circuit provides an enable and disable function common to all four drivers. The DS26F31M features TRI-STATE
®
out­puts and logical OR-ed complementary enable inputs. The inputs are all LS compatible and are all one unit load.
The DS26F31M offers optimum performance when used with the DS26F32 Quad Differential Line Receiver.
Features
n Military temperature range n Output skew—2.0 ns typical n Input to output delay —10 ns n Operation from single +5.0V supply n 16-lead ceramic DIP Package n Outputs won’t load line when V
CC
=
0V
n Output short circuit protection n Meets the requirements of EIA standard RS-422 n High output drive capability for 100terminated
transmission lines
Connection and Logic Diagrams
TRI-STATE®is a registered trademark of National Semiconductor Corporation.
16-Lead Dual-In-Line Package
DS009614-1
Top View
For Complete Military Product Specifications,
refer to the appropriate SMD or MDS.
Order Number DS26F31ME/883, DS26F31MJ/883, or
DS26F31MW/883
See NS Package Numbers E20A, J16A, or W16A
DS009614-2
FIGURE 1. Logic Symbol
20-Lead Ceramic Leadless Chip Carrier (E)
DS009614-7
May 1999
DS26F31MQuad High Speed Differential Line Drivers
© 1999 National Semiconductor Corporation DS009614 www.national.com
Absolute Maximum Ratings (Note 2)
If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications.
Storage Temperature Range
Ceramic DIP −65˚C to +175˚C
Lead Temperature
Ceramic DIP (Soldering, 60 sec.) 300˚C
Maximum Power (Note 1) Dissipation at 25˚C
Cavity Package 1500 mW
Supply Voltage 7.0V Input Voltage 7.0V Output Voltage 5.5V
Operating Range
DS26F31M
Temperature −55˚C to +125˚C Supply Voltage 4.5V to 5.5V
Note 1: Derate cavity package 10 mW/˚C above 25˚C.
Electrical Characteristics (Notes 3, 4)
over operating range, unless otherwise specified
Symbol Parameter Conditions Min Typ Max Units
V
OH
Output Voltage HIGH V
CC
=
Min, I
OH
=
−20 mA 2.5 3.2 V
V
OL
Output Voltage LOW V
CC
=
Min, I
OL
=
20 mA 0.32 0.5 V
V
IH
Input Voltage HIGH V
CC
=
Min 2.0 V
V
IL
Input Voltage LOW V
CC
=
Max 0.8 V
I
IL
Input Current LOW V
CC
=
Max, V
I
=
0.4V −0.10 −0.20 mA
I
IH
Input Current HIGH V
CC
=
Max, V
I
=
2.7V 0.5 20 µA
I
IR
Input Reverse Current V
CC
=
Max, V
I
=
7.0V 0.001 0.1 mA
I
OZ
Off State (High Impedance) V
CC
=
Max V
O
=
2.5V 0.5 20 µA
Output Current V
O
=
0.5V 0.5 −20
V
IC
Input Clamp Voltage V
CC
=
Min, I
I
=
−18 mA −0.8 −1.5 V
I
OS
Output Short Circuit V
CC
=
Max (Note 5) −30 −60 −150 mA
I
CCX
Supply Current V
CC
=
Max, All Outputs Disabled 50 mA
I
CC
V
CC
=
Max, All Outputs Enabled 40 mA
t
PLH
Input to Output V
CC
=
5.0V, T
A
=
25˚C, 10 15 ns
Load=(Notes 6, 7)
t
PHL
Input to Output V
CC
=
5.0V, T
A
=
25˚C, 10 15 ns
Load=(Note 6)
SKEW Output to Output V
CC
=
5.0V, T
A
=
25˚C, 2.0 4.5 ns
Load=(Notes 6, 7)
t
LZ
Enable to Output V
CC
=
5.0V, T
A
=
25˚C, 23 32 ns
C
L
=
10 pF
t
HZ
Enable to Output V
CC
=
5.0V, T
A
=
25˚C, 15 25 ns
C
L
=
10 pF
t
ZL
Enable to Output V
CC
=
5.0V, T
A
=
25˚C, 20 30 ns
Load=(Note 6)
t
ZH
Enable to Output V
CC
=
5.0V, T
A
=
25˚C, 23 32 ns
Load=(Note 6)
Note 2: “Absolute Maximum Ratings” are those values beyond which the safety of the device cannot be guaranteed. They are not meant to imply that the devices should be operated at these limits. The tables of “Electrical Characteristics” provide conditions for actual device operation.
Note 3: Unless otherwise specified min/max limits apply across the −55˚C to +125˚C temperature range for the DS26F31M and across the O˚C to +70˚C range for the DS26F31C. All typicals are given for V
CC
=
5V and T
A
=
25˚C.
Note 4: All currents into the device pins are positive; all currents outof the device pins are negative.All voltagesare referenced to ground unless otherwise specified. Note 5: Only one output at a time should be shorted. Note 6: C
L
=
30 pF, V
I
=
1.3V to V
O
=
1.3V, V
PULSE
=
0V to +3V (See AC Load Test Circuit for TRI-STATE Outputs).
Note 7: Skew is defined as the difference in propagation delays between complementary outputs at the 50%point.
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