SEMTECH SR70

SR70
RailClamp
Low Capacitance TVS Diode Array
PROTECTION PRODUCTS
Description
Features
RailClamps are surge rated diode arrays designed to
protect high speed data interfaces. The SR70 has
been specifically designed to protect sensitive components which are connected to data and transmission
lines from over-voltages caused by ESD (electrostatic
discharge), EFT (electrical fast transients), and lightning. The SR70 has been optimized for use on ADSL
and other high-speed interfaces.
The unique design of the SR70 integrates four surge
rated, low capacitance steering diodes in a low profile
SOT-143 package. It has a typical capacitance of only
5pF and may be used to protect two high-speed lines
without sacrificing signal integrity. The SR70 is designed to replace “standard” rectifiers that are not
rated for the high energy surges that are normally
expected in telecommunications applications.
During transient conditions, the steering diodes direct
the transient to either the positive side of the power
supply line or to ground. The maximum clamping
voltage seen by the protected circuit will be one diode
drop (VF) above the supply (reference) voltage. The
SR70 may be used as a stand alone device or in
conjunction with TVS diodes for enhanced protection.
‹ Transient protection for high speed data lines to
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IEC 61000-4-2 (ESD) ±15kV (air), ±8kV (contact)
IEC 61000-4-4 (EFT) 40A (5/50ns)
IEC 61000-4-5 (Lightning) 1kV, 24A (8/20µs)
Array of surge rated, low capacitance diodes
Protects two I/O lines
Low capacitance (5pF typical) for high-speed
interfaces
Low clamping voltage
Solid-state silicon-avalanche technology
Mechanical Characteristics
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JEDEC SOT-143 package
UL 497B listed
Molding compound flammability rating: UL 94V-0
Marking : R70
Packaging : Tape and Reel per EIA 481
Applications
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Circuit Diagram
ADSL Lines
I2C Bus Protection
Video Line Protection
T1/E1 secondary IC Side Protection
Portable Electronics
Microcontroller Input Protection
WAN/LAN Equipment
ISDN S/T Interface
Schematic & PIN Configuration
Pin 4
1
Pin 2
4
Pin 3
2
3
Pin 1
SOT-143 (Top View)
Revision 04/18/03
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SR70
PROTECTION PRODUCTS
Absolute Maximum Rating
R ating
Symbol
Value
Units
IP P
24
A
Rectifier Repetitive Peak Reverse Voltage
V RRM
70
V
ESD per IEC 61000-4-2 (Air)
ESD per IEC 61000-4-2 (Contact)
VESD
15
8
kV
Lead Soldering Temperature
TL
260 (10 sec.)
°C
Operating Temperature
TJ
-55 to +125
°C
TSTG
-55 to +150
°C
Peak Pulse Current (tp = 8/20µs)
Storage Temperature
Electrical Characteristics (T=25oC)
SR70
Parameter
Symbol
Conditions
Minimum
Typical
Maximum
Units
70
V
Peak Reverse Stand-Of f Voltage
VRRM
Reverse Breakdown Voltage
VBR
It = 50µA
Reverse Leakage Current
IR
VRWM = 70V, T=25°C
5
µA
Forward Clamping Voltage
VFC
IPP = 1A, tp = 8/20µs
1.5
V
Forward Clamping Voltage
VFC
IPP = 10A, tp = 8/20µs
3.3
V
Forward Clamping Voltage
VFC
IPP = 24A, tp = 8/20µs
7
V
Junction Capacitance
Cj
Between I/O pins and
Ground
VR = 0V, f = 1MHz
5
10
pF
Between I/O pins
VR = 0V, f = 1MHz
3
 2003 Semtech Corp.
2
85
V
pF
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SR70
PROTECTION PRODUCTS
Typical Characteristics
Non-Repetitive Peak Pulse Power vs. Pulse Time
Power Derating Curve
10
110
% of Rated Power or PI P
Peak Pulse Power - PPk (kW)
100
1
0.1
90
80
70
60
50
40
30
20
10
0
0.01
0.1
1
10
100
0
1000
25
Pulse Waveform
Percent of IPP
80
-t
50
40
125
150
I/O to GND
f = 1MHz
-2
% Change in Capacitance
90
e
100
0
Waveform
Parameters:
tr = 8µs
td = 20µs
100
60
75
Capacitance vs. Reverse Voltage
110
70
50
Ambient Temperature - TA (oC)
Pulse Duration - tp (µs)
td = IPP/2
30
20
-4
-6
-8
-10
-12
-14
10
-16
0
0
5
10
15
20
25
0
30
1
2
3
4
5
6
Reverse Voltage - VR (V)
Time (µs)
Forward Voltage vs. Forward Current
10
Forward Voltage - V F (V)
9
8
7
6
5
4
3
Waveform
Parameters:
tr = 8µs
td = 20µs
2
1
0
0
5
10
15
20
25
30
35
40
45
50
Forward Current - IF (A)
 2003 Semtech Corp.
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SR70
PROTECTION PRODUCTS
Applications Information
SR70 Pin Configuration
Device Connection Options for Protection of Two
High-Speed Data Lines
The SR70 is designed to protect two data lines from
transient over-voltages by clamping them to a fixed
reference. When the voltage on the protected line
exceeds the reference voltage (plus diode VF) the
steering diodes are forward biased, conducting the
transient current away from the sensitive circuitry.
Data lines are connected at pins 2 and 3. The negative reference (REF1) is connected at pin 1. This pin
should be connected directly to a ground plane on the
board for best results. The path length is kept as short
as possible to minimize parasitic inductance.
The positive reference (REF2) is connected at pin 4.
The options for connecting the positive reference are
as follows:
1
2
1. To protect data lines and the power line, connect
pins 2 and 3 directly to the positive supply rail (VCC).
In this configuration the data lines are referenced
to the supply voltage. An external TVS diode may
be added between the supply rail and ground in
order to prevent over-voltage on the supply rail.
2. In applications where no positive supply reference
is available, or complete supply isolation is desired,
an external TVS diode may be used as the reference. The steering diodes will begin to conduct
when the voltage on the protected line exceeds the
working voltage of the TVS (plus one diode drop).
 2003 Semtech Corp.
4
3
Data Line and Power Supply Protection Using Vcc as
reference
4
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SR70
PROTECTION PRODUCTS
Outline Drawing
Notes:
(1) Controlling dimension: Inch (unless otherwise specified).
(2) Dimension A and B do not include mold protrusions. Mold protrusions are .006” max.
Land Pattern
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SR70
PROTECTION PRODUCTS
Marking Codes
Part Number
Marking
Code
SR70
R70
R70
SR70 Marking (Top View)
Ordering Information
Par t
Number
Qty per
Reel
R eel Size
SR70.TC
3,000
7 Inch
SR70.TG
10,000
13 Inch
Contact Information
Semtech Corporation
Protection Products Division
200 Flynn Rd., Camarillo, CA 93012
Phone: (805)498-2111 FAX (805)498-3804
 2003 Semtech Corp.
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