SRDA05-4.TBT Semtech, SRDA05-4.TBT Datasheet - Page 7

SRDA05-4.TBT

Manufacturer Part Number

SRDA05-4.TBT

Description

IC TVS ARRAY 4-LINE 5V 8SOIC

Manufacturer

Semtech

Series

RailClamp®r

Datasheet

1.SRDA05-4.TBT.pdf (11 pages)

Specifications of SRDA05-4.TBT

Voltage - Reverse Standoff (typ)

3.3V

Voltage - Breakdown

Polarization

4 Channel Array - Unidirectional

Mounting Type

Surface Mount

Package / Case

8-SOIC

Number Of Elements

Polarity

Uni-Directional

Operating Temperature Classification

Military

Reverse Breakdown Voltage

Clamping Voltage

15V

Reverse Stand-off Voltage

Leakage Current (max)

10uA

Peak Pulse Current

25A

Peak Pulse Power Dissipation

500W

Test Current (it)

1mA

Operating Temp Range

-55C to 125C

Mounting

Surface Mount

Pin Count

Diode Type

Low Capacitance

Clamping Voltage Vc Max

20V

Operating Voltage

1.5V

Diode Case Style

SOIC

No. Of Pins

Peak Pulse Power Ppk @ 8x20us

500W

Capacitance, Cd

4pF

Breakdown Voltage Vbr

Rohs Compliant

Yes

No. Of Lines Protected Max

Leaded Process Compatible

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power (watts)

Lead Free Status / Rohs Status

Compliant

Other names

SRDA05-4TR

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the power supply connection. During an ESD event,

the current will be directed through the integrated TVS

diode to ground. The total clamping voltage seen by

the protected IC due to this path will be:

This is given in the data sheet as the rated clamping

voltage of the device. For an SRDA05-4 the typical

clamping voltage is <16V at I

internal to the RailClamp are low capacitance, fast

switching devices that are rated to handle high tran-

sient currents and maintain excellent forward voltage

characteristics.

Using the RailClamp does not negate the need for good

board layout. All other inductive paths must be consid-

ered. The connection between the positive supply and

the SRDA and from the ground plane to the SRDA

must be kept as short as possible. The path between

the SRDA and the protected line must also be mini-

mized. The protected lines should be routed directly to

the SRDA. Placement of the SRDA on the PC board is

also critical for effective ESD protection. The device

should be placed as close as possible to the input

connector. The reason for this is twofold. First,

inductance resists change in current flow. If a signifi-

cant inductance exists between the connector and the

TVS, the ESD current will be directed elsewhere (lower

resistance path) in the system. Second, the effects of

radiated emissions and transient coupling can cause

upset to other areas of the board even if there is no

direct path to the connector. By placing the TVS close

to the connector it will divert the ESD current immedi-

ately and absorb the ESD energy before it can be

coupled into nearby traces.

PROTECTION PRODUCTS

Applications Information (continued)

= V

F(RailClamp)

+ V

TVS

=30A. The diodes

SRDA05-4 and SRDA12-4

www.semtech.com

SRDA05-4.TBT Semtech, SRDA05-4.TBT Datasheet - Page 7

SRDA05-4.TBT

Specifications of SRDA05-4.TBT

Available stocks

Related parts for SRDA05-4.TBT