Conducted Immunity Ing On Automotive Electronics CI230 20098022ppt2

User Manual: CI230

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Conducted Immunity Tests for

Automotive Electronics

Automotive EMC Seminar - IEEE HK

Jeffrey Tsang

Jeffrey.tsang@teseq.com

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Teseq Group

27th November 2006

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Teseq Group

Our competence center for conducted

equipment:

ESD

Burst

Surge

Power Quality

Automotive

SCS Accredited Calibration Centre

Headquarters

Luterbach, Switzerland

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Teseq Group

Our competence center for

RF Equipment

GTEM Cell, Reverberation Chamber

EMC System

DKD accredited Calibration Centre

Berlin, Germany

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Teseq Group

Our competence center for

Compliance 3 Software

EMC System Project

Power Amplifier

UKAS accredited Calibration Centre

Wokingham, UK

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Turnkey Projects

3m Anechoic Chamber

Radiated Emission System

Radiated Immunity System

ESD

Conducted Emission

Conducted Immunity

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Turnkey Projects

香港天祥

新加坡PSB

CISPR25 Emission System x2

600V/m Radiated Immunity

System

ESD

BCI System

Transient Immunity System

Magnetic Field Immunity

Stripline, TEM Cell

Optical EUT Monitoring

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Turnkey Projects

大连阿尔派 上海天祥

200V/m Radiated

Immunity System

Automatic EUT monitoring

System

Alpine China

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Turnkey Projects

ESD

BCI System up 400mA

Transient Immunity

Magnetic Immunity

1kW Power Amplifier –200V/m

Radiated Immunity System

中国电器科学研究院

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Conducted Immunity Testing on Automotive Electronics:

From ISO 7637 to Introduction of Manufacturer standards

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What is EMC?

Special Considerations for Motor Vehicles

In ISO 7637 and variants, we are considering transients and voltage drops that

are coupled over battery lines and signal lines

Immunity Testing simulates ‘Conducted EMC’ that occurs during normal or

error conditions in a motor vehicle.

Emissions testing ensures that the noise created by a device is less than

specified levels.

Evaluates the performance of components during simulated real-world EMC

events

These failure conditions are documented and tests defined by International

organizations (ISO, SAE) and manufacturers (Ford, VW)

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Why EMC is important?

Causes:

Alternators, Converters, Switching Processes

Electric Motors, Fuel Pump, Fan Motors

Lights, Radio

Every kind of electronic device

Coupled on Power Lines and Wiring Harnesses

Engine Start

When devices shall be tested:

Before production and sampling during

production

During redesigns or modifications

During initial design phases

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Automotive EMC

Automotive EMC

ESD Conducted

Transient

Immunity

RF Voltage

Fluctuation

Emission

Conducted

Transient

Conducted

Continuous RF

Magnetic

Many test cases

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Distinct Characteristics in

Automotive Conducted EMC

DC 12V, 24V, 42V

Lots of different Transients

Positive and Negative Transients

Emission and Immunity Tests

Lots of Voltage Fluctuation

Extremely detailed in test setup:

Harness height and length

Separation

Test Fixture

Load Simulator

Very long test time

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Automotive Conducted EMC Setup

EUT is set to be in operation mode(s)

Test Fixture

Load simulator EUT example:

Climate Control

Console

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EMC Standards in Automotive Industry

Manufacturers (OEM)

BMW

Daimler Chrysler

Fiat

Ford

General Motors

Honda

Hyundai

Mazda

Peugeot

Nissan

Renault

Toyota

Volkswagen

...More!

International Bodies

ISO

IEC / CISPR

Regional Requirement

2004/104/EC (e-mark)

SAE (SAE J1113-11, SAE J1113-12)

JASO

GB/T

No so difficult Much more

complicated

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ISO Standards on Automotive Electronics

ISO 7637-2: Conducted Transient on power line

7 tests

ISO 7637-3: Conducted Transient no non power line

4 tests

ISO 16750-2: Environmental conditions and testing

for electrical and electronic

6 out 10 tests are voltage fluctuation

ISO 10605: ESD

Lots of the test cases

are introduced and

modified in OEM

Standards

Usually in a more

harsh way

All these tests simulate typical electrical environment in a full vehicle

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Conducted Transient Immunity

&

Voltage Fluctuation

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OEM standards refer to ISO but different

Different automotive standards require different transient pulses. The

requirements are different in:

Amplitude

Impulse

Frequency

Pulse energy

Test method, test setup

What are the causes of differences?

Wiring harness

Components

Generators

etc.

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Conducted Immunity Tests Summary

ISO7637-2

Ford

Nissan

Volkswagen

ES-XW7T-1A278-AC

28401NDS02

TL 82066

Pulse 1

CI 210

EQ/TE 01

Pulse 1

Pulse 2a

CI 220

EQ/TE 02

Pulse 2

Pulse 3a

Pulse A1

EQ/TE 03

Pulse 3

Pulse 3b

Pulse A2

EQ/TE 04

Pulse 4

Pulse 4

Pulse B1

EQ/TE 05

Pulse 4b

Pulse 5a

Pulse B2

EQ/IC 01

Pulse 5b

Pulse 5b

Pulse C

pulse 1

Pulse 6

Pulse D

pulse 2

Pulse E

EQ/IC 02

Pulse F

pulse 3a

Pulse G

pulse 3b

CI 230

EQ/IC 03

CI 250

EQ/IC 04

CI 260

EQ/IC 05

Waveform A

EQ/IC 06

Waveform B

Waveform C

Waveform D

Waveform E

CI 270

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Test Purpose of ISO 7637-2

Test Pulse 1

This test is a simulation of transients due to supply

disconnection from inductive loads; it applies to a

DUT if as used in the vehicle, it remains connected

directly in parallel with an inductive load.(1)

Battery

Inductive Load

DUT

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Test Purpose of ISO 7637-2

Test Pulse 1 Variant

Ford

ES-XW7T-1A278-AC

CI220 pulse E (12V only)

Nissan

28401NDS02

EQ/IC 01 Pulse1 (12V only)

ISO 7637-2

Volkswagen

TL 82066

24V

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Test Purpose of ISO 7637-2

Test Pulse 2a

Pulse 2a simulates transients due to

sudden interruption of currents in a

device connected in parallel with the

DUT due to the inductances of the

wiring harness.

Battery

Switch off Lamp

Load

DUT

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Test Purpose of ISO 7637-2

Test Pulse 2a Variant

ISO 7637-2

Ford

ES-XW7T-1A278-AC

CI220 pulse F (12V only)

Nissan

28401NDS02

EQ/IC 01 Pulse 2a (12V only)

Volkswagen

TL 82066

24V

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Test Purpose of ISO 7637-2

Test Pulse 2b

Pulse 2b simulates transients from dc motors acting as generators after the ignition is

switched off

Battery

Ignition Switch

DC Motor

DUT

It is more like a voltage fluctuation test. Most car manufacturers had withdrawn this

because it is covered by other voltage fluctuation tests

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Test Purpose of ISO 7637-2

Test Pulse 3a/3b

Pulse 3 occurs as the result of

switching processes. The

characteristics of this pulse are

influenced by distributed

capacitance and inductance of the

wiring harness.

DUT

Battery

3a

3b

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Test Purpose of ISO 7637-2

Test Pulse 3a/3b Variant

Most manufacturers bring these tests into their own EMC standards except Ford

General Motor

GMW3097

Nissan

28401NDS02

EQ/IC 02 Pulse 3a/3b

Volkswagen

TL 82066 Pulse 3a/3b

Pulse width

td= 100ns

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Test Purpose of ISO 7637-2

Test Pulse 4

Pulse 4 is the voltage reduction caused by

energizing the starter motor circuits of the

internal combustion engines

Battery

DUT M

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Test Purpose of ISO 7637-2

Test Pulse 4

All manufacturers requires Starting Profile test but in more complicated way

Volkswagen

TL 82066 Pulse 4/4b

Nissan

28401NDS02 EQ/IC 05

Resistant to starting profile

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Test Purpose of ISO 7637-2

Test Pulse 4 Variant

Ford

ES-XW7T-1A278-AC CI230

Power Cycling

This test is to be

done at -40ºC or

below

Very Complicated Starting Profile tests

Nissan

28400NDS02

Momentary power source voltage

drop resistant

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Motor

Battery

Alternator

Generating Charging Current

Disconnect

Battery Lead

Test Purpose of ISO 7637-2

Test Pulse 5a/5b

Pulse 5 is a simulation of a load dump transient

occurring in the event of a discharged battery

being disconnected while the alternator is

generating charging current with other loads

remaining on the alternator circuit at this

moment

5a

5b DUT

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Test Purpose of ISO 7637-2

Test Pulse 5a/5b variant

All manufacturers requires Load Dump test but almost all of them are specified in

different ways

This pulse generate high energy and often destructive

Pulse 5a

Pulse 5b

Ford

ES-XW7T-1A278-AC

CI220 pulse G

Nissan

28401NDS02

EQ/IC 03 Pulse 5a/5b

Volkswagen

TL 82066 Pulse 5b

Only applicable to 42V system

Ri = 3Ω

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Test Purpose of ISO 7637-2

Test Pulse 5a/5b

Pulse 5a

0V

85V

-100V

400ms

13.5V

Pulse 1

-150V

Pulse 3a

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Manufacturer EMC Standards Tests

Ford ES-XW7T-1A278-AC CI220

Pulse A1 Pulse A2 Pulse C

These pulses are caused by actual mechanical relay with defined circuitry

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Manufacturer EMC Tests

Nissan

28401NDS02

EQ/IC 04 : Resistance to power supply micro-interruptions

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Manufacturer EMC Tests

Siemens VDO

Fuel Pump Transient test for IPC

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Pulse Generation System

Typical Setup

Photograph Courtesy of CVC

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Teseq Pulse Generation System

Teseq Conducted Immunity System

Automotive Electronics

Transients

Voltage

Fluctuation

ISO

SAE

JASO

BMW

Daimler Chrysler

Fiat

Ford

General Motors

Honda

Hyundai

Mazda

Peugeot

Nissan

Renault

Toyota

Volkswagen

Etc..

NSG5500 NSG5600

PA 5840

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Conducted Transient Emissions

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ISO 7637-2 Emission

Automotive EMI

CISPR12, 25 –> Continuous Interference

ISO 7637-2 -> Transient due to switching process

ISO 7637-2

Must do test

Test procedure is straight forward

Lots of details in test setup

Lots of mal-practice in the market

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ISO7637-2 Emissions Test Layout

DUT DUT

AN AN

“Fast Pulse” Setup“Slow Pulse” Setup

Cable lengths, 50 -0/+10 mm above GND plane, disturbance voltage

shall be measured as close to the DUT terminals as possible

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DUT

Oscilloscope

Battery

Source

Artificial Network

Simulates Wiring Harness

Impedance

Switch

Test Setup

Application

Wiring

Harness

ISO 7637-2 Emissions Test Layout

For applications where the DUT is

far from the switch, the setup

should have the AN between the

switch (simulating the wiring

harness) and the DUT.

“Slow Pulse Setup”

Millisecond range or slower

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Wiring Harness

Test Setup

Application

DUT

Oscilloscope

Battery

Source

Artificial Network

Simulates Wiring Harness

Impedance Switch

ISO 7637-2 Emissions Test Layout

For applications where the DUT is

near the switch, the setup should

have the AN before the switch

“Fast Pulse Setup”

nanosecond-to-microsecond range

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Emissions Relay or Electronic Switch?

Relay

Voltages over 400V

Usually must be approved by OEM

Poor Repeatability, Slow/Chattering

Must be replaced

Should be production relay from the

vehicle containing the DUT

Electronic Switch

Less than 400V

Fast and Repeatable

Voltage Drop Must be Accounted

For ∆U ≤ 1V at 25 A

When to use a relay and when the electronic switch:

Potter & Brumfield

Bosch

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Differences: AN(LISN) defined in

ISO7637-2 & CISPR25

Differences Between ISO 7637 and CISPR25 Artificial Networks

ISO 7637 and CISPR 25 Artificial Network are NOT the same

CISPR 25

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How to measure?

Test procedure is quiet straight forward but has to be

done manually

Search for the worst cases (highest amplitude) by:

Changing the switch on/off time

Changing the switching repetition

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Typical Measurement Result

Very Heavily Inductive Mixed R/L Load

Much more severe pulses from DUTs with high inductance

~450 V ~20 V

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ISO7637-2 Emissions Limits

Ford

ES-XW7T-1A278-AC

CE410 Limits <+100V, >-150V

Only use Fast Pulse setup

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Volkswagen TL 82066

Maximum permissible transient emission

Only use Fast Pulse setup

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Nissan 28401NDS02 EQ/MC 01

Measurement of conducted transient emission

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Nissan 28401NDS02 EQ/MC 01

Measurement of conducted transient emission

Complicated Measurement Setup

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Teseq Transient Emission System

AES 5500

Photograph Courtesy of HKPC

Control unit

Detectable switch

Artificial

Network

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Your Teseq partner:

Hong Kong

Denetron International

Limited

+852 2 707 9132

dhk@denetron.com.hk

www.teseq.com

Thank you!

Jeffrey Tsang

Jeffrey.tsang@teseq.com