SR3.3.TCT - SEMTECH - Product.Network

1www.semtech.com

PROTECTION PRODUCTS

SR3.3

RailClamp





Low Capacitance TVS Diode Array

Description Features

Circuit Diagram Schematic & PIN Configuration

Revision 01/16/08

RailClamps are surge rated diode arrays designed to

protect high speed data interfaces. The SR series has

been specifically designed to protect sensitive compo-

nents which are connected to data and transmission

lines from overvoltage caused by electrostatic dis-

charge (ESD), electrical fast transients (EFT), and

tertiary lightning.

The unique design of the SR series devices incorpo-

rates four surge rated, low capacitance steering diodes

and a TVS diode in a single package. The TVS diode is

constructed using Semtech’s proprietary low voltage

EPD technology for superior electrical characteristics at

3.3 volts.

During transient conditions, the steering diodes direct

the transient to either the positive side of the power

supply line or to ground. The internal TVS diode pre-

vents over-voltage on the power line, protecting any

downstream components.

The low capacitance array configuration allows the user

to protect two high-speed data or transmission lines.

The low inductance construction minimizes voltage

overshoot during high current surges.

Applications

Mechanical Characteristics

Data and I/O lines

Sensitive Analog Inputs

Video Line Protection

Portable Electronics

Microcontroller Input Protection

WAN/LAN Equipment

ESD protection to

IEC 61000-4-2 (ESD) ±15kV (air), ±8kV (contact)

IEC 61000-4-4 (EFT) 40A (5/50ns)

Array of surge rated diodes with internal

EPD TVS diode

Protects two I/O lines

Low capacitance (<10pF) for high-speed interfaces

Low leakage current (< 1µA)

Low operating voltage: 3.3V

Solid-state technology

JEDEC SOT-143 package

Molding compound flammability rating: UL 94V-0

Marking : R3.3

Packaging : Tape and Reel

Pin 4

Pin 2 Pin 3

Pin 1

2 3

SOT-143 (Top View)

2 2008 Semtech Corp. www.semtech.com

PROTECTION PRODUCTS

SR3.3

Absolute Maximum Rating

Electrical Characteristics

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3 2008 Semtech Corp. www.semtech.com

PROTECTION PRODUCTS

SR3.3

Typical Characteristics

Non-Repetitive Peak Pulse Power vs. Pulse Time Power Derating Curve

100

110

0255075100125150

Ambient Temperature - TA (oC)

% of Rated Power or I

Clamping Voltage vs. Peak Pulse Current

100

110

0 5 10 15 20 25 30

Time (µs)

Percent of IPP

e-t

td = IPP/2

Waveform

Parameters:

tr = 8µs

td = 20µs

Pulse Waveform

024681012

Peak Pulse Current - IPP (A)

Clamping Voltage - VC (V)

Line-To-Ground

Line-To-Line

Waveform

Parameters:

tr = 8µs

td = 20µs

Forward Voltage vs. Forward Current

0 5 10 15 20 25 30 35 40 45 50

Forward Current - IF (A)

Forward Voltage - VF (V)

Waveform

Parameters:

tr = 8µs

td = 20µs

0.01

0.1

0.1 1 10 100 1000

Pulse Duration - tp (µs)

Peak Pulse Power - PPk (kW)

4 2008 Semtech Corp. www.semtech.com

PROTECTION PRODUCTS

SR3.3

Data Line PrData Line Pr

Data Line Proo

ott

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ection Using Intection Using Int

ection Using Internal Ternal T

ernal Ternal T

ernal TVV

VS DiodeS Diode

S DiodeS Diode

S Diode

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IPP

ISB

IPT

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VBRR

IBRR

Figure 1 - EPD TVS IV Characteristic Curve

Device Connection Options for Protection ofDevice Connection Options for Protection of

Device Connection Options for Protection of

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o High-Speed Data Lineso High-Speed Data Lines

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The SR3.3 TVS 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 nega-

tive 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:

Note that pins 4 is connected internally to the cathode

of the low voltage TVS. It is not recommended that this

pin be directly connected to a DC source greater than

the snap-back votlage (VSB) as the device can latch on

as described below.

EPD TVS Characteristics

These devices are constructed using Semtech’s

proprietary EPD technology. By utilizing the EPD tech-

nology, the SR3.3 can effectively operate at 3.3V while

maintaining excellent electrical characteristics.

The EPD TVS employs a complex nppn structure in

contrast to the pn structure normally found in tradi-

tional silicon-avalanche TVS diodes. Since the EPD

TVS devices use a 4-layer structure, they exhibit a

slightly different IV characteristic curve when compared

to conventional devices. During normal operation, the

device represents a high-impedance to the circuit up to

the device working voltage (VRWM). During an ESD

event, the device will begin to conduct and will enter a

low impedance state when the punch through voltage

(VPT) is exceeded. Unlike a conventional device, the low

voltage TVS will exhibit a slight negative resistance

characteristic as it conducts current. This characteris-

tic aids in lowering the clamping voltage of the device,

but must be considered in applications where DC

voltages are present.

When the TVS is conducting current, it will exhibit a

slight “snap-back” or negative resistance

characteristics due to its structure. This point is

defined on the curve by the snap-back voltage (VSB)

and snap-back current (ISB). To return to a non-

conducting state, the current through the device must

fall below the ISB (approximately <50mA) and the

voltage must fall below the VSB (normally 2.8 volts for a

3.3V device). If a 3.3V TVS is connected to 3.3V DC

source, it will never fall below the snap-back voltage of

2.8V and will therefore stay in a conducting state.

Applications Information

5 2008 Semtech Corp. www.semtech.com

PROTECTION PRODUCTS

SR3.3

PIN Descriptions

Applications Information (continued)

Board Layout Considerations for ESD ProtectionBoard Layout Considerations for ESD Protection

Board Layout Considerations for ESD Protection

Board layout plays an important role in the suppression

of extremely fast rise-time ESD transients. Recall that

the voltage developed across an inductive load is

proportional to the time rate of change of current

through the load (V = L di/dt). The total clamping

voltage seen by the protected load will be the sum of

the TVS clamping voltage and the voltage due to the

parasitic inductance (VC(TOT) = VC + L di/dt) .

Parasitic

inductance in the protection path can result in signifi-

cant voltage overshoot, reducing the effectiveness of

the suppression circuit.

An ESD induced transient for

example reaches a peak in approximately 1ns. For a

30A pulse (per IEC 61000-4-2 Level 4), 1nH of series

inductance will increase the effective clamping voltage

by 30V

(V = 1x10-9 (30/1x10-9)). For maximum effectiveness,

the following board layout guidelines are recom-

mended:

zMinimize the path length between the SR3.3 and

the protected line.

zPlace the SR3.3 near the RJ45 connector to

restrict transient coupling in nearby traces.

zMinimize the path length (inductance) between the

RJ45 connector and the SR3.3.

Matte Tin Lead Finish

Matte tin has become the industry standard lead-free

replacement for SnPb lead finishes. A matte tin finish

is composed of 100% tin solder with large grains.

Since the solder volume on the leads is small com-

pared to the solder paste volume that is placed on the

land pattern of the PCB, the reflow profile will be

determined by the requirements of the solder paste.

Therefore, these devices are compatible with both

lead-free and SnPb assembly techniques. In addition,

unlike other lead-free compositions, matte tin does not

have any added alloys that can cause degradation of

the solder joint.

6 2008 Semtech Corp. www.semtech.com

PROTECTION PRODUCTS

SR3.3

Outline Drawing - SOT-143

Land Pattern - SOT-143

e/2

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bbb C A B

aaa C A B

CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES).

NOTES:

OR GATE BURRS.

DIMENSIONS "E1" AND "D" DO NOT INCLUDE MOLD FLASH, PROTRUSIONS

DATUMS AND TO BE DETERMINED AT DATUM PLANE

REFERENCE JEDEC STD TO-253, VARIATION D.4.

-A- -B-

2. -H-

SIDE VIEW SEE DETAIL A

0.25

SEATING

PLANE

GAUGE

PLANE 0c

DETAIL A

SEATING PLANE

ccc C

INCHES

.114

.011

.003

.082

DIM

MIN

.000

.031

0.51

0.20

2.64

0.30

0.08

2.10

(.021)

.075

.093

.020

.008

.104

(0.54)

1.92 BSC

2.37

2.90

MILLIMETERS

MAX

0.15

1.22

MIN

DIMENSIONS

0.013

MAXNOM

-.006

.048

NOM

0.80

3.042.80.110 .120

e1 .008 0.20 BSC

L .015 .020 0.500.40.024 0.60

A2 .029 .035 0.900.75.042 1.07

E1 .051 1.30

0.940.76.037.029

1.401.20

N4 4

0-8°0°8°0° -

.055.047

aaa .006 0.15

bbb .008 0.20

ccc .004 0.10

REFERENCE IPC-SM-782A.2.

NOTES:

1. THIS LAND PATTERN IS FOR REFERENCE PURPOSES ONLY

CONSULT YOUR MANUFACTURING GROUP TO ENSURE YOUR

COMPANY'S MANUFACTURING GUIDELINES ARE MET.

DIM

MILLIMETERSINCHES

(2.20)

.055

.141

.076

.039

.031

.068

(.087)

1.40

3.60

1.72

1.00

0.80

1.92

DIMENSIONS

X2 .047 1.20

X1 X1

7 2008 Semtech Corp. www.semtech.com

PROTECTION PRODUCTS

SR3.3

Contact Information

Semtech Corporation

Protection Products Division

200 Flynn Road, Camarillo, CA 93012

Phone: (805)498-2111 FAX (805)498-3804

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Marking Codes

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Ordering Information