TL/F/10922
100316 Low Power Quad Differential Line Driver with Cut-Off
July 1992
100316
Low Power Quad Differential Line Driver with Cut-Off
General Description
The 100316 is a quad differential line driver with output cut-
off capability. The outputs are designed to drive a doubly
terminated 50Xtransmission line (25Xequivalent imped-
ance) in an ECL backplane. The 100316 is ideal for driving
low noise, differential ECL backplanes. A LOW on the out-
put enable (OE) will set both the true and complementary
outputs into a high impedance or cut-off state, isolating
them from the backplane. The cut-off state is designed to
be more negative than a normal ECL LOW state.
Unlike most 100K devices, the data inputs (Dn,D
n
)donot
have input pull-down resistors. An internal reference supply
(VBB) is available for single-ended operation.
Features
YDifferential inputs and outputs
YOutput cut-off capability
YDrives 25Xload
YVBB available for single-ended operation
Y2000V ESD protection
YVoltage compensated operating range eb
4.2V to
b5.7V
YAvailable to industrial grade temperature range
Logic Symbol
TL/F/10922–1
Pin Names Description
DnData Inputs
QnData Outputs
QnComplementary Data Outputs
OE Output Enable
Connection Diagrams
24-Pin DIP
TL/F/10922–2
28-Pin PCC
TL/F/10922–3
C1995 National Semiconductor Corporation RRD-B30M105/Printed in U. S. A.
Logic Diagram
TL/F/10922–5
Truth Table
Inputs Outputs
DnDnOE QnQn
LHH L H
HLH H L
X X L Cut-Off Cut-Off
HeHIGH Voltage Level
LeLOW Voltage Level
XeDon’t Care
Cut-Off eLower-than-Low State
2
Absolute Maximum Ratings
Above which the useful life may be impaired (Note 1)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Storage Temperature (TSTG)b65§Ctoa
150§C
Maximum Junction Temperature (TJ)
Ceramic a175§C
Plastic a150§C
Pin Potential to Ground Pin (VEE)b7.0V to 0.5V
Input Voltage (DC) VEE to a0.5V
Output Current (DC Output HIGH) b100 mA
ESD (Note 2) t2000V
Note 1: Absolute maximum ratings are those values beyond which the de-
vice may be damaged or have its useful life impaired. Function operation
under these conditions is not implied.
Note 2: ESD testing conforms to MIL-STD-883, Method 3015.
Recommended Operating
Conditions
Case Temperature (TC)
Commercial 0§Ctoa
85§C
Industrial b40§Ctoa
85§C
Military b55§Ctoa
125§C
Supply Voltage (VEE)b5.7V to b4.2V
Commercial Version
DC Electrical Characteristics
VEE eb
4.2V to b5.7V, VCC eVCCA eGND, TCe0§Ctoa
85§C (Note 3)
Symbol Parameter Min Typ Max Units Conditions
VOH Output HIGH Voltage b1025 b955 b870 mV VIN eVIH (Max) Loading with
VOL Output LOW Voltage b1830 b1705 b1620 mV or VIL (Min) 25Xto b2.0V
VOHC Output HIGH Voltage b1035 mV VIN eVIH (Min) Loading with
VOLC Output LOW Voltage b1610 mV or VIL (Max) 25Xto b2.0V
VOLZ Cut-Off LOW Voltage b1950 mV VIN eVIH (Min) OE eLOW
or VIL (Max)
VBB Output Reference Voltage b1380 b1320 b1260 mV IVBB eb
1mA
V
DIFF Input Voltage Differential 150 mV Required for Full Output Swing
VCM Common Mode Voltage VCC b2.0 VCC b0.5 V
VIH Single-Ended Guaranteed HIGH Signal for All
Input High Voltage b1110 b870 mV Inputs (with one input tied to VBB)
VBB (Max) aVDIFF
VIL Single-Ended Guaranteed LOW Signal for All
Input Low Voltage b1830 b1530 mV Inputs (with one input tied to VBB)
VBB (Min) bVDIFF
IIL Input LOW Current 0.50 mAV
IN eVIL (Min)
IIH Input HIGH Current DN250 mAVIN eVIH (Max),D
1eV
BB,
D1eVIL (Min)
IIHZ Input HIGH Current OE 360 mAVIN eVIH (Max),D
1eV
BB,
D1eVIL (Min)
ICBO Input Leakage Current b10 mAVIN eVEE,D
1eV
BB,
D1eVIL (Min)
IEE Power Supply Current, b85 b30 mA D1eVBB,D
1eV
IL (Min)
Normal
IEEZ Power Supply Current, b152 b75 mA D1–D4eVBB,D
1
–D4eVIL (Min),
Cut-Off OE eLOW
Note 3: The specified limits represent the ‘‘worst case’’ value for the parameter. Since these values normally occur at the temperature extremes, additional noise
immunity and guardbanding can be achieved by decreasing the allowable system operating ranges. Conditions for testing shown in the tables are chosen to
guarantee operation under ‘‘worst case’’ conditions.
3
Commercial Version (Continued)
DIP AC Electrical Characteristics
VEE eb
4.2V to b5.7V, VCC eVCCA eGND
Symbol Parameter TCe0§CT
C
ea
25§CT
C
ea
85§CUnits Conditions
Min Max Min Max Min Max
tPLH Propagation Delay 0.65 2.30 0.65 2.30 0.65 2.30 ns
tPHL Data to Output
tPZH Propagation Delay 1.80 4.20 1.80 4.20 1.80 4.20 ns
Figures 1
and
2
tPHZ OE to Output 1.20 3.10 1.20 3.10 1.20 3.10
tTLH Transition Time, DNto QN0.45 1.70 0.45 1.70 0.45 1.70 ns
tTHL 20% to 80%, 80% to 20%
PCC AC Electrical Characteristics
VEE eb
4.2V to b5.7V, VCC eVCCA eGND
Symbol Parameter TCe0§CT
C
ea
25§CT
C
ea
85§CUnits Conditions
Min Max Min Max Min Max
tPLH Propagation Delay 0.65 2.10 0.65 2.10 0.65 2.10 ns
tPHL Data to Output
tPZH Propagation Delay 1.8 4.00 1.8 4.00 1.8 4.00 ns
Figures 1
and
2
tPHZ OE to Output 1.2 2.90 1.2 2.90 1.2 2.90
tTLH Transition Time, DNto QN0.45 1.50 0.45 1.50 0.45 1.50 ns
tTHL 20% to 80%, 80% to 20%
4
Industrial Version
PCC DC Electrical Characteristics
VEE eb
4.2V to b5.7V, VCC eVCCA eGND (Note 3)
Symbol Parameter TCeb
40§CT
C
e
0
§
Ctoa
85§CUnits Conditions
Min Max Min Max
VOH Output HIGH Voltage b1085 b870 b1025 b870 mV VIN eVIH (Max) Loading with
VOL Output LOW Voltage b1830 b1585 b1830 b1620 mV or VIL (Min) 25Xto b2.0V
VOHC Output HIGH Voltage b1095 b1035 mV VIN eVIH (Min) Loading with
VOLC Output LOW Voltage b1575 b1610 mV or VIL (Max) 25Xto b2.0V
VOLZ Cut-Off LOW Voltage b1900 b1950 mV OE eLOW, VIN eVIH (Min)
or VIL (Max)
VBB Output Reference Voltage b1395 b1255 b1380 b1260 mV IVBB eb
1mA
V
DIFF Input Voltage Differential 150 150 mV Required for Full Output Swing
VCM Common Mode Voltage VCC b2.0 VCC b0.5 VCC b2.0 VCC b0.5 V
VIH Single-Ended Guaranteed HIGH Signal for All
Input High Voltage b1115 b870 b1110 b870 mV Inputs (with one input tied to VBB)
VBB (Max) aVDIFF
VIL Single-Ended Guaranteed LOW Signal for All
Input Low Voltage b1830 b1535 b1830 b1530 mV Inputs (with one input tied to VBB)
VBB (Min) bVDIFF
IIL Input LOW Current 0.50 0.50 mAV
IN eVIL (Min)
IIH Input HIGH Current, DN240 240 mAVIN eVIH (Max),D
1eV
BB,
IIHZ Input HIGH Current, OE 360 360 D1eVIL (Min)
ICBO Input Leakage Current b10 b10 mAVIN eVEE,D
1eV
BB,
D1eVIL (Min)
IEE Power Supply Current, b85 b30 b85 b30 mA D1eVBB,D
1eV
IL (Min)
Normal
IEEZ Power Supply Current, b152 b75 b152 b75 mA D1–D4eVBB,D
1
–D4eVIL (Min),
Cut-Off OE eLOW
Note 3: The specified limits represent the ‘‘worst case’’ value for the parameter. Since these values normally occur at the temperature extremes, additional noise
immunity and guardbanding can be achieved by decreasing the allowable system operating ranges. Conditions for testing shown in the tables are chosen to
guarantee operation under ‘‘worst case’’ conditions.
PCC AC Electrical Characteristics
VEE eb
4.2V to b5.7V, VCC eVCCA eGND
Symbol Parameter TCeb
40§CT
C
ea
25§CT
C
ea
85§CUnits Conditions
Min Max Min Max Min Max
tPLH Propagation Delay 0.65 2.10 0.65 2.10 0.65 2.10 ns
tPHL Data to Output
tPZH Propagation Delay 1.80 4.00 1.80 4.00 1.80 4.00 ns
Figures 1
and
2
tPHZ OE to Output 1.20 2.90 1.20 2.90 1.20 2.90
tTLH Transition Time 0.45 1.50 0.45 1.50 0.45 1.50 ns
tTHL 20% to 80%, 80% to 20%
5
Military VersionÐPreliminary
DC Electrical Characteristics
VEE eb
4.2V to b5.7V, VCC eVCCA eGND (Note 3)
Symbol Parameter Min Typ Max Units TCConditions Notes
VOH Output HIGH b1025 b870 mV 0§Cto
or VIL (Min)
VIN eVIH (Max)
25Xto b2.0V
Loading with 1, 2, 3
Voltage a125§C
b1085 b870 mV b55§C
VOL Output LOW b1830 b1620 mV 0§Cto
Voltage a125§C
b1830 b1555 mV b55§C
VOHC Output HIGH b1035 mV 0§Cto
V
IN eVIH (Min)
or VIL (Max)
Loading with
25Xto b2.0V
Voltage a125§C
b1085 mV b55§C1, 2, 3
VOLC Output LOW b1610 mV 0§Cto
Voltage a125§C
b1555 mV b55§C
VOLZ Cut-Off LOW b1900 mV 0§Cto OE eLOW 1, 2, 3
Voltage a125§CVIN eVIH (Min) or VIL (Max)
b1950 mV b55§C
VBB Output Reference b1260 mV 0§Cto I
VBB e0mA, VEE e4.2V 1, 2, 3
Voltage a125§C
b1380 b1320 b1260 mV 0§Cto I
VBB eb
250 mA, VEE eb
5.7V
a125§C
1, 2, 3
b1396 mV b55§CI
VBB eb
350 mA, VEE eb
5.7V
VDIFF Input Voltage 150 mV b55§Cto Required for Full Output Swing 1, 2, 3
Differential a125§C
VCM Common Mode VCC b2.0 VCC b0.5 V b55§Cto 1, 2, 3
Voltage a125§C
VIH Single-Ended b1165 b870 mV b55§C to Guaranteed HIGH Signal for All 1, 2, 3, 4
Input High Voltage a125§C Inputs (with Dntied to VBB)
VIL Single-Ended b1830 b1475 mV b55§C to Guaranteed LOW Signal for All 1, 2, 3, 4
Input Low Voltage a125§C Inputs (with Dntied to VBB)
IIH Input HIGH 75 mA0§Cto V
IN eVIH (Max),D
1eV
BB,
Current, DNa125§CD1eVIL (Min)
1, 2, 3
95 mAb55§C
IIHZ Input HIGH 360 mAb55§Cto V
IN eVIH (Max),D
1eV
BB,1, 2, 3
Current, OE a125§CD
1
e
V
IL (Min)
ICBO Input Leakage b10 mAb55§Cto V
IN eVEE,D
1eV
BB,1, 2, 3
Current a125§CD
1
e
V
IL (Min)
IEE Power Supply b90 b30 mA b55§Cto D
1eV
BB,D
1eV
IL (Min) 1, 2, 3
Current, Normal a125§C
IEEZ Power Supply b180 b75 mA b55§Cto D
1
–D2eVBB,D
1
–D2eVIL (Min),1, 2, 3
Current, Cut-Off a125§COE
e
LOW
Note 1: F100K 300 Series cold temperature testing is performed by temperature soaking (to guarantee junction temperature equals b55§C), then testing
immediately without allowing for the junction temperature to stabilize due to heat dissipation after power-up. This provides ‘‘cold start’’ specs which can be
considered a worst case condition at cold temperatures.
Note 2: Screen tested 100% on each device at b55§C, a25§C, and a125§C, Subgroups 1, 2, 3, 7, and 8.
Note 3: Sample tested (Method 5005, Table I) on each manufactured lot at b55§C, a25§C, and a125§C, Subgroups A1, 2, 3, 7, and 8.
Note 4: Guaranteed by applying specified input condition and testing VOH/VOL.
6
Military VersionÐPreliminary (Continued)
AC Electrical Characteristics
VEE eb
4.2V to b5.7V, VCC eVCCA eGND
Symbol Parameter TCeb
55§CT
C
ea
25§CT
C
ea
125§CUnits Conditions Notes
Min Max Min Max Min Max
tPLH Propagation Delay 0.40 2.50 0.50 2.40 0.50 2.90 ns
Figures 1
and
2
1, 2, 3
tPHL Data to Output
tPZH Propagation Delay 0.70 4.20 0.70 4.20 0.70 4.20 ns
tPHZ OE to Output 0.70 3.20 0.70 3.20 0.70 3.20
tTLH Transition Time 0.20 1.70 0.20 1.70 0.20 1.50 ns 4
tTHL 20% to 80%, 80% to 20%
Note 1: F100K 300 Series cold temperature testing is performed by temperature soaking (to guarantee junction temperature equals b55§C), then testing
immediately after power-up. This provides ‘‘cold start’’ specs which can be considered a worst case condition at cold temperatures.
Note 2: Screen tested 100% on each device at a25§C temperature only, Subgroup A9.
Note 3: Sample tested (Method 5005, Table I) on each manufactured lot at a25§C, Subgroup A9, and at a125§C and b55§C temperatures, Subgroups A10 and
A11.
Note 4: Not tested at a25§C, a125§C and b55§C temperature (design characterization data).
Test Circuitry
TL/F/10922–6
FIGURE 1. AC Test Circuit
Notes:
VCC,V
CCA ea
2V, VEE eb
2.5V
L1 and L2 eequal length 50Ximpedance lines
RTe50Xterminator internal to scope
Decoupling 0.1 mF from GND to VCC and VEE
All unused outputs are loaded with 25Xto GND
CLeFixture and stray capacitance s3pF
Switching Waveforms
TL/F/10922–7
FIGURE 2. Propagation Delay, Cut-Off and Transition Times
7
Ordering Information
The device number is used to form part of a simplified purchasing code where a package type and temperature range are
defined as follows:
100316 D C QB
Device Number (Basic) Special Variation
QB eMilitary grade device with
Package Code environmental and burn-in
DeCeramic DIP processing
PePlastic DIP
QePlastic Leaded Chip Carrier (PCC) Temperature Range
CeCommercial (0§Ctoa
85§C)
IeIndustrial (b40§Ctoa
85§C)
(PCC Only)
MeMilitary (b55§Ctoa
125§C)
8
Physical Dimensions inches (millimeters)
24-Lead Ceramic Dual-In-Line Package (0.400×Wide) (D)
NS Package Number J24E
24-Lead Plastic Dual-In-Line Package (P)
NS Package Number N24E
9
100316 Low Power Quad Differential Line Driver with Cut-Off
Physical Dimensions inches (millimeters) (Continued)
28-Lead Plastic Chip Carrier (Q)
NS Package Number V28A
LIFE SUPPORT POLICY
NATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
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.
National Semiconductor National Semiconductor National Semiconductor National Semiconductor
Corporation Europe Hong Kong Ltd. Japan Ltd.
1111 West Bardin Road Fax: (
a
49) 0-180-530 85 86 13th Floor, Straight Block, Tel: 81-043-299-2309
Arlington, TX 76017 Email: cnjwge
@
tevm2.nsc.com Ocean Centre, 5 Canton Rd. Fax: 81-043-299-2408
Tel: 1(800) 272-9959 Deutsch Tel: (
a
49) 0-180-530 85 85 Tsimshatsui, Kowloon
Fax: 1(800) 737-7018 English Tel: (
a
49) 0-180-532 78 32 Hong Kong
Fran3ais Tel: (
a
49) 0-180-532 93 58 Tel: (852) 2737-1600
Italiano Tel: (
a
49) 0-180-534 16 80 Fax: (852) 2736-9960
National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.
