SN75LVDS31, SN75LVDS9638
HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
D
D
D
D
D
D
D
Meets or Exceeds the Requirements of
ANSI TIA/EIA-644 Standard
Low-Voltage Differential Signaling With
Typical Output Voltage of 350 mV and a
100-Ω Load
Signaling Rates up to 155 Mbps
Operates From a Single 3.3-V Supply
Driver at High Impedance When Disabled or
With VCC = 0
Low-Voltage TTL (LVTTL) Logic Input
Levels
Characterized For Operation From
0°C to 70°C
SN75LVDS31D (Marked as 75LVDS31)
SN75LVDS31PW (Marked as DS31)
(TOP VIEW)
1A
1Y
1Z
G
2Z
2Y
2A
GND
1
16
2
15
3
14
4
13
5
12
6
11
7
10
8
9
VCC
4A
4Y
4Z
G
3Z
3Y
3A
SN75LVDS9638D (Marked as DF638 or 7L9638)
SN75LVDS9638DGK (Marked as AXK)
(TOP VIEW)
description
The SN75LVDS31 and SN75LVDS9638 are
VCC 1
8 1Y
differential line drivers that implement the
1A 2
7 1Z
electrical characteristics of low-voltage differential
2A 3
6 2Y
signaling (LVDS). This signaling technique lowers
5 2Z
GND 4
the output voltage levels of 5-V differential
standard levels (such as TIA/EIA-422B) to reduce
the power, increase the switching speeds, and allow operation with a 3.3-V supply rail. Any of the four
current-mode drivers will deliver a minimum differential output voltage magnitude of 247 mV into a 100-Ω load
when enabled.
The intended application of these devices and signaling technique is for point-to-point baseband data
transmission over controlled impedance media of approximately 100 Ω. The transmission media may be
printed-circuit board traces, backplanes, or cables. The ultimate rate and distance of data transfer is dependent
upon the attenuation characteristics of the media and the noise coupling to the environment.
The SN75LVDS31 and SN75LVDS9638 are characterized for operation from 0°C to 70°C.
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
Copyright 2001, Texas Instruments Incorporated
PRODUCTION DATA information is current as of publication date.
Products conform to specifications per the terms of Texas Instruments
standard warranty. Production processing does not necessarily include
testing of all parameters.
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�SN75LVDS31, SN75LVDS9638
HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
logic symbol†
’LVDS31 logic diagram (positive logic)
SN75LVDS31
G
G
1A
2A
3A
4A
≥1
4
12
4
G
EN
12
G
1A
2
1
1Y
3
1Z
6
7
2Z
10
9
6
5
10
9
3A
11
3Y
11
3Z
14
15
3
7
2A
2Y
5
2
1
14
15
4A
13
4Y
13
1Y
1Z
2Y
2Z
3Y
3Z
4Y
4Z
4Z
† This symbol is in accordance with ANSI/IEEE Std 91-1984 and IEC
Publication 617-12.
logic symbol†
’LVDS9638 logic diagram (positive logic)
SN75LVDS9638
1A
2A
2
3
8
7
6
5
1Y
1A
8
7
1Y
1Z
1Z
2Y
2A
2Z
† This symbol is in accordance with ANSI/IEEE Std 91-1984 and IEC
Publication 617-12.
2
2
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3
6
5
2Y
2Z
�SN75LVDS31, SN75LVDS9638
HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
Function Tables
SN75LVDS31
INPUT
A
ENABLES
OUTPUTS
G
G
Y
H
H
X
H
L
L
H
X
L
H
H
X
L
H
L
L
X
L
L
H
X
L
H
Z
Z
Open
H
X
L
H
Open
X
L
L
H
H = high level, L = low level,
Z = high impedance (off)
Z
X = irrelevant,
SN75LVDS9638
OUTPUTS
INPUT
A
Y
Z
H
H
L
L
L
H
OPEN
L
H
H = high level,
L = low level
equivalent input and output schematic diagrams
EQUIVALENT OF EACH A INPUT
EQUIVALENT OF G, G INPUTS
VCC
VCC
50 Ω
TYPICAL OF ALL OUTPUTS
VCC
50 Ω
Input
Input
7V
10 kΩ
7V
300 kΩ
5Ω
Y or Z
Output
7V
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HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
absolute maximum ratings over operating free-air temperature range (unless otherwise noted)†
Supply voltage range, VCC (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –0.5 V to 4 V
Input voltage range: Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –0.5 V to VCC + 0.5 V
Y or Z . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –0.5 V to 4 V
Continuous total power dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Dissipation Rating Table
Storage temperature range, Tstg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . – 65_C to 150°C
Lead temperature 1,6 mm (1/16 inch) from case for 10 seconds . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 260°C
† Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and
functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not
implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
NOTE 1: All voltages, except differential I/O bus voltages, are with respect to the network ground terminal.
DISSIPATION RATING TABLE
PACKAGE
TA ≤ 25°C
POWER RATING
DERATING FACTOR‡
ABOVE TA = 25°C
TA = 70°C
POWER RATING
D (8)
725 mW
5.8 mW/°C
464 mW
D (16)
950 mW
7.6 mW/°C
608 mW
PW
774 mW
6.2 mW/°C
496 mW
DGK
425 mW
3.4 mW/°C
272 mW
‡ This is the inverse of the junction-to-ambient thermal resistance when board-mounted and with
no air flow.
recommended operating conditions
MIN
NOM
MAX
Supply voltage, VCC
3
3.3
3.6
High-level input voltage, VIH
2
Low-level input voltage, VIL
Operating free-air temperature, TA
4
0
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UNIT
V
V
0.8
V
70
°C
�SN75LVDS31, SN75LVDS9638
HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
electrical characteristics over recommended operating conditions (unless otherwise noted)
PARAMETER
TEST CONDITIONS
VOD
Differential output voltage magnitude
∆VOD
Change in differential output voltage magnitude
between logic states
∆VOC(SS)
Change in steady-state common-mode output voltage
between logic states
VOC(SS)
VOC(PP)
Steady-state common-mode output voltage
Su
ly current
Supply
SN75LVDS9638
IIH
IIL
247
RL = 100 Ω,
See Figure 2
High-level input current
IOS
Short circuit output current
Short-circuit
IOZ
IO(OFF)
High-impedance output current
454
mV
50
mV
1.375
V
50
mV
50
150
mV
9
20
mA
25
35
mA
1
mA
VI = 0.8 V or 2 V,
No load
Enabled,
VI = 0.8 or 2 V,
Enabled
RL = 100 Ω,
VI = 0 or VCC,
Disabled
0.25
No load
4.7
8
mA
9
13
mA
4
20
µA
0 8 V or 2 V
VI = 0.8
RL = 100 Ω
VO(Y) or VO(Z) = 0
VOD = 0
VO = 0 or 2.4 V
VCC = 0,
Power-off output current
UNIT
1.2
– 50
VIH = 2
VIL = 0.8 V
Low-level input current
340
– 50
1.125
S Fi
See
Figure 3
Peak-to-peak common-mode output voltage
SN75LVDS31
ICC
SN75LVDS31,
SN75LVDS9638
MIN TYP†
MAX
0.1
10
µA
–4
– 24
mA
± 12
mA
±1
µA
±1
µA
VO = 2.4 V
Input capacitance
CI
† All typical values are at TA = 25°C and with VCC = 3.3 V.
3
pF
switching characteristics over recommended operating conditions (unless otherwise noted)
PARAMETER
TEST CONDITIONS
SN75LVDS31,
SN75LVDS9638
MIN TYP†
MAX
UNIT
tpLH
tpHL
Propagation delay time, low-to-high-level output
6
ns
Propagation delay time, high-to-low-level output
6
ns
tr
tf
Differential output signal rise time (20% to 80%)
0.5
1.2
ns
0.5
1.2
ns
0.6
ns
Channel-to-channel output skew§
Part-to-part skew¶
0.6
ns
1
ps
Propagation delay time, high-impedance-to-high-level output
25
ns
25
ns
25
ns
tsk(p)
tsk(o)
tsk(pp)
tpZH
tpZL
tpHZ
Differential output signal fall time (80% to 20%)
Pulse skew (|tPHL – tPLH|)‡
Propagation delay time, high-impedance-to-low-level output
Propagation delay time, high-level-to-high-impedance output
RL = 100 Ω,
Ω
See Figure 2
See Figure 4
CL = 10 pF,
F
tpLZ
Propagation delay time, low-level-to-high-impedance output
25
ns
† All typical values are at TA = 25°C and with VCC = 3.3 V.
‡ tsk(p) is the magnitude of the time difference between the high-to-low and low-to-high propagation delay times at an output.
§ tsk(o) is the magnitude of the time difference between the outputs of a single device with all of their inputs connected together.
¶ tsk(pp) is the magnitude of the difference in propagation delay times between any specified terminals of two devices when both devices operate
with the same supply voltages, same temperature, and have identical packages and test circuits.
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HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
PARAMETER MEASUREMENT INFORMATION
IOY
Y
II
A
Z
VOD
IOZ
VOY
VI
VOC
VOZ
(VOY + VOZ)/2
Figure 1. Voltage and Current Definitions
2V
1.4 V
0.8 V
Input
tPLH
Y
Input
(see Note A)
VOD
Z
tPHL
100 ± 1 %
100%
80%
VOD
CL = 10 pF
(2 Places)
(see Note B)
0
20%
0%
tf
tr
NOTES: A. All input pulses are supplied by a generator having the following characteristics: tr or tf ≤ 1 ns, pulse repetition rate (PRR) = 50 Mpps,
pulse width = 10 ± 0.2 ns.
B. CL includes instrumentation and fixture capacitance within 6 mm of the D.U.T.
Figure 2. Test Circuit, Timing, and Voltage Definitions for the Differential Output Signal
Y
Input
(see Note A)
49.9 Ω ± 1% (2 Places)
3V
A
A
VOC(PP)
(see Note C)
Z
VOC
CL = 10 pF
(2 Places)
(see Note B)
0
VOC(SS)
VOC
NOTES: A. All input pulses are supplied by a generator having the following characteristics: tr or tf ≤ 1 ns, pulse repetition rate (PRR) = 50 Mpps,
pulse width = 10 ± 0.2 ns.
B. CL includes instrumentation and fixture capacitance within 6 mm of the D.U.T.
C. The measurement of VOC(PP) is made on test equipment with a –3 dB bandwidth of at least 300 MHz.
Figure 3. Test Circuit and Definitions for the Driver Common-Mode Output Voltage
6
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HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
PARAMETER MEASUREMENT INFORMATION
49.9 Ω ± 1% (2 Places)
Y
Inputs
(see Note A)
0.8 V or 2 V
Z
1.2 V
G
G
CL = 10 pF
(2 Places)
(see Note B)
VOZ
2V
1.4 V
0.8 V
G
2V
1.4 V
0.8 V
G
VOY
or
VOZ
VOY
tPZH
tPHZ
100%, ≅ 1.4 V A at 2 V, G at VCC and Input to G
or
50%
G at GND and Input to G for ’LVDS31 only
0%, 1.2 V
tPZL
tPLZ
A at 0.8 V, G at VCC and Input to G
100%, 1.2 V
VOZ
or
50%
or
G at GND and Input to G for ’LVDS31 only
0%, ≅ 1 V
VOY
NOTES: A. All input pulses are supplied by a generator having the following characteristics: tr or tf < 1 ns, pulse repetition rate (PRR) = 0.5 Mpps,
pulse width = 500 ± 10 ns.
B. CL includes instrumentation and fixture capacitance within 6 mm of the D.U.T.
Figure 4. Enable and Disable Time Circuit and Definitions
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HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
APPLICATIONS INFORMATION
1
2
ZO = 100 Ω
3
VCC
4
5
1A
VCC
1Y
4A
1Z
4Y
G
4Z
2Z
G
16
15
3.3 V
0.1 µF
(see Note A)
0.001 µF
(see Note A)
14
ZO = 100 Ω
13
12
See Note B
ZO = 100 Ω
6
7
8
2Y
3Z
2A
3Y
GND
3A
11
10
ZO = 100 Ω
9
NOTES: A. Place a 0.1 µF and a 0.001 µF Z5U ceramic, mica or polystyrene dielectric, 0805 size, chip capacitor between VCC and the ground
plane. The capacitors should be located as close as possible to the device terminals.
B. Unused enable inputs should be tied to VCC or GND as appropriate.
Figure 5. Typical Application Circuit Schematic
8
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HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
APPLICATIONS INFORMATION
1/4 ’LVDS31
Strb/Data_TX
TpBias on
Twisted-Pair A
Strb/Data_Enable
TP
55 Ω
’LVDS32
5 kΩ
Data/Strobe
55 Ω
3.3 V
TP
20 kΩ
500 Ω
VG on
Twisted-Pair B
1 Arb_RX
500 Ω
20 kΩ
3.3 V
20 kΩ
500 Ω
2 Arb_RX
500 Ω
20 kΩ
3.3 V
7 kΩ
Twisted-Pair B Only
7 kΩ
10 kΩ
Port_Status
3.3 kΩ
NOTES: A.
B.
C.
D.
Resistors are leadless thick-film (0603) 5% tolerance.
Decoupling capacitance is not shown but recommended.
VCC is 3 V to 3.6 V.
The differential output voltage of the ’LVDS31 can exceed that specified by IEEE1394.
Figure 6. 100 Mbps IEEE1394 Transceiver
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�SN75LVDS31, SN75LVDS9638
HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
APPLICATIONS INFORMATION
0.01 µF
1
1A
VCC
16
≈3.6 V
5V
0.1 µF
(see Note A)
2
ZO = 100 Ω
3
VCC
4
5
1Y
4A
1Z
4Y
G
4Z
2Z
G
1N645
(2 places)
15
14
ZO = 100 Ω
13
12
See Note B
ZO = 100 Ω
6
7
8
2Y
3Z
2A
3Y
GND
3A
11
10
ZO = 100 Ω
9
NOTE A: Place a 0.1 µF Z5U ceramic, mica or polystyrene dielectric, 0805 size, chip capacitor between VCC and the ground plane. The capacitor
should be located as close as possible to the device terminals.
Figure 7. Operation With a 5-V Supply
related information
IBIS modeling is available for this device. Please contact the local TI sales office or the TI Web site at www.ti.com
for more information.
For more application guidelines, please see the following documents:
D
D
D
D
D
D
10
Low-Voltage Differential Signalling Design Notes (TI literature number SLLA014)
Interface Circuits for TIA/EIA-644 (LVDS) (TI literature number SLLA038)
Reducing EMI With LVDS (TI literature number SLLA030)
Slew Rate Control of LVDS Circuits (TI literature number SLLA034)
Using an LVDS Receiver With RS-422 Data (TI literature number SLLA031)
Evaluating the LVDS EVM (TI literature number SLLA033)
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HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
MECHANICAL INFORMATION
D (R-PDSO-G**)
PLASTIC SMALL-OUTLINE PACKAGE
14 PIN SHOWN
0.050 (1,27)
0.020 (0,51)
0.014 (0,35)
14
0.010 (0,25) M
8
0.008 (0,20) NOM
0.244 (6,20)
0.228 (5,80)
0.157 (4,00)
0.150 (3,81)
Gage Plane
0.010 (0,25)
1
7
0°– 8°
A
0.044 (1,12)
0.016 (0,40)
Seating Plane
0.069 (1,75) MAX
0.010 (0,25)
0.004 (0,10)
PINS **
0.004 (0,10)
8
14
16
A MAX
0.197
(5,00)
0.344
(8,75)
0.394
(10,00)
A MIN
0.189
(4,80)
0.337
(8,55)
0.386
(9,80)
DIM
4040047 / D 10/96
NOTES: A.
B.
C.
D.
All linear dimensions are in inches (millimeters).
This drawing is subject to change without notice.
Body dimensions do not include mold flash or protrusion, not to exceed 0.006 (0,15).
Falls within JEDEC MS-012
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�SN75LVDS31, SN75LVDS9638
HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
MECHANICAL INFORMATION
DGK (R-PDSO-G8)
PLASTIC SMALL-OUTLINE PACKAGE
0,38
0,25
0,65
8
0,25 M
5
0,15 NOM
3,05
2,95
4,98
4,78
Gage Plane
0,25
1
0°– 6°
4
3,05
2,95
0,69
0,41
Seating Plane
1,07 MAX
0,15
0,05
0,10
4073329/B 04/98
NOTES: A.
B.
C.
D.
12
All linear dimensions are in millimeters.
This drawing is subject to change without notice.
Body dimensions do not include mold flash or protrusion.
Falls within JEDEC MO-187
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HIGH-SPEED DIFFERENTIAL LINE DRIVERS
SLLS359C – JUNE 1999 – REVISED JUNE 2001
MECHANICAL INFORMATION
PW (R-PDSO-G**)
PLASTIC SMALL-OUTLINE PACKAGE
14 PINS SHOWN
0,30
0,19
0,65
14
0,10 M
8
0,15 NOM
4,50
4,30
6,60
6,20
Gage Plane
0,25
1
7
0°– 8°
A
0,75
0,50
Seating Plane
0,15
0,05
1,20 MAX
PINS **
0,10
8
14
16
20
24
28
A MAX
3,10
5,10
5,10
6,60
7,90
9,80
A MIN
2,90
4,90
4,90
6,40
7,70
9,60
DIM
4040064/F 01/97
NOTES: A.
B.
C.
D.
All linear dimensions are in millimeters.
This drawing is subject to change without notice.
Body dimensions do not include mold flash or protrusion not to exceed 0,15.
Falls within JEDEC MO-153
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�PACKAGE OPTION ADDENDUM
www.ti.com
10-Dec-2020
PACKAGING INFORMATION
Orderable Device
Status
(1)
Package Type Package Pins Package
Drawing
Qty
Eco Plan
(2)
Lead finish/
Ball material
MSL Peak Temp
Op Temp (°C)
Device Marking
(3)
(4/5)
(6)
SN75LVDS31D
ACTIVE
SOIC
D
16
40
RoHS & Green
NIPDAU
Level-1-260C-UNLIM
0 to 70
75LVDS31
SN75LVDS31DR
ACTIVE
SOIC
D
16
2500
RoHS & Green
NIPDAU
Level-1-260C-UNLIM
0 to 70
75LVDS31
SN75LVDS31PW
ACTIVE
TSSOP
PW
16
90
RoHS & Green
NIPDAU
Level-1-260C-UNLIM
0 to 70
DS31
SN75LVDS9638D
ACTIVE
SOIC
D
8
75
RoHS & Green
NIPDAU
Level-1-260C-UNLIM
0 to 70
DF638
SN75LVDS9638DGK
ACTIVE
VSSOP
DGK
8
80
RoHS & Green
NIPDAU
Level-1-260C-UNLIM
0 to 70
AXK
(1)
The marketing status values are defined as follows:
ACTIVE: Product device recommended for new designs.
LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.
NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.
PREVIEW: Device has been announced but is not in production. Samples may or may not be available.
OBSOLETE: TI has discontinued the production of the device.
(2)
RoHS: TI defines "RoHS" to mean semiconductor products that are compliant with the current EU RoHS requirements for all 10 RoHS substances, including the requirement that RoHS substance
do not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, "RoHS" products are suitable for use in specified lead-free processes. TI may
reference these types of products as "Pb-Free".
RoHS Exempt: TI defines "RoHS Exempt" to mean products that contain lead but are compliant with EU RoHS pursuant to a specific EU RoHS exemption.
Green: TI defines "Green" to mean the content of Chlorine (Cl) and Bromine (Br) based flame retardants meet JS709B low halogen requirements of
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