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OVER VOLTAGE PROTECTION DEVICE

CATALOGUE C E R A M I C T E C H N O L O G Y

Passive Components

Professional Manufacturer


Content.........…………………………….……..………………...…..................................…..……………….. 1

Product Overview………………………………………………………………………………………………….……… 3

Over Voltage Pulse Introduction……………………..……………………………...…..……..……………….. 4

Inner Structure & Certification………………………………………………………….....……..……………….. 5

Working rule & Function Diagram……………………..………………………….…….……..………………... 6

Introduction Chip Surge Protection Device ….…….………………………….…..……………………….. 7

Product Advantage……………………………..…………………………….…….…….……..……………………… 8

Comparison …………………………..…………………………..…………………………….. .……..……….……….. 9

Part Number Definition………………………………………………………………………………………..………… 10~11

Application Figure………………………………………………………………………….…….……..…….………….. 12

S02 (Super High Current Series)…………………………..………….……..……………………..……..……….. 13~14

S03(Super High Networking Series)…….……...........………………………….……..……………………... 15~16

S04(Super High Voltage Series)………………….………………………………………….…....……..………… 17~18

S01(Super High Automotive Series)……………………………………….………....……..………………….. 19~20

S05(Super ESD in Automotive CAN Bus..)……………..………………...………....……..……….……….. 21

T01 Package Introduction……………………………..….……...........……………….……..………………….. 22

T01 Series (Semiconductor TVS Diode)…………………............…………….….……..………….…...….. 23

T01Advantage………………………………………………..………………………………….….……..……………….. 24

M01(General single type )…………………………..……..……………………………………………….………... 25

M01 (General single type )…………………………...……………………………………………………..……...… 26~27

E01 General single type ……………….………....……..……………………………………………................... 28

S06 (Ultra Low Capacitance)…………………………………………………………………….............. 29

A01 (General Array Type)…………………………………………………..................................... 30

Application for IP-CAM………………………………………………………………………………………..………… 31

Application for Ethernet PoE………………………………………………………………………………..……….. 32

Application for Ethernet………………………………………………………………………………………..……... 33

Application for Automotive…………………………………………………………………………………….……. 34

Application Table……………………………………………………………………………………………………..…… 35

Surge Specification…………………………………………………………………………………………………………. 36

Characteristic Definition…………………………………………………………………………………….………… 37

Transmission vs Capacitance………………………………………………………………………………………….. 38

Content

1


Type Transient Series Main Application Standard Max. value parameter

Remark

General Surge/

ESD General Whole IEC61000-4-5 Basic basic

Enhance

Load Dump

S01 Auto Power ISO7637-2

Pulse 5 Load Dump 80J

Can replace TVS ,MOV

Surge

S02 Industrial Control IEC61000-4-5 Surge Current: 3000A(8x20 us)

Can replace

MOV , MLV

S03 Network Security IEC61000-4-5

K21

Surge Voltage:

6KV (10X700 uS)

Can replace GDT, Sidactor

S04 Power IEC61000-4-5

Breakdown Voltage: 470V / Surge: 800A

Can replace

MOV, GDT

New Design

ESD

S05 Auto CAN BUS

ISO10650

ISO7637-2 Pulse 1, 2, 3

ESD 30KV Available

T01 Mobile

IEC61000-4-2

Clamping Voltage <12.5V

Available

T01 Ultra High Speed Breakdown voltage : 100V / Cap. 0.05pF

Available

Product Overview

3

OVER VOLTAGE PROTECTION DEVICE Over Voltage Pulse Introduction

Optic

Fiber Smart Meter

Environment

Load dump Surge Portable ESD

Energy vs Time

ESD (Automotive)

Lighting Surge (8x20us) (10X700us) Outdoor

Load Dump (Automotive) OE(12V & 24V)

Jump Start (Automotive) OE

ESD(Consumer)

ns µs ms s Min Duration time

E01,S06,T01

S02, S03, S04

S01

M01

Lighting Surge (8x20us) (10X700us) Indoor

10kV

1kV

100V

15kV

20kV

25kV

Voltage

0V

S05,T01

4

OVER VOLTAGE PROTECTION DEVICE Inner Structure & Certification

Multilayer Surface Mount Varistors are made from semi-conducting ceramics by the highly advanced multilayer formation technologies, which could offer strong protection, excellent transient energy absorption and internal heat dissipation. The devices are leadless chip form. Eliminating lead inductance and guaranteeing a faster speed response time of less than 0.5ns, which make them fast enough to ensure reliable protection against ESD pulse and other specific transient events. These transient suppression devices are significantly smaller footprints and lower profiles than traditional zener diodes or radial MOVs,

Structure

Multilayer formation technologies

Certification

A. ISO 9001 :2008

B. ISO 14001 :2004

C. ISO/TS16949

5

OVER VOLTAGE PROTECTION DEVICE Working Rule & Function Diagram

Transient voltage suppressors （ Varistors ） are voltage-dependent electrical resistors with symmetrical V/I characteristic and breakdown region. Their resistance value decreases with increasing voltage, and thus “short-circuiting” further rises in over voltage.

Voltage Dependent Characteristic

In other words, as long as the voltage increases above the threshold of the Transient voltage suppressors , the suppressor will draws a rapidly increasing current; then the over voltage is considerably attenuated away from the protected circuit, that is why the inherent protection of equipments should be supplemented by including specific components which will raise the withstand capabilities to required level. Varistors provide protection against all kinds of over voltage and prevent electronic equipment from being damaged by transient events.

The Prevention of Over Voltage

Over voltage

System max. allowed operating voltage

Clamping voltage level

System rated voltage

The Function Diagram

6

OVER VOLTAGE PROTECTION DEVICE Introduction Chip Surge Protection Device

Chip Surge Protection Device is a kind of surface mount surge voltage protector. MGT utilized exclusive powder material and product technology to develop a creative new concept . We also get many innovative patents from many countries. This series has the better non-linear ohm with higher withstanding peak current compared to conventions

Description： The non-linear impedance of ceramic comes from Schottky barrier between two piece of ZnO particles (double Schottky barrier). It means, in sintering process of ZnO , it also realizes the semi-conductive of ZnO particle and makes the grain boundary more tight. (Fig. (1) & (2)) CSPD peak current protection mode as below.

Special Introduction Chip Surge Protection Devices

Conventional process vs new products

Convention： NEW

(1) 、Mixture of ZnO

At same sintering process, 1.The ZnO particle becomes ion mixture and increase semi-conductive.

2.Forming the boundary of covering ZnO particles.

The ZnO mixture and covering and the high impedance materials of particle are divided to two individual process (innovation) and ZnO particle mixture to make more semi-conductive.

(2) 、Distribution of boundary：

If the particle of ZnO is too rough and few, it’s difficult to cover on surface evenly. The result will make the high resistance of Bi2O3 not evenly and affect dispersion higher, alpha value lower, clamping voltage higher and affect functions of varistor.

The product is made by nanotech process and makes the boundary grains in nano to make a chemical compound. It makes the boundary cover the ZnO evenly and makes each double Schottky barrier more higher and even the same height, the function more concentrative, dispersion lower, higher alpha, low clamping voltage. The functions of varistors is upgraded.

Fig. (1) Fig. (2)

7

OVER VOLTAGE PROTECTION DEVICE CSPD Series Advantage

★_ Micro Package Size (SMD ) type: to achieve large space and solve height Limit ★_ High Surge Current: Stand 10X700uS 6KV Surge ★_ Low BDV: 12V can provide the best solution for protective systems ★_ High reliability: Low leakage after high reliability ★_ Low Clamping ★_ Electric Distribution Concentricity ★_ High Non-linear α Value: Over 25 and it will upgrade IV curve sensitivity ★_ Quick respond Time: Solve the problem “extinguish” of GDT ★_ High performance: Many times surge sparks over 30 times on waveform 10/700us ★_ Good Temperature Features : With operating range -55 ℃~125 ℃

Series Test Condition 0805 1206 1210 1812 2220 3220

S02 Surge

8x20μs (A)

Others 80 200 400 800 1200 500

MGT 250 1000 1000 2000 20000 20000

Series Test Condition 0805 1206 1210 1812 2220 3220

S01 Load Dump Others 1J 3J 6J 12J 25J None

MGT 6J 9J 12J 25J 50J 80J/160J

Series Test

Condition 0805 1206 1210 1812 2220 3220

S04 Surge

8x20μs(V/A)

Others None None None 430

/500A

MGT 390V/

100A

390V

100A

390V/

200A

470V/

800A

470V

/800A

470V

/800A

Series Test

Condition 0805 1206 1210 1812

S03

Surge

10x700μs

(V/A)

Others None None None

MGT 2KV 4~6KV 4~6KV 8KV

Compare the other competitors

Special Character

8

OVER VOLTAGE PROTECTION DEVICE CSPD Comparison & Patents

9

MGT MLV TVS MOV GDT

Operating Volt. 5V~680V 5V~100V 5V~100V 18V~1800V 75V~6KV

Clamping Volt. Low Low Low High High

Surge Current 100A~6500A 20A~1200A N.D. 250A~6000A 2KA~15KA

Operating Temp. -55℃~160 ℃ -45℃~125 ℃ -45℃~125 ℃ -45℃~125 ℃ -45℃~125 ℃

Load Dump (J) 12J~50J 12J~25J N.D. 12J~50J N.D.

Leakage Current Low Low Low High Low

Inductance Effective Low Low Low High Low

Response Time <0.5ns <0.5ns <0.5ns <10ns <50ns

ESD Protection Yes Yes Yes No No

Surge Protection Yes Yes No Yes Yes

Design Position Primary side/ Second second primary side/ second primary Primary

Polarity Bi-Direction Bi-Direction Single Direction Bi-Direction Bi-Direction

Sparks >10 Times Low Low Low High

Response Time <0.5ns <0.5ns <0.5ns <10ns <50ns

Degradation No Yes Yes No No

Extinguish No No N0 No Yes

Explosion No No No Yes No

Temperatue Derating No No Yes No No

Reliability

Applications Functions

Potential Issues

Electric Functions

OVER VOLTAGE PROTECTION DEVICE Part number Definition

10

OVER VOLTAGE PROTECTION DEVICE Part number Definition

S02 1812 - 240 - 102

SERIESSize

(inch)-

Breakdown

voltage

(V)

- -Surge Current

(A)

s02 0805 12V 251=250

1206 24V 501=500

1210 39V 801=800

1812 47V 102=1000

2220 75V 203=20000

3220

S03 1210 - 750 - 060 K

Series codeSize

(inch)-

Breakdown

voltage

(V)

- -Surge Voltage

(V)

Inner

Code

s03 1206 120=12V 060=6KV

1210 470=47V 040=4KV

1812 750=75V

S04 1812 SV 471 - 801 A

Series code Size Series

Breakdown

voltage

(V)

- -Surge Current

(A)

Inner

Code

S04 0805 SHV 271=27X10 V 501=50X10

1206 391=39X10 V 801=80X10

1210 431=43X10 V 102=10x100

1812 471=47X10 V

2220 681=68X10 V

3220

S01 2220 - 240 - 250 J

Series code Size -Breakdown

voltage

(V)

- -Load Dump

(J)

Inner

Code

S04 0805 24 V 1R5=1.5J

1206 36 V 030=3J

1210 47 V 060=6J

1812 75 V 090=9J

2220 120=12J

3220 250=25J

6420 500=50J

800=80J

161=160J

11

OVER VOLTAGE PROTECTION DEVICE Application Figure

Consumer &Computer • LCD TV / Monitor • DSC/ MP4 • Tablet /NB

Industrial • IP CAM / IPC • DVR / NVR • IGBT Control

Telecom & I-Cloud • VOIP • LAN • IAD, AP, Router • RJ45 /Connector

Automotive • OEM / Aftermarket • Automotive electronics

Communication • GSM/CDMA • Smart Phone

LED Lighting AC to DC Driver

Issue S01 S02 S04 S03 S05 E01 S06 T01 S01

Automotive Load Dump/ESD V V V

Industry & IP Cam Surge / ESD V V V V V V

Telecom & I cloud Surge/ESD V V V V V V

Consumer & Computer

ESD V V V V

Mobile ESD V V V

LED Lighting Surge/ESD V V V

Suggestion Table

12

http://www.dorts.gov.tw/news/newsletter/ns211/深美段台電高壓電塔.jpg

OVER VOLTAGE PROTECTION DEVICE Super High Current Type (S02)

Most applications in communications base voltage of 48VDC voltage, lightning likely path through a coaxial cable or antenna to damage to the internal IC, will have a lot of power surges and voltage spikes on it. For a combination of lightning within the base station power system, lightning protection circuit is relatively simple, but also more mature, usually in combination with through the DC side of the power flow to 15KA(8/20uS waveform) ways to DC SPD

Description

Feature

※Size：0805~3220 (Inch) ※Meet：IEC61000-4-5 1.2x50us//8x20 us combine wave ※Surge：250A~6500A ※Respond < 0.5 ns ※BDV: 24V~82V ※Peak surge current: 500A~6500A ※Low leakage<1 uA ※Operating temperature 125°C. ※Bi-directional ※ SMD package

S02 Others

Circuit Fig(1) Fig(2)

Size 2220 2220

Surge 5000A 1200A

Usage 3 pcs 13 pcs

Total cost Low High

Space rate 1/4 1

Compare with other Solution

1 pcs = 4 pcs( Others)

Equal Circuit

Fig(1) Fig(2)

13

OVER VOLTAGE PROTECTION DEVICE Super High Current Series (S02)

S02 Series Specification

Part No. Size Working Voltage

Breakdown Voltage

Clamping Voltage

Leakage Current

Surge Current

S02-1206-120-501A 1206 DC 9V 12V <25V 10 uA 500A

S02-1206-240-501A 1206 DC 18V 24V <47V 10 uA 500A

S02-1206-470-501A 1206 DC 38V 47V <75V 5 uA 500A

S02-1206-750-501A 1206 DC 60V 75V <100V 10 uA 500A

S02-1210-120-102A 1210 DC 9V 12V <25V 15 uA 1000A

S02-1210-240-102A 1210 DC 18V 24V <47V 15 uA 1000A

S02-1210-470-102A 1210 DC 38V 47V <75V 10 uA 1000A

S02-1210-750-102A 1210 DC 60V 75V <100V 10 uA 1000A

S02-1812-240-202A 1812 DC 18V 24V <47V 15 uA 2000A

S02-1812-470-202A 1812 DC 38V 47V <75V 15 uA 2000A

S02-1812-750-202A 1812 DC 60V 75V <100V 15 uA 2000A

S02-2220-240-302A 2220 DC 18V 24V <47V 15 uA 3000A

S02-2220-470-302A 2220 DC 38V 47V <75V 15 uA 3000A

S02-2220-470-452A 2220 DC 38V 47V <75V 15 uA 4500A

S02-2220-470-502A 2220 DC 38V 47V <75V 15 uA 5000A

S02-2220-470-802A 2220 DC 38V 47V <75V 15 uA 8000A

S02-2220-560-302A 2220 DC 60V 56V <90V 15 uA 3000A

S02-2220-750-302A 2220 DC 60V 75V <100V 15 uA 3000A

S02-2220-750-452A 2220 DC 60V 75V <100V 15 uA 4500A

S02-2220-750-502A 2220 DC 60V 75V <100V 15 uA 5000A

S02-2220-820-302A 2220 DC 65V 82V <135V 15 uA 3000A

S02-2220-820-452A 2220 DC 65V 82V <135V 15 uA 4500A

S02-2220-820-602A 2220 DC 65V 82V <135V 15 uA 6000A

S02-2220-101-502A 2220 DC 85V 100V <165V 15 uA 5000A

S02-3220-240-123A 3220 DC 18V 24V <47V 15 uA 12000A

S02-3220-240-203A 3220 DC 18V 24V <47V 15 uA 20000A

S02-3220-390-203A 3220 DC 30V 39V <70V 15 uA 20000A

S02-6420-240-203A 6420 DC 18V 24V <47V 15 uA 20000A

Notes：＊1 The breakdown voltage was measured at 1 mA current. ＊2 The Clamping voltage was measured at 8*20 us standard current, 1206(1A). ＊3 The surge current was tested at 8/20 μs waveform. ＊4The capacitance value only for customer reference, it’s not formal specification. ＊5The components shall be employed within 1 year, in the nitrogen condition.

14

OVER VOLTAGE PROTECTION DEVICE Super High Network Series (S03)

◆ Size: 1206~2220 ◆ Meet IEC61000-4-5 Pass 10/700 us/ 40ohm surge 4~8KV test ◆ Lower clamping voltage than GDT ◆ Faster response time < 0.5 ns than GDT & Sidactor ◆ No extinguish problem ◆ Bi-directional ◆ Wide operation temperature - 55 ~ +125°C ◆ Ultra low leakage current < 1 µA

Feature

When the network port using GDT in telecom application after the end of current, the protected system operating voltage to maintain the existence of the arc discharge channel, a condition called extinguish. Extinguish exist will damage the protection systems. To resolve this issue, mostly in the GDT use sidactor or MLV with its relatively fast response speed will be continuing to help GDT discharge current is cut off, “turn off” to identify the problem

Compare with other Solution

Description

Common Mode

Differential Mode

Equal Circuit for PoE

+ =

Circuit for Non-PoE

SHN GDT TVS

15

OVER VOLTAGE PROTECTION DEVICE Super High Network Series (S03)


Part No. Size Application Voltage

Breakdown

Voltage

Surge Current

Surge Voltage

S03-1206-120-060K 1206 DC 3.3V 12V 150A 6KV

S03-1206-120-040K 1206 DC 3.3V 12V 100A 4KV

S03-1210-470-060K 1210 AC 24V 47V 150A 6KV

S03-1210-470-040K 1210 AC 24V 47V 100A 4KV

S03-1210-750-060K 1210 DC 57V 75V 150A 6KV

S03-1210-750-040K 1210 DC 57V 75V 100A 4KV

S03-1812-240-080K 1812 DC 3.3V 12V 200A 8KV

S03-1812-750-080K 1812 DC 57V 75V 200A 8KV

Notes：＊1 The breakdown voltage was measured at 1 mA current. ＊2 The Clamping voltage was measured at 8/20 μs standard current, 1210(2.5A). ＊3 The surge current was tested at 10/700μs waveform,Ri=40 ohm.Common-mode testing is to test all data lines while the GND. ＊4 The capacitance value only for customer reference, it’s not formal specification. ＊5The components shall be employed within 1 year, in the nitrogen condition.

S03 vs GDT

16

S03 & GDT compare

Characteristic compare ( S03 ) (Chip Surge Protect Device)

(GDT) (Gas Discharge Tube)

Product size 1206, 1210 Φ5 x5.6 1206(3216) 1812(4532)

The low bdv voltage 12 V 75V 200V 75V

The low clamping voltage <25 V >300V >500V >300V

Surge voltage (10/700μs) 6 KV 6 KV 4 KV 4 KV

Respond time <1 ns > 500ns >100 ns >100 ns

Extinguish problem No Yes Yes Yes


DIODE

LED LED

LED

LED

Disk Varistor ( 5@ or 7@)

R

LED

- +

1

4

3

2 T11 3

2 4

FUSE

LED Matrix

LED Controller

LED

Super High Voltage Type (S04)

Description

※Size：1210~3220(Inch) ※Meet ：IEC61000-4-5 1.2x50us or 8x20 us ※BDV : 390V~470V ※Peak surge: 800A(max) ※low leakage<1 uA ※Operating temperature 125°C. ※UL 1449 approval ※Bi-directional clamping ※SMD package, Non-combustible

S04 Characteristic

Current overvotlage surge protection parts using plastic epoxy, after thermal shock products will degradation and burned situation, S04 won’t have this situation. ★High humidity and high temperature(Reliable) IEC environment test condition 85°C.and high humidity 85°C95% load test, BDV change won’t over 10%

Compare

S04 EPXXX LixxxlFxxx

Construction Displaced electrodes Plastic encapsulated displaced electrodes

Technology New technology Disc epoxy

Size compare 0805 available 3225(inch) 3225(inch)

UL test compare (Need pass 15 times)

Pass Pass Pass

Derating NO Yes Yes

High temperature Good Bad bad

High humidity GOOD BAD BAD

Termination Ag/ Ni/ Sn Tinned copper Ag/Pt

Circuit

17

OVER VOLTAGE PROTECTION DEVICE Super High Voltage Type (S04)


18

Part Number

Working

Voltage

(Max.)

Breakdown

Voltage

Clamping

Voltage

(Max.)

Surge Voltage

(1.2/50μs, 2Ω)

(1 time)

(Max.)

Surge Current

(8/20μs)

(1 time)

(Max.)

Safety Approvals

(UL File No. E334409)

Safety Approvals

(CSA File No. E334409)

Symbol VAC VDC VB VC VSurge IPeak UL CSA

Unit V V V(±10%) V KV A

S04-1210SV241-201A 139 195 240 395 0.5 200

S04-1210SV391-201A 250 320 390 647 0.5 200

S04-1210SV471-251A 300 385 470 775 0.5 250

S04-1812SV271-501A 175 225 270 450 1.0 500

S04-1812SV471-501A 300 385 470 775 1.0 500

S04-1812SV431-801A 275 350 430 705 2.0 800

S04-1812SV471-801A 300 385 470 775 2.0 800

S04-2220SV241-801A 139 195 240 395 2.0 800

S04-2220SV271-501A 175 225 270 450 1.0 500

S04-2220SV391-501A 250 320 390 647 1.0 500

S04-2220SV431-501A 275 350 430 705 1.0 500

S04-2220SV471-501A 300 385 470 775 1.0 500

S04-2220SV391-801A 250 320 390 647 2.0 800

S04-2220SV431-801A 275 350 430 705 2.0 800

S04-2220SV471-801A 300 385 470 775 2.0 800

S04-3220SV271-801A 175 225 270 450 2.0 1000

S04-3220SV431-801A 275 350 430 705 2.0 1000

S04-3220SV471-801A 300 385 470 775 2.0 1000

OVER VOLTAGE PROTECTION DEVICE Super High Automotive Type (S01)

Description Circuit for Auto Power

General (Load Dump) solution： (1.)Use MOV (Disk Varistor) ， MOV after thermal shock -40 ~ 90℃/72hr will happen surface broken，This is caused by Epoxy not withstand high temperature, continaul using will burn (2)Test TVS axial will broken (3)Test TVS SMD will terminal take off

Feature Application Area

Compare Circuit for PoE

General (Load Dump) solution： (1.)Use MOV (Disk Varistor)，MOV after thermal shock -40 ~ 90℃/72hr will happen surface broken，This is caused by Epoxy not withstand high temperature, continaul using will burn (2)Test TVS axial will broken (3)Test TVS SMD will terminal take off

19

Parameter 12V System 24V System

Vs 65~87V 123~174V

Ri 0.5~4Ω 1~8Ω

td 40~400ms 100~350ms

tr ≦5~10ms ≦5~10ms

Pulse 5A Pulse 5A Parameter

OVER VOLTAGE PROTECTION DEVICE Super High Automotive Type (S01)


20

Part Number Working Voltage

Breakdown Voltage

Clamping Voltage

Peak Current

Load Dump Jump Start

Voltage（5min）

Symbol DC V（1mA） V A WLD(J) V JUMP (V)

S01-0805-240-1R5J 16 24 ＜40 200 (for +/- 1 time) 1.5 (for 10 times) 24.5

S01-1206-240-030J 16 24(±10%) ＜40 400 (for +/- 1 time) 3 (for 10 times) 24.5

* S01-1206-240-060J 16 24(±10%) ＜40 500 (for +/- 1 time) 6 (for 10 times) 24.5

S01-1206-240-1R5J 16 24(±10%) ＜40 400 (for +/- 1 time) 1.5 (for 10 times) 24.5

S01-1206-260-060J 16 24(±10%) <43 500 (for +/- 1 time) 6 (for 10 times) 26



S01-1210-101-120J 16 100(±10%) ND 200 (for +/- 1 time) 12 (for 10 times) 24.5




S01-1210-750-120J 16 75(±10%) ND 500 (for +/- 1 time) 12 (for 10 times) 24.5





S01-1812-750-250J 34 75(±10%) ＜105 2000 (for +/- 1 time) 20 (for 10 times) 45




* S01-2220-260-500J 16 24(±10%) ＜43 5000 (for +/- 1 time) 50 (for 10 times) 26





Breakdown Voltage

Clamping Voltage

Peak Current

Load Dump Jump Start

Voltage（5min）

Symbol DC V（1mA） V A WLD(J) V JUMP (V)










12V System

24V System

OVER VOLTAGE PROTECTION DEVICE S05 (Super ESD Automotive CAN Bus)

CAN Bus is automotive ESD requirement. It is one of the widely used international bus and it’s smart electrical control equipment to transfer data between every electronic devices in automobile. It achieves a regional network control systems in whole vehicle and exchanges information between ECU electronic controls to become the automotive electronic control network. This series is design for this request.

Description

◆ Compliant with IEC61000-4-2 contact +/-30 Kv ◆ Quick response time<0.5 ns ◆ Low reverse leakage current (<0.1uA) ◆ Operating temperature exceeds 125 ° C ◆ Bi-directional ◆ SMD package ◆ Products with Lead-Free ◆ Different capacitance values correspond to the different speed signal bus (CAN Bus) ◆ Compatible with (ISO7637-2: 2004(E) ◆ Pulse 1 (max. -50 V)/ Pulse 2 (max. 125 V) ◆ Pulses 3a and 3b


S05 Specification

★ Can bus system A B C ★ Other special requirements

Part Number Stand-off voltage

Breakdown Voltage

Clamping Voltage Typical

capacitance ESD ability

Symbol VRWM(V) V（1mA） V Typ(pf)

VR=0V KV

S05-0603EA240-LSP 12 22~30 ＜40 50 40

S05-0603EA240-MSP 12 22~30 ＜40 25 40

S05-0603EA240-HSP 12 22~30 ＜40 10 40

S05 Series Specification for 24V Automotive CAN BUS

S05-0603EA470-LSP 24 22~30 ＜40 50 40

S05-0603EA470-MSP 24 22~30 ＜40 25 40

S05-0603EA470-HSP 24 22~30 ＜40 10 40

Notes：＊1 The breakdown voltage was measured at 1 mA current. ＊ 2 The clamping voltage was measured at standard current, 0603(1A). ＊ 3 The leakage current was tested at working voltage. ＊ 4 The components shall be employed within 1 year, in the nitrogen condition.

21

OVER VOLTAGE PROTECTION DEVICE T01 TVS Introduction

Description for Package

NEW Technology General Technology


◆ Special design for ESD protection solution ◆ Pin to Pin compatible DFN package ◆ Easy debug & soldering ◆ High ESD & Surge robustness ◆ High QC sampling & Reliable ◆ Cost Saving

★ ESD protection ★ Smart Phone ★ Consumer Device

Compare

Product exterior and structure

Item Exterior diagram X-ray photo

top view Flank View

NEW T01 TVS

(Clip)

OLD TVS

(DFN Wire)

T01 (New TVS) DFN (Old TVS)

Package Clipped Wire Bond

Contact Wafer Surface Point

ESD Robustness 25KV 15KV

Soldering ability Good (5 Sides) Poor(Button Side)

QC sampling 10,000pcs/ per set 77 pcs/ per set

22

OVER VOLTAGE PROTECTION DEVICE T01 Series (Semiconductor TVS Diode)

New TVS (T01) Old TVS(DFN)

Soldering Pad : 5 Sides

(Same as MLCC) Soldering Pad :Button Side

Advantage

T01 Product vs Other Competitors

T01 Product Competitor

Package name NXP PRISEMI WillSEMI

T01-0402-050-0R3W-11 0.3pf PESD5V0F1BL PESDUC2FD5VB ESD5311N SGD1006/ DFN1006-2

T01-0402-050-2R5A-11 2.5pf PESD5V0U1BL PESDWC2FD5VB … SGD1006/ DFN1006-2

T01-0402-050-100A-11 10pf

PESD5V0V1BL PESDNC2FD5VBS ESD5471R SGD1006/ DFN1006-2

T01-0201-050-100W-11 PESD5V0L1BSF PESDNC2XD5VB ESD5471Z SGD0603/ DFN0603-2

T01-0402-050-170W-11 17pf PESD12VV1BL PESDNC2FD5VB ESD5451R SGD0402/ DFN1006-2

Cross Reference

Product name size

Cp

VRWM

IR ESD ability VCL PpK IPP

VC Max

Ipp = 1A

Ipp

Max

VR=0V with VRWM

Air Contact IPP=16A tp=100n

S

VESD=8KV

tp=8/20us tp=8/20us

(pF) (V) (uA) (KV) (KV) (V) (V) (W) (A) (V) (V)

T01-0201-050-100W-11 0201 10 5 0.1 ± 20 ± 20 12 12 60 6 8 12

T01-0402-050-0R3W-11 0402 0.3 5 0.1 ± 20 ± 20 30 30 46 2 15 25

T01-0402-050-2R5A-11 0402 2.5 5 0.1 ± 15 ± 15 20 20 45 3 12 15

T01-0402-050-100A-11 0402 10 5 0.08 ± 25 ± 25 12 12 96 8 8 12

T01-0402-050-170W-11 0402 17 5 1.0 ± 30 ± 30 12 12 80 8 6.5 10

T01 Specification

23

OVER VOLTAGE PROTECTION DEVICE T01 Advantage

Background：With the progress of integrated circuits to the nanometer (nm) process, more and more speed, more functional design in one integrated circuit. Such miniaturization design, so as to increase the doping concentration also led thinner gate oxide layer, pn junction width reduction. Resulting IC can easily be damaged by static shock. At this time of protection elements, preferably inhibit low voltage, dynamic resistance is much lower than the protected IC, and has a very fast response time. This products use Si wafer to develop TVS chip for smallest size 0201 vs 0402 TVS protect devices.

T01 Advantage

The surge ability of MGT product is better than DFN product about 2A. IO1~IO2…positive

Surge good

The TLP ability of MGT product is better than DFN product. TLP(DFN) ability about 20A TLP(MGT) ability about 40A

TLP ability

24

(1)MGT_IO2~IO1(chip bond)

(2)OLD_IO2~IO1(wire bond)

(3)MGT_IO2~IO1(chip bond)

(4)OLD_IO2~IO1(wire bond)

MGT

OVER VOLTAGE PROTECTION DEVICE General single type (M01 Series)

Model Number

Working

Voltage

(Max)

Breakdown

Voltage

Peak

Current

(Max)

Clamping

Voltage

(Max)

Energy

Absorption

(Max)

Typical

Capacitance

(Reference)

Unit

Condition

AC

（VRMS）

DC

（V）

1mA

(V)

8/20μs

(A) (A) (V)

10/1000μs

(J)

1KHz

(pF)

M01-1206-180A M01-1206-240A M01-1206-270A M01-1206-330A M01-1206-390A M01-1206-470A

11 14 17 20 25 30

14 18 22 26 30 38

18(15.3~20.7) 24(21.6~27.0) 27(24.3~29.8) 33(29.7~36.3) 39(35.1~42.9) 47(42.3~51.7)

200 200 200 200 200 200

1 1 1 1 1 1

30 39 44 54 65 77

0.5 0.5 0.6 0.7 1.0 1.1

1200 780 750 700 510 440

M01-1210-180A M01-1210-240A M01-1210-270A M01-1210-330A M01-1210-390A M01-1210-470°

11 14 17 20 25 30

14 18 22 26 30 38

18(15.3~20.7) 24(21.6~27.0) 27(24.3~29.8) 33(29.7~36.3) 39(35.1~42.9) 47(42.3~51.7)

400 400 400 400 400 400

2.5 2.5 2.5 2.5 2.5 2.5

30 39 44 54 65 77

1.2 1.4 1.7 1.9 1.7 2.0

2000 1600 1500 880 800 530

M01-1812-240A M01-1812-390A M01-1812-470A M01-1812-560A

14 25 30 35

18 30 38 45

24(21.6~27.0) 39(35.1~42.9) 47(42.3~51.7) 56(50.4~61.6)

800 800 800 800

5 5 5 5

38 65 77 90

2.3 3.7 4.2 4.2

3500 2350 1600 1200

M01-2220-180A M01-2220-240A M01-2220-270A M01-2220-330A M01-2220-390A M01-2220-470A M01-2220-560A

11 14 17 20 25 30 35

14 18 22 26 30 38 45

18(15.3~20.7) 24(21.6~27.0) 27(24.3~29.8) 33(29.7~36.3) 39(35.1~42.9) 47(42.3~51.7) 56(50.4~61.6)

1200 1200 1200 1200 1200 1200 1200

10 10 10 10 10 10 10

30 39 44 54 65 77 90

5.4 5.8 7.2 7.8 9.6

12.0 12.0

10500 8500 8300 8000 6000 4000 3500

M01 Specification

25


Model Number

Working

Voltage

(Max)

Breakdown

Voltage

Peak

Current

(Max)

Clamping

Voltage

(Max)

Energy

Absorption

(Max)

Typical

Capacitance

(Reference)

Unit

Condition

AC

（VRMS）

DC

（V）

1mA

(V)

8/20μs

(A) (A) (V)

10/1000μs

(J)

1KHz

(pF)

M01-0402-080C M01-0402-120C M01-0402-180C M01-0402-240C

4 6

11 14

5.5 9

14 18

8(7.5~10.5) 12(10.2~13.8) 18(15.3~20.7) 24(21.6~26.4)

20 20 20 20

1 1 1 1

20 24 35 40

0.05 0.05 0.05 0.05

200 135 50 45

M01-0603-080C M01-0603-120C M01-0603-180C M01-0603-240C M01-0603-270C M01-0603-330C M01-0603-390C

4 6

11 14 17 20 25

5.5 9

14 18 22 26 30

8(7.5~10.5) 12(10.2~13.8) 18(15.3~20.7) 24(21.6~26.4) 27(24.3~29.7) 33(29.7~36.3) 39(35.1~42.9)

30 30 30 30 30 30 30

1 1 1 1 1 1 1

20 24 30 40 44 54 65

0.1 0.1 0.1 0.1 0.1 0.1 0.1

360 300 210 160 145 130 110

M01-0805-080C M01-0805-120C M01-0805-180C M01-0805-240C M01-0805-270C M01-0805-330C M01-0805-390C M01-0805-470C M01-0805-560C

4 6

11 14 17 20 25 30 35

5.5 9

14 18 22 26 30 38 45

8(7.5~10.5) 12(10.2~13.8) 18(15.3~20.7) 24(21.6~26.4) 27(24.3~29.7) 33(29.7~36.3) 39(35.1~42.9) 47(42.3~51.7) 56(50.4~61.6)

80 80

100 100 100 100 100 100 80

1 1 1 1 1 1 1 1 1

20 24 30 39 44 54 65 77 90

0.1 0.1 0.1 0.1 0.2 0.3 0.3 0.3 0.3

1400 650 350 300 250 220 200 150 110

M01 Specification

26


Model Number

Working

Voltage

(Max)

Breakdown

Voltage

Peak

Current

(Max)

Clamping

Voltage

(Max)

Energy

Absorption

(Max)

Typical

Capacitance

(Reference)

Unit

Condition

AC

（VRMS）

DC

（V）

1mA

(V)

8/20μs

(A) (A) (V)

10/1000μs

(J)

1KHz

(pF)

M01-1206-180C M01-1206-240C M01-1206-270C M01-1206-330C M01-1206-390C M01-1206-470C M01-1206-560C M01-1206-680C M01-1206-820C M01-1206-101C

11 14 17 20 25 30 35 40 50 60

14 18 22 26 30 38 45 56 65 85

18(15.3~20.7) 24(21.6~26.4) 27(24.3~29.7) 33(29.7~36.3) 39(35.1~42.9) 47(42.3~51.7) 56(50.4~61.6) 68(61.2~74.8) 82(73.8~90.2) 100(90~110)

100 100 100 100 100 100 100 100 100 100

1 1 1 1 1 1 1 1 1 1

30 38 44 54 65 77 90

110 135 165

0.3 0.3 0.4 0.5 0.6 0.7 0.8 1.0 0.5 0.6

800 620 700 480 400 260 230 200 175 150

M01-1210-240C M01-1210-270C M01-1210-330C M01-1210-390C M01-1210-470C M01-1210-560C M01-1210-680C M01-1210-101C

14 17 20 25 30 35 40 60

18 22 26 30 38 45 56 85

24(21.6~26.4) 27(24.3~29.7) 33(29.7~36.3) 39(35.1~42.9) 47(42.3~51.7) 56(50.4~61.6) 68(61.2~74.8) 100(90~110)

250 250 250 250 250 250 250 200

2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5

38 44 54 65 77 90

110 165

0.8 1.0 1.2 1.4 1.6 2.0 2.3 1.4

1150 1720 610 920 780 400 300 210

M01-1812-240C M01-1812-390C M01-1812-470C M01-1812-560C

14 25 30 35

18 30 38 45

24(21.6~26.4) 39(35.1~42.9) 47(42.3~51.7) 56(50.4~61.6)

500 500 500 500

5 5 5 5

38 65 77 90

1.7 2.9 3.5 4.2

2000 2500 2200 1000

M01-2220-240C M01-2220-390C M01-2220-470C M01-2220-680C

14 25 30 40

18 30 38 56

24(21.6~26.4) 39(35.1~42.9) 47(42.3~51.7) 68(61.2~74.8)

1000 1000 1000 1000

10 10 10 10

38 65 77

110

3.1 5.5 6.3 8.8

8500 3900 4600 4000

M01 Specification

27

OVER VOLTAGE PROTECTION DEVICE General single type (E01)

Electro Static discharge (ESD) is the transients as short duration excursion. Our ESD products are

based on the design of multilayer fabrication technology to suppress ESD events. Our products meet

IEC61000-4-2 standard for Electromagnetic Compliance testing. We supply extra low capacitance and

protect integrated circuits protection

Description

■ Fast Response ＜0.5nSec ■ Low Working Voltage ■ Low Capacitance 0.05pF

■ Low Leakage Current ＜ 1 uA ■ Low Clamping Voltage ■ Bi-directional

Feature

Part No Working Voltage

Clamping Voltage

Vlamp(max)

Leakage Current

Capacitance Volume

ESD Contact

ESD Air

(Unit) VDC (Max) 0402 0603 uA(Max) pF KV KV

E01-0201-050-330NP 5 26 1 33 ≧8 ≧15

E01-0201-120-120NP 12 50 1 12 ≧8 ≧15

E01-XXXX-050-101NP 5 52 36 1 100 ≧8 ≧15

E01-XXXX-050-560NP 5 52 36 1 56 ≧8 ≧15

E01-XXXX-050-330NP 5 52 34 1 33 ≧8 ≧15

E01-XXXX-050-220NP 5 52 34 1 22 ≧8 ≧15

E01-XXXX-050-100NP 5 72 65 1 10 ≧8 ≧15

E01-XXXX-050-050PP 5 72 55 1 4~9 ≧8 ≧15

E01-XXXX-120-101NP 12 55 55 1 100 ≧8 ≧15

E01-XXXX-120-560NP 12 55 55 1 56 ≧8 ≧15

E01-XXXX-120-330NP 12 55 55 1 33 ≧8 ≧15

E01-XXXX-120-220NP 12 55 55 1 22 ≧8 ≧15

E01-XXXX-120-100NP 12 72 60 1 10 ≧8 ≧15

E01-XXXX-120-050PP 12 72 85 1 4~9 ≧8 ≧15

E01-XXXX-240-2R5PP 24 200 240 1 2~4.5 ≧8 ≧15

E01-XXXX-240-0R8PP 24 200 200 1 0.8~1.5 ≧8 ≧15

E01-XXXX-240-0R3PP 24 350 350 1 0.15~0.45 ≧8 ≧15

E01-0805-120-101NP 12 60 1 100 ≧8 ≧15

E01-0805-120-560NP 12 60 1 56 ≧8 ≧15

E01 Specification

Specification ( XXXX=0402 or 0603 size ) 1.This Clamping Voltage at which the device stabilized during the transition from high to low impedance

8/20μs waveform current 1A.

2. All capacitance tests are under 1MHz, and the Leakage current is measured at working voltage

28

OVER VOLTAGE PROTECTION DEVICE S06 Series (Ultra Low Capacitance)

◆ Protection against high ESD voltages ◆ Compact size for EIA 0402 and 0603 ◆ Quick response time (<0.5ns) ◆ Low capacitance (<0.05pF) ◆ Low leakage current ◆ Bi-directional ◆ RoHS compliance


Character

★USB2.0 / USB3.0 /HDMI /DVI ★Motherboard, ★Notebook ★Smart Phone ★STB ★DSC, DV, Scanner

The Eye diagram of calibration for HDMI pattern (0.2pF at 3.4GHz)

The Eye diagram of calibration for HDMI pattern (0.05pF at 3.4GHZ)

Part No Working Trigger Clamping Leakage Capacitance ESD

Contact ESD Air

Voltage Voltage Voltage Current Volume

(Unit) VDC (Max) Vtrigger(typ) Vclamp(typ) nA(Max) pF KV KV

0402 SIZE

S06-0402-060-0R20P 6 300V 30 <10 0.2 ≧8 ≧15

S06-0402-240-0R20P 24 300V 30 <10 0.2 ≧8 ≧15

S06-0402-240E0R05P 24 250V 25 <1 0.05 ≧8 ≧15

0603 SIZE

S06-0603-060-0R20P 6 300V 30 <10 0.2 ≧8 ≧15

S06-0603-240-0R20P 24 300V 30 <10 0.2 ≧8 ≧15

S06-0603-240E0R05P 24 250V 25 <1 0.05 ≧8 ≧15

S06 Specification

29

OVER VOLTAGE PROTECTION DEVICE A01 Series(General Array Type)

Part No. Definition


Breakdown Voltage

Clamping Voltage

Leakage Current

Insulation Resistance

Capacitance Value

Symbol DC VBDV V uA M ohm pF

A01-0508-050-100NP-A4 5 (Max) 24 ＜60 < 5 >10 10

A01-0508-050-200NP-A4 5 (Max) 24 <60 <5 >10 20

A01-0508-050-500NP-A4 5 (Max) 18~28 <50 <1.0 >10 50

A01-0508-180-070NP-M8 18 (Max) 26~36 <65 <2 >10 4.9~9.1

A01-0612-180-121NP-A4 18 (Max) 28 <50 <5 >10 120

A01 Specification

30

OVER VOLTAGE PROTECTION DEVICE Application for IP-CAM

Security control systems incorporate outdoor and indoor units. The outdoor equipment must incorporate protective components to prevent damage to the circuit and equipment by the lightning protection. It’s essential to install suitable overvoltage protection components. Here have some recommend part for the IP camera ESD and Surge solution.

Description

IP CAM interface for ESD & Surge Solution

Interface Type Requirements Series Part No. Size Ref. CKT

RJ45 Data Surge 10x700 μs/40 Ω/6KV S03 S03-1206-120-060K 1206 Ckt(1)

RJ45 PoE Surge 10x700 μs/40 Ω/6KV S03 S03-1210-750-060K 1210 Ckt(1)

AC 24V Surge 10x700 μs/40 Ω/6KV S03 S03-1210-470-060K 1210 Ckt(2)

SD Card ESD IEC61000-4-2/8KV E01 E01-0402-120-050PP 0402 Ckt(3)

USB ESD IEC61000-4-2/8KV E01 E01-0402-240-2R5PP 0402 Ckt(4)

Video ESD IEC61000-4-2/8KV E01 E01-0402-120-050PP 0402 Ckt(2)

Audio ESD IEC61000-4-2/8KV E01 E01-0402-050-330NP 0402 Ckt(2)

Others I/O ESD IEC61000-4-2/8KV E01 E01-0402-050-330NP 0402 Ckt(2)

Indoor I/O Surge IEC61000-4-5/8x20μs E01 E010805-120E560NP 0805

USB

1234

Vbus

D+

D-

CKT(4)

SD Card

123456

CLK

CMD

Data0

Data1

Data2

Data3

S03

E01

CKT(2)

Power // I/O

RJ45

1A2A3A4A5A6A7A8A

6

Power End Station

PoE(-)

R

Spare Pairs

PoE(+)

Data Pair

4, 5 for 48V+PoE(+)

R

1

7, 8 for Vss

Spare Pairs

PoE(-)

Lan Transformer

2

3

Data Pair

The power surge protection solution depends if the ground is connected to earth.

CKT(3)

CKT(1)

Application Table

31

OVER VOLTAGE PROTECTION DEVICE Application for Ethernet with PoE

The traditional surge solution is to use GDT for protection, when transient voltage occurred, GDT will have a period of delay between direct current discharge and exact working. Therefore, it’s generally not only use GDTs to protect electronic equipment and add some protective components after GDT. That’s the reason why GDT has slow response and remains voltage.

Description

Application Circuit

GDT Disadvantage : On application of PoE, due to the arc voltage is less than working after GDT discharge. Because the GDT will break and burned out and short, it becomes huge damage due to it’s extinguish problem. In order to solve the issue, it’s usually to put series of varistors or Sidactor after GDT to to prevent extinguishment. Our CSPD strong characteristic in 1. Chip Size 2. High flow ability 3. Low clamping volt 4. Quick response time and provide better solution than that.

Compare traditional Solution

+

NEW===Our

super solution

Old

PHY Side Cable Side

Power over Ethernet (PoE) is a technology which transfer power and data through Ethernet cables. They are including telecom systems, IP phone, wireless station, IP camera, hub, computers which get power by PoE. Therefore, it must be use surge protection for Ethernet RJ45 connectors. In telecom systems are connected by Ethernet and will also have the surge or voltage problem caused by power off by the surge. The surge protective device and pass the overvoltage to earth and clamp the voltage to avoid the system damage and broken. Now the standard of 100/1000M of Ethernet speed requirement and these precise devices protected is more important.

32

OVER VOLTAGE PROTECTION DEVICE Application for Ethernet

Application Circuit

Ethernet (RJ45) surge protection

Mode Test Standard Series Part No. Package Cap.

L-G 10x700μs/40 ohm /6KV S03 S03-1206-120-060K 1206 --

L-G 10x700 μs/40 ohm/4KV S03 S03-1206-120-040K 1206 ---

Suggestion

Description

Now more popular in networking application in indoor and outdoor security all need for the overvoltage and lightning protected. The interface of RJ45, the circuit is 4 wires protection (1,2/3,6). In order to have full protection for 8 wires (1, 2、3,6、4,5、7,8）and prevent the surge attacked, our CSPD products have the good characteristic and small size devices conjunction with the wires an will provide the protection

33

OVER VOLTAGE PROTECTION DEVICE Application for Automotive

Load Dump ─ the battery happens short situation when the alternative power in charge process. Besides, it will occur load dump when engine starts and it’s the largest energy pulse in whole car. The reason is loading suddenly withdraws when power generator works (ex. battery in charge). Due to the energy of generator release suddenly, the power circuit occurs hundreds of voltage, 5-10ms, half wave 100, 200, 300, 400 etc. Due to the different watt of generator, it will put the suppressor in parallel at the output of ECU to clamp the load dump of generator.

Description

Pulse 5a

12V 24V

Us 65V~ 87V 123V~ 174V

Ri 0.5Ω~4Ω 1Ω~8Ω

td 40ms~400 ms 100ms~350 ms

tr (10 +0/−5 )ms

12V 24V

Us 65V~ 87V 123V~ 174V

Us* Defined by Customer

td Same as 5a

Pulse 5b

34


Series Function Character Application

M01 ESD Surge

Size (Inch)：0402~2220 Working Voltage：5V~82V Surge Current ：20A~1200A(8x20μs)

Normal I/O protection Ex ： Video、Audio 、DVI、USB2.0

E01 ESD

Size (Inch)：0201~0805 Working Voltage：5V~24V Surge Current ： 5A~10A(8x20μs) Capacitance： 0.8pF~100pF

Signal speed Ex ： Video、Audio 、DVI、VGA、USB2.0、D-DUB

S06 /S05 ESD

Size (Inch)：0402~0603 Working Voltage：5V~24V Surge Current ： 5A~10A(8x20μs) Capacitance： 0.2pF

Ultra high speed protection Ex ： Antenna、HDMI、DP、USB3.0

A01 ESD

Size (Inch)：0508(Array type) Working Voltage：5V Surge Current ： 5A~10A(8x20μs) Capacitance： 10pF

Signal speed Ex ： Data Bus line、FPC

Advantages Family

Series Function Character Application

S03 Surge

Size (Inch)：1206~1812 Breakdown Voltage：12V~75V Surge Current ：100A~200A(10x700μs)

Telecom Equipment Ex ： Ethernet、PoE 、Hub、Router、RJ45 Connector

S02 Surge

Size (Inch)：0805~3220 Breakdown Voltage：24V~100V Surge Current ：200A~20KA(8x20 μs)

DC Power Ex ： DC、Low voltage AC 、Base Station

S01 S05

Load Dump ESD

Size (Inch)：0603(ESD Auto) Size (Inch)：0805~6420(Load Dump) Working Voltage：12V~24V Load Dump ：1.5J~160J(Pulse5a) ESD robustness： 30KV

Automotive Ex ： All ECU、CAN Bus、other Control I/O

S04 Surge

Size (Inch)：1210~3220 Breakdown Voltage：150V~470V Surge Current ： 500A~3000A(8x20μs)

AC Power Ex ： LED Lamp、others

M01 Family

35

Application Table

OVER VOLTAGE PROTECTION DEVICE Surge Specification

Category C: Service entrance, more severe environment: 10kV, 10kA surge. Category B: Downstream, 30 ft from category C, less severe environment: 6kV, 3kA surge. Category A: Further downstream, 60 ft from category C, least severe environment: 6kV, 0.5kA surge.

Category Voltage Current Impedance Application

1.2/50 μs 8/20 μs ohm

C(Outdoor) 6KV 3KA 2 Outdoor Commercial , Industrial / Parking

B 6KV 3KA 2 Lighting near Service Entrance

A(Indoor) 6KV 0.5KA 12 Indoor /Offices/ Retail

Category C Category B Category A

Service drop

Transformer

Utility pole

Meter

Service entrance

Disconnect breaker

Outlet Outlet

● ●

● ●

60 ft

30 ft

United States Europe / America Taiwan China

Surge Immunity 1.2*50 μs/ 8*20 μs LED light bulbs inside

IEEE62.41.2 Ring wave 2.5KV 100Khz Class A

IEC/EN61547 (IEC61000-4-5) 500V/250A,1KV/500A

CNS14676-5 (IEC/EN61000-4-5) 500V/250A 1KV/500A

GB/T18595 (IEC/EN61547) 500V/250A 1KV/500A

Surge Immunity 1.2*50 μs/ 8*20 μs LED outdoor Luminaires

IEEE62.41.2(Category C) 6KV/3KA 20KV/10KA

IEC/EN61547 IEC/EN61000-4-5 4KV/2KA, 6KV/3KA,10KV/5KA

IEC/EN61000-4-5 4KV/2KA

IEC/EN61000-4-5 4KV/2KA

Safety UL8750, UL1310 UL1993, UL1598

IEC/EN62560,IEC/EN60598 IEC/EN61347,IEC/EN62031

CNS STD. GB24819-2009 IEC62031

Character Test Level

Device

Self-ballasted Lamp & Semi-luminaries Luminaries & independent auxiliaries

< =25W > 25W

Surge waveform 1.2*50µs 1.2*50µs 1.2*50µs

Line to Line 1.0KV 1.0KV 1.0KV

Line to Ground 1.0KV 1.0KV 2.0KV

36

OVER VOLTAGE PROTECTION DEVICE Characteristic Definition Characteristic Definition

Characteristics Test Method or Description

Max. Working Voltage Maximum steady-state DC operating voltage the device can maintain and typical leakage current at 25℃ not exceed 50 μA.

Varistor Voltage（BDV） With the specified measuring current of 1mA DC applied. Tolerance of breakdown voltage: 5~8V= ±20%; 12~18V= ±15%; 18~430V= ±10%

Max. Clamping Voltage Maximum peak voltage across the TVS measured at a specified pulse current（A）and waveform 8/20μs.

Surge Current Maximum peak current within varistor voltage change of ±10% may be applied with the specified waveform 8/20μs.

Surge Shift △V/V The shift of Varistor voltage after suffering the specified surge current.

Energy Absorption Maximum energy within the varistor voltage change of ±10% may be dissipated with a specified waveform 10/1000μs .

Typical Capacitance

Device Capacitance measured with the zero voltage bias 0.5VRMS 1KHZ; under 100pf measure at 1Mhz; Surge series the capacitance is only for reference. The tolerance is 100%

Nonlinear exponentα α=〔log（V1mA/V0.1mA）/log（ImA/I0.1mA）〕

Leakage Current Typical leakage current at 25℃＜50μA; Maximum leakage 200μA

Cut-off Frequency It is named of cut-off frequency for the frequency of -3dB insertion loss.

※Standard Test Condition：

Environmental condition under which every measuring is done without doubt on the measuring

results. Unless specially specified, temperature, relative humidity are 5 to 35℃, 45 to 85﹪RH.

※ 8/20μs waveform current（A）

※ ESD protection waveform current IEC 61000-4-5, EN 61000-4-5, This generator complies with UL 1449 August 15. 1996 Table B1.1

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Transmission vs Capacitance

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