NP3500SET3G [ONSEMI]

SILICON SURGE PROTECTOR;


型号：	NP3500SET3G
厂家：	ONSEMI
描述：	SILICON SURGE PROTECTOR
文件：	总7页 (文件大小：114K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

NP-SE Series

Product Preview

140A, TSPD

The NP−SE series of Thyristor Surge Protection Devices (TSPD)

protect sensitive electronic equipment from transient overvoltage

conditions. They offer the designer a more robust alternative to the

standard 100 A rated devices.

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The NP−SE Series helps designers to comply with the various

regulatory standards and recommendations including:

GR−1089−CORE,IEC 61000−4−5, ITU K.20/K.21/K.45, IEC 60950,

TIA−968−A,FCC Part 68, EN 60950, UL 1950.

BIDIRECTIONAL SURFACE

MOUNT THYRISTOR

140A, 10x1000ms SURGE

Features

• Low Leakage (Transparent)

• High Surge Current Capabilities

• These are Pb−Free Devices

Typical Applications

• xDSL Central Office and Customer Premise

• T1/E1

SMB

JEDEC DO−214AA

CASE 403C

• Other Broadband High Speed Data Transmission Equipment

ELECTRICAL CHARACTERISTICS

C , 2 V,

C , 50 V,

MARKING DIAGRAM

1 MHz

pF (Max)

1 MHz

pF (Max)

DRM

(BO)

Device

NP0640SET3G

NP0720SET3G

NP0900SET3G

NP1100SET3G

NP1300SET3G

NP1500SET3G

NP1800SET3G

NP2100SET3G

NP2300SET3G

NP2600SET3G

NP3100SET3G

NP3500SET3G

AYWW

xxxEMG

"58

"65

"77

"88

xxx

= Assembly Location

= Year

= Work Week

= Specific Device Code

(NPxxx0SE)

= Pb−Free Package

"75

"98

"90

"130

"160

"180

"220

"240

"260

"300

"375

"400

"120

"140

"170

"180

"190

"220

"275

"320

(Note: Microdot may be in either location)

ORDERING INFORMATION

†

Device

Package

Shipping

NPxxx0SET3G

SMB

(Pb−Free)

2500 Tape &

Reel

†For information on tape and reel specifications,

including part orientation and tape sizes, please

refer to our Tape and Reel Packaging Specifications

Brochure, BRD8011/D.

G in part number indicates RoHS compliance

Other protection voltages are available upon request

Symmetrical Protection − Values the same in both negative and positive

excursions. (See V−I Curve on page 3)

SURGE RATINGS

(A)

di/dt

A/ms

500

PPS

TSM

Waveform (ms)

2x10

700

8x20

560

10x160

280

10x560

170

10x360

200

10x1000

140

5x310

280

0.1 s, 60 Hz

Value

This document contains information on a product under development. ON Semiconductor

reserves the right to change or discontinue this product without notice.

Publication Order Number:

January, 2009 − Rev. P0

NP0640SE/D

NP−SE Series

MAXIMUM RATINGS (T = 25°C unless otherwise noted)

Symbol

Rating

Value

$58

$65

$75

$90

$120

$140

$170

$180

$190

$220

$275

$320

700

Unit

Repetitive peak off−state voltage: Rated maximum

(peak) continuous voltage that may be applied in the

off−state conditions including all dc and repetitive

alternating voltage components.

NP0640SET3G

DRM

NP0720SET3G

NP0900SET3G

NP1100SET3G

NP1300SET3G

NP1500SET3G

NP1800SET3G

NP2100SET3G

NP2300SET3G

NP2600SET3G

NP3100SET3G

NP3500SET3G

Nonrepetitive peak pulse current: Rated maximum

value of peak impulse pulse current that may be

applied.

2x10 ms, GR−1089−CORE

8x20 ms, IEC−61000−4−5

10x160 ms, TIA−968−A

10x560 ms, TIA−968−A

10x360 ms, GR−1089−CORE

10x1000 ms, GR−1089−CORE

5x310 ms, ITU−K.20/K.21/K.45

0.1s, 50/60 Hz, full sine wave

PPS

560

280

170

200

140

280

Nonrepetitive peak on−state current: Rated

maximum (peak) value of ac power frequency

on−state surge current which may be applied for a

specified time or number of ac cycles.

TSM

Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the

Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect

device reliability.

ELECTRICAL CHARACTERISTICS TABLE (T = 25°C unless otherwise noted)

Symbol

Rating

Min Typ Max

$77

Unit

(BO)

Breakover voltage: The maximum voltage across the device in or at the NP0640SET3G

breakdown region.

NP0720SET3G

NP0900SET3G

NP1100SET3G

NP1300SET3G

NP1500SET3G

NP1800SET3G

NP2100SET3G

NP2300SET3G

NP2600SET3G

NP3100SET3G

NP3500SET3G

$88

VDC = 1000 V, dv/dt = 100 V/ms

$98

$130

$160

$180

$220

$240

$260

$300

$350

$400

800

Breakover Current: The instantaneous current flowing at the breakover voltage.

(BO)

Holding Current: The minimum current required to maintain the device in the on−state.

150

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NP−SE Series

ELECTRICAL CHARACTERISTICS TABLE (T = 25°C unless otherwise noted)

Symbol

Rating

Min Typ Max

Unit

Off−state Current: The dc value of current that results from the applica-

tion of the off−state voltage

= 50 V

DRM

= V

DRM

On−state Voltage: The voltage across the device in the on−state condition.

I = 2.2 A (pk), PW = 300 ms, DC = 2%

dv/dt

di/dt

Critical rate of rise of off−state voltage: The maximum rate of rise of voltage (below V

will not cause switching from the off−state to the on−state.

) that

kV/ms

DRM

Linear Ramp between 0.1 V

and 0.9 V

DRM

Critical rate of rise of on−state current: rated value of the rate of rise of current which the device

can withstand without damage.

500

A/ms

Off−state Capacitance

f = 1.0 MHz, V = 1.0 V

NP0640SET3G

NP0720SET3G

NP0900SET3G

NP1100SET3G

NP1300SET3G

NP1500SET3G

NP1800SET3G

NP2100SET3G

NP2300SET3G

NP2600SET3G

NP3100SET3G

NP3500SET3G

, V = −2 Vdc

RMS

THERMAL CHARACTERISTICS

Symbol

Rating

Value

−65 to +150

−40 to +150

Unit

Storage Temperature Range

Junction Temperature

°C

STG

Thermal Resistance: Junction−to−Ambient Per EIA/JESD51−3, PCB = FR4 3”x4.5”x0.06”

Fan out in a 3x3 inch pattern, 2 oz copper track.

°C/W

0JA

ELECTRICAL PARAMETER/RATINGS DEFINITIONS

Symbol

Parameter

Repetitive Peak Off−state Voltage

Breakover Voltage

PPS

DRM

TSM

(BO)

Off−state Current

DRM

Off−State Region

Breakover Current

(BO)

−Voltage

+Voltage

Holding Current

DRM

On−state Voltage

(BO)

On−state Current

DRM

Nonrepetitive Peak On−state Current

Nonrepetitive Peak Impulse Current

Off−state Voltage

TSM

PPS

Off−state Current

−I

Figure 1. Voltage Current Characteristics of TSPD

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NP−SE Series

100

t = rise time to peak value

t = decay time to half value

Peak

Value

100

Half Value

0.1

100

1000

CURRENT DURATION (s)

TIME (ms)

Figure 2. Nonrepetitive On−State Current vs. Time

Figure 3. Nonrepetitive On−State Impulse vs.

Waveform (I_PPS

(I_TSM

)

Detailed Operating Description

The TSPD or Thyristor Surge Protection Device are

specialized silicon based overvoltage protectors, used to

protect sensitive electronic circuits from damaging

overvoltage transient surges caused by induced lightning

and powercross conditions.

The electrical characteristics of the TSPD help the user to

define the protection threshold for the circuit. During the

open circuit condition the device must remain transparent;

this is defined by the I

. The I

should be as low as

DRM

possible. The typical value is less than 5 mA.

The TSPD protects by switching to a low on state voltage

when the specified protection voltage is exceeded. This is

known as a “crowbar” effect. When an overvoltage occurs,

the crowbar device changes from a high−impedance to a

low−impedance state. This low−impedance state then offers

a path to ground, shunting unwanted surges away from the

sensitive circuits.

The circuit operating voltage and protection voltage must

be understood and considered during circuit design. The

(BO)

is the guaranteed maximum voltage that the protected

circuit will see, this is also known as the protection voltage.

The V is the guaranteed maximum voltage that will

DRM

keep the TSPD in its normal open circuit state. The TSPD

is typically a 20−30% higher than the V . Based

(BO)

DRM

This crowbar action defines the TSPD’s two states of

functionality: Open Circuit and Short Circuit.

Open Circuit – The TSPD must remain transparent during

normal circuit operation. The device looks like an open

across the two wire line.

on these characteristics it is critical to choose devices which

have a V higher than the normal circuit operating

DRM

voltage, and a V

which is less than the failure threshold

(BO)

of the protected equipment circuit. A low on−state voltage

V allows the TSPD to conduct large amounts of surge

Short Circuit – When a transient surge fault exceeds the

TSPD protection voltage threshold, the devices switches on,

and shorts the transient to ground, safely protecting the

circuit.

current (500 A) in a small package size.

Once a transient surge has passed and the operating

voltage and currents have dropped to their normal level the

TSPD changes back to its open circuit state.

(OP)

•TSPD looks like an open

•Circuit operates normally

Protected

−

TSPD

(OP)

Equipment

−

Normal Circuit Operation

•Fault voltage greater than V occurs

(Fault)

•TSPD shorts fault to ground

•After short duration events the O/V

switches back to an open condition

•Worst case (Fail/Safe)

•O/V permanent short

•Equipment protected

Protected

(Fault)

TSPD

(Fault)

Equipment

−

Operation during a Fault

Figure 4. Normal and Fault Conditions

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NP−SE Series

Example:

Transient Surge

Vbat = 48 Vmax

Vring = 150 Vrms = 150*1.414 = 212 V peak

Equipment Failure Threshold

DRM

should be greater than the peak value of these two

components:

TSPD Protection Voltage

Upper Limit

V_DRM> 212 + 48 = 260 V_DRM

Breakover Voltage V_(BO)

Normal System

Operating Voltage

Verify that the TSPD Breakover Voltage is a value less

than the peak voltage rating of the circuit it is protecting.

Example: Relay breakdown voltage, SLIC maximum

voltage, or coupling capacitor maximum rated voltage.

TSPD Transparent

(open)

TSPD Protection

TSPD Transparent

(open)

(short)

Time

Peak Pulse Current Ipps

Figure 5. Protection During a Transient Surge

Choose a Peak Pulse current value which will exceed the

anticipated surge currents in testing. In some cases the 100 A

“C” series device may be needed when little or no series

resistance is used. When a series current limiter is used in the

circuit a lower current level of “A” or “B” may be used. To

determine the peak current divide the maximum surge

current by the series resistance.

TSPD’s are useful in helping designers meet safety and

regulatory standards in Telecom equipment including

GR−1089−CORE,ITU−K.20, ITU−K.21, ITU−K.45, FCC

Part 68, UL1950, and EN 60950.

ON Semiconductor offers a full range of these products in

the NP series product line.

Hold Current (I_H)

DEVICE SELECTION

The Hold Current must be greater than the maximum

system generated current. If it is not then the TSPD will

remain in a shorted condition, even after a transient event

has passed.

When selecting a TSPD use the following key selection

parameters.

Off−State Voltage V_DRM

Choose a TSPD that has an Off−State Voltage greater than

the normal system operating voltage. The protector should

not operate under these conditions:

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NP−SE Series

TYPICAL APPLICATIONS

Tip

NP3100SE

Voice

DSL

NP3100SE

Ring

Figure 6. ADSL

NP1800SE

NP0640SE

NP1800SE

POWER

NP1800SE

NP0640SE

Figure 7. T1/E1

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NP−SE Series

PACKAGE DIMENSIONS

SMB

CASE 403C−01

ISSUE A

NOTES:

1. DIMENSIONING AND TOLERANCING PER ANSI

Y14.5M, 1982.

2. CONTROLLING DIMENSION: INCH.

3. D DIMENSION SHALL BE MEASURED WITHIN

DIMENSION P.

INCHES

DIM MIN MAX

MILLIMETERS

MIN

4.06

3.30

1.90

1.96

MAX

4.57

3.81

2.41

2.11

0.152

0.30

1.27

0.160

0.130

0.075

0.077

0.180

0.150

0.095

0.083

0.0020 0.0060 0.051

0.006

0.030

0.012

0.050

0.15

0.76

0.020 REF

0.51 REF

0.205

0.220

5.21

5.59

SOLDERING FOOTPRINT*

2.261

0.089

2.743

0.108

2.159

0.085

inches

SCALE 8:1

*For additional information on our Pb−Free strategy and soldering

details, please download the ON Semiconductor Soldering and

Mounting Techniques Reference Manual, SOLDERRM/D.

ON Semiconductor and

are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice

to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability

arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.

“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All

operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights

nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications

intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should

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and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death

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PUBLICATION ORDERING INFORMATION

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For additional information, please contact your local

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NP0640SE/D

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NP3500SET3G [ONSEMI]

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