Download DOWN LOAD HERE - NOISE LABORATORY CO.,LTD.

2012
EMC Tests
Equipments
Catalogue
For Consumer Products,
Industrial Equipments & Electronic Parts
■ Electrostatic Discharge Simulator
■ Component Level Electrostatic Discharge Simulator
■ Noise Simulator
■ Fast Transient / Burst Simulator
■ Lightning Surge Simulator
■ Voltage Dip & Swell Simulator
■ Damped Oscillatory Wave Simulator
■ Emission Measurement System
■ Resistor Current Noise Tester
www.noiseken.com
About Noise Laboratory Co., Ltd.
Noise Laboratory Co., Ltd. is a company which realizes
"Reproduction of electrical noises".
The Company was uniquely inaugurated in 1975 when computers suited at the early days as a manufacturer
of "Electric noise generator (Noise tester = EMC tester) for simulating the malfunction of computerized
equipments.
Since then, in order to dedicate quality advancement in the customers, we have sincerely adopted any
requests about the noise testers and provided ESD simulators, Impulse noise simulators, Lightning surge
simulators, Simulators for automotive applications, the integrated systems as well as the testing services in
“Test Laboratory Funabashi” with receiving valuable ideas from customers. Now, we have pleased to reach
the position more than 5,000 customers of 47 nations in the world who have adopted “NoiseKen” brand
products and services.
Based on this history and attainment point, we shall keep on developing our activities creating “NoiseKen”
so that we can respond to requirements and expectations from the customers who may be engaged with
EMC and expect the satisfactory reputations.
Variety of Electrical Noises and EMC
Generation ranges of noises
【Every electronic equipment】
Harm・damage
Measuremetn ranges of noises
Static electricity
Static electricity
Switching
Radiation
Discharge
Emission
Lightning surge
Radio wave
Conducted noise
EMS (Immunity)
Susceptibility in electromagnetic
environment
EMI (Emission)
Interference in electromagnetic
environment
EMC
Electro-Magnetic Compatibility
Products & Services of “NoiseKen”
∼ Assistance for securing products reliability ∼
Development,
production & sales of
EMC simulators and
systems
Testing service for EMC
Test Laboratory Funabashi
2
Calibration & repair
of EMC simulators
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E M C T e s t s E q u i p ment s C atal o g u e
Historical Highlights of Noise Laboratory Co., Ltd.
1975 Adachi Noise Laboratory Co., Ltd. establishment / Location of the Head Office: -- Iguchi,
Mitaka-shi, Tokyo Capital : 10 million Japan Yen
1976 Company name was changed into Noise Laboratory Co., Ltd..
1984 Head Office was relocated to Noborito, Tama-ku, Kawasaki-shi.
1990 Capital was increased to 60 million Japan Yen.
Head Office was relocated to Kami-asao, Asao-ku, Kawasaki-shi.
1993 Start contract testing service of noise imunity tests and consulting service of noise
counter meaures.
1995 Start contract testing and measurement services in Funabashi, Chiba Pref.
Selected as “New business model company” by Kanto Trade & Industry Bureau.
1996 Head Office was relocated to Mampukuji, Asao-ku, Kawasaki City,
1997 Equipped an anechoic chamber in Test Laboratory Funabashi
Capital was increased to 90 million Japan Yen.
2000 Head Office and Kakio Work were relocated to Chiyoda, Sagamihara City.
2001 Capital was increased to 95 million Japan Yen.
2004 Acquired IEC17025 accredition.
2009 Acquired test site certification in ISO/IEC17025 to Test Laboratory Funabashi by VLAC.
Outline of Noise Laboratory Co., Ltd.
【Company name】 NOISE LABORATORY CO., LTD.
【 L o c a t i o n 】 Head offices: 1-4-4 Chiyoda, Chuo-ku, Sagamihara City, Kanagawa Pref. 252-0237 Japan
TEL : +81-42-712-2051 FAX: +81-042-712-2050
【 E s t a b l i s h m e n t 】 28th March, 1975
【Board of Directors】 Masazumi Fujigaki/Representatives director
Mitsuru Hashimoto/Senior Managing Director
Shuichi NItta/Director
Mineo Sonoda/Auditor
Junichi Kitsunezaki/Auditor
【Accounting period】 May
【Dealings banks】 Mizuho bank Machida Branch
Bank of Yokohama Sagamihara Ekimae Branch
Sumitomo Mitsui Banking Corporation Machida Branch
Bank of Tokyo-Mitsubishi Sagamihara Branch
Request
Customers
Metropolitan Sales Office
Sales & Marketing Dept.
East Area Sales Office
Engineering Dept.
Central Area Sales Office
West Area Sales Office
Response
Shareholders’ meeting.
Board of Directors.
Quality Control Dept.
Representative Director
Manufacturing Dept.
International Sales & Marketici Section
Customer Engineering Center
Business Management Dept.
Test Laboratory Funabashi
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3
Table of Contents
ESD simulator ESS
■ About Noise Laboratory Co., Ltd.‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 2
■ Table of Contents‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 4
1 Electrostatic Discharge Simulator
Component Level Electrostatic
Discharge Simulator
Noise Simulator
ESS-S3011 & GT-30R‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 6
ESS-B3011 / L1611 & GT-30R‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 9
ESS-2000AX & TC-815R ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 10
ESS-801 / ESS-801GL (Test environment)‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 11
ZAP-1A (Automated Discharging System)‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 15
IEC61000-4-2 Ed.2 Test Standard Summary‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 16
2 Component Level Electrostatic Discharge Simulator
ESS-6002 / 6008‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 20
3 Noise Simulator
EFT/B FNS
INS-4020 / 4040‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 26
INS-AX2 series‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 27
Testing summary for impulse noise simulator‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 34
Lightning Surge LSS Voltage variation VDS
4 Fast Transient / Burst Simulator
FNS-AX3 A16B / B50B‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 38
IEC61000-4-4 Ed.2 Test Standard Summary‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 42
5 Lightning Surge Simulator
LSS-6230‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
LSS-F02 series (IEC standard)‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
IEC61000-4-5 Ed.2 Test Standard Summary‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
LSS-720B (JEC Standard)‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
JEC Standard Summary‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
Damped Oscillatory
Wave SWCS
6 Voltage Dip & Swell Simulator
EMI Measure EPS Immunity Test Antenna
VDS-2002‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
VDS-1007S / 2007‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
VDS-230S / 250S‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
IEC61000-4-11 Ed.2 Test Standard Summary‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
48
50
55
59
60
62
64
66
68
7 Damped Oscillatory Wave Simulator
SWCS-931D / SWCS-932S4‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 72
8 Emission Measurement System / Resistor Current Noise Tester
EPS-3007 Emission Measurement System for Printed Circuit Board‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
EPS-6000 Emission Measurement System for PCB‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
EPS-01A 3-D Emission Measurement System‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
EPS-2400 Facile Visualization System for Magnetic Field‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
RCN-2011 Resistor Current Noise Tester for Fixed Resistor‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥
9 High Frequency Contact & Near-Field Electromagnetic Immunity Test Antenna
NHHA & NTSA Series‥ ‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥ 83
● The printed products on this catalog are as of November, 2011.
4
74
78
80
82
82
They may be changed without a preliminary announcement.
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E M C T e s t s E q u i p ment s C atal o g u e
Reproduce discharging phenomena of static electricity.
EMC test equipment to evaluate the resistibility of electronic equipments when energy charged
on a human body or object is charged to the electronic equipments.
This can be available for evaluating malfunctions or functions declines of electronic equipments
which are driven by AC/DC against the ESD.
●
■Target or potential customers
● Consumer products (white home appliances, AV equipment, etc.)
● Industrial equipment (FA machines, controllers office machines, etc.)
● Industrial equipments (Medical, entertainment, measurements, etc.)
● Automotive equipmentst (Navigation, air-conditioner, audio, etc.)
● Communication equipments (Cellular phone, mobile devices, etc.)
● Elevating machines (Elevator, escalator, etc.)
● Materials (plastic resin, film board, etc.)
● Electronic component (Control board, mounted electronic
components, etc.)
● Electric or electronic equipments and devices demanded for EMC
ESS-S3011 & GT-30R
tests
● As antistatic paint penetration test in the manufacturers
● As film destructive test in manufacturers who produce gold foils and
hologram seals
● Manufacturers of protective parts against the ESD
● For measurement test in software makers who are developing
simulation softwares of ESD
● Connector manufacturer
● IC card developing manufacturers
■Test standards
● IEC61000-4-2
ESS-B3011 / L1611 & GT-30R
● ISO10605
● Individual industrial standards
● Private standards by manufacturers
ESS-2000AX & TC-815R
* “Private standards by manufacturers” shall be discussed separately.
ESD simulator ESS
Electrostatic Discharge Simulator
ESD Simulator
ESS-S3011 & GT-30R
ESD simulator ESS
Smart model equipped high function & extendibility
EMC test equipment to evaluate the resistibility of electronic equipments when energy charged on a human body or object is charged to the electronic equipments.
This can be available for evaluating malfunctions or functions declines of electronic
equipments which are driven by AC/DC against the ESD.
Programmable simulator to ease some complicated tests. The output voltage is up to
30kV and performable IEC61000-4-2 & ISO 10605 Standardscompliant tests.
● “3 pre-checking function” to make sure the more confirmable test
● “CR constant indicator” to make sure the correct unit attachment
● One-touch exchange of gun head and CR unit realized
● “Ten-key & Rotary knob” to ease the setting.
● “Infra-red Remote Controller” to realize the setting remotely from the gen-
erator (Standard attached).
● “Discharge Detecting Function” to realize the air-discharge confirmation.
● “Lightest discharge gun in the market” to lighten the continuous operation (Excluding the cable and connector)
● “White LED Irradiator” to facilitate the visualization of the discharging areas.
● “ Control Software” to enable the test result reporting and control with PC.
* The software is scheduled to be downloaded freely from our web-site (The connection cable is necessary in addition).
* C (Capacitor) and R (Resistor) for the discharge gun is one-body unit.
* ISO 10605 compliant test can be realized with the optional parts in addition.
Feature
● More insurable test realized ! “3 pre-checking function” built-in
[Check 1] Check high voltage output Confirm error to the set value.
[Check 2] Check withstanding voltage
Confirm whether withstanding voltage is normal or defective
The output and defectiveness are checked upon insertion of the discharge gun
to the attached gun holder.
[Check 3] Check discharge relay operation
Confirm whether the relay is exhausted or still available.
Confirmable by touch of the discharge gun to the check terminal on the
generator and discharge.
Photo of the operation
● “CR constant indicator” to make sure the correct unit attachment.
Whether the gun head
corresponds to IEC or ISO ?
6
What values are the charge
capacitor and discharge resistor ?
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Indicated on the display
of the generator
E M C T e s t s E q u i p ment s C atal o g u e
ESD simulator ESS
● More light and user-friendly discharge gun materialized
The discharge gun has been renewed completely to materialize much more lightning and best
gravity balance.
Human load in the operation can be remarkably reduced comparing to the previous model.
Please realize it on-hand actually.
Also, really discharge or not can be visualized with LED light on the body in this new discharge gun although the previous one has to be confirmed only with human eyes. In addition,
various functions are added like one-touch exchange of CR unit, LED irradiator to shine the
discharging points, etc.
LED irradiator built-in to shine the
discharging points
One-touch exchangeable CR unit
More light and comfortable handling
Easily exchangeable gun head
LED irradiator to visualize the discharge
(Change the color from red to green upon the discharge)
● “Infra-red Remote Controller” standard attached to realize the setting remotely from the generator
Start/Stop
Polarity
change
Voltage
Up / Down
Air/Contact
discharge
change
Gun trigger
function
Count reset
Sequence change
F key assignment
etc.
Most of the operation can be controlled by the remote controller.
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7
ESD simulator ESS
● Available to conform to ISO 10605 Standard with addition of the gun head and CR units.
Available to conform to ISO 10605 Standard by additional purchasing optional gun head and CR units.
Since exchange of the gun head and CR units can be one touched, the tests with varied CR constants can be realized easily.
Options for ISO 10605 Standard compliant test
Model
12-00009A
03-00072A
06-00074A
06-00076A
06-00075A
Gun head
for constant 2kΩ test
Name
Discharge tip (GT-30R Spherical 30mm)
Gun head to GT-30R for constant 2kΩ test
CR unit (150pF - 2kΩ) to GT-30R
CR unit (330pF - 2kΩ) to GT-30R
CR unit (330pF - 330kΩ) to GT-30R
CR unit
Discharge tip
(Spherical 30mm)
● High visibility LCD panel and operatability
Reviewed the past operatability so that more easy and optimal operation can be realized.
In " 1 IEC STANDARD" in MAIN MENU, since the test levels are preset, the test parameters can be set easily only with selection of the
test level. In " 2 MANUAL", voltage and number of times of the test can be selected and also the set conditions can be recorded. Sweeping
discharges can be set as well. In " 3 SEQUENCE", the set conditions in MANUAL can be recalled for combining them so as to realize the
arbitrary sequential tests. In addition, varied functions like setting for gun trigger, automated ESD eliminator, etc. are equipped.
Specification
Parameter
Polarity
Output voltage
Repetition cycle
No. of time of discharge
Discharge mode
Radiation level mode
Trigger mode
Operation panel
Gun holder
Radiation mode select switch
Discharge detection
Pre-checking function
CR & Gun head checking
8
Specification
Positive / Negative
0.20kV ~ 30.0kV±5% (30.5kVmax)
~10.0kV : 0.01kV step ~30.0kV : 0.1kV step
0.05s ~ 99.9s±10% / Manual
Set step : 0.05s (0.05 ~ 10.0s), 0.10s (10.0 ~ 99.9s)
1~60,000 times, Preset 1 time step or continuous preset
Contact discharge / Air discharge
NORMAL mode / EXTRA mode
Gun trigger / Main trigger / External trigger
Color LCD / Push-buttons (Partially lighting)
Standard attached (to hold the discharge gun Model GT-30R)
Extra / Normal switching function built-in
Discharge detection function in air-discharge equipped
Following 3 steps function equipped
(by user operation. Not the calibration but just checking)
SETP1 : High voltage output checking
STEP2 : Withstanding voltage checking
STEP3 : Discharge relay operation checking
CR constant and gun head recognizable
(with an indicator to prevent the wrong combination)
Parameter
Specification
"IEC STANDARD"
Contact discharge mode : 2.0kV, 4.0kV, 6.0kV and 8.0kV step
test mode
Air discharge mode : 2.0kV, 4.0kV, 8.0kV and 15.0kV step
"MANUAL" Contact / Air discharge mode, Arbitrary setting during 0.2kV~30.0kV
test mode
Sweeping function built-in, Recordable up to 99 units
"SEQUENCE" Enables to operate units set in MANUAL mode continuously.
test mode
Max. 22 steps / 1 program and the programs recordable up to 20.
Warning lamp
Lighting at voltage output from the generator.
Blinking at electro-static discharging
Charge capacitor / resistor 150pF±10%, 330Ω±10%(Built-in CR unit for discharge gun GT-30R)
Charge resistor in generator 10MΩ(Totally 53Ω in combination with 43MΩ in discharge gun)*
AUX connector
D-SUB 15pins female connector
(for connecting to patolight, automated ESD eliminator,
external interlock input, external trigger input terminal)
Optical communication Optical connector (serial interface) for connecting to PC
connector
Power supply / consumption AC100V~AC240V 50Hz / 60Hz ±10% 75VA
Dimension
Generator : (W)392mm X (H)312mm X (D)295.3mm (including gun holder)
Discharge gun : (W)83.3mm X (H)217.2mm X (D)229.3mm
Mass
Generator : Approx. 7.5kg
Discharge gun : Approx. 800g (excluding cable and connector)
* The constant depends on combination with CR unit for the discharge gun
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E M C T e s t s E q u i p ment s C atal o g u e
ESD Simulator
ESS-B3011 / L1611 & GT-30R
ESD simulator ESS
Cost-oriented Basic models
Cost-oriented basic model ESD Simulator the light weight discharge gun attachable.
The output voltage can be selected either max. 30kV (B3011) or max.
16kV (L1611) and compliant to both EN/IEC61000-4-2 Standard (both B3011 and
L1611) and ISO10605 Standard (only B3011).
● “Pre-checking function” taking the confirmable test into the account
● “CR constant checking function” (No indicator) to make the correct unit
attachment sure"
● “Discharge Detecting Function” to realize the air-discharge confirmation.
● “Lightest Discharge Gun in the market” to lighten the continual operation"
● “White LED Irradiator” to facilitate the visualization of the discharging area.
● One-touch exchange of gun head and CR unit realized
* ISO 10605 compliant test performable with addition of the gun head and CR units (only with
ESS-B3011)
Specification
Discharge output waveform (IEC Standard)
Parameter
Specification
Moswl
ESS-B3011
ESS-L1611
Output voltage
0.20kV~30.0kV±5%(30.5kVmax) 0.20kV~16.5kV±5% (16kVmax)
Polarity
Positive / Negative
Repetition cycle
0.05s~9.99s±10%, 0.01s step / Manual
No. of time of discharge 1~999 times, Preset 1 time step or continuous preset
Discharge mode
Contact discharge / Air discharge
Trigger mode
Gun trigger / Main trigger
Operation panel
Indicator : 5X7 Dot matrix LED / Operation : Push buttons (Partially lighting)
Radiation mode select switch Extra / Normal switching function built-in
Discharge detection Discharge detection function in air-discharge equipped.
Pre-checking function High voltage output checking function
(by user operation. Not the calibration but just checking)
CR & Gun head CR constant and gun head recognizable
checking
(to prevent the wrong combination without indicator)
IEC LEVEL Contact discharge mode : 2.0kV, 4.0kV, 6.0kV and 8.0kV step
Switching function
Air discharge mode : 2.0kV, 4.0kV, 8.0kV and 15.0kV step
Warning lamp
Lighting at voltage output from the generator.
Blinking at electro-static discharging
Charge capacitor / resistor 150pF±10%, 330Ω±10% (Built-in CR unit for discharge gun GT-30R)
Charge resistor in generator 10MΩ (Totally 53Ω in combination with 43MΩ in discharge gun)*
Power supply / consumption AC100V~AC240V ±10% 50Hz / 60Hz 62VA
Dimension
Generator : (W)270mm X (H)263mm X (D)200mm
Discharge gun : (W)83.3mm X (H)217.2mm X (D)229.3mm
Mass
Generator : Approx. 4.8kg
Discharge gun : Approx. 800g (excluding cable and connector)
* Remote control function not built-in.
* The constant depends on combination with CR unit for the discharge gun
Ipeak l
100%
90%
l at 30ns
l at 60ns
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10%
30ns
60ns
tr=0.8ns±25%
t
9
ESD Simulator
ESS-2000AX & TC-815R
ESD simulator ESS
Feature
● Conformance test to EN/IEC61000-4-2 Ed.1.0 Ed.2.0 available
● Extra test with 30kV output beyond IEC Standard available
● Test pattern variety is realized with 4 modes as IEC standard, manual, sweep
and sequence.
● Extra mode taking the radiation susceptibility in EUT into the account built-in
● The test can be enriched with the option variety like automated ESD eliminator
* For test requirement with 100pF-1.5kΩ（Human Body Model：HBM）and 200pF-0Ω（Machine Model：
MM）, model NO. ESS-6002 / 6008 (for semiconductor) shall be offered.
* Even if the capacitor unit for the discharge gun is changed to 100pF-1.5kΩ (Human-Body Model::
HBM) and 200pF-0Ω (Machine Model : MM), the specification may not be guaranteed. . (The same
goes for previous model ESS-2000 / 2002)
* Probe stand is option
Specification
Parameter
Specification
Output polarity
Positive / negative
Output voltages
0.20kV~30.0kV±5% (30.5kVmax)
0.20kV~10.0kV 0.01kV step
10.0kV~30.0kV 0.1kV step
Repetition cycle
NORMAL mode : 0.05s~600.0s±10%
EXTRA mode : 1.00s~600.0s±10%
0.05s~9.99s 0.01s step
10.0s~600.0s 0.1s step
No. of time of discharge 1~60000 times preset 1 time step or continours preset
Discharge mode
Contact / Air
Radiation levels modeNORMAL / EXTRA
Trigger mode
Gun trigger / Main unit trigger / External trigger
IEC Standard mode Contact discharge Mode : 2.0, 4.0, 6.0, 8.0 kV steps
Air discharge mode: 2.0, 4.0, 8.0, 15.0 kV steps
Manual test mode
Contact / Air discharge mode
0.2kV~30.0kV arbitrary set
Sweep function available
99 units memory available
TC-815R
Parameter
Specification
Sequence test mode. Continuous operation per units in manual operation
Max.30 steps per one program.
20 programs store possible.
Warning lamp
Turn on light while the output, Blinking at starting discharge
Charging resistances 10MΩ (53Ω in combination with 43MΩ in the discharge gun) *
AUX connector
D-SUB15 pin female connector
(For connection to optional automated
ESD eliminator and external warning lamp
External interlock input, external trigger input terminal
Optical communication connector For communication with PC (serial interface)
Power supply
AC100 V~AC240V±10% 50Hz/60Hz 75VA
Operating temperature / humidity range +15℃~+35℃ 25% RH~75% RH (without dew)
Dimension
(W) 260 X (H)230 X (D) 285mm (Projection excluded)
Mass
Approx. 5.3kg
* The constant is changed along combination with discharge guns
Accessory
Item
Power cable
Instruction manual
Q’ty
1 pc.
1 volume
Feature
● Conforms to IEC61000-4-2 Standard
● Charging capacitor and discharge resistance exchangeable
Specification
Parameter
Output voltages
Charging capacitor
Discharge resistance
Charging resistance
Discharge current / Rise time
Dimensions
Mass
Specification
0.20~30kV±5%
150pF±10%
(CR unit built-in) C/R combination of standard equipped CR unit cannot be changed
330Ω±10%
Approx. 43MΩ (10MΩ is built in main unit. Totally 53MΩ)
At contact discharge (See following table).
(W) 75x(H)220x(D) 210mm (discharge chip excleded) cable 2m
Approx. 1.4kg
Level Indicated voltage
1
2kV
2
4kV
3
6kV
4
8kV
First peak current of discharge
(±10%) Ip
Rise time
7.5A
0.7~1ns
15A
0.7~1ns
22.5A
0.7~1ns
30A
0.7~1ns
Current (±30%) at 30ns
4A
8A
12A
16A
Current (±60%)
at 60ns
2A
4A
6A
8A
Ipeak
I
100%
80%
I at 30ns
I at 60ns
Accessory
Item
Model
CR unit for TC-815R 150pF/330Ω (Fixed)
06-00057A
Discharge tip
12-00001A (Conical)
12-00002A (Round)
Instruction manual
10
TC-815R
Probe station
is option.
Q’ty
1 pc
1 pc
1 pc
1 volume
w w w. n o i s e k e n . c o m
10%
0
30ns
60ns
t r =0.7 to 1ns
t
Discharge current and its waveform
characteristics of IEC61000-4-2 standard
E M C T e s t s E q u i p ment s C atal o g u e
Test environment (Table-top type / Floor-standing type)
ESS-801 / 801GL
ESD simulator ESS
Feature
ESD test environment in conformance with EN/IEC61000-4-2 Standard.
Two types for EUT are available, table-top type and floor-standing type so that the
environments can support the tests along EUT figures. Since the table is made of wood,
influence to the test result should be small (quantitable test result can be expected since
the discharge can be realized in state high frequency electromagnetic field is less lost)
and the high reproducibility can be expected
and realized. Also, versatilely utilized for another tests like impulse noise immunity
test, etc.
● ESD test environments in conformance with EN/IEC61000-4-2 standard
● High reproducible tests can be performed
Test setup example with ESS-801
* Contents in the set referred to following specification
● Can be verstatilely utilized for another tests
Specification
ESS-801 (Table-top type)
Item
Test table
Vertical coupling plate
Ground plane
Insulating sheet
Discharge resistance cable
Horizontal coupling plate
Model
03-00039A
03-00005A
03-00007A
03-00004A
05-00054B
03-00020A
Dimension
(W) 1600x(H)800x (D) 800mm
(W) 500x(H)500x (t) 1.5mm
(W) 1800x(D)1000x (t) 1.5mm
(W) 1450x(D)650x (t) 0.5mm
2m cable equipped with 470kΩX 2 pcs.
(W) 1600x(D)800x (t) 1.5mm
Q’ty
1 set
1 set
3 pcs.
1 pc.
2 pcs.
1 pc.
ESS-801GL (Floor-standing type)
Item
Insulating support
Floor-standing vertical coupling plate
Ground plane
Discharge resistance cable
Model
03-00024A
03-00034A
03-00007A
05-00054B
Dimension
(W) 1200x(H)1200x (t) 100mm
(W) 540x(H)1540x (D) 500mm
(W) 1800x(H)1000x (t) 1.5mm
2m cable equipped with 470kΩX 2 pcs
Q’ty
1 pc.
1 pc.
3 pcs.
1 pc.
Vertical coupling plate
for ESS-801GL
■Option
Charging resistor
MODEL : See below
Capacitor unit
MODEL : See below
Resistors used for discharge gun TC-815R. Output
waveforms of ESD simulators can be varied along with
changing the values (Not standardized in IEC)
Capacitors units used for discharge gun TC-815R. Output
waveforms of ESD simulators can be varied along with
changing the values (Not standardized in IEC)
Model
H-000
H-100
H-150
H-200
H-250
H-300
H-330
Model
Capacintace value
06-00013A
100pF
06-00014A
150pF
06-00015A
200pF
06-00016A
250pF
Resistance value
0Ω
100Ω
150Ω
200Ω
250Ω
300Ω
330Ω
Model
H-400
H-500
H-1K
H-2K
H-1.5K
H-5K H-10K Resistance value
400Ω
500Ω
1kΩ
2kΩ
1.5kΩ
5kΩ
10kΩ
Model
Capacintace value
06-00017A
300pF
06-00016A
400pF
06-00018A
500pF
06-00032A
330pF
●Corresponding discharge gun : TC-815R
●Corresponding discharge gun : TC-815R
Discharge resistor can be exchangeable by removing the electrode as following
figure. The ESD test can be performed with desired capacitance value and
resistance value.
Capacitor unit
(Charging and discharge capacitor)
Discharge resistor
Spring
Ipeak I
100%
80%
I at 30ns
Electrode
I at 60ns
10%
0
Structure figure of CR unit
* Electrode cannot be removed from standard equipped CR unit in TC-815R (Capacitor and
resistor cannot be exchanged)
w w w. n o i s e k e n . c o m
30ns
60ns
Tr=0.7 to 1ns
t
Image waveforms figures when C & R are changed
11
Option
ESD simulator ESS
Probe Stand
MODEL : PA-806
Free Arm Gun Stand
Probe stand used for fixing discharge gun of ESD
Simulator
Parameter
Dimensions
Pedestal diameter
Mass
MODEL : 03-00022B
Enable to move discharge gun vertically and horizontally
to arbitrary desirable discharging point.
●Available discharge gun : TC-815R
Specification
(H)300mm
160mm
Approx. 1.6kg
●Corresponding discharge gun : TC-815R
Automated ESD Eliminator
MODEL : 01-00013A
Warning Lamp
Enable to eliminate electric charge which has been
charged to EUT automatically with connection to ESS2000AX
●Available model : ESS-2000AX
●Available model : ESS-2000AX
Gun Holder
* The connection is done with DSUB connector.
MODEL : 03-00056A
Optical USB Module
AUX Connector Junction Box
Enable to connect warning lamp, automated ESD
eliminator and external trigger simultaneously
●Available model : ESS-2000AX
●Available model : ESS-2000AX
MODEL : 07-00022A
●Available model : ESS-2000AX
MODEL : 12-00001A / 12-00002A
Optical RS232 Module
●Available model : ESS-2000AX
Impulsive Magnetic Field Adoptor
●Available discharge gun : TC-815R
MODEL : 03-00031B
Extension cable for TC-815R
Adaptor for simulating static induction as one of noise
inductive mode.with attachment to the discharge gun (Not
standardized in IEC)
MODEL : 12-00005A
MODEL : 05-00047A
Extension calbe in connection between ESD simulator
main unit and its discharge gun. The length is 3m
●Available discharge gun : TC-815R
●Available discharge gun : TC-815R
Cubic Insulating Block
Realize faster rise time of the discharge current than
IEC61000-4-2 standard value (0.7~1.0ns) around 0.2ns
with attachment to the discharge gun.
●Available discharge gun : TC-815R
12
MODEL : 03-00030B
Adaptor for simulating electromagnetic induction as one
of noise inductive mode.with attachment to the discharge
gun (Not standardized in IEC)
●Available discharge gun : TC-815R
Fast Rise Time Adoptor
MODEL : 07-00017A
Optical conversion adaptor used for remote control with PC.
5m of optical fiber cable with RS232 interface attached.
Tips for the discharge gun.
12-00001A : Conical 12-00002A : Round
Impulsive Electric Field Adoptor
MODEL : 05-00052A
Attach to side of ESS-2000AX and
hold the discharge gun
Optical conversion adaptor Used for remote control with
PC. 5m of optical fiber cable with USB interface attached.
Discharge tip
MODEL : 11-00014A
Caution is alerted with its blinking during the test with
connection to ESS-2000AX.
w w w. n o i s e k e n . c o m
MODEL : 03-00029A
Used for floating EUT 10cm upper than the ground plane
in case of testing to floor-standing EUT
Material : Wood
Q’ty : 4 pcs./set
E M C T e s t s E q u i p ment s C atal o g u e
Option
MODEL : 03-00024A
Faraday cage
When doing the electrostatic discharge test to a floorstanding equipment, to be used for floating the equipment
10cm higher than the ground reference plane.
Size : W 1200 X D 1200 X H 100mm
Material : Wooden
Withstanding loads : 500kg
Load Resistor Mounting Board
MODEL : 03-00052B
Load Resistor Mounting Board
The board to fix the load resistor (MODEL NO. 0600001A / 06-00067A ESD current target) for measuring
the discharge current waveform defined in IEC61000-4-2
Standard.
Dimension : 1.2m X 1.2m
ESD Current Target
MODEL : 06-00001A
ESD Current Target
MODEL : 02-00132A
Parameter
300kHz-1GHz
1GHz-4GHz
Conversion ratio
Mass
Attenuator
MODEL : 03-00060A
Specification
±0.5dB
±1.2dB
2V/1A (50Ω termination)
Approx. 400g
MODEL : 00-00010A / 00-00011A
Attenuator to protect measurement equipment for
ESD current waveform.
00-00010A : Attnuation ratio 6dB / SMA connector
00-00011A : Attenuation ratio 20dB / N connector
Discharge Gun Mount
Stand to pull and fix the ground cable of
discharge gun 0.5m backward from the discharge gun on the ESD current target
ESD Current Target Calibration Set
MODEL : 06-00067A
Load resistor to measure, verify and calibrate ESD current
waveform defined in IEC61000-4-2 Ed.2.0
High frequency responsible cable to connect ESD target
And oscilloscope
BNC-SMA connector (02-00133A) is also available as an
option
GNC Cable Positioner
MODEL : 03-00027A
The board to fix the load resistor (MODEL NO. 06-00001A
/ 06-00067A ESD current target) for measuring the discharge current waveform defined in IEC61000-4-2 Standard. (not conforming to the standard strictly but simply)
Dimension : 0.5m X 0.5m
Load resistor to measure, verify and calibrate ESD
current waveform defined in IEC61000-4-2 Ed.1.0.
Parameter
Specification
Applied voltage
15kV MAX
Output impedance 50Ω
Conversion ratio
1V/1A (50Ω termination), 2V/1A
(for open)
Output connector
N-R type (Equipped with N-BNC
conversion connector)
Dimension / Mass 70φ X 39mm, Approx.200g.
Coaxial Cable
MODEL : FC-200
Farady cage which is defined in IEC61000-4-2 Standard
to verify the discharge current waveform. Easy to move
with casters equipped to the bottom.
Item
Specification
Power supply
AC100V 50Hz/60Hz 3P inlet
Equipped with over-current protective breaker
Opening dimension (W) 410mm X (H) 618mm
on door
Dimension / Mass (W)670mm x (H)1612mm x (D) 1509mm
Approx. 65kg. 3p outlet X 2 15A MAX
MODEL : 03-00061A
Fixture to load and fix the discharge gun to
be Farady cage (FC-200) or load resistor
mounting board (03-00052B)
MODEL : 06-00068A
Set to calibrate the ESD target (06-00067A) in conformance with IEC61000-4-2 Ed.2.0 (2008).
* Not for 06-00001A.
Adaotir (06-00068A)
Connectoin between ESD current target (06-00067A)
and and the adaptor (06-0068A)
w w w. n o i s e k e n . c o m
13
ESD simulator ESS
Insulating holder
Option
ESD simulator ESS
CR Unit
CR unit for ESD gun GT-30R
●Available discharge gun : GT-30R
* Please contact us when the other CR constant is required than
the right description.
* The unit size depends on the capacitor constant.
Gun Head
MODEL : 03-00071A / 03-00072A
Model
06-00073A
06-00074A
06-00075A
06-00076A
06-00077A
06-00078A
06-00079A
06-00080A
Discharge Tip
Gun head to be changed according to Standard compliant
test. 2 kinds for the test with 330Ω(03-00071A) and 2kΩ
(03-00072) are lined up.
●Available discharge gun : GT-30R
MODEL : 03-00074A
Gun Holder
Adaptor for connecting between probe stand PS-806 or
03-00022B and discharge gun GT-30R.
14
MODEL : 03-00075A
Holder for discharge gun during the test.
Also, can be the pre-checking fixture in combination
between ESS-S3011 and GT-30R.
●Available discharge gun : GT-30R
Infrared Remote Controller
MODEL : 12-00007A / 8A / 9A
Discharge tips on the gun.
Conical (12-00007A)
Round (12-00008A)
Spherical (12-00009A)
●Available discharge gun : GT-30R
Conversion Adaptor for Probe Stand
CR constant
150pF-330Ω
150pF-2kΩ
330pF-330Ω
330pF-2kΩ
500pF-0Ω
150pF-500Ω
100pF-1.5kΩ
200pF-0Ω
●Available discharge gun : GT-30R / TC-815R
MODEL : 13-00004A
Carrying Case for Discharge Gun
MODEL : 09-00006A
Remote controller for ESS-S3011.
Case for inputting and carrying discharge gun GT-30R and some options.
●Available model : ESS-S3011
●Available discharge gun : GT-30R
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E M C T e s t s E q u i p ment s C atal o g u e
1 axis Automated ESD System
ZAP-1A
Realize automated electrostatic discharing so that the discharge quality can be constant without man-power
● Arbitrary and constant discharge can be realized with automated vertical
movement
● The automation can let you focus on EUT reaction
● Compact size the placement shoud not be tanken care
● The test condition is programmable and the ESD elimation is also atumated.
● Respond to the customization along the request
* Not corresponded to ESS-B3011 and ESS-L1611
ESS-2000AX
ZAP-1A
Parameter
Dimension / Mass
Z axis
Quantity
Resolution
Discharge finish point Setting
Resolution
Velocity
Specification
(W) 300 X (H) 440 X (D) 400mm (Injecton excluded 12kg
10~50mm (Max 50mm)
1mm unit
0~40mm (Max 50mm)
1mm unit
1~10cm/s
Test Pattern Example
Voltage
Porality
Number
Mode
Velocity
Voltage
5 patterns
●In
case discarged pins are 10
: 5, 10, 15, 20 and 25 kV = 5 patterns
: +/- = 2 patterns
: 10 times per pin
: Air discharge
: Discharge at 5mm/s velocity 15 mm away from DUT
Polarity
2 patterns
Number
10 times
Discharged point
10 pins
1,000 times tests
Must take 1,000 times of the discharge manually
Then…
Automation & labor-saving ! Easy reproduction of the test
Discharge gun down
Discharge !
w w w. n o i s e k e n . c o m
15
ESD simulator ESS
Outline
IEC61000-4-2 Ed.2 Test Standard
ESD simulator ESS
1. General
The international immunity test standard which applies to electronics equipments against ESD generated directly from a human body or near
metal objects in condition chemical fibers carpets or clothings are used in low humidity relatively. This standard assumes cases an electrified
human body discharge to electronics equipments and testing with the circuit to simulate current waveform generated in such conditions
2. Test Level
■ Test level range for the ESD
The levels as below.
Level
1
2
3
4
X
Test voltage (contact discharge)
2kV
4kV
6kV
8kV
Special
Test voltage (air discharge)
2kV
4kV
8kV
15kV
Special
* X can be any level determined by consent between the EUT manuracturer and the simulator supplier
3. Test Generator and Waveform Verification
■Generator specificaiton
The generator must satisfy following specification.
Energy accumulation capacity
Discharge resistnace
Charging resistance
Output voltage
Tolerance of output voltage
Polorarity of output voltage
Hold time
Discharge mode of operation
Waveform of discharge current
Ipeak
150pF (typical)
330Ω (typical)
50MΩ~100MΩ
8kV / Contact discharge, 15kV / Air discharge
±5%
Positive and negative (Switching available)
>= 5sec.
Single discharges (Discharge interval >=1 sec)
See right figure
l at 30ns
l at 60ns
10%
t
30ns
60ns
tr=0.6 to 1ns
■Generator characteristics
Discharge current waveform and its characteristics
The characteristics in following table must be verified in order to
compare the tests results even among different generators
1st peak current
of discharge Rise time
Level Indicated voltage
(±15%) lp
(±25%)
1
2kV
7.5A
0.8ns
2
4kV
15A
0.8ns
3
6kV
22.5A
0.8ns
4
8kV
30A
0.8ns
l
100%
90%
Current
(±30%)
at 30ns
4A
8A
12A
16A
Current
(±30%)
at 60ns
2A
4A
6A
8A
S1
Rch
V
Rd
S2
Cs
Capacitance Cs : 150pF
Discharge resistnace Rd : 330Ω
Simplified diagram of the ESD generator
16
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
Measure the waveform with an
oscilloscope whose band width is
2GHz or more upon use of Faraday
cage and the current target.
Attach the discharge electrode
directly to the current target and
operate the generator with the contact discharge mode.
* It is recommended that insertion of
approx. 20dB attenuator for protecting
the measurement equipment although
it is not specified in IEC Standard.
≧1200mm
Appropriate depth for the
scope being used
Insertion of 20dB attenuator is recommended
for protecting the oscilloscope
Coaxial cable connecting as
short as possible
>0.6m from the center of
the target to each side
Connecting method of ESD target
Conical tip is used for the discharge
12-00001A (Standard equipped)
Conversion
connector
(SMA – BNC)
6dB Attenuator
Discharge gun (TC-815R,
TC-815-330/2K)
0.5m
Oscilloscope
Faraday cage of Board
to fix the target
Faraday cage
≧1200mm
Fix the discharge gun
with optional probe
stand (03-00061A) or
the substitute.
* Never hold with hand
ESD simulator ESS
■Waveform verification of ESD Generator
Coaxial cable
20dB attenuator
Filter
The discharge return cable
should
be
connected
vertically 0.5m under the
current target and pulled up
right backward
ESD current target
06-00067AQ
0.6m form center of
the current target to
the each side
Discharge gun
ESD simulator
Main unit
Connected point of the
discharge gun return cable
4. Test setup
■Example of test set-up for table-top equipment
The direct discharge test is electrostatic
direct discharge to EUT and examine the
influence.
Put a wooden table whose height is 0.8m on
the ground plane and place horizontal coupling plate (HCP 1.6m × 0.8m).
Connect the HCP with resistor 470kΩ × 2 to
the ground plane and lay a insulation sheet
between the HCP and the ground plane.
The indirect discharge test is electrostatic
discharge to the HCP and vertical coupling
plate (VCP 0.5m × 0.5m) and examine the
influence of EUT. Connect the VCP with
resistor 470kΩ × 2 to the ground plane as
well.
Placement of indirect
discharge to VCP
Placement of direct discharge
0.1m
Distance between HCP and EUT
Distance between EUT side and
wall must be at least 0.8m
VCP
0.5m×0.5m
Placement of indirect
discharge to HCP
Power supply for EUT
(AC)
Protective conductor
EUT
Grounding conductor
Power supply for generator
470kΩ resistors
0.1m
0.8m
ESD generator
Wooden table
Ground plane
Insulation sheet
HCP 1.6m X 0.8m
In case of table-top EUT
* The isolation transformer for EUT is not specified in
IEC Standard.
■Example of test set-up for floor-standing equipment
Put an insulation pallet whose height is
0.1m onto the ground plane and place
EUT on the pallet for the direct discharge test.
The indirect discharge test is electrostatic discharge to the VCP and examine
the influence of EUT.
Connect the VCP with resistor 470kΩ ×
2 to the ground plane as well.
Distance between EUT side and
wall must be at least 0.8m
Placement of indirect
discharge to VCP
ESD generator
Power supply for EUT (AC)
Protective
conductor
0.1m
EUT
Grounding
conductor
Power supply for generator
* Float cables from the ground plane with
0.5mm thickness insulation sheet.
* Keep GND cable of the discharge gun ≧0.2m
from any conductive parts other than the
ground plane
* The isolation transformer for EUT is not
specified in IEC Standard.
0.1m
VCP 0.5m X 0.5m
Ground plane
470kΩ resistors
0.1m height insulation pallet
w w w. n o i s e k e n . c o m
Plasement of direct discharge
In case of floor-standing EUT
17
IEC61000-4-2 Test Standard
ESD simulator ESS
■Grounding method in JIS (Japan Industrial Standard)
Since the grounding method in Japan is different from the other countries, it is specified in JIS (Not done in IEC61000-4-2)
3 power supply lines
2 power supply lines
EUT
ESD
EUT
Insulator
Power supply
Insulator
Insulator
HCP
AC
2 power supply lines
ESD
EUT
ESD
Ground
terminal
HCP
Wooden
table
0.8m
Cable with
resistors
470kΩ
Power supply
AC
470 kΩ
Cable with
resistors
470kΩ
Power supply
AC
Wooden
table
0.8m
Cable with
resistors
470kΩ
470 kΩ
Ground reference plane
2-line power supply (for table-top EUT)
Wooden
table
0.8m
470 kΩ
Ground reference plane
3-line power supply (for table-top EUT)
Ground reference plane
2-line power supply with ground terminal
(for table-top EUT)
5. Test Procedure
■Climatic and Other Environmental Conditions
It is necessary to leave equipments which are brought in from different climatic conditions fully before performing the test. Also, in order
to stabilize the discharging condition certainly, it is necessary to fix the climatic conditions in the test room.
Fulfillment of the conditions listed in following table must be required to perform testing in conformance with IEC61000-4-2.
Ambient temperature
Relative humidity
Atmospheric pressure
Electromagnetic conditions
15ºC to 35ºC
30% to 60%
86 kPa (860 mbar) to 106 kPa (1060 mbar)
Level not to affect the test result
■Test Procedure
Direct discharge test : Contact discharge (at 1 second interval) and air discharge (discharge at ≦5 seconds cycle)
Indirect discharge test : Discharge to VCP and HCP
At least 10 signal disharge shall be at 1 second interval per both to positive and negative polarities.
* The preliminary test which discharges 20 times within 1 sedond or does more repetitively in order to determine the discharged points.
6. Evaluation of Test Results and Test Report
The tests results are classified into following 4 patterms according to specifications of EUT and operating conditions.
1) Normal operation within the tolerance of the specification
2) Temporary degradation or loss in the operation or the function which is able to be recovered by a self-recovery function
3) Temporary degradation or loss in the operation or the function which needs to be recovered by user intervention or reset in the
system.
4) Damage of the system (parts) or software, and unrecoverable degradation in the function due to loss of the data.
Generally speaking, as far as EUT can be immune to the ESD which is discharged in the all specified period and it satisfy the functional
requirements according to the product specification, the test result can be judged as “Good”.
The test report shall contain the test conditions and the result.
Notes: This test producer and test set-up are quoted from IEC61000-4-2 (2009) and JIS C 61000-4-2 standardsed.2.0 (2005) Standard for appling to our products.
Please go through the Standards if the more details are required.
18
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
Reproduce ESD phenomena variably
Simulator to reproduce electrostatic discharges (ESD) which are caused by a charged human
body or machine designed with capacitor type and discharge the ESD to electronic devices for
evaluating the resistibility against ESD.
In case the discharger is a human body, the test is called as Human Body Model (HBM) and in
case it is a metallic object, the test is called as Machine Model (MM). This simulator is available
to perform the both tests.
●
■ Target or potential customers
● Communication equipments (Mobile phone, mobile network
devices, etc.)
● Materials (Plastic resin, film board, etc.)
● Electronic devices (Semiconductor, LED, crystal oscillator, SAW
filter etc.)
● Others (Electric or electronic equipments demanded for EMC tests)
■ Test standards
● MIL-STD-883
● EIAJ ED-4701 etc.
● Individual industrial standards
● Private standards by manufacturers
* “Private standards by manufacturers” shall be discussed separately
Component Level Electrostatic
Discharge Simulator
Component Level Electrostatic
Discharge Simulator
Component Level Electrostatic Discharge Simulator
ESS-6002 / 6008
Feature
● Optimal for testing sensitive devices because of the output voltage from 10V
(1V step)(ESS-6002).
● Enables to evaluate the robustness against the breakdown voltage with the
Component Level Electrostatic
Discharge Simulator
output voltage up to 8kV (10V step).(ESS-6008)
● The direct discharge to the IC clip is available with the free board equipment
● Constant qualitative discharge is available with the semi-automatic operation
(in Semi-Automatic Precision Type).
● Available both for Human Body Model (HBM) test and Machine Model (MM) test
● Enable to discharge standards waveforms in between terminals
● Caracteristics variation of DUT can be verified with measurement terminal
(The measurement equipment is necessary besides)
● Enable to set the faster rise-up (with an optional card)
Semi-automatic precision tyoe probe stand
Test Standard
Human Body Model (HBM)
Machine Model (MM)
AEC-Q100-002-Rev.D Jul.2003
AEC-Q100-003-REV -E Jul.2003
ESDA ANSI/EOS/ESD-STM5.1-2001
ESDA ANSI/ ESD STM5.2-1999
IEC61340-3-1Ed.1.0 2002
IEC61340-3-2 Ed.1.0-2002
IEC60749-26 Ed.1.0 2003
IEC60749-27 Ed.1.0 2003
JEDEC JESD22- A114E Jan.2007
JEDEC JESD22- A115A Oct.1997
JEITA EIAJ ED-4701/300 Aug.2001 Test Method304
JEITA EIAJ ED-4701/300 Aug.2001 Reference Test Method
MIL-STD-883F 3015.7 Mar.1989
Specification
Parameter
Output voltage
Porality
Repetition period
No. of time of discharge
EXT TRIG IN
STAGE CONTROL
INTERLOCK
Power supply
Power consumption
Operating temperature range
Storage temperature range
Operating humidity range
Storage temperature range
Dimension
Mass
Specification
ESS-6002 10~2000V±10% (1V step)
ESS-6008 100~8000V±10% (10V step)
Positive and negative
0.3~99s±10%
0.1s step to 10s, 1s step over 10s
1~99/Continuation
±15V Max BNC coaxial connector
Operation in TTL fall-down (LOW over than 100μs or short between terminals)
Control with pptional semi-automatic precision type probe stand (MODEL 18-00076A) Dsub connector
Stop test when open on the termial board or between terminals
AC100~240V±10% 50Hz / 60Hz
25VA
15~35℃
-10~50℃
25~75%RH (without dew)
0~85%RH (without dew)
(W) 340 X (H) 199 X (D) 300mm (Projecxtion excluded)
Approx. 6kg
Accessory
Item
Q’ty
Human Body models (HBM) discharge probes (MODEL 01-00054A) 1 set
Machines Model (MM) discharge probes (MODEL 01-00055A)
1 set
(Attached with 2 pcs. of waveform adjustment card MODEL 06-00065A)
AC code
1 pc.
Instruction manual
1 volume
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E M C T e s t s E q u i p ment s C atal o g u e
Machine Model (MM) Probe
01-00055A
Parameter
Operating temperature / humidity range
Dimension / Mass
CR
Specification
15~35℃ / 25~75%RH (without dew)
(W) 50 X (H) 242 X (D) 54mm / Approx. 760g
C : 200pF±10% R : 0Ω
800V
Ringing
Irs
≦30% of Ip 1
14A±10%
Human Body Model (HBM) Probe
Parameter
Operating temperature / humidity range
Dimension / Mass
CR
Output waveform at short
Voltage
Peak current
lps
250V
0.17A±10%
500V
0.33A ±10%
1000V
0.67A±10%
2000V
1.33A±10%
4000V
2.67A±10%
8000V
5.33A±10%
Output waveform at 500Ω(±1%) load
Voltage Peak current
Current at 100ns
lpr
1100nx
100V
―
―
200V
―
―
Current at 200ns
1200ns
―
―
Component Level Electrostatic
Discharge Simulator
Output waveform at short
Voltage 1st peak current 2nd peak current Cycle
lp 1
lp 2
100V
1.75A±10%
200V
Min : 3.5A -10%
Max.: 3.8Z
Min : 67% of Ip 1 Min : 66ns
400V
7.5A±10%
Max : 90% of Ip 2 Max : 90nx
400V
Min : 0.85A
0.29A±10%
Min : 35% of 100ns
Max : 1.1745A
Max : 45% of 100ns
800V
―
―
* Output voltage depends on capbiities of the simulator (ESS-6002 / 6008)
01-00054A
Specification
15~35℃ / 25~75%RH (without dew)
(W) 50 X (H) 242 X (D) 54mm / Approx. 760g.
C : 100pF±10% R : 1.5kΩ±1%
Rise time
Trs
Fall down time Ringing
Tds
Irs
Min : 2ns
Max : 10ns
Min : 1.3ns
Max : 1.7nx
<15% of Ips
■Output waveform
Output waveform at 500Ω(±1%) load
Voltage Peak current
Ipr/Ips
Rse time Fall down time Ringing
lpr
Trs
Tds
Irs
250V
−
−
−
−
−
500V
min：60% of Ips ≧63％
5〜25ns
200ns±40ns ≦15%
max：0.25A−25%
1000V min：60% of Ips ≧63％
5〜25ns
200ns±40ns ≦15%
max：0.5A−25%
2000V min：60% of Ips ≧63％
5〜25ns
200ns±40ns ≦15%
max：1.0A−25%
4000V min：60% of Ips ≧63％
5〜25ns
200ns±40ns ≦15%
max：2.0A−25%
8000V −
−
−
−
−
* Output voltage depends on capbiities of the simulator (ESS-6002 / 6008)
■Output waveform
MM PROBE 01-00055A
HBM PROBE 01-00054A
Front Panel
■Simple usability
Digital indication : Indicate output voltage, discharge interval, No. of time of discharge
Polarity switching button: Select the discharge polarity
▼▲Up & Down switch : Change the selected value. Up and down quickly with the push continuously
Test level switch : Voltage values preset along conforming to HBM and MM
CALL switch : Enable to preset 5 test patterns
Sweep switch : Enable to sweep from discharge start voltage to the finish voltage with preset voltage unit
MEASURE switch : Switch to BNC terminal for measuring DUT before and after the test
STAGE switch : Select PIN PITCH, PIN COUNT and HOME in the setting items for using semi-automatic
precision type probe stand.
ESD switch : Select VOLTAGE, INTERVAL and COUNT in the setting items
START switch : Start test
STOP switch : Stop test
EXT TRIG switch : Used for starting test with external signal
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21
ESS-6002 / 6008
Free Type Probe Stand
18-00075A
Parameter
Dimension / Mass (probes stand unit)
Dimension / Mass (free board)
Vise gap
Others
Specification
(W) 200x(H)330x(D)290 mm / Approx. 1.5kg
(W) 100x(H)27x(D)180 mm (Projection excluded) / Approx. 200g
110 mm
V-shape block included
Component Level Electrostatic
Discharge Simulator
Discharge clips
(Black and red colord X 2)
Probes stand uni
Free board
V-shape block
Figure the probe connected
■Dischargeing figures
When free type probe stand 18-00075A is used
Noise is discharged from the IC clip attached with the probe stand to devices which are fixed using the free board or the V-shape block
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E M C T e s t s E q u i p ment s C atal o g u e
ESS-6002 / 6008
Semi-Automatic Precision Type Probe Stand
18-00076A
Easy test to semiconductors whose pitches are mm or inch since the minimum resolution accuracy is 0.01mm.
● The stage moves automatically accompanied by the discharge.
● Available for easy measurement with a measurement equipment after the discharge since the probe can be fixed at the
discharge.
Item
Dimension / Mass
Applicable IC size
X-Y-θ table
X axis
Y- axis
θ axis
Z-axis
Origin adjustment
Specification
(W) 250x(H)400x(D) 300 mm / Approx 7 kg
Maximum size : 40 mm X 40mm Minimum lead pitch : 0.4 mm
Manual movement : 20mm with dovetail groove feed screw mechanism
Motor drive (Maximum velocity : 13 mm/s) Movement : 40 mm (Y resolution : 0.01mm)
* Stepping motor & ball screw
Manual movement: 360°
Manual movement : 20mm (A spring built-in)
Manual
Discharge pin 20 pcs.
GNC clip 2 pcs.
Control cable
for connection to main unit
FG connection cable
for connection to main unit
Main unit
Figure the probe attached
■Application example
Probe
Stage
When discharge to the other
lines, rotate the stage
The stage moves 1 pitch distance of
the DUT accompanied with rising
the probe up.
Lower the probe down again. Then,
the discharge pin contacts in
between 2-pin and GND, and ESD
is applied there.
The discharge pin contacts in
between 1-pin, and GNC and
ESD is applied there when lower
the probe down.
1Pin
GND
Afterwards, repeat the same so that
ESD can be applied to each pin of
DUT by turns. When discharge to
the other lines, rotate the stage.
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2Pin
GND
23
Component Level Electrostatic
Discharge Simulator
● Easy removal and attachment of the probe.
Option
Waveform Adjustment Card (4 pcs. in 1 set)
MODEL : 06-00064A
For changing rise up time or cycle of the waveform
(Not specified in Standards)
Component Level Electrostatic
Discharge Simulator
Human Body models (HBM) probe
Machines models (MM) probe
Rise-up time : 2~4ns (typical)
Cycle : 69~75ns (typical)
HBM-F card for HBM (Fast)
HBM-S card for HBM (Slow)
MM-LF card for MM (Low Frequency)
Rise-up time : 6~8ns (typical)
Discharge Clip 2.54mm pitch type
MODEL : 08-00013A
Cycle : 83~89ns (typical)
Discharge Clip 0.3mm pitch type
Discharge clip
2.54mm pitch type
MODEL : 08-00013A
Red colord 2 pcs.
Black colored 2 pcs.
Protection case for
Free Type Probe Stand
24
MODEL : 11-00012A
MM-HF card for MM (High Frequency)
MODEL : 08-00014A
Discharge clip
0.3mm pitch type
MODEL : 08-00014A
Red colored 2 pcs.
Black colored 2 pcs.
Protection case for Semi-Automatic
Precision Type Probe Stand
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MODEL : 11-00013A
E M C T e s t s E q u i p ment s C atal o g u e
Noise Simulator
Reproduce high-frequency noises (square waves)
A simulator to reproduce fast rise-up noises which are generated when switching ON / OFF
electric current on the inductive load. Since the pulse includes broadband frequency and
its rise-up time is fast at 1ns or less, it can make the noise coupling dense and effective to
reproduce the malfunctions of electronics equipment under the test. It can realize performance
evaluation of electronics equipments upon reproduction of line noises which are intruded to the
power supply lines or induced noises onto the telecommunication lines.
■ Target or potential customers
● Consumer products (white home appliances, AV equipment, etc.)
● Industrial equipment (FA machines, controllers office machines, etc.)
● Industrial equipments (Medical, entertainment, measurements, etc.)
● Automotive equipments (Navigation, air-conditioner, audio, etc.)
● Electronic component (Control board, mounted electronic
components, etc.)
● Railroad application
● Security related equipments
INS-4020/4040
● Industrial controller related equipments
● Gaming instruments
■ Test standards
● Nippon Electric Control Equipment Industries Association (NECA)
NECA TR-28
● The Japan Electrical Manufacturers' Association (JEMA) JEMTR177
● The institute of Electrical Engineering of Japan JEC00103_2005
● Individual industrial standards
● Private standards by manufacturers
* “Private standards by manufacturers” shall be discussed separately
INS-AX2 series
Noise Simulator
●
Noise simulator
INS-4020 / 4040
Feature
● Reduce the complicated wiring with the floating generation circuit
● Easy setting either to Comon mode or Normal mode with short plug
● Easy wiring with built-in 50Ω termination
● Simple setting of the repetitive cycles (VARIABLE, LINE PHASE) only on the
main unit
● New function that enables to sweep the repetitive cycles arbitrarily is added
● Direct connection of AC plug on EUT can be available with optional outlet panel
● Various tests methods can be realized with optional probes and coupling adoptors
● 3-phase 5 lines of EUT can be tested with addition of optional injection unit
INS-4020/4040
Noise Simulator
Specification
Parameter
Square wave
Pulse width
Output voltage
Polarity
Rise-up time
Output impedance
Pulse revpetition mode VARIABLE
MANUAL
LINE PHASE
EXT TRIG
Memory capacity
EUT power capacity
Power supply / Power consumption
Operating temperature / humidity range
Dimension / Mass
High voltage coaxial connector
INS-4020
INS-4040
50, 100, 200, 250, 400ns±10% combination thereof, maximum width 1μs, or 10ns±3ns (the shortest connection)
0.01~2.00kV±10%
0.01~4.00kV±10%
(0.0.4kV for <0.1kV) 10V step
(0.0.4kV for <0.1kV) 10V step
Positive and negative
≦1ns
50Ω system (53.5Ω)
10ms~999ms±10% (1ms step) Sweep availalbe
16ms~999ms±10% (1ms step) Sweep available
One shot along LINE PHASE setting, Single output without line input
50Hz / 60Hz Injection Phase angle 0~360°
±10 DEG (1 DEG step) Sweep available
●EXT TRIG mode
●EXT TRIB mode
Operation cycle : ≧10ms Pulse width : ≧1ms
Operation cycle : ≧16ms Pulse width : ≧1ms
Input level : TTL / Open collector negative logic
Input level : TTL / Open collector negative logic
5 tests
AC240V / DC60V 16A
AC100~240V 50Hz / 60Hz / 140VA
15~35℃ / 25~75%
(W) 430 X (H) 249 X (D) 420mm / Approx. 19kg
NMHV Noiseken custom
Accessory
Item
Model number
Pulse width setting cable 30m
02-00013A
SG setting short plug
02-00106A
Outlet panel
18-00061B
Power supply cable
Instruction manual
Q’ty
6 pcs.
1 pc.
1 pc.
1 pc.
1 volume
Front Panel
±Poloarity switching button : Select polarity of the injection voltage
Digital indication : Indicate utput voltage, pulse repetition, phase angle
▼▲Up & Down switch : Change the selected value. Up and down quickly with the push continuously
SET switch : Used for deteming values in Sweep mode and designating momory hold
MOMORY switch : Memorize the present setting values and put the memorized set values back
EXT switch : Change to input of external synchronized signal
VOLTAGE switch : Set pulse voltage
(INS-4020：0.00V∼2.05kV、INS-4040：0.00V∼4.10kV)
PHASE switch : Set synchronicity angle to AC lines (0~360°)
1 SHOT switch : Set to manual single pulse output
This switch can be trigger button while the light is blinking
VARIABLE switch : Set pulse repetition value arbitrarily
(INS-4020 : 10ms~999ms, INS-4040 : 16ms~999ms)
Warning lamp : Blinking when the test starts
STOP switch : Stop the test
START switch : Start the test
POWER switch : Main power ON/OFF of the generator
EXTERNAL trigger input : Used when the pulse is put out in arbitrary timing
26
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E M C T e s t s E q u i p ment s C atal o g u e
Noise simulator
INS-AX2 Series
Feature
● Realize automation and efficiency in the test
● Rich variety is prepared along output voltage and EUT power capacity
● Simple and easy setting of the pulse widths with preset of 8 kinds pulse widths
● Simple and easy setting of the test parmeters with PC remote control whose soft-
ware is standard attached
● Programming on the control panel of the main unit is also available (The memory is limited)
● Enable to switch Common mode / Normal mode and injection angle in the main unit
● Enable to correct the pulse voltage indication by the termination impedance along
line injection or clamp use
functioned during the automated test
● Direct connection of AC plug on EUT can be available with optional outlet panel
●Various tests methods can be realized with optional probes and coupling adoptors
Noise Simulator
● EUT FAIL INPUT terminal built-in. Enable to control the test stop when EUT is mal-
INS-AX2
Specification
Parameter
Output voltage
Polarity
Pulse
Pulse width
Rise-up time
Plorarity
Output impedance
Pulse repetion mode LINE PHASE
VARIABLE
1 SHOT TRIG
EUT power capacity Power supply / Power consumption
Operating temperature / humidity range
Dimension
Mass
High voltage coaxial connector
Specification
INS-AX2-220 / 250 : 0.01~2.00kV±10% (±0.04kV for <0.1kV)
INS-AX2-420 / 450 : 0.01~4.00kV±10% (±0.04kV for <0.1kV)
Positive and negative
50, 100, 200,400, 500, 800, 1000ns±10% 10ns±3ns
1ns±30% (220T / 420T / 250T / 250TH / 450T / 250TH)
≦1ns
≦40ns (220T / 420T / 250T / 250TH / 450T / 250TH)
Positive and negative
50Ω system (53.5Ω)
Injection angle 0~360°±10% EUT power supply : Operatable at AC≧90V 50 / 60Hz±10%
10ms~999ms±10% (220 / 250) 16ms~999ms±10% (420 / 450)
Single output whenever pushing 1 SHOT switch Synchronized output with set
phase angle in PHSE mode
Single phase AC240V / DC65V, 20A (220 / 420)
3-phase AC500V / DC250V, 50A (250H / 250TH / 450H / 450TH)
AC50 / 60Hz±10%
AC100~240V±10% 50 / 60Hz±10% / 110VA
15~35℃ / 25~75%
(W) 430 X (H) 350 X (D) 470mm (Projection excluded)
INS-AX2-220 / 420 : Approx. 30kg INS-AX2-250 / 450 : Approx. 40kg
NMHV Series Classification
Max.
Model
output
voltage
INS-AX2-220
2kV
INS-AX2-200T 2kV
INS-AX2-250
2kV
INS-AX2-250T 2kV
INS-AX2-250H 2kV
INS-AX2-250TH 2kV
INS-AX2-420
4kV
INS-AX2-420T 4kV
INS-AX2-450
4kV
INS-AX2-450H 4kV
INS-AX2-450TH 4kV
EUT power capacity
Single phase AC240V/DC65V 20A
Single phase AC240V/DC65V 20A
Single/3-phase 4 lines AC300V/DC65V 50A
Single/3-phase 4 lines
AC300V/DC65V 50A
Single/3-phase 4 lines AC500V/DC250V 50A
Single/3-phase 4 lines
AC500V/DC250V 50A
Single phase AC240V/DC65V 20A
Single phase AC240V/DC65V 20A
Single/3-phase 4 lines
AC300V/DC65V 50A
Single/3-phase 4 lines
AC500V/DC250V 50A
Single/3-phase 4 lines
AC500V/DC250V 50A
Note
Square wave
Triangular wave half-value
Square wave
Triangular wave
Noiseken custom
Accessory
Note
Triangular wave
INS-AX2-250
Triangular wave
INS-AX2-250H
Triangular wave
Triangular wave
INS-AX2-450
INS-AX2-450H
Item
Q’ty
Outlet panel (18-00067A)
1 pc.
(for single phase teminal)
Outlet panel (18-00068A)
1 pc.
(for 3-phase teminal)
Outlet panel (18-00074A)
1 pc.
(for 3-phase teminal)
Power supply cable
1 pc.
Instruction manual for main unit
Each. 1
Instruction manual for software
volume
Software
1 pc.
Optical conversion adaptor
1 pc.
AC adaptor for optical 1 pc.
conversion adaptor
Optical cable (5m)
1 pc.
D-sub conversion connector (RS23C 1 pc.
Bag for accessories
1 pc.
Note
AC240V/DC65V 20A Max
(220/220T/420/420T)
AC300V/DC65V 50A Max
(250/250T/450/450T)
AC240V/DC65V 20A Max
(250H/250TH/450H/450TH)
Triangular wave
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27
INS-AX2-Series
Front Panel / Rear Panel
【Front Panel】
Operation panel
△UP / ▽DOWN
INJECTION angle setting switch
(Selection switch of PULSE OUT coaxial connector)
POLARITY setting switch
VOLTAGE setting switch
(Voltage sweep setting switch)
RETURN phase setting switch
1 SHOT switch
START switch
PAUSE switch
(Termination resistance selection switch)
PULSE width setting switch
PHASE / VARIABLE setting switch
(PHASE / VARIABLE sweep switch)
PROGRAM No. / LINE STATE setting switch
EXECUTE TIME / INTERVAL TIME setting switch
STOP switch
PHASE / VARIABLE switching
LINE ON / OFF setting switch
OUTLET panel
Outlet panel lock button
POWER switch
Noise Simulator
PULSE OUT coaxial connector
TERM IN coaxial connector
Remote control connector
INS-AX2-420/220
【Rear Panel】
Fan
EUT FAIL INPUT terminal connector
EUT LINE INPUT terminal connector
Serial number seal
Inlet for AC INPUT
PE terminal
INS-AX2-420/220
Software (Standard accessory)
Software to work, control and assist in the operation of INS-AX2 series more versatilely
Automated operations in the test conditions setting (Output voltage, injection phase, voltage sweep,
etc.) as well as the combined test of those conditions are enabled.
● PC remote control for INS-AX2 is enabled with the standard software
● Realize to make unrestricted test conditions as well as the test with its test conditions
programming function
● Enable to conduct the identical test conditions whenever requested with its test condi-
tions memorizing function same test By saving functioning
● Enable to make the test report (Preview and printing possible) with its reporting function
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E M C T e s t s E q u i p ment s C atal o g u e
Option
Attenuator for checking waveform
MODEL : AT-810
Attenuator developed for observing the high voltage pulse
Parameter
Attenuation quantity
Input Pulse peak voltage
Square wave Pulse width
Pulse width repetitive frequency
Input impedance
Ouput impedance
Mass
MODEL : CA-803A (Magnetic field coupling)
Enable for testing characteristics against the noise only with clamping communication cables of electronics equipments in combination with INS series.
○Enable to inject the noise without cutting signal, DC, AC, GND, etc.
○Enable to test the noise resistibility of electronics equipments separated individually.
○Enable to clamp bundle of signal lines whose maximum diameter is 15mm
○Termination resistance built-in.
Parameter
Input voltage
Input pulse width
Coupling ratio
Storage temperture range
Dimension / Mass
Coupling Adaptor
Specification
2000V Max
50~1000ns
1/20±10% of input voltage
-5~55℃
(W) 160 X (H) 60 X (D) 35mm / Approx 400g
MODEL : CA-805B (Capacitive coupling)
Enable for testing characteristics against the noise only with clamping communication cables of electronics equipments in combination with INS series.
○Enable to inject the noise without cutting signal, DC, AC, GND, etc.
○Enable to test the noise resistibility of electronics equipments separated individually.
○Realize to test the noise resistibility effectively since the injection can be directly to signal lines.
○Enable to clamp bundle of signal lines whose maximum diameter is 26mm
Parameter
Input voltage
Input pulse width
Dimension / Mass
Storage temperture range
Inside diameter of the clamp
Coupling Adaptor
Specification
4000V Max
50~1000ns
(W) 350 X (H) 120 X (D) 130mm / Approx 3kg
-5~55℃
26mm
MODEL : 15-00007A (CA-806 / Magnetic field coupling)
Enable for testing characteristics against the noise only with clamping communication cables of electronics equipments in combination with INS series.
○Enable to inject the noise without cutting signal, DC, AC, GND, etc.
○Enable to test the noise resistibility of electronics equipments separated individually.
○Termination resistance built-in.
Parameter
Structure
Input voltage
Input pulse width
Coupling ratio
Termination resistance
Max. diameter of ground cable
Dimension / Mass
Specification
Magnetic field coupling noise injection clamp
2000V Max.
50~1000ns
1/10±10% of input voltage
50Ω system built-in
27mm
(W) 89 X (H) 64 X (D) 120mm / Approx 1000g
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29
Noise Simulator
Coupling Adaptor
Sepcification
40dB at DC~500MHz (Tolerance 40dB~44dB *) *1/100±5% in DC
Max. 4000V
50ns~1000ns
Max. 60Hz at 4000V output
Max. 100Hz at 2000V
50Ω
50Ω
50Ω termination is necessary in case of using high input
impdance oscillosope
Approx. 550g
Option
Coupling Probe
MODEL : 95242-1
Produced by ETS LINDGREN
Enable for testing characteristics against the noise only with clamping communication cables of electronics equipments in combination
with INS series.
* Conversion cable (Model : 02-00075A) is necessary for connecting this probe with INS series.
Parameter
Frequency range
Max. input power
Max. input current
Triangular Wave Generation Unit
Specification
10MHz~400MHz
100W
25A
MODEL : 02-00099A
Noise Simulator
An unit to change the output waveform from square waveform to triangular waveform by attachment to the output of INS-4020 / 4040
without any modification
Parameter
Coaxial cable
Output pulse
Peak value
Pulse width (Half value)
Rise-up time
Poloarity
Dimension
Mass
Circuit Breaker Box
Specification
NMHV
Triangular wave
±4kV (Terminated with 50Ω system termination resistance in INS)
1μs±30%
≦40ns
Positive and negative
80 X 80 X 150mm (Projection excluded)
0.39kg
MODEL : 18-000072A (20A) / 18-00073A (50A)
Parameter (18-00072A)
Rated operating voltage
Standard rated current
Switching life
Operating temperature / humidity range
Dimension / Mass
Specification
AC250V 50 / 60Hz DC65V
20A
≧10000 times (Rated switching 6000 times, switching without load 4000 times,
switching frequency 6 times/min
15~35℃ 25~75% (without dew)
(W) 180x(H)92x(D) 100mm (Projection excluded) /.0.75 kg
Parameter (18-00073A)
Rated operating voltage
Standard rated current
Switching life
Neutral pole (N pole)
Operating temperature / humidity range
Dimension / Mass
Specification
AC20V / 415V 3-phase 4 lines Y-connection 50 / 60Hz
AC240V between LINE – Neutral pole (N pole)
AC415V between LINE - LINE
50A
≧10000 times (Rated switching 6000 times, switching without load 4000 times,
switching frequency 6 times/min
No trip alone
Neither open-circuit before other poles nor closed-circuit after the other poles
15~35℃ 25~75% (without dew)
(W) 180x(H)92x(D) 120mm (Projection excluded) /.12 kg
Noise Canceller Transformer
MODEL : NCT series
●Excellent attenuation characteristics for the impulse noise. Also, usable for isolating line input in the impulse noise test
MODEL
NCT-160
NCT-1120
NCT-1240
NCT-260
NCT-2120
NCT-2240
Outlet Panel
59C
60B
Primary / Secondary voltage
120V
240V
Rated current
5A
10A
20A
2.5A
5A
10A
Frequency
50Hz / 60Hz
MODEL : 18-00059C / 60B
Outlet panel to be available for different types of connectors in line output of INS-4020 / 4040
Model : 18-00059C
Model : 18-00060B
For Japan / USA AC125V 20A Max
For CEE type AC240V 16A Max
●INS-4020 / INS-4040
30
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E M C T e s t s E q u i p ment s C atal o g u e
Option
Outlet Panel
MODEL : 18-00069A / 71A
Outlet panel to be available for different types of connectors in line output of INS-AX2 series
Injection Unit
69A
Model : 18-00069A
Model : 18-00071A
71A
●INS-AX2-Series
For Japan / USA AC125V 20A Max
Multi-connectors type AC240V 15A Max
MODEL : IJ-4050
Unit to enable the noise injection for power supply lines of EUT up to 3-phase 5 lines (L1, L2, L3, N. PE) in combination with main units of
INS series. Setting for Normal mode and Common mode is simple and easy only with change of the connectors configurations
In case of the combination with INS-4020 / 4040, test synchronized with EUT lines can be conducted.
Specification
Max. 8kV without 50Ω termination Max. 4kV with 50Ω termination
3-phase 5 lines (L1, L2, L3, N, PE) AC415V 50A (Unavailable for DC)
AC415V between L1-L2, L2-L3, L3-L1 AC240V between L1, L2, L3 – N
With connectors configurations L1, L2, L3, N, PE
Normal / Common (Setting with short plue connection)
Detects between L1 – L2 add put out the synchronizatoin signal from SYNC OUT terminal
Detects current in L1, L2 and L3 lines and breakes L1, L2, L3 and N lines
Horizontal conductor connection
Exclusive contact for φ6
≦-10db 10kHz~10Hz without load
≦450V Residual voltage without load when 4000V impulse is injected with 50Ω termination
Nothing (Termination resistance in the main unit is applied)
AC100V~240V±10% 50 / 60Hz 20VA Max
15~35℃
25~75%
(W) 430x(H)199x (D) 535mm (Projection excluded Approx 25kg)
●INS-4020 INS-4040
Injection Unit
MODEL : IJ-5100
Unit to enable the noise injection for power supply lines of EUT up to 3-phase 5 lines (L1, L2, L3, N. PE) in combination with main units of
INS series.
In combination with INS series, test synchronized with EUT lines can be conducted.
Parameter
Max. pulse injection voltage
EUT lines
Max. voltage of EUT lines
Max. current of EUT lines
Line synchronization otuput
Pass characteristics
CDN power supply
Dimension / Mass
Specification
4000V ((with 50Ω termination)
3-ohase 5 lines (L1, L2, L3, N, PE)
AC480V
100A
1/2 of EUT input voltage
≦-10dB in 10kHz~1GHz
AC100~240V±10% 50 / 60Hz
(W) 488x(H)520x (D) 825mm (Projection excluded Approx 115kg)
●INS-4020 INS-4040
Optical USB Module
MODEL : 07-00022A
Interface adaptor for remote controlling the generator main unit with PC
USB – optical conversion : Optical fiber cable 5m attached
●INS-AX2-Series
SG cable
MODEL : 05-00103A
Braided wire cable to connect between SG terminal of the main unit and the ground reference plane.
Length : 0.1m
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31
Noise Simulator
Parameter
Input impulse voltage
EUT power capacity
Change of injection angle
Coupling mode
Line synchronization detection
EUT line protection circuit
EUT line input terminal
EUT line output terminal
Attenuation characteristics on coupling
Residual voltage at input
Termination resistance
Power supply
Operating temperature / humidity range
Dimension / Mass
Option
EMS Probe Kit
MODEL : H2-B
Probes set to enable the noise injection onto PCB patterns, flat cables, etc. in the connection with the generator. The probes can be
selected per electric fields or magnetic fields and the irradiation in the near field can be performed.
○Arbitrary noise injection to where it is desired on PCB or harness.
○Enable to detect point which the noise resistibility is weak per electric field and magnetic field with the probes differentiation.
○Varied probes are ready. Each 3 pieces of different figure and size are contained for electric field and magnetic field.
○Enable to pinpoint where the noise resistibility is weak since the injection can be done in such small range several mm.
○Enable to detect point where the noise resistibility is weak in particular frequency in combination with a signal generator
○Available to equip with noise simulator already on hand.
BS02
BS04DB
BS05DB
ES02
ES00
ES05D
In use of INS : Voltage ≦1kV, Pulse width ≦50ns
Noise Simulator
■Output spectrum in input of INS waveform
Input voltage : 1000V
Rise-up time : 1ns
Pulse width ; 10ns
①
②
③
①BS05DB
②ES02
③ES00
④ES05D
⑤BS02
④
32
⑤
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E M C T e s t s E q u i p ment s C atal o g u e
Option
Noise Injection Probe
MODEL : 01-00034A
○Enable to test the noise resistibility in a board level since the direct injection to LSI pin by pin is possible
○Possible for the noise injection up to 500V utilizing noise simulator on hand.
○Possible to exchange the coupling capacitor (Option)
[Option]
Coupling capacitors: 06-00039A : 220pF 06-00040A : 330pF 06-00041A : 3pF 06-00042A : 500pF
* 03-00034A. does not contain the coupling capacitors
Coaxial cable
Coupong capacitor
Discharge tip
Noise simulator
Radiation Probes
MODEL : 01-00006A / 7A / 8A / 9A / 10A
Probes to irradiate the radiation noise to wiring on PCB of electronics equipments so that point where the radiation noise resistibility is
weak can be detected.
Parameter
Input voltage
Input pulse width
Loop diameter
Cable length
Mass
Applicable connector
Specification
4000V Max
50ns~1μs
01-00006A : φ50mm, 01-00007A : φ75mm, 01-00008A ; φ100mm,
01-00009A : φ150mm, 01-00010A : φ200mm
Approx. 2m
Approx. 180g=220g
NMHV type
■Application Example of Probes
H2-B
H2-B
Radiation probe
Noise injection probe
H2-B
H2-B
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33
Noise Simulator
Ground clip
INS Test Setup Summary
INS Test Method
Impulse noise simulator
Power supply for noise simulator
Ground cable
Ground plane
Power supply for EUT
Insulating support
Isolation
transformer
Insulating support
0.5m
10cm
Noise Simulator
EUT
10cm
Connect short adaptor to SG in case of performing Coomon mode
Connect short adaptor to connector (L1, L2 or PE)
which is intend to be ground
Method or test to power supply lines
①Connect power supply line for EUT to EUT LINE INPUT on the simulator main unit (hereafter called as main unit) through an isolation
transformer
②Lay a ground plane and insulation sheet under main unit and EUT, and ground them for securing
③Connect power supply cable of EUT to main unit (Fold and bind the cable so it can be short in case the length is long)
④Connect short adaptor to SG. Connect SG terminal of main unit and FG terminal (In case it is there) of EUT to ground plane with low
impedance braided wire shortly and securely
⑤Connect 50Ω TERM OUT connector to connector of phase (L1 or L2, PE if necessary) the noise is intended to be injected with coaxial
cable
■CA-805B Application
Impulse noise simulator
Ground cable
59.9Ω termination
resistnace
Power supply for
noise simulator
Ground plane
Insulation sheet
Pulse Out
Couping adaptor
■CA-803A Application
Pulse Out
Power supply for EUT
EUT
Wooden table
Method or test to interconnection lines
Power supply for EUT
①Lay a ground plane and insulation sheet under main unit and EUT, and ground them for securing
②Open coupling adaptor CA-805B (Option) and clamp interface cable with the adaptor. Connect connector of the adaptor to PULSE OUT
of main unit. Connect the one another connector of the adaptor to 50Ω TERM IN of main unit.
In case for coupling adaptor CA-803A (Option), connect PULSE OUT of main unit and connector of the adaptor
③Connect power supply cable of EUT to arbitrary power source since no high voltage pulse is injected in this test
④Connect SG terminal and FG terminal of EUT to ground plane
34
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E M C T e s t s E q u i p ment s C atal o g u e
■Application Example of Probes
・Pulse generation principle of Noise simulator
R1
Coaxial cable
50Ω system Mercury relay
Vr
E
Vp
Injection part
(to EUT)
C1
C2
R2
R3
V
L1
L2
Noise Simulator
Pulse generator
R4
C3 C4
Power supply input
・Frequency spectrum
・Waveform of Noise Simulator
Output voltage waveform
Waveform at rise-up
500V/div. 1μs/div
500V/div. 1ns/div
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35
−Memo−
Noise Simulator
36
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E M C T e s t s E q u i p ment s C atal o g u e
Fast Transient / Burst Simulator
Reproduce showering arc at switching on/off of electric point of contact
●
A simulator to reproduce fast repetitive frequency noises which are generated when switching ON
/ OFF electric current on the inductive load. It can realize performance evaluation of electronics
equipments upon reproduction of line noises which are intruded to the power supply lines or
induced noises onto the telecommunication lines.
EFT/B FNS
■ Target or potential customers
● Consumer products (white home appliances, AV equipment, etc.)
● Industrial equipment (FA machines, controllers office machines, etc.)
● Industrial equipments (Medical, entertainment, measurements, etc.
● Automotive equipments (Navigation, air-conditioner, audio, etc.)
● Electronic component (Control board, mounted electronic components, etc.)
● Communication equipments (To power supply lines, interconnection line
<Data, image or audio transmission>)
● Lighting apparatus (Flicker test of a fluorescent light, etc.)
■ Test standards
● IEC61000-4-4 Ed.2
● Individual industrial standards
● Private standards by manufacturers
* “Private standards by manufacturers” shall be discussed separately
FNS-AX3
Fast Transient / Burst Simulator
FNS-AX3-A16B / B50B
Feature
● Fast Transient Burst Simulator conforming to EN/IEC61000-4-4 Ed.2 standard
● Realize more severe test than the standard with maximum f 4.8kV output and
2MHz pulse frequency
● Enable to perform continuous long time tests with programming and sweep function.
● Excellent visibility with adoption of touch panel
● Selectable to suitable tests with four test modes (IEC / manual / program / sweep).
● Enable to perform the injection test to various EUT in combination with large ca-
pacity CDN (100A or 150A).
● Available for the test to interconnection lines or PCB with optional coupling clamp
and EMC probes kit
Specification
EFT/B FNS
Parameter
Output voltage
Polarity
Output impedance
Coupling mode
Coupling capacitor / DC blocking capacitor
Pulse frequency *
Pulse waveform (at 50Ω load) *
Pulse waveform (at 1kΩ load) *
Burst duration
Burst period
Continuous output function
Specification
200~4800V
Positive and negative
50Ω
Common mode
33nF/ 10nF
0.1kHz~2MHz
Rise-up time 5ns±30% Pulse width 50ns±30%
Rise-up time 5ns±30% Pulse width 35ns~150ns
1~1000 pulses (limited depending on conditons)
Possible to set by time
10ms~1000ms 10ms step
Max. 10kHz (0.2~1kV)
Parameter
Specification
Timer
1s~99h59m59s
Max. 10 min. when the pulse is
continuous and the polarity is switched
Operation mode
MANUAL / IEC LEVEL / SEQUENCE
Frequency modulation
Modulate pulse frequency between 0~-10% of setting
External trigger TTL
Down edge, minimum trigger interval acceptable 10ms~
Line synchronization
A synchronized or synchronized with EUT(0~359° 1°step)
EUT power capacity
A16B : Single phase 3 lines AC85~240V 16A 50/60Hz
DC 125V 16A
B50B : Single / 3 phase AC85~5000V 50A 50/60Hz
DC 1245V 50A
Indicator / Operation panel Color 5.7 inch touch panel LCD
Operating temperature / 15~35℃ / 25~75% RH (without dew)
humidity range
Power supply
AC100~240V 50/60Hz 120VA
Dimension
(W) 320x(D)352x (H) 400mm
Mass
Approx.14kg (A16 Single phase) Approx. 19kg (B50 3-phase)
*Guaranteed accuracy range of waveform is 5~100kHz
Accessory
Item
SG cable
Power supply cable
Instruction manual
Q’ty
1 pc.
1 pc.
1 volume
Explanation on Screen
■Operation screen
Possible to set the test conditions easily only by setting the parameters on the each test mode. All test conditions can be set and displayed only on 1
to 2 screens. High operability is realized in combination with the chassis design taken the user-friendliness into account.
38
MANUAL mode
Test conditions setting
IEC (Test level) mode
SWEEP mode
MANUAL mode screen which is used
most frequently. Since Histogram
is also displayed, setting of tests
conditions can be seen intuitively
Selectable test conditions like the
polarity switching are set by ON/
OFF of the buttons. Parameters as
numerical setting can be easily input
with the ten-key which is displayed
by touch onto the screen.
Te s t s c o n d i t i o n s d e f i n e d b y
IEC610 0 0 - 4 - 4 is pres et. In the
injection to power supply lines, the
pres ets are the output voltages
(0.5kV, 1.0kV, 2.0kV and 4.0kV) and
the burst frequency (5kHz / 100kHz)
A test mode to preset the output
voltage and variation of the burst
frequency, and automatically perform
the test. The voltage variation is set
from 500V to 2500V per 250V step.
This is efficient function to judge
malfunction point of EUT and can
also set variation of conditions for
the output voltage, burst frequency,
polarity, injection phase.
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E M C T e s t s E q u i p ment s C atal o g u e
■Screen Configuration
Set either IEC standard or MANUAL on MENUE screen and do various parameters like voltage, number of pulse (PULSE), phase angle.
Conditions of SWEEP can be also set in MANUAL.
In SEQUENCE, possible to call tests conditions (Units) set in MANUAL and combine the units up to 18 steps (Program). Then, one set
of the steps can be programmed up to 15 sets.
●Easy setting for Standard test
●Detailed setting is also easy
The setting is only selection from
the preset levels
Various conditions like voltage, number of
pulse, phase angle can be set in MANUAL and
possible to memorize them
EFT/B FNS
●Easy to understand the process
Set test conditions is easily displayed.
Correction values in Corrigendum 2 are also
displayed.
●Easy setting for sequence test
Call test conditions set in MANUAL and perform
them sequentially
Accurate waveform realized by high voltage high frequency technology
High accurate and stable output is realized by reviewing the circuit and element in the past entirely, and gathering the analog technology of
the high voltage / high frequency. Consequently, it can be responded to diversified EMC environment with the improvement and upgrade
of the output voltage to 4.8kV from 4.5kV and the burst pulse frequency to 2MHz form 1MHz as well as realization of the high accurate
output waveforms from the CDN.
Output waveform from the generator
with coaxial cable : 50Ω
Output waveform from CDN (50Ω)
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Repetitive output of the burst pulse
39
Option
Coupling Clamp
MODEL : 15-00001A
Coupling clamp to perform the capacitive coupling test to interconnection lines based on IEC61000-4-4 Standard.
Parameter
Coupling capacity
Coupling plate length
Coupling Clamp
Specification
100~1000pF
1000mm
MODEL : 15-00009A
Coupling clamp for capacitive coupling test to signal lines based on IEC61000-4-5 Ed.3. The calibration fixture for this clamp is also proposable.
* Please contact us about the market release schedule.
Attenuator for Waveform Checking
MODEL : AT-810
Attenuator which was developed for observing the high voltage pulse
EFT/B FNS
Parameter
Attenuation quantity
Input Pulse peak voltage
Burst wave Pulse width repetitive frequency
Input impedance
Output impedance
Mass
Attenuator for Waveform Checking
Sepcification
40dB in DC~500MHz (Tolerance : 40dB~44dB *) 1/100±5% in DC
Max. 4000V
Burst frequency : 2.5kHz Burst continuous time : 15ms Burst period : 300ms
Pulse width : 50ns (50%) (Assuming waveform defined in IEC61000-4-4)
50Ω
50Ω
Necessary to terminate at 50Ω when high impedance (1MΩ) oscillocope is used
Approx. 550g.
MODEL : AT-811
Attenuator which was developed for observing the high voltage pulse
Parameter
Attenuation quantity
Max. Input voltage
Allowable input power
Input impedance
Output impedance
Mass
Cubic Insulating Support
Specification
40dB in DC~500MHz ((Tolerance : 40dB~44dB *) 1/100±5% in DC
4000V
0.5W
1kΩ
50Ω
Necessary to terminate at 50Ω when high impedance (1MΩ) oscillocope is used
Approx. 210g.
MODEL : 03-00029A
Insulating Support
To be used for floaing EUT 10cm over than ground plane.
Size : W100 X D100 X H100mm
Material : Wood
Quantity : 4 pcs./set
CDN OUT
MODEL : 02-00131A
Multi-Outlet converter
Fixture to measure the output wave at CDN OUT of the
simulator (See “Output waveform from CDN” on P39)
SG cable
MODEL : 05-00103A
Braided wire cable to connect between SG terminal of the
main unit and the ground reference plane.
Length : 0.1m
40
MODEL : 03-00024A
To be used for floaing EUT 10cm over than ground plane.
Size : W1200 X D1200 X H100mm
Material : Wood
Withstanding load : 500kg.
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MODEL : 18-00077A
Fixture to convert LINE OUT connector of FNS-AX3
E M C T e s t s E q u i p ment s C atal o g u e
Option
EMS Probes Kit
MODEL : H2-B
Probes set to enable the noise injection onto PCB patterns, flat cables, etc. in the connection with the generator. The probes can be
selected per electric fields or magnetic fields and the irradiation in the near field can be performed.
○Arbitrary noise injection to where it is desired on PCB or harness.
○Enable to detect point which the noise resistibility is weak per electric field and magnetic field with the probes differentiation.
○Varied probes are ready. Each 3 pieces of different figure and size are contained for electric field and magnetic field.
○Enable to pinpoint where the noise resistibility is weak since the injection can be done in
BS02
BS04DB
BS05DB
ES02
ES00
ES05D
In use of FNS : Voltage ≦ 4kV
Noise Injection Probe
MODEL : 01-00034A
EFT/B FNS
○Enable to test the noise resistibility in a board level since the direct injection to LSI pin by pin is possible
○Possible for the noise injection up to 500V utilizing noise simulator on hand.
○Possible to exchange the coupling capacitor (Option)
[Option]
Coupling capacitors: 06-00039A : 220pF 06-00040A : 330pF 06-00041A : 3pF 06-00042A : 500pF
* 03-00034A. does not contain the coupling capacitors
Coaxial cable
Coupong capacitor
Discharge tip
Noise simulator
Ground clip
Radiation Probes
MODEL : 01-00006A / 7A / 8A / 9A / 10A
Probes to irradiate the radiation noise to wiring on PCB of electronics equipments so that point where the radiation noise resistibility is
weak can be detected.
Parameter
Input voltage
Input pulse width
Loop diameter
Cable length
Mass Approx.
Applicable connector
Specification
4000V Max
50ns~1μs
01-00006A : φ50mm, 01-00007A : φ75mm, 01-00008A : φ100mm, 01-00009A : φ150mm, 01-00010A :
φ200mm
Approx. 2m
180g=220g
NMHV type
■Application Example of Probes
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41
IEC61000-4-4 Ed.2 Test Standard
1. General
The Test Standard for evaluating immunity of electric / electronic equipments when they are interfered by fast transient repetitive bursts
which are generated by break of inductive load equipments or bounds of relay contact point.
2. Test Level
Open circuit output test voltage and repetition rate of the impulses
On power port, PE
On I/O (input/output) signal, data and control ports
Voltage peak (kV)
Repetition rate (kHz)
Voltage peak (kV)
Repetition rate (kHz)
0.5
5 or 100
0.25
5 or 100
1
5 or 100
0.5
5 or 100
2
5 or 100
1
5 or 100
4
5 or 100
2
5 or 100
Special
Special
Special
Special
Level
1
2
3
4
X
3. Burst Generator and Waveform Verification
EFT/B FNS
Circuit diagram of a fast transient/burst generator
Rc
U
U
Rc
Cc
Switch
Cc
Cd
Rm
50Ω
Coaxial
output
Waveshape of a single pulse into a 50Ω load
Waveshape of a single pulse into a 1kΩ load
Normarized
voltage
Normarized
voltage
1.0
1.0
0.9
0.9
0.5
0.5
Rs
High-voltage source
Charging resistor
Energy storage capacitor
Rs
Rm
Cd
Impulse duration shaping resistor
Impedance matching resistor
DC. blocking capacitor
0.1
0.1
t
5ns±30%
t
5ns±30%
35ns~150ns
50ns±30%
Pulse wave shape into a 50Ω load and general graph of a fast transient/burst
Pulse
U
U
Burst
Burst period
15ms at 5kHz or 0.75ms at 100kHz
Possible to be 100kHz~2MHz (0.5μs~990ms) in
FNS-AX3
t
Pulse period
Burst cycle 300ms
Possible to be 10ms~1000ms in FNS-AX3
■CDN for AC/DC power mains supply ports/terminals
Signal from test generator
Cc
L1
AC
mains
supply
L1
Cc
L2
L2
Cc
L3
L3
Cc
N
Cc
PE
Filtering
＞100μH
Decoupling section
42
Ferrites
EUT
N
PE
CC＝33nF
Coupling section
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Reference ground
connector
Components
L1,L2,L3
phases
N
neutral
PE
protective earth
Cc
coupling capacitor
t
E M C T e s t s E q u i p ment s C atal o g u e
■Construction and Dimension of Coupling Clamp for coupling to interconnection lines
1000
70
70 High voltage coaxial cable
Coupling plates
140
100
1050
High voltage coaxial cable
Insulating supports
■Waveform Verification into a 1kΩ load (In case of using AT-811)
FNS-AX3 A16B/B50B
Oscilloscope
EFT/B FNS
①Directly connect connector on the input side
of AT-811 to connector of PULSE OUT.
Connect output side of AT-811 to an oscilloscope with the standard attached coaxial
cable. Insert 20dB attenuator if necessary.
②Since output impedance of AT-811 is 50Ω,
input to the oscilloscope is terminated at
50Ω.
③START the generator.
50Ω termination
Attenuator (20dB)
Adopted along the necessity
AT-811
Attenuation rate 100 : 1
Cable equipped with AT-811
■Waveform Verification into a 50Ω load (In case of using AT-810)
①Connect PULSE OUT of the generator to
input connector of AT-810 with the standard
attached coaxial cable (Connector : NMHVP
- NMHVP, attached with AT-810)
Connect output connector of AT-810 to input
of an oscilloscope. Insert 20dB attenuator if
necessary.
②Since output impedance of AT-811 is 50Ω,
input to the oscilloscope is terminated at
50Ω.
③ START the generator.
FNS-AX3
Oscilloscope
50Ω termination
Cable equipped with
AT-810
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AT-810
Attenuation rate
100 : 1
Attenuator (20dB)
Adopted along the necessity
43
■Waveform verification from CDN OUT (In case of using 02-00131A and AT-810)
①Remove protection cover of the line output terminal block 【EUT LINE OUTPUT】and the screws of the injection phases.
②According to IEC61000-4-4 Corrigendum 2(2007), the waveforms shall be verified in state the all lines are connected with each other.
The lines should be connected as thick and short as possible.
In case of the verification for single phase three-line with FNS-AX3-B50, connect L/N/PE.
Recommendable output wiring from CDN is ≧ 0.75mm2（AWG#18）
Confirm correction to Corrigendum 2 output from CDN is effective in the panel on UTIITY. If not, the peak voltage may not be satisfied with the specification.
③Insert adaptor for CDN OUT (02-00131A) into reference grounding socket on the terminal block straightly and fix the fixture and screw
with a screwdriver.
④Connect adaptor for CDN OUT (02-00131A) and input connector of AT-810 with a coaxial cable (equipped with AT-810) (NMHVPNMHVP）.
Connect output connector of AT-810 and input of the oscilloscope (Insert 20dB attenuator along the necessity).
⑤Set 50Ω terminal to input of the oscilloscope since output impedance of AT-810 is 50Ω.
⑥Confirm the coupling must be set to the all lines.
⑦START the generator.
Signal from test generator
EFT/B FNS
Power
supply
port
EUT port
L1
L2
Open
L3
Decoupling
network
N
PE
Reference ground
FNS-AX3
Oscilloscope
Adaptor for CDN OUT
waveform
02-00131A
Cable equipped with
AT-810
44
50Ω termination
AT-810
Attenuation rate
100 : 1
Attenuator (20dB)
Adopted along the necessity
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Umeas
Termination
resistor
50Ω
E M C T e s t s E q u i p ment s C atal o g u e
4. Test Setup
Power supply for simulator
Fast Transient
Burst Simulator
(FNS-AX3)
Power supply for EUT
Auxiliary
equipment
Power supply for
auxiliary equipment
Insulatiing support
Protective ground
Insulatiing support
10cm
Power cable 0.5m
Test table
(03-00039A)
Power supply for simulator
Power supply
for EUT
EUT
Fast Transient Burst Simulator
(FNS-AX3)
EUT
Ground plane (Using
horizontal coupline plate
03-00020A with grounding)
10cm
10cm
Coupling clamp
(15-00001A)
Insulatiing support
EFT/B FNS
Interconnection line 0.5m
(between EUT port and
coupling clamp
10cm
Ground plane
(03-00007A)
Insulatiing support
Protective earth
■Test Method to Power Supply Lines
■Test Method to Interconnection Lines
①Put the simulator onto ground reference plane which is connected to the protective ground and connect SG terminal on
the front panel to the ground reference plane.
②Place an insulating support (whose thickness is 10cm) onto
the ground reference plane and put EUT on the support (so
that the EUT can be isolated from the ground reference
plane).
③Connect LINE OUT on the front panel of the simulator to
EUT with a cable (whose length is 50cm) and start operation of EUT.
④Set the test conditions (like the burst voltage, etc.) and start
the test.
①Put the simulator onto ground reference plane which is connected to the protective ground and connect SG terminal on
the front panel to the ground reference plane.
②Place the coupling clamp (Option) onto the ground reference
plane connect ground terminal of the clamp to the ground
reference plane. If the line cable is arranged higher than
the ground reference plane, add the plane (See following
figure).
③Connect PULSE OUT connect to connector of the coupling
clamp.
④Pass the line cable through the coupling clamp. Adjust the
clamping part so that the coupling capacity can be largest
(space between the cable and clamp can be minimum).
⑤Cover the coupling clamp for preventing the electrical shock,
set the test conditions (like the burst voltage, etc.)
1m
Capacitive coupling clamp
Filter
0.1m
From EFT/B generator
To peripherals
Elevated ground
reference plane
To AC power supply
EUT
Cable
L=0.5m±0.05m
Insulatiing
support
Protective earth according
to system instllation
requirements
EUT
L
Cc
Ground reference plane
0.1m
Z1
Cc
AC main
To AC power supply
N
Cc
PE
Non-conductive
table
Coupling / Decoupling device
To EFT/B generator
Capacitive coupling clamp
Insulatiing support
To AC power supply
0.1m
Ground reference plane
Grounding connection
according to the manufacturer’s
specification Length to be
To EFT/B generator
specified in the test plan
w w w. n o i s e k e n . c o m
AE
L=0.5m±0.05m
0.1m
Protective ground
Safety wire between
ground referenceplanes
0.1m
Insulatiing support
Grounding connection according
to the manufacturer’s specification
Length to be specified in the test plan
45
5. Test Procedure
The test shall be carried out on the basis of a test plan that shall include the verification of the performances of the EUT as defined in the
technical specification.
・Type of test that will be carried out;
・Test level;
・Polarity of the test voltage (both polarities are mandatory);
・Internal or external generator;
・Duration of the test not less than 1 min
・Number of applications of the test voltage;
・EUT's ports to be tested;
・Representative operating conditions of the EUT;
・Sequence of application of the test voltage to the EUT's ports, each one after the other or to cables belonging to more than
one circuit, etc.;
・Auxiliary equipment.
EFT/B FNS
6. Evaluation of Test Results and Test Report
Classify tests results as below in terms of specifications and operating conditions of EUT.
1) Normal performance within limits specified by the manufacturer, requestor or purchaser;
2) Temporary loss of function or degradation of performance which ceases after the disturbance ceases, and from which
the equipment under test recovers its normal performance, without operator intervention;
3) Temporary loss of function or degradation of performance, the correction of which requires operator intervention;
4) Loss of function or degradation of performance which is not recoverable, owing to damage to hardware or software, or
loss of data.
Notes: This test producer and test set-up are quoted from IEC61000-4-4 Ed.2 (2004) and JIS C 61000-4-4 standards for appling to our products.
Please go through the Standards if the more details are required.
46
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E M C T e s t s E q u i p ment s C atal o g u e
Lightning Surge Simulator
Reproduce high energy noise by induced lightning
A simulator to reproduce “High energy induced lightning noise” which is induced by potential
change on the ground, or done to power lines or telephone lines as result of lightning current.
Dedicated to evaluate performance of electronic equipments which are connected to power
lines and telephone lines come from the outdoors or interconnection lines between buildings
and the others or the floors and the other floors whether the equipments may be malfunctioned,
deteriorated or resistible.
●
■ Target or potential customers
Lightning Surge LSS
● Consumer products (white home appliances, AV
equipment, etc.)
● Industrial equipment (FA machines, controllers, office
machines, etc.)
● Industrial equipments (Medical, gaming instruments,
measurements, etc).
● Electronic component (Surge protective devices, e.g.
Arrestor, varistor).
● Destructive test in connector manufacturers
● Tuner manufacturers for CATV
● Battery manufacturers
■ Test standards
● IEC61000-4-5
● ANSI/IEEE C62.45
LSS-F02 series
LSS-720B
● JEC210 / 212
● Individual industrial standards
● Private standards by manufacturers
LSS-6230
* “Private standards by manufacturers” shall be discussed separately
Lightning Surge Simulator
LSS-6230
● Lightning Surge Simulator
● Conforming to IEC61000-4-5 Ed.2 Standard
● Ring wave conforming to ANSI/IEEE C62.45 available
● Max. voltage 6.0kV output focusing on the practical use
● Monitor terminal standard equipped so as for easy waveform pre-checking
● Interlock built-in as the emergency stop function for safety
● Remote control software from PC ready as the option besides the stand-alone operation
● AC/DC CDN standard equipped. Available up to 3-phase AC500V 50A as the option
● CDN for Telecom lines, CDN for interconnection lines, isolation transformer, etc. ready as
the option
Specification
Parameter
■Common
Polarity
Interval
No. of output setting
Specification
Positive / Negative
(Minimum charging time) ~999 sec. 1 sec. step
1~999 times 1 time step
Lightning Surge LSS
■ Surge generating unit
1.2/50μs-8/20μs
Voltage surge
Output voltage
0.5~6.0kV ±10%
Combination waveforms
Front time
1.2μs±30%
Duration
50μs±20%
Current surge
Output current
250~3000A ±10%
Front time
8μs±20%
Duration
20μs±20%
Minimum charge time
10 Sec.
Output impedance
2Ω±10%
0.5μs-100kHz
Voltage surge
Output voltage
0.5~6.0kV ±10%
Ring wave
Rise time
0.5μs±0.15μs
Frequency
100kHz±20kHz
Current surge
2nd peak voltage
40-110% of 1st peak voltage
3rd peak voltage
40-80% of 2nd peak voltage
4th peak voltage
40-80% of 3rd peak voltage
Minimum charge time
5 Sec.
Output impedance
12 Ω±3 6 Ω at 12 Ω selection in interruptive resistance
30 Ω±8 Ω at 30 Ω selection in interruptive resistance
Coupling network
Line - Line : 18μF, Line - PE : 10Ω+9μF, Line - PE simultaneous coupling (L+N-PE) : 9μF/9μF
Decoupling coil
1.5mH
AC EUT power capacity
Single phase AC 240V 16A MAX (50/60Hz)
DC Eat power capacity
DC125V/16A MAX
Phase angle control
0~360°±10°, Based on set injection / return angle
■ Surge generating unit for external CDN
10/700μs-5/320μs
Voltage surge
Output voltage
Combination waveforms
Front time
Duration
Current surge
Output current
Front time
Duration
Minimum charge time
Output impedance
■ Other
Voltage monitor
Current monitor
External communication Power supply
Dimension
Mass
48
0.5~6.0kV ±10%
10μs±30%
700μs±20%
12.5~150A ±10%
5μs±20%
320μs±20%
15 Sec.
40Ω±10%
BNC output, 1/1000±10%
BNC output, 1mV/A±10%
RS-232C optical communication
AC100V ~120V±10%, AC200V~240V±10%,50/60Hz Power consumption : Less than 300VA
W430×H515×D500 mm(Projection excluded)
Approx. 65kg
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
Isolation Transformer
MODEL : TF-2302P
CDN for Telecom lines
MODEL : LSS-INJ6401TEL
Versatilely usable not only for AC power supply of our
lightning surge simulators but also for kinds of noise
testes and measurement equipments.
Adaptable for the test to unshielded symmetrical interconnection lines specified in IEC61000-4-5 Standard
Parameter
Max. input voltage
Max. output voltage
Dielectric strength
Insulation resistance
Dimension / Mass
Parameter
Surge input voltage
EUT power capacity
No. of line Decoupling coil
Matching resistor
Dimension / Mass
CDN for interconnection lines
Specification
Single phase AC 240V MAX (50/60Hz)
30A MAX
Primary to core : AC4kV (1 minute)
Secondary to core : AC4kV (1 minute)
Primary-Secondary : AC4kV (1 minute)
≧100MΩ at DC500V
W350×H475×D 400mm
(Eye bolts and handles excluded) Approx. 60 kg
MODEL : LSS-INJ6400SIG
Loop coil
Adaptable for the test to interconnection lines specified in
IEC61000-4-5 Standard. Arrestor installation possible in
between the each line and GND.
Parameter
Surge input voltage
EUT power capacity
Max. line number
Decoupling coil
Matching resistor
Dimension / Mass
CDN for 3-phase EUT
MODEL : 01-00057A
In the combination with LSS-6230, enable to conduct
pulse magnetic field immunity test specified in IEC610004-9 Standard
Parameter
Max. output voltage
Waveform
Coil dimension
Specification
1200A
6.4/16μAcurrent surge
1000×1000mm
* Photo in the development stage
MODEL : LSS-CDN6351
Adaptable for the surge immunity test specified in IEC61000-4-5 Standard to AC power supply lines of EUT whose power supply up to
AC500V/50A. The surge injection angle can be set automatically linked with the generator unit. Also, the line symmetrical operation to AC
lines is possible. *Scheduling to be released
* Photo in the
development stage
ParameterSpecification
Coupling surge waveform1.2/50μs-8/20μs combination waveforms, 0.5μs-100kHz ring wave
Max. coupling surge voltage / currentUp to the value which can be set in LSS-6230
Coupling network 18μF±10% (LINE - LINE)
Correspondent to IEC61000-4-510Ω+9μF±10% (LINE - PE)
Coupling network 18μF±10% (LINE - LINE, LINE - PE)
ICorrespondent to IEEE/ANSI C62.459μF/9μF/9μF/9μF±10% (4 Lines - PE simultaneous injection)
Power supply lines structure for EUT3-phase : L1/L2/L3/N/PE
EUT power capacityAC500V/50A MAX 50/60Hz
Decoupling coil1.5mH
Power supplyAC100V~AC240V ±10% 50Hz / 60Hz
Dimension / MassW555×H950×D790 mm(Projection excluded) Approx. 120kg (To be fixed)
Optical USB module
MODEL : 07-00022A
EUT Protective Safety Box
Optical conversion adaptor Used for remote control with
PC. 5m of optical fiber cable with USB interface attached.
MODEL : 11-00005A/11-00006A
Protection box to prevent access to EUT during the test.
Further safety is secured together with the safety protective fence
MODEL
11-00005A
11-00006A
Terminal Connection Board
attached with Multi-Outlet
MODEL : 18-00048B
Warning Lamp
Dimension
W400×D300×H300mm
W600×D350×H400mm
MODEL : 11-00008A
The blinking makes the operators or neighbors pay attention to the test processing.
Enable to connect any outlet figure in the world.
18-00048B : For single phase 3 lines (Voltage strength 4.5kV)
18-00058B : For 3-phase 5 lines (Voltage strength 4.5kV)
Designs and specifications are subject to be changed without notice.
w w w. n o i s e k e n . c o m
49
Lightning Surge LSS
Specification
500V~6,600V
DC50V/1A
4 lines
20mH per phase
40Ω±10%
W488×H456×D550mm Approx. 45kg
* Please contact us if low voltage surge injection is required
Specification
6.6kV 10/700μs-5/320μs
Combination waveform
DC50V 100mA
4 lines
20mH per phase
40Ω (in combination waveforms)
25Ω (in 10/700μs waveform)
W297×H262×D250mm Approx. 10kg
Lightning Surge Simulator
LSS-F02 Series
Feature
● Lightning surge simulator (generator) conforming to IEC61000-4-5 Ed.2 Standard
● Maximum output voltage 15kV
Enable to conduct the more extended reliability test including the destructive test
● Large size LCD for the operation is adopted for realizing better visibility and operatability
● Easy operation for the sequential tests with adoption of MPU control Surge output / Waveform
switching / Polarity switching / Sequence can be automated sequentially
● Selectable either MANUAL or PROGRAM mode MANUAL mode is used for the test according to
the Standard or performing single conditioned test and PROGRAM mode can perform different
conditioned tests sequentially so that the tests can be performed easily along purposes.
● Excellent safety with equipment of interlock
● Standard equipment of terminal for checking the waveforms
Enable to check the waveforms in connection to an oscilloscope on hand with BNC cable
● Isolation transformers in line-up (Option)
● In order to avoid resonance with the power supply, possible to vary the constant of the decoupling
network (1.5，1.3，1.0，0.8mH)(Customized production). When some products like a power conditioner for photovoltaic application are connected to a lightning surge simulator,
the resonant phenomena may be happened and the products may not work
well. In LSS-F02 series (with customization), possible to change constants of
the inductances so as to avoid such trouble.
Unit to switch constant of
the inductance
Lightning Surge LSS
"Output voltage 15kV, current 7500A"
which can conduct breakdown resistibility test
Approx. 60% of the users are carrying on the test with voltage more than IEC Standard.
Requirement in IEC Standard ＜ To keep up with quality in the market
Test voltage of lightning surge immunity test
"50% reduction of the output interval"
which can drastically reduce the test time
Realize 1/2 of the interval time comparing to our previous
models so as to contribute to reduction of the man-hour for
the test.
(* in case of the test less than 6kV output)
Previous
models
≥ 4kV
< 4kV
LSS-F02
Unknown
Reduced
0
10
15
20
25
(sec)
Repetition cycle
Quoted from the market investigation by NoiseKen on 2010
"Touch-panel"
5
"Multi-languages"
adopted for the easy test setting
for the easy operation processing available
Adopt LCD touch panel for pursuing high visibility and realizing user-friendly operation with affluent icons.
Also, easy operation is realized not only for the test according
to IEC Standard but also for the sequential tests with the parameter sweep function.
Not only Japanese and English but also Chinese and Korean
available for the easy operation processing.
50
Japanese
English
Chinese
Korean
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
●Feature of LSS-F02 : "More safety, reliable and easy test realized"●
"Indicator"
which is linked with the test setting equipped
PC control available with the
optional software
Enable to control from external Windows® PC. Also, enable
to put the report of the test result in record out.
"Emergency stop" & "Interlock terminal"
"Output waveform monitor terminal"
which secure the test operator equipped.
Emergency stop function which takes safety of the test operator into the account equipped both in the main body and
the software. Also, the interlock setting and output voltage
control function equipped.
If the protective safety fence and protective safety box are
adopted as the options, more safety test can be realized.
which can ease pre-checking of the waveforms prior to the actual test
In order to respond to the request "The simple waveform
checking is desired before the test", equip the monitor terminal.
* The terminal is just for the simple checking.
If the accurate measurement is required, the specialized
equipments are necessary.
Please contact us for the more details.
Emergency stop switch
Powered condition of
EUT ON/OFF selectable
Oscilloscope
ch1
ch2
Interlock terminal
w w w. n o i s e k e n . c o m
51
Lightning Surge LSS
Indicators which visualize the cables connections in the test
equipped.
How to understand the model numbers
LSS-F02-□□
1 : Model for single phase EUT L/N/PE
3 : Model for 3-phase EUT L1/L2/L3/N/PE(Available both for single phase & 3-phase)
A : 1.2/50μs-8/20μs (Totally 1 kind surge generates)
C : 1.2/50μs-8/20μs、10/700μs-5/320μs (Totally 2 kinds)
Specification
Parameter
Surge generating unit
1.2/50μs-8/20μs
Combination waveforms
10/700μs-5/320μs
Combination waveforms
Output polarity
Interval
Output impedance
Specification
Note
0.5kV ~ 15kV ±10%
Output voltage
1.2μs ±30%
Front time
50μs ±20%
Duration
250A ~ 7500A ±10%
Output current
8μs ±20%
Front time
20μs ±20%
Duration
0.5kV ~ 15kV ±10%
Output voltage
10μs ±30%
Front time
700μs ±20%
Duration
12.5A ~ 375A ±10%
Output current
5μs ±20%
Front time
320μs ±20%
Duration
Positive / Negative
10 sec.~989 sec., depending on the set voltage 10 sec. (< 6kV)
Common for the all models
Voltage step : 0.1kV step
The setting can be from 0kV
Models：C1/C3
Voltage step : 0.1kV step
The setting can be from 0kV
15 sec.~ in 10/700μs waveform
1.2/50μs waveform
10/700μs waveform
2Ω ±10%
40Ω ±10%
AC/DC CDN
Coupling surge waveform
1.2/50μs-8/20μs combination waveforms
Max. coupling surge voltage / currentUp to the values which can be set
18μF
Coupling network
Between LINE - LINE (10Ω +9μF selectable)
Correspondent to IEC61000-4-5 10Ω ±9μF
Between LINE - PE (18μF selectable)
Injection mode
Between LINE - LINE, Between LINE - PE
：L/N/PE
Power supply lines structure for EUT Single phase AC
EUT power capacity
Lightning Surge LSS
：+/-/PE
：L1/L2/L3/N/PE (Common for single phase and 3-phase)
3-phase AC
DC
：+/-/PE
AC240V/20A MAX　50/60Hz、DC125V/20A MAX
AC500V/50A MAX　50/60Hz、DC125V/50A MAX
1.5mH
0 ~ 360° ±10°
DC
Decoupling coil
Phase angle control
CDN for Telecom lines (Only in model C1 and C3)
Coupling surge waveform
1.2/50μs-8/20μs combination waveforms
10/700μs-5/320μs combination waveforms
Max. coupling surge voltage / current
Up to the values which can be set
40Ω
Impedance matching resistors
80Ωper 1 line at 2 lines
160Ωper 1 line at 4 lines
25Ω
50Ωper 1 line at 2 lines
100Ωper 1 line at 4 lines
Coupling mode
Common mode / Normal mode
Coupling network
Gas arrestor : 90V
Line for EUT
2 lines / 4 lines DC50V/100mA MAX
20mH
Decoupling coil
Others
Voltage monitor
Current monitor
External communication
Power supply
Dimension
Mass
Model : A1 / C1
Model : A3 / C3
Model : A1 / C1
Model : A3 / C3
1.2/50 μs waveform
10/700 μs waveform
Selectable
BNC output, 1/2000±10%
BNC output, 1mV/A±10%
RS-232C optical communication
In open-circuit for SURGE OUT
In short-circuit for SURGE OUT
AC100V ~ AC240V ±10%　50Hz / 60Hz
W555×H1800×D790 mm
Approx. 300kg
Approx. 340kg
Projection excluded (in all models)
Model : A1 / A3
Model : C1 / C3
Standard accessory
Item
Specification / Function
Surge output cable
HOT / COM
Output cable to power supply lines For single phase : L / N / PE
For 3-phase : L1 / L2 / L3 / N / PE
Output cable to telecom lines
For 1~4 lines and GND
Arrestor unit
For coupling : Equipped to main unit panel
For input protection : Equipped to main unit panel
Cable for monitor
BNC-BNC cable
External interlock connector
5P plug (Short between #1 - #3)
Power supply cable
For AC100V, 3P equipped with G connector cable
High voltage connector cap
Equipped to main unit panel
FG cable
For grounding the body
Instruction manual
－
Q'ty
2 pcs.
3 pcs.
5 pcs.
5 pcs.
4 pcs.
4 pcs.
1 pc.
1 pc.
1 pc.
5 pcs.
7 pcs.
1 pc.
1 volume
Correspondent model
Common
A1/C1
A3/C3
C1/C3
C1/C3
Common
Common
Common
A1/C1
A3/C3
Common
Common
● These products use parts containing mercury. Please comply with lows or regulation in countries or states the products are used for the disposal.
● Certain periodical inspection shall be recommended since consumable parts are contained in the products.
In the test to 3-phase 5 lines (with PE) power supply lines, a message which alert the inspection per around 200 sets (in the test to single phase (with PE) power supply lines, it is done per around 800 sets).
(1 set in this case means that the test shall be done with 2 levels (eg. 0.5kV and 1kV) for the test series according to IEC61000-4-5)
* Exchange timing of the parts may differed depending on the operative conditions and environment. Please contact us for the more details.
52
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E M C T e s t s E q u i p ment s C atal o g u e
Option
CDN for Interconnection Lines
MODEL : LSS-INJ6400SIG
Used for the surge test to interconnection lines defined in IEC61000-4-5 Standard. The EUT power capacity is DC50V/1A and enable to
inject the surge to interconnection lines up to 6,600V. Possible to bypass inductor (20mH) with connecting the attached connection plug
to inductor bypass terminal in DC output. Possible to equip the attached surge protective arrestor between each line and ground.
* The conversion (05-H1784)cable is needed additionally.
Parameter
Surge input voltage
EUT power capacity
Max. line number
Decoupling coil
Matching resistor
Dimension / Mass
Specification
500V~6.600V (Combination wave)
DC50V / 1A
4 lines
20mH each line
40Ω±10%
(W) 488x(H)456x (D) 550mm Approx. 45kg
* Both capacitor coupling and arrestor coupling are possible in LSS-INJ6400SIG. Diode coupling which is defined in IEC61000-4-5 Ed.2
(2005) newly is a test method which assumes the injection of dozens of voltage level surge to interconnection lines. Please contact us if
low voltage surge injection is required since the surge injection in LSS-INJ6400SIG can be more than 90V.
Isolation Transformer
MODEL : TF-2302P
Maximum capacity is single phase AC240V / 30A and the dielectric strength is 4kV
Available for AC lines power supply in LSS-F02 series and widely usable for the other various noise generators or measurement equipments.
Isolation Transformer
Specification
Single phase 240V MAX (50 / 60Hz)
30A Max.
Primary to core : AC4kV (1 minute)
Secondary to core : AC4kV (1 minute)
Primary – Secondary : AC4kV (1 minute)
≧100MΩ at DC500V
(W) 350x(H)475x(D) 400mm (Eye bolts and handles excluded) Approx. 60 kg
Lightning Surge LSS
Parameter
Max. input voltage
Max. output voltage
Dielectric strength
Insulation resistance
Dimension / Mass
MODEL : TF-6503P
Maximum capacity is 3-phase AC600V / 50A and the dielectric strength is 4kV
Available for AC lines power supply in LSS-F02 series and widely usable for the other various noise generators or measurement
Parameter
Max. input voltage
Transformer connection
Max. output voltage
Dielectric strength
Insulation resistance
Dimension / Mass
Terminal Connection Board
attached with Multi-Outlet (3P)
Specification
Single phase / 3-hase 240V MAX (50 / 60Hz)
Y-connection
60A Max.
Primary to core : AC4kV (1 minute)
Secondary to core : AC4kV (1 minute)
Primary – Secondary : AC4kV (1 minute)
≧100MΩ at DC500V
(W) 500x(H)640x(D) 700mm (Eye bolts and handles excluded) Approx. 350 kg
MODEL : 18-00048B
Terminal Connection Board
attached with Multi-Outlet (5P)
Relay terminal board to connect output of LSS-F02 series
to EUT. Enable to connect any outlet figure in the world
when wiring to the attached multi-outlet.
For single phase / 3-phase
(Voltage resistible capacity 4.5kV)
EUT Protective Safety Box
MODEL : 11-00005A / 11-00006A
MODEL : 18-00058B
Relay terminal board to connect output of LSS-F02 series
to EUT. Enable to connect any outlet figure in the world
when wiring to the attached multi-outlet.
For 3-phase 5 lines (Voltage resistible capacity 4.5kV)
* The multi-outlet is only available for single phase
Warning Lamp
Protection box to prevent access to EUT during the test.
Further safety is secured together with the safety protective fence
w w w. n o i s e k e n . c o m
MODEL : 11-00008A
Usable together with LSS-F02 series. The blinking makes
the operators or neighbors pay attention to the test processing.
53
Option
MODEL : 11-00010A
Protective Safety Fence
Arrester capacitor unit
Enable to materialize the safe test environment with connection to interlock function equipped in LSS-F02 series.
The safety measure can be sure together with the EUT
protective safety box.
5P Terminal Boad for CDN Output
MODEL : 18-00044A
Waveform Pre-Checking Cables Set
MODEL : 05-00099A
Fixtures for checking voltage waveforms and current
waveforms of LSS-F02 series.
Followings are necessary for the checking additionally.
・Oscilloscope (Differential operation function built-in)
・High voltage probes (for surge voltage measurement /
Voltage resistibility necessary)
・Current probe (For surge short current measurement)
・Isolation transformer (for oscilloscope)
・Earth cable (for PE connection)
AC Line Input Cable (Single phase)
MODEL : 05-00134A
MODEL : 08-00009A
3P Terminal Board for CDN Output
Optical USB Module
MODEL : 18-00047A
MODEL : 07-00022A
Optical conversion adaptor Used for remote control
with PC. 5m of optical fiber cable with USB interface
attached.
AC line input cable (3-phase)
Lightning Surge LSS
DC line input cable
MODEL : 15-00135A
MODEL : 05-00136A
■Surge Waveform Measurement (Setup of measurement from SURGE OUT with 05-00099A)
Surge generator
Surge generator
Oscilloscope which enables
differential measurement
Oscilloscope which enables
differential measurement
Power supply
ch1
ch2
Power supply
High voltage
probe X 2 pcs.
Grounding
conductor
Isolation
transformer
PE connected
High voltage probe X 2 pcs.
Connect GND of high voltage probe
* Measurement of short current waveform from AC /DC CDN is not possible with
the waveform pre-checking cables set (05-00099A)
54
w w w. n o i s e k e n . c o m
ch1
Grounding
conductor
Isolation
transformer
PE connected
E M C T e s t s E q u i p ment s C atal o g u e
IEC61000-4-5 Ed.2 Test Standard
1. General
The task of the described laboratory test is to find the reaction of the EUT under specified operational conditions, to surge voltages caused by
switching and lightning effects at certain threat levels. This standard specifies 2 kinds of the combination waveforms. One is simulating the
injection to power supply lines and interconnections lines (The voltage waveform as 1.2/50μs and current waveform as 8/20μs) and the other
is doing the injection to telecommunications lines (The voltage waveform as 10/700μs and current waveform as 5/320μs).
It is not intended to test the capability of the EUT’s insulation to withstand high-voltage stress, direct injections of lightning currents, i.e.,
direct lightning strikes, are not considered in this standard.
2. Test Level
Level
Open-circuit test voltage±10% (kV)
1
0.5
2
1.0
3
2.0
4
4.0
5
Special
* X can be any level determined by consent between the EUT manuracturer and the simulator supplier
3. Waveforms Generator and Waveforms verification
■1.2 / 50 Combination Waveform (1.2/50 - 8/20μs) Generation Circuit
Rc
U
Rc
Cc
Rs
Rm
Lr
Cc
Lr
Rc
Rs2
Rs1
U
Rc
Cc
Rs
Rm
Cs
S1
High-voltage source
Charging resistor
Energy storage capacitor
Pulse duration shaping resistors
Impedance matching resistor
Rise time shaping inductor
Rm2
Rm1
Cc
U
■Voltage Surge (1.2/50μs)
Rs
Cs
S1
High-voltage source
Charging resistor
Energy storage capacitor
Pulse duration shaping resistor
Impedance matching resistors
Rise time shaping capacitor
Switch closed when using external matching resistors
■Voltage Surge (10/700μs)
U
U
1.0
1.0
B
0.9
0.5
0.3
■10 / 700 Combination Waveform (10/700 - 5/320μs) Generation Circuit
Lightning Surge LSS
U
Rm
0.5
T2
A
0.0
B
0.9
T2
0.3
T
30% max.
T1
0.0
t
T
t
T1
Front time
: T1=1.67×T=1.2μs ±30%
Time to half-value : T2=50μs ±20%
■Current Surge (8/20μs)
U
1.0
A
Front time
: T1=1.67×T=10μs ±30%
Time to half-value : T2=700μs ±20%
■Current Surge (5/320μs)
I/Imax
B
0.9
1.0
0.9
0.5
T2
0.1
0.0
T2
0.5
0.3
C
T
T1
30% max.
Fornt time
: T1=1.25×T=8μs ±20%
Time to half-value : T2=20μs ±20%
t
0.1
0.0
O1
t
T
T2
w w w. n o i s e k e n . c o m
Front time
: T1=1.25×T=5μs±20%
Time to half-value : T2=320μs±20%
55
Voltage waveform specification at the EUT port of the coupling/decoupling network
Surge voltage parameters Coupling impedance
under open circuit conditions
18μF
9 μF + 10Ω
Front time 1.2 μs ± 30 %
1.2 μs ± 30 %
Time to half value
Current rating < 25 A 50 μs +10 μs/10 μs 50 μs +10 μs/25 μs
Current rating 25 A – 60 A 50 μs +10 μs/15 μs 50 μs +10 μs/30 μs
Current rating 60 A – 100 A 50 μs +10 μs/20 μs 50 μs +10 μs/35 μs
NOTE The measurement of the surge voltage parameters should be done with the power supply input port of the coupling/decoupling network open-circuit.
Current waveform specification at the EUT port of the coupling/decoupling network
Surge current parameters under
Coupling impedance
short circuit conditions
18μF
9 μF + 10Ω
Front time 8 μs ± 20 % 2,5 μs ± 30 %
Time to half value
20 μs ± 20 %
25 μs ± 30 %
NOTE The measurement of the surge current parameters should be done with the power supply input port of the coupling/decoupling network open-circuit.
4. Test Setup
■Injection to power supply lines
Lightning Surge LSS
Surge generator
Surge generator
EUT
SURGE OUT
SURGE OUT
EUT
LINE OUT
LINE OUT
TEL LINE OUT
Isolation transformer
Isolation transformer
Wooden table
AC
PE
Wooden table
AC
PE
Injecting 1.2/50 combination wave which is provided in
IEC61000-4-5 Standard and put out from CDN of LSS-F02 to
battery drive of a PC.
Floating circuit is adapted according to the Standard for the
output.
In LSS-15AX series, enable the automated operation with the
program function along the left figure.
Injecting 1.2/50 combination wave and telecom surge (10/700
combination wave) which are provided in IEC61000-4-5 Standard and put out from CDN of LSS-F02 to power supply lines
and telecom lines of a fax machine.
In LSS-F02 series, enable the automated operation with the
program function along the left figure.
* Injecting 1.2/50 combination wave and telecom surge (10/700 combination wave) which are provided in IEC61000-4-5 Standard and put
out from CDN of LSS-F02 to power supply lines and telecom lines of a fax machine.
In LSS-F02 series, enable the automated operation with the program function along the left figure.
56
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
● Example of test setup for capacitive coupling on AC/DC
lines; line-to-line coupling
● Example of test setup for capacitive coupling on on AC/DC
lines; line-to-ground coupling
Combination
wave generator
Combination
wave generator
R=10Ω
Decoupling network
L
C=18μF
C=9μF
Decoupling network
L
L
L
AC/DC power
N
supply network
AC/DC power
N
supply network
EUT
PE
EUT
PE
● Example of test setup for unshielded symmetrical inter-connec-
tion lines (communication lines); lines-to-ground coupling
Earth reference
● Example of test setup for unshielded unsym-metrical inter-
connection lines;line-to-line and line-to-ground coupling
Combination
wave generator
Combination
wave generator
R=40Ω
R=40Ω
R m2
R=40Ω
C=0.5μF
S2
0
Auxiliary Protection
equipment equipment
Decoupling
network
S1
1
2
3
4
Through clamp Through arrestor
network
Lightning Surge LSS
Auxiliary Protection
equipment equipment Decoupling network
1
2
3
4
EUT
EUT
Earth reference
Earth reference
*Unshielded symmetrical interconnection lines mean signal lines represented
by telephone lines
*Coupling methods are differentiated depending on the signal frequency
(Communication / Transmission speed)
Unless otherwise specified, the cable lengths shall be within 2m in any ways.
In case of the coupling to shielded lines, inject the surge directly to metallic enclosure (or the shield lines if the metallic enclosure is not
available) since CDN cannot be applied.
w w w. n o i s e k e n . c o m
57
5. Test Procedure
■Test Environment such as Climate Conditions
Ambient temperature
Relative humidity
Atmospheric pressure
Electromagnetic enlivenment
15℃~35℃
10%~75%
86kPa~106kPa (860hPa (mbr)~1060hPa (mbr))
Level which does not affect the test result
■Application of the Surge
・Number of surges
For DC power ports and interconnection lines five positive and five negative surge pulses.
For AC power ports five positive and five negative pulses each at 0º, 90º, 180º and at 270º;
・Time between successive pulses: 1 min or less
6. Evaluation of Test Results and Test Report
Lightning Surge LSS
The test results shall be classified in terms of the loss of function or degradation of performance of the equipment under test, relative to
a performance level defined by its manufacturer or the requestor of the test, or agreed between the manufacturer and the purchaser of the
product. The recommended classification is as follows:
1) Normal performance within limits specified by the manufacturer, requestor or purchaser;
2) Temporary loss of function or degradation of performance which ceases after the disturbance ceases, and from which the equipment
under test recovers its normal performance, without operator intervention;
3) Temporary loss of function or degradation of performance, the correction of which requires operator intervention;
4) Loss of function or degradation of performance which is not recoverable, owing to damage to hardware or software, or loss of data.
Generally speaking, as far as the EUT can be immune to the surges which is injected in the all specified period and it satisfy the functional
requirements according to the product specification, the test result can be judged as “Good”.
The test report shall contain the test conditions and the result.
Notes: This test set-up is quoted from IEC61000-4-5 Ed.2.0 (2005) Standard.
Please go through the Standard if the more details are required.
58
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E M C T e s t s E q u i p ment s C atal o g u e
Lightning Surge Simulator
LSS-720B
Feature
● Lightning surge simulator (Generator) conforming to JEC 210 / 212 Stan-
dard
● 20kV as the maximum output voltage
Enable to verify dielectric strength against induced lightning surge whose
level cannot be available with the combination surge simulators
● 4000A as the maximum output current
Enable to conduct the test for case beyond the assumption due to the
natural disaster to surge absorber
● Enable to observe the output waveform only with an oscilloscope on hand
and 1/10 voltage probes since 1/100 waveform check terminal is standard
equipped
● Isolation transformer built-in so that the primary power input and EUT can
be easily connected
Specification
LSS-720B
1.2 / 50μs
20kV
Positve or negative
6Ω±10%
50Ω±10% (Current limite resistance 100Ω)
3300A
8 / 20μs
4000A
Positive or negative
5Ω±10%
3kΩ±10%
Single output
Single phase 240V / 20A
(W) 555 X (H) 1860 X (D) 840mm
Approx. 450kg
Lightning Surge LSS
Parameter
Voltage surge
Output waveform
Max. output voltage
Polarity
Output impedance
Built-in load resistance
Short current at max. output
Current surge
Output waveform
Max. output current
Polarity
Output impedance
Built-in load resistance
Surge repetitive cycle single output
EUT power capacity
Dimension
Mass
Accessory
Item
Model number
Bag for accessories
Power cable
Surge ground cable
Switch for external trigger
04-00003A
Surge output cable
Single phase input cable
05-00003A
Check terminal
02-00023A
Injectin probe
Warning lamp
Fuse
Output cable 05-00015A
Interlock connector
Instruction manual
Switch key
Waveform switching connection bar
Q’ty
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
2 pcs.
2 pcs.
1 pc.
1 volume
2 pcs.
6 pcs.
w w w. n o i s e k e n . c o m
59
Standard
Provides dielectric strength test for electronic equipments which are connected to electric power systems, and specifies test voltage and object
circuits for purpose of protection in electric business facilities.
■Examples of Surge Injection to Power Lines
In low voltage control dielectric test method, test voltage induction and voltage resistibility test against lightning surge impulse specified
in JEC-210 (The Institute of Electrical Engineers of Japan / Japanese Electrotechnical Committee), verify whether EUT can be resistible
against the lightning impulses (Standardized 1.2 / 50μs) whose test conditions are specified in the Standard and which are injected both
to the positive and negative each 3 times.
Lightning impulse test voltage (V)
Between contact points and between coil terminals
Circuit clss NO.
Object circuit
To gound Between inter
Instrument transformer
DC/AC circuits
electric cicuit
1
7
4.5
4.5
Secondary and third circuits in instrument transformer
which is used for main circuit (main unit side)
2A
7
3
3
Operation / Control circuits in breaker of disconnector
2B
5
3
3used for main circuit
3
3
3
3
DC100-200V/AC100-400V circuits auxiliary equipements
in main unit attached
4
4
4.5
3
Secondary and third circuits in instrument transformer of observation /
protective relay / remote observation control board, etc.
5
4
3
3
DC100-200V/AC100-400V circuits in direct / protective
realy / observation control board, etc.
Lightning Surge LSS
Test Procedure
■Examples of Surge Injection to Power Lines
In low voltage control dielectric test method, test voltage induction and voltage resistibility test against lightning surge impulse specified
in JEC-210 (The Institute of Electrical Engineers of Japan / Japanese Electrotechnical Committee), verify whether EUT can be resistible
against the lightning impulses (Standardized 1.2 / 50μs) whose test conditions are specified in the Standard and which are injected both
to the positive and negative each 3 times.
Current limit resistance is specified in JEC210 (Specified as the correspondence to surge impedance on control cable without metallic
seal.
Block Diagram and Waveforms
Limiter
L1 1.2/50µs
AC input
2.7Ω
100Ω
Controller
L2 8/20µs
High voltage
power supply
50Ω
Capacitor
3kΩ
Voltage surge 1.2/50μs
Current surge 8/20μs
GND
Controller
1.2/50µs
Line input
CDN
8/20µs
Voltage surge waveform 1.2/50μs
Voltage : 3kvV
V : 500V/Div.
H : 20μs/Div.
Line output
GND
Switch with waveform switching connection bar.
Current surge waveform 8/20μs
Current : 2400A
I : 500A/Div.
H : 10μs/Div.
60
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
Voltage Dip & Swell Simulator
Reproduce voltage variation phenomena in commercial power supplies
Voltage in commercial power supply (AC100V to 240V) which is sent to residences and factories
via a power line is constantly fluctuated.
Moreover, temporal outage may be caused due to lightning strikes etc.
VDS series are environmental test equipments which can reproduce these kinds of varied voltage
variation phenomena and dedicate to evaluate performance of electric / electronic equipments
which are connected to power lines whether the equipments may be malfunctioned, deteriorated
or resistible against the voltage variation.
●
■ Target or potential customers
● Consumer products (white home appliances, AV equipment, etc.)
● Industrial equipment (FA machines, controllers, office machines, etc.)
● Industrial equipments (Medical, gaming instruments, measurements, etc).
● Communication equipments (Equipment charged from AC power lines
Voltage variation VDS
like mobile phone).
● Electric / electronic equipments required for EMC tests
● Production machines or equipments (Facilities in factories or plants)
■ Test standards
● IEC61000-4-11 (VDS-2002)
VDS-2002
VDS-1007 / 2007
Voltage Dip & Swell Simulator
VDS-2002
Feature
● Voltage dip & swell simulator conforming to EN/IEC61000-4-11 Ed.2 (2004) Standard
(Available for voltage variation test defined in the Standard 1994 as well)
● Enable to connect EUT power supply as its commercial outlet figure is with standard at-
tached multi-figures outlet
● Easy setting for the test parameters on the front panel
● Realize flexible test conditions setting beyond the Standard with a PC remote control
● Enable to conduct the interruption test in DC (DC125V / 16A max)
Specification
Voltage variation VDS
Parameter
Specification
Input voltage range
AC100~240V±10%
50 / 60Hz±10%
DC 0~125V
Output voltage range
AC 0~Input voltage+20%
DC 0 or Input voltage Output current capability
AC
100% of input voltage
16A rms
70% of input voltage
23A rms
40% of input voltage
40A rms
DC
16A
Peak inrush current drive capability
AC100~120V
250A peak (<10ms)
AC220~240V
500A peak (<10ms)
Load regulation
100% of input voltage
<5%
at 0~16Arms
70% of input voltage
<7%
at 0~23Arms
40% of input voltage
<10%
at 0~40Arms
Over shoot / Under shoot (in interruption)
<5% in voltage variation
Rise-up / Fall-down time (in interruption)
1~5μs
Dip / Swell level
Percent setting
0~120%
Voltage setting
0~288V
Number of repetition
Number setting
1~1000 times or unlimited repetition
Interval cycle
Cycle setting
Synchronous
0.01~5000 cycles
Time setting
Synchronous
1s~100s
Asynchronous
10ms~10h
Dip cycle
Cycle setting
Synchronous
0.01~5000 cycyles
Time setting
Synchronous
0.1ms~100s
Asynchronous
0.1ms~10h
Dip phase
Phse angle setting Synchronous
0~360°
Time setting
Synchronous / 0~16.6ms
Asynchronous
Voltage variation test
Time setting
Synchronous
Max. velocity 0~100% : 1.5s Min. velocity 0~100% : 10s
Memory capacity
5 tests
Input voltage from EUT
AC100~115V / AC200~240V±10% 50 / 60Hz±5%
Interface
Optical interface (RS232C or USB)
Operating temperature range
15~35℃
Operating humidity range
25~75%RH (without dew)
Dimension
(W) 430x(H)650x (D) 600mm
Mass
Approx. 130kg
Accessory
Item
Power cable Instruction manual
62
Q’ty
1 pc.
1 volume
w w w. n o i s e k e n . c o m
Note
AC290V Max
Continuous
Interruption time <5 s
Interruption time <5 s
Continuous
At 1000Ω load
At 1000Ω load
5V step at AC100V input
5V step at AC100V input
1 time step
0.0 cycle step
1s step
0.5m step at setting <100s
1s step at setting >100s
0.01 cycle step
0.1ms step
1s step at setting >100s
1°step
0.1ms step
E M C T e s t s E q u i p ment s C atal o g u e
Front Panel
Digital indicator : Indicates test level / Dip cycle / Dip phase / Interval / Number of test
LINE switch : ON / OFF of power supply to EUT
SW1 monitor switch : Put out input voltage (base voltage) in LINE OF state.
Switching Sensing mode (Correction of voltage fall due to load variation) or Direct
mode (Put out input voltage constantly) when keep on pushing state
SW2 monitor switch : Indicates test level (Set % value for input voltage) in LINE ON state
Memory number switch : Memorizes test patterns up to 5
Test level switch : Sets test level
Dip cycle switch : Sets time from start of dip or swell and its finish
Dip phase switch : Sets phase angle from start of dip or swell and its finish
Interval cycle switch : Sets repletion cycle
Repeat switch : Sets number of time of test
Warning lamp : Turns on in LINE on state. Blinking in START of test
START switch : Starts test. Impossible to do without LINE ON
STOP switch : Stops test Does not LINE OFF
Test level
Dip cycle
Dip phase
(Variation time) (Start phase angle)
Interval
cycle
Voltage variation VDS
■Option
Software (VDS-2002-PC)
MODEL : 14-00036A
Enables to set the test paramters along users’ preference or determination in addition to the Standard.
The set available paramters are dip & swell cycle, repetition cycle, interval cycyle, etc. as well as IEC test levels. Very efficient tools for
the operation.
Optical USB Module
MODEL : 07-00022A
Optical RS232 Module
Connection adaptor used for PC remote control of the
simulator.
USB optical conversion, equipped with 5m optical fiber
cable
w w w. n o i s e k e n . c o m
MODEL : 07-00017A
Connection adaptor used for PC remote control of the
simulator.
RS232C optical conversion, equipped with 5m optical
fiber cable
63
Voltage Dip & Swell Simulator
VDS-1007 / VDS-2007
Features
● Enable to enrich EMC preliminary tests with the remote control as an AC
stabilizing power source in the stand-alone.
VDS-1007:1kVA
VDS-2007:2kVA
● Enable IEC61000-4-11/13/14/28 precompliant tests
● Usable to be power source for IEC61000-3-2-2 precompliant measurement
● Enable to put out arbitrary waveforms and measure harmonics
Specification
Voltage variation VDS
Parameter
Range
Max. output voltage range
Load regulated output voltage variation Voltage set resolution
Output current capability
Max. output current capability (Instant)
Frequency range
Rise time / Fall time (at interruption)
Voltage distortion
Line / Load regulation
Output impedance
Phase angle setting
Arbitrary waveform output, waveform library
Measurement function
IEC Standards precompliant testing function
Dip / Swell level
Repetition
Dip phase
Dip cycle
Interval cycle
Voltage dip & swell test Others
Power supply
Interface
Operating temperature / humidity range
Dimension / Mass
Accessory
Specification (VDS-1007)
150V
300V
150V
300V
AC 0~150 V AC 0~300 V DC 0~212 V DC 0~424V
Specification (VDS-2007)
150V
300V
150V
300V
AC 0~150 V AC 0~300 V DC 0~212 V DC 0~424 V
0.2%
0.1V
AC 8Arms
AC 4Arms
DC 4A
DC 2A
AC 16Arms
AC 8Arms
DC 8A
DC 4A
48Apeak
24Apeak
48Apeak
24Apeak
96Apeak
48Apeak
96Apeak
48Apeak
DC, 15Hz~1kHz, 0.01Hz step±0.15%
130μsec(typ)
0.3% (50/60Hz)
0.1%(Line)/0.2%(Load)
0.0Ω+0.0mH ~1.0Ω+1.0mH set possible. 0.01Ω step. 0.01mH step.
0~359.9°DEG 0.1°DEG step
50/60Hz up to 40th order. External analog input up to 30 kinds.
11 kinds (Voltage, current, power, harmonics, power-factor, crest factor, apparent power, reactive power)
IEC 61000-4-11, 4-13, 4-14, 4-28. AC source for IEC 61000-3-2, 3-3
0%, 40%, 70%, 80%(0~32767%, 1% step (arbitrary) within max. output voltage range
1~65535 times. 1 time step
0~359.9deg. 0.1deg step
0~9999999cycle. 0.1cycle step
0~9999999sec. 0.0001sec step
Fall set : 0~100000cycle. 1cycle step
Voltage variation test : 1~32767cycle. 1cycle step
Rise set : 0~32767cycle. 1cycle step
Repetition : 1~32767 times
3-phase output by 3 units parallel connection. Capacity increase by 2 units parallel connection.
Silence realizing design along load condition. Over voltage/over current/over power protection.
AC90~250V, 15AMax, 47~63Hz
AC90~250V, 28AMax, 47~63Hz
GPIB, RS232
15℃~35℃ Without dew, 25%~75%
(W)438×(H)134×(D)610mm 19.5kg
(W)438×(H)134×(D)610mm 20.5kg
Captive cable 1 pc. Rear-foot. Instruction manual. Control (Down load on web)
Voltage dip & swell test
Harmonics generation
There may be power supply voltage interruption or fluctuation due to power failure or multi-conneciton of electronics equipments in the field. VDS-1007/2007
are the simulators to reproduce these kinds of voltage variation phenomena
and dedicated to evaluate the resistibility of electronics equipments.
Actual power supply may be sometime coupled with harmonics or inter harmonics which are generated from various kinds of electronics equipments.
These harmonics may influence the connected equipments. VDS-1007/2007
"can reproduce the harmonics arbitrarily" and put it out.
(IEC 61000-4-11 precompliant test)
64
(IEC 61000-4-13 precompliant test)
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
Harmonics measurement
Output impedance variation
Electronics equipments which are connected to power supplies generate harmonics from themselves due to resonance, etc. The harmonics may influence
the other connected equipments badly. VDS-1007/2007 equip the "measurement function" to do the pre-check of the harmonics.
"Flicker measurement" according to IEC Standard specifies that reference impedance built-in power source should operate EUT (Not applied to "Harmonics measurement"). VDS-1007/2007 equip the function to set the reference
impedance.
Power analyzer
Impedance varying function built-in
For example….
Single phase 100V equipment : 0.4Ω+0.37mH
Single phase 200V equipment : 0.38Ω+0.46mH
EUT
L
N
G
6 times more rush current
Other various functions
VDS-1007/2007 can flow rush current 6 times more than the rating.
Usable for the equipments or devices like motors, invertors, etc. which require
the rush current or when high inrush current is required in the development
stage.
● Sensing function
In case distance is there to load, correct voltage dip in
wirings for the supply.
● IEC 61000-4-14 precompliant voltage fluctuation immunity
test.
● IEC 61000-4-28 precompliant variation of power frequency,
immunity test.
(times)
Limit for the case of common power unit
Voltage variation VDS
6
5
4
3
2
1
0
1
2
3
4
5
6
Limit for the case of common power unit
■Software to ease the operation
Remote control software for VDS-1007/2007 can be downloaded on NoiseKen web site (http://www.noiseken.com).
Complicated waveforms can be programmed and one-touch tests according to IEC Standards can be realized with the software and PC on-hand.
Option
05-00100A
05-00101A
RS232C cable 2M
Synchronizing cable 0.2m
07-00024A
07-00025A
w w w. n o i s e k e n . c o m
RS232C-USB conversion adaptor kit
GPIB-USB conversion adaptor
65
Voltage Dip & Swell Simulator
VDS-230S/250S
Feature
● Stable voltage dip performable with the transformer system
● Enable to perform not only voltage dip and interruption but
also its swell.
● Enable to start and stop the variation in arbitrary phase
● Enable to memorize 16 sets values
● Enable to test high power capacity EUT
(AC240V / 30A max. with VDS-230S, AC240V / 50A max.
with VDS-250S)
VDS-230S
VDS-250S
Specification
Voltage variation VDS
Parameter
VDS-230S
VDS-250S
Output voltage
Dip
100~30% of input voltage Interruption <20% (0%)
(Note) Line voltage dip…8V Max
Output voltage
Swell
AC100V input (Load resistor) 10A…15% swell
AC100V input (Load resistor) 10A…15% swell
20A…Approx. 7.5% swell
30A…Approx. 0%
20A…Approx. 7.5% swell
30A…Approx. 0%
AC200V input (Load resistor)
10A…18% swell
AC200V input (Load resistor)
10A…Approx. 17% swell
20A…Approx. 16.5% swell
30A…15% swell
20A…Approx. 16% swell
30A…Approx. 14% swell
40A…Approx. 12% swell
50A…Approx. 10% swell
Variation cycle setting
0.5~999 cycles (0.5 cycle step)
Asynchronous time setting 1~9s (1s step)
Variation start and stop
0~330° (30 steps)
Variation possible mode
3-phase simultaneously
No. of repetition setting
1~99 times or continuous
Set values memorial function Enable to memorize 16 sets per each single phase and 3-phase by variation cycle, non-variation cycle and number of repetition as one set
The memory can be kept approx. 300 hours even in power OFF with the battery back-up function.
EUT
Inrush current
300A (<10ms) Max
300A (<10ms) Max
Power capacity
Single / 3-phase AC70~240V / 30A Max.
Single / 3-phase AC70~240V / 50A Max.
Power supply
AC100V±10% 50 / 60Hz
Operating termperature range 0~40℃
Dimension
(W) 555x(H)1500x (D) 790mm
(W) 555x(H)1800x (D) 790mm
Mass
Approx. 180kg
Approx. 250kg
Accessory
Item
Model Coaxial cable for trigger
VDS-20-001
Power calbe
Fuse
Instruction manual
Bag for accessory
66
Q’ty
1 pc.
1 pc.
2 pcs.
1 pc.
1 pc.
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
Output Waveform and Block Diagram
■VDS-250S
START PHASE 0°: Load resistance 50A 2 cycles 13% swell
START PHASE 90° : Load resistance 50A 2 cycles 13% swell
V:100V/Div H:10ms/Div
V:100V/Div H:10ms/Div
Battery
AC input
Indicator
Breaker
Power switching
R
Line input S
Operation
Controller
T
R
S Line output
T
Voltage variation VDS
Example of Variation Time Setting
Start angle
Variation time
270°
1.5 cycles
Start angle
Setting switch
Variation cycle
Setting switch
Variation
phase
270°
Variatio phase
Setting switch
w w w. n o i s e k e n . c o m
67
IEC61000-4-11 Ed.2 Test Standard
1. Genral
Immunity test standard for electrical / electronic equipments which are connected to low voltage power supplies networks whether they are
malfunctioned or resistible against short interruptions or voltage variations.
Power capacity of equipments under the test (EUT) shall be 16A per phase. The test object shall be for EUT which are connected to 50 /
60Hz AC power supply and equipments which are connected to 400MHz AC power supply is not applied to the Standard.
2. Test Level
1. Voltage dips and short interruption
Table 1 – Preferred test level and durations for voltage dips
Calss*
test level and durations for voltage dips (ts) (50Hz / 60Hz)
Class 1
Case-by-case according to the equipments requirements
Class 2
0% during 1/2 cycle
0% during 1 cycle
70% during 25/30° cycles
Class 3
0% during 1/2 cycle
0% during 1 cycle
40% during 10/12° cycle 70% during 25/30° cycle 80% during 250/300° cycle
Class X
Special
Special
Special
Special
Special
a. Classes as per IEC61000-2-4 ; see Annex B
b. Class X can be any level determined by consent between the EUT manufacturer and the simulator supplier
c. “25/30°cycle” means “25°cycles for 50Hz test” and “30°cycles for 60Hz test”
* Each dip% shall be voltages against the rated voltages
Table 2 – Preferred test level and durations for short interruptions
Calss
Test level and durations for short interruptions (ts) (50Hz / 60Hz)
Class 1
Case-by-case according to the equipments requirements
Class 2
0% during 250/300° cycle
Class 3
0% during 250/300° cycle
Class X
Special
* “250/300°cycle” means “25°cycles for 50Hz test” and “30°cycles for 60Hz test”
* Class X can be any level determined by consent between the EUT manufacturer and the simulator supplier
Voltage variation VDS
U
0
5
25
t (Periods)
Note : The voltage decreases to 70% for 25 periods. Step at zero crossing
- Voltage dip – 70% voltage dip sine wave graph
2. Voltage variations (Optional)
Table 3 – Preferred test level and durations for short interruptions
Voltage test levell
Time for decreasing voltage (td)
Time at reduced voltage (ts)
70%
Abrupt
1 cycle
X*
Special
Special
* Class X can be any level determined by consent between the EUT manufacturer and the simulator supplier
* “25/30°cycle” means “25°cycles for 50Hz test” and “30°cycles for 60Hz test”
Ut (eff)
100%
70%
0%
68
w w w. n o i s e k e n . c o m
Time for increasing voltage (ti)
25/30°cycles
Special
E M C T e s t s E q u i p ment s C atal o g u e
3. Charecteristics and performance of the generateor
Output voltage at no load
Voltage change with load at the output of the generator
100% output, 0A to 16A
80% output, 0A to 20A
70% output, 0A to 23A
40% output, 0A to 40A
Output current capability
Peak inrush current capability (no requrement for voltage variation tests)
Instantaneous peak overshoot / undershoot of the actual voltage, generator loaded with 100Ω resistive load
Voltage rise (and fall) time tr (and tf) see Figures 1b) and 2,
during abrupt change, generator loaded with 100Ω resistive load
Phase shifting (if necessary)
Phase relationship of voltage dips and interruptions with the power frequency
Zero crossing control of the generators
As required in Table 1, ±5% of residual voltage value
Less than 5 of UT
Less than 5 of UT
Less than 5 of UT
Less than 5 of UT
16A r.m.s per phase at rated voltage. The generator shall be capable of carrying 20A at 80% of
rated value for a duration of 5s. It shall be capable for carrying 23A at 70% of raged voltage 40A
at 40% of rated voltage for a duration of 3s. (This requirement may be reduced according to the
EUT rated steady-state supply current. See Clause A. 3).
Not be limited by the generator. However, the maximum peak capability of the generator need not
exceed 1000A for 250V to 600V mains, 500A for 200V to 240V mains, or 250A for 100V to 120V mains.
Less than 5% of UT
Between 1μs and 5μs
0°to 360°
Less than ±10°
±10°
■EUT Peak Inrush Current requirement
Voltage
Interrupt
generator
G
T
To oscilloscope
B
C
R
Voltage variation VDS
Components
G voltage interrupt generator, switched on at 90° and 270°
T current probe, with monitoring output to oscilloscope
B rectifler bridge
R bleeder resistor, not over 10000Ω or less than 100Ω
C 1700µF ±20% electrolytic capacitor
Circuit for determining the inrush current drive capability
of the short interruptions generator
In order to be able to use a low-inrush drive current capability generator to test a particular EUT, that EUT’s measured inrush current shall
be less than 70% of the measured inrush current drive capability of the generator.
4. Test Setup
The test shall be performed with the EUT connected to the test generator with the shortest power supply cable as specified by the EUT
manufacturer. If no cable length is specified, it shall be the shortest possible length suitable to the application of theEUT.
w w w. n o i s e k e n . c o m
69
5. Test Procedure
■Climatic and Electromagnetic Conditions
Ambient temperature
Relative humidity
Atmosopherical pressure
Electromagnetic environment
15°C~35°C
25%~75%
86kPa~106kPa (860hPa (mbr)~1060hPa (mbr))
Level which does not affect the test result
■Execution of the test
・The EUT shall be tested for each selected combination of test level and duration with a sequence of three dips / interruptions with
intervals of 10s minimum (between each test event).
・Each representative mode of operation shall be tested.
・For voltage dips, changes in supply voltage shall occur at zero crossings of the voltage, and at additional angles considered critical
by product committees or individual product specifications preferably selected from 45°, 90°, 135°, 180°, 225°, 270° and 315°on each
phase. For short interruptions, the angle shall be defined by the product committee as the worst case. In the absence of definition, it
is recommended to use 0°for one of the phases.
・For voltage variations (Optional), the EUT is tested to each of the specified voltage variations, three times at 10s interval for the most
representative modes of operations.
6. Evaluation of Test Results and Test Report
Voltage variation VDS
The test results shall be classified in terms of the loss of function or degradation of performance of the equipment under test, relative to
a performance level defined by its manufacturer or the requestor of the test, or agreed between the manufacturer and the purchaser of the
product. The recommended classification is as follows.
1) Normal performance within limits specified by the manufacturer, requestor or purchaser;
2) Temporary loss of function or degradation of performance which ceases after the disturbance ceases, and from which the equipment under
test recovers its normal performance, without operator intervention;
3) Temporary loss of function or degradation of performance, the correction of which requires operator intervention;
4) Loss of function or degradation of performance which is not recoverable, owing to damage to hardware or software, or loss of data.
Generally speaking, as far as the EUT can be immune to the surges which is injected in the all specified period and it satisfy the functional
requirements according to the product specification, the test result can be judged as “Good”.
The test report shall contain the test conditions and the result.
Notes: This test set-up is quoted from IEC61000-4-11 Ed.2.0 (2004) Standard.
Please go through the Standard if the more details are required.
70
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
Damped Oscillatory Wave Simulator
Reproduce dampled oscillatory wave phenomena
■ Target or potential customers
● Consumer products (white home appliances, AV equipment,
SWCS-931SD
etc.)
● Industrial equipment (FA machines, controllers of fice
machines, etc.)
● Industrial equipments (Medical, entertainment, measurements, etc.
● Automotive equipments (Navigation, air-conditioner, audio, etc.)
● Communication equipments (Equipment charged from AC
power lines like mobile phone).
● Electronic component (Control board, mounted electronic
components, etc.)
■ Test standard
● ANSI/IEEEC37.90.1-1989
● IEC Pub255-4
● IEC Pub255-4 Appendix E
● JIC C 4602-1986
● Individual industries standards
● Private standards by manufacturers
SWCS-932S4
Damped Oscillatory
Wave SWCS
● Electric / electronic equipment required for EMC tests
Damped Oscillatory Wave Simulator
SWCS-931SD / SWCS-932S4
SWCS-931SD
Feature
● Maximum output voltage 1.5kV
● Variable from 0.4kHz to 400Hz as the repetition frequency
● Variable from 50~200Ω as the output impedance (10Ω step)
Specification
Parameter
Output waveform
Output voltage
Polarity
Oscillatory frequency
Time to half-value peak
Output impedance
Repetition cycle
Injection time
Coupling capacitor
EUT power capacity
Power supply
Dimension Mass
Charging
resistance
Surge
generator
switch
Accessory
Specification
Dampled oscillatory wave
100V~1500V
Positive (1st wave) or negative (short bar switching)
1.5MHz±0.2MHz
10μs±20% (0.1kV~1.0kV) 10μs±40% (1.0kV~1.5kV)
50~200Ω (10Ω pitch set possible)
0.4~400Hz (3-stage switching, continuously variable)
1s~10min. or continuous
100pF / 470pF
―
AC100~240V 50 / 60Hz
(W) 430x(H)200x (D) 400mm
Approx. 7kg
DC preventing
capacitor
Output impedance
switching
Item
Bag for accessories
Instruction manual
Power cable Short bar
Q’ty
1 pc.
1 volume
1 pc.
1 pc.
Coupling capacitor
switching
HOT＋
High voltage
power source
Energy
accumulating
capacitor
Inductance
for resonance
SG
Surge
output
terminal
HOT−
SWCS-932S4
Damped Oscillatory
Wave SWCS
Feature
● Enable to conduct tests which are mandatory with some standards represented by
electric energy meter and relay
● Realize tests conforming to ANSI/IEEEC 37.90.1-1989 and IEC Pub255-4
● Maximum output voltage 4kV
● Floating system is adopted for the generator part
Specification
Parameter
Output waveform
Output voltage
Polarity
Oscillatory frequency
Time to half-value peak
Switch
Output impedance
Repetition cycle
Injection time
Coupling capacitor
EUT power capacity
Power supply
Dimension
Mass
72
Accessory
Specification
Damped oscillatory wave
1000V~4000V
Positive (1st wave)
1~1.5MHz (Fixed in the range)
≧6μs
Semiducotor
150Ω±20% -0%
50 / 60Hz (Synchronized with dirve battery)
1s~10min.
0.1μF
Single / 3-phase AC240V / 20A, DC120V / 20A
AC100V 50 / 60Hz
(W) 430x(H)200x (D) 400mm
Approx. 12kg
w w w. n o i s e k e n . c o m
Item
Bag for accessories
Instruction manual
Power cable
Line input cable
Short bar
BNC connector for check terminal
Short plug
Q’ty
1 pc.
1 volume
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
E M C T e s t s E q u i p ment s C atal o g u e
Emission Measurement System /
Resistor Current Noise Tester
Visualize noise generation source
Nowadays, components mountings are getting dense accompanied with miniaturization of
electronics equipments. And electromagnetic noises are being radiated there more and
more by increase of the operating frequency. Therefore, the counter measures for the EMI is
getting harder and harder. In such situation, the counter measure should not be conducted on
downstream of the design process but done in the upstream process.
EPS-3007 and EPS-6000 are efficient tools to measure such radiation noise on PCB in normal
office environments and visualize the noise strength on a PC display. It enables to reduce and
lighten cost and labor for the counter measure drastically since the effect after the counter
measures can be seen immediately.
EPS-01A is the similar tool which extends the measurement technology on PCB to farther
field, and realizes visualization and measurement of the unnecessary radiation, frequency and
radiation dispersion in body-size 3D for the counter measure to electronics equipments.
The measurement shall need to be done in open-site which is less influence of wall reflection or
an anechoic chamber. The ideal environment shall be an anechoic chamber which consists of
absorbers on the 6 surfaces.
●
■ Target or potential customers
● Consumer products (white home appliances, AV equipment, etc.)
● Industrial equipment (FA machines, controllers office machines, etc.)
● Industrial equipments (Medical, entertainment, measurements, etc.)
● Automotive equipments (Navigation, air-conditioner, audio, etc.)
● Communication equipments (Mobile phone, mobile applications)
● Materials (Plastic resin, film board, etc.)
EPS-3007
EMI Measure EPS
● Electronic component (Control board, mounted electronic components, etc.)
● Electric / electronic equipments required for EMC tests
EPS-6000
EPS-01A
Emission Measurement System for PCB
EPS-3007
Feature
● Enable to measure near filed unnecessary radiation from PCB automatically
● Enable to measure the frequency range to 3GHz from 150kHz (Option)
● Wide measurement area up to 300mm X 350mm
● Pinpoint the emission source with composite figure of the measurement distribu-
tion map and PCB photo
● Standard equipment of both electric field and magnetic field probes so that the
measurement in the both field can be enabled
Specification
Parameter
Specification
Measurement method
Scanning with micro electric field probe in XY stage
Analysis of detection signal
With a spctrum analyzer
Measurement frequency range (Standard)
30MHz~1.5GHz
Low range of measuremetn frequency (Option)
150kHz~100MHz
Control method (Optionally up to 3GHz)
PC control / GP-IB / Pulse motor control / Image loading
Measurement area
300 X 350 (mm)
Min. scanning / Min. step
>1mm / 0.1mm step
Power supply
AC95V~120V, 210V~250V
Dimension
(W) 601 X (H) 980 X (D) 662mm
Mass
Approx. 37kg
PC
Correspondent machine
PC / AT compatible machine operating with Windows® XP / 7
OS
Microsoft ® Windows® XP / 7
Corresnpondent spectrum analyzer
Agilent Technology E4402B
ADVAN TEST
U3741
ANRITSU
MS2661C
* Please contact us for availability of the other spectrum analyzers
Accessory
EMI Measure EPS
Item
AC cable
Motor control cable
Coaxial cable
Video cable
GP-IB cable
N-SMA conversion cable
Hexagon wrench
Instruction manual
Probe A (Vertical magnetic field probe)
Probe B (Horizontal magnetic field probe)
Probe C (Vertical electric field probe)
Remote controller
Remote controller cable
Install madea
System configuration
EPS-3007
RF cable
Spectrum analyzer
Camera controller
Control cable for spectrum
analyzer (GP-IB)
USB cable
PC
①Attach either magnetic filed probe or electric field probe along the purpose
②Load spectrum data on the each point into PC from spectrum analyzer which is
connected to the antenna probe
③Enable to realize efficient counter measure for the EMI by edition and analysis to
composite data with PCB photo
74
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
Measurement Procedure
●Set division size (measurement
●Select the antenna probe from
Power ON
system
Select antenna probe
and spectrum analyzer
resolution) , measurement range
and number of measurement
the standard equipped 3 kinds
●Set frequency range, frequency
step and image size
Set image position
Set measurement
conditions
Set emission map
Counter
measure
Finish
Measure
Compare
Noise distribution map before counter measure
Noise distribution map after counter measure
Enable to display emission map per particular frequency
It is possible to take in the spectrum information on all the frequency domains for every measurement point by only one measurement.
Moreover, the measuring frequency can be set up arbitrarily. (Start frequency~stop frequency)
The measured data can be displayed as an emission map by the compostition with the PCB photo. Thereby, arbitrary analysis can be realized
in the desired frequency range (Current intensity distribution or magnetic field intensity distribution). The emission map information follows
to be displayed by dragging blue colored band zone of indicated frequency range.
EMI Measure EPS
Display spectrum data in
the all set frequency range
(Start~stop frequency) as
an emission map
Composite emission map picture
Emission map follows
to be displayed by
dragging blue colored
band zone of the
indicated spectrum
indication
w w w. n o i s e k e n . c o m
75
Effect of EPS-3007
Enable to reduce time for the counter measure which may occupies an anechoic chamber to the EMI and realize efficiency / routine on the
work by the data accumulation.
Design / Development
stage
Feedback,
analysis +
Know-how
accumulation
Trial production
Feedback, analysis +
Know-how accumulation
NG
Cut & try
●Know-how accumulation of loop
NG, red line
important
Measurement of near filed
electromagunetic wave
OK
Counter measure
NG
Establish design guideline
ESV-3007
●Ideal system OK,
blue line
can be
established by utilization of
the know-how.
Measurement test (Products basis)
OK
NG
Shipment
Probes Characteristics
Magnetic field antenna (2 kinds) and electric field antenna (1 kind) are standard equipped. The directivity can be arbitrarily decided with
the magnetic field probe. On antenna movement for the scanning is adopted to the system. The measurement pitch can be set arbitrarily.
The method is superior to antenna array type and enables the uniformed measurement since no individual performance difference there.
Magnetic field
High
sensitivity
0°
High
sensitivity
90°
High
sensitivity
Current
Magnetic
field
Magnetic
field
Electric field
Current
Low
sensitivity
0°
Characteristics
of Probe A
High
sensitivity
90°
Characteristics
of Probe B
Characteristics
of Probe C
EMI Measure EPS
Difference between Electric field probe and Magnetic field probe
Electric field probe may measure emission source which is not measured by magnetic field probe on PCB.
①Measurement with magnetic
field probe
There may be cases that
position of LSI which should
be measured is not detected
with magnetic field probe.
76
w w w. n o i s e k e n . c o m
② Measurement with electric
field probe
Position of LSI which
radiates the noise is clear.
Counter measure to this
LSI can make improvement
against the noise.
E M C T e s t s E q u i p ment s C atal o g u e
Option
■Option
RF Amplifier 3GHz
MODEL : 01-00029B
The applied frequency range is 25MHz~3000MHz and the amplifier gain is 36dB
Item
RF amplifier 3GHz
Characteristics
Gain = 36dB
Frequency range
30MHz~3000MHz
Note
Attachable to Probe A, B, C
●Applicable model : EPS-3007
LF Probe
MODEL : 01-00035A
For low frequency range (150kHz~100MHz) and vertical magnetic field
Item
Amplifier
PROBE L
Characteristics
Gain = 40dB
With correction
Frequency range
30MHz~1500MHz
150kHz~100MHz
Note
Respondent to 150kHz with correction
Vertical magnetic field detection
●Applicable model : EPS-3007
Specialized anechoic Box and Shield Box for EPS-3007
New proposal from Noiseken (Patent applied)
New function proposal added to
the emission measurement system EPS-3007
Design for counter measure to EMC is incompatible with the
one to heat.
Nowadays, the counter measure to EMC is conducted in
early stage of the design with some simulators. However, the
importance of the actual measurement like verfification of the
generation source, effect of the measures by the mesaurement
is enhancing more. Also, in the meantime, the design for the
counter measure to heat may ail engineers. Although this one
is conducted in the early stage with some simulators as well,
the importance of the actual measurement should be needless
to say.
They say, the counter measure to heat has to be starten over
after the one to emission or vice versa, the emission may be
bigger after the one to the heat sometime on the site. Such
incompatibleness must be the obstacle to minimize the design
ad evaluation lead times.
Noiseken is providing and realizing the solution for dedicating
to the simultaneous measures.
Noise amount is
reduced as result of
the counter measure,
simultaneously, heat
amount is reduced
Visible noise
and heat are
generated from
same part
Focus on the measure
to heat not noise
Digital PCB before
counter measure to noise
w w w. n o i s e k e n . c o m
Heat amount is increased as result
of the counter measure to the noise
Digital PCB after counter
measure to noise
77
EMI Measure EPS
Realize visualization both of the noise emission and
heat on PCB so as to shorten time for the counter
measure to the emission and heat.
New proposal : Visualization both of noise
generation source and heat generation source
Emission Measurement System for PCB
EPS-6000
Feature
● Measurable up to 8GHz in the frequency range
● 4 axes (X, Y, Z, θ) measurements with minute step minimum 0.1m realized
● Equivalent distance measurement to parts on PCBs even the heights are different
● Composite figure of photo of the measured PCB and the measurement data real-
ized
● Rich magnetic field probes in the figures, sizes and Vertical/Horizontal directions
● Versatile display for the measurement data as 2 dimensions, 3 dimension, and
equiangular line realized
● Comparison display with the previous measured data available
● Many brands spectrum analyzers correspondent
● Suitable for CISPR 22 (Oct. 2010) regulation
Specification
EPS-6000 3G
EPS-6000 6G
Measurement MethodScanning with near field magnetic probe (height measurement laser attached)
Measurement Are
(W)300 × (D)270 × (H)100mm φ0, 45, 90, 135°
Min. Step
0.1mm
Position accuracy
±0.01mm (in one direction movement)
Position accuracy (θ)
±1.0°
Measurement Frequency Range *
150kHz ~ 3GHz
100MHz~6GHz (8GHz as Option)
Measurement Probe
01-NVF020:Elliptic probe for detection in horizontal magnetic field 1mm
01-NVF010:Elliptic probe for detection in horizontal magnetic field 1mm
Dimension
(W)490 × (D)670 × (H)610mm
Mass
39 Kg. (Only main unit. Spectrum analyzer and PC excluded)
Power Supply
AC 100V~240V
Power Consumption
300W (Max.) (For spectrum analyzer excluded)
Operating Temperature
0°C~40°C (without dew)
Camera
4 million pixel (High-definition camera)
Correspondent Spectrum Analyzer
See the following table ("Correspondent spectrum analyzer")
* Measurement frequency ranges depend on the measurement probes
Correspondent Spectrum Analyzer
Manufacturer
Model NO.
ROHDE&SCHWARZ
FSC, FSL, FSP, FSV, FSG, FSQ
ANRITSU
MS2661C, MS2665A, MS2667C, MS2668C,MS2681A, MS2683A, MS2687B,
Agilent Technologies
ESA Series(E44xx), PSA Series(E444x), CXA(N9000A), EXA(N9010A), MXA(N9020A), PXA(N9030A)
ADVANTEST
U3700Series
* Please contact us about the other spectrum analyzers.
Measured figures on display (Image)
EMI Measure EPS
78
w w w. n o i s e k e n . c o m
E M C T e s t s E q u i p ment s C atal o g u e
System configuration
RF cable
Spectrum analyzer
Control cable for spectrum
analyzer
(GP-IB/LAN/USB)
USB cable
LAN cable
Lap-top PC
EPS-6000
Correspondent Spectrum Analyzer
Main unit Software
EPS-6000 main unit
Capture card (Experss Card)
Probe for measurement
Probe for robotic calibration
RF cable (SMA-N 2m)
USB cable (Type A-B, 1.8m) PC - Main unit
Control cable for spectrum analyzer (GP-IB/LAN/USB) PC - Spectrum analyzer
Video cable PC - Main unit
AC cable Specialized application (data print-out, browsing function and plural PC installation possible)
Core library DotNET Frameworks3.5
Measurement driver NI VISA2.5 onward or Agilent IO Libraries Suite 15.5 onward
Driver kinds NI-DAQ, Robot driver, Camera driver, DirectX
Q’ty
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
1 pc.
1 set
Optional probes
Coil direction
Sensitivity *1 Resolution *2
MSL Gap width *3
Horizontal
Horizontal
Horizontal
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
-48dB
-40dB
-30dB -46dB
-37dB
-30dB
-45dB
-37dB
-34dB
0.35mm
0.55mm
1.22mm
0.39mm
0.60mm
1.20mm
0.29mm
0.66mm
1.26mm
0.1mm
0.2mm
0.5mm
0.1mm
0.2mm
0.5mm
0.2mm
0.5mm
1.0mm
Vertical
Vertical
-56dB
-47dB
0.10mm
0.17mm
0.05mm
0.1mm
w w w. n o i s e k e n . c o m
Note
Standard equipped
Standard equipped
79
EMI Measure EPS
Measurement
Model NO. Designation
frequency
■For EPS-6000 3G
150kHz~3GHz 01-NHC010 Circular probe for detection in vertical magnetic field 1mm
01-NHC020 Circular probe for detection in vertical magnetic field 2mm
150kHz~2GHz 01-NHC050 Circular probe for detection in vertical magnetic field 5mm
150kHz~1GHz
01-NVC010 Circular probe for detection in horizontal magnetic field 1mm
150kHz~3GHz 01-NVC020 Circular probe for detection in horizontal magnetic field 2mm
150kHz~2GHz 01-NVC050 Circular probe for detection in horizontal magnetic field 5mm
150kHz~1GHz 01-NVF020 Elliptic probe for detection in horizontal magnetic field 2mm
150kHz~3GHz 01-NVF050 Elliptic probe for detection in horizontal magnetic field 5mm
150kHz~3GHz 01-NVF100 Elliptic probe for detection in horizontal magnetic field 10mm
150kHz~2GHz ■For EPS-6000 6G
01-NVF005 Elliptic probe for detection in horizontal magnetic field 0.5mm 100MHz~8GHz 01-NVF010 Elliptic probe for detection in horizontal magnetic field 1mm
100MHz~6GHz *1 Typical attenuation value between MSL (Micro strip line) and the probe at 1GHz.
*2 Typical value between max. value and (Max.value - 6dB) (Half-width).
*3 Width between micro strip line and the probe
3D Emission Measurement System
EPS-01A
Feature
● Wide measurement frequency range to 2.66GHz from 30MHz
● Enable to switch to either vertically polarized wave or horizontally
polarized wave
Specification
System component Parameter
Scanning space
Scanning frequency range
Scanning direction
Scanning environment
Antenna
Positioner
Drive
Drive control
Scan velocity
Scanning time
Min. movomenet resolution
Controller
Operating environment
OS
PCI board
Scanning
Data display
Plane display
Data output
Printing function Data saving
Specification
Scan max. 1m cubic space adjacent to one side of EUT
30MHz~2.6GHz
Scan each surface of EUT upon rotation of EUT
Anechoic chamber or open-site
Electric filed / Magnetic field changeable, Balanced dipole antenna (electric field) / Shielded loop antenna (magnetic field)
Pre-antenna built-in Output impedance : 50Ω
Independent drive of X, Y and Z axis, antenna polarized wave switching (90° rotation horizontally and vertically)
Control through optical fiber interface
Max. 50mm/s (automatic speed control)
Approx. 50 minutes until scanning 1m cube wtih 100m step
10mm for X, Y and Z direction
PC / AT compatible machine operating with Windows® XP / 7
Windows® XP / 7
GP-IB control board (connected to spectrum analyzer), Motor control board (connected to positioner)
Automatic scanning of the space designated for X, Y and Z axis
Slice scanned data on X-Y plane, X-Z plane and Y-Z plane at arbitrary position and dispaly strength.
The displayed frequency range is designated arbitrarily in the scanning range
Print color distribution map at arbitrary position of X-Y, X-Z and Y-Z planes
Save map data and spectrum data
System Configuration
EMI Measure EPS
Shielded room
Spectrum analyzer
Power supply for antenna
and pre-amplifier
GP-IB
Magnetic or electric
field antenna
Positioner drive circuit
PC
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E M C T e s t s E q u i p ment s C atal o g u e
EPS-01A
PC Display
■Field Intensity Distribution on X-Y, X-Z and Y-Z planes
X-Z plane image
Composite image of
X-Y, X-Z and Y-Z planes
X-Y plane image
Select displayed plane from X-Y, X-Z or Y-Z plane
After the selection, variation of the depth direction which
makes Z axis be the parameter can be visualized for X-Y
plane with the right side slide bar (X-Y plane is selected
in the above display example)
Intensity distribution variation along frequency difference
can be also visualized when frequency range on spectrum
graph is designated.
In addition, the polarized plane can be selected to “Only
horizontal”, “Only vertical” or “Horizontal and vertical
composite).
Y-Z plane image
■ Image Figure of Transition from Near Field to Far Field
Image intensity of radiated electromagnetic wave from EUT is getting attenuated accompanied with transition from near field to far
field
Near field
Far field
EMI Measure EPS
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Facile Visualization System for Magnetic Field
EPS-2400
Feature
Visualize noise radiated from products intuitively so as to reduce man-hour of
the counter measure
● Visualize noise intensified positions intuitively by composition of the
photo and electromagnetic field intensity map
● Color display for the noise intensity
● Portable so as to facilitate the on-site measurement
Specification
Specification
Spatial scanning by hand method
(All waves detection + Level A/D conversion)
5m
≧USB 1.0
○Probe 300g (Excluding the cable)
Spherical part : Diameter 120mm Bar part : Diameter 21mm,
Length 20mm
○Interface Approx. 1.5kg
W400 x D300 x H62mm
* This products has been materialized based on the consent by the applicant Kanazawa University
* The design, appearance and specification are subject to change without notice.
Measurement Image
Parameter
Measurement method
Cable length
Interface
Dimension / Weight
Resistor Current Noise Tester for Fixed Resistor
RCN-2011
Measured specimen : IH heater
Measured specimen : Driver's seat in a vehicle
Current noise tester conforming to IEC60195-65 and MIL-STD-202G Method 308
Standards for fixed resistors (including resistor paste).
■Measures current noise on fixed resistors
EMI Measure EPS
Usable as the alternative measuring device of Model 315 Resistor Noise Tester
(Quan-tech made) which has been used long time for measuring the current noise
of fixed resistors (including the past)
◎Reference Standards : IEC60195-65 & MIL-STD-202G Method 308
Specification
● Resistance range 50Ω〜10MΩ (Measurable range)
● Noise voltage
- Range : -40dB~+60dB
Accuracy +/-0.5dB
● Voltage generator (Power source to flow the current to the measured resistor)
- Output voltage : 0~255V
- Output current : 500mA
- Output power : 500mW
● Signal generator for the calibration built-in
- Waveform : Sinusoidal wave
- Frequency : Fixed at 1kHz
- Voltage : 100μV, 10μV, 1μV (Switched per the measured resistor)
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● Controlling PC (Lap-top)
Application software installed.
E M C T e s t s E q u i p ment s C atal o g u e
High Frequency Contact and Near-Field Electromagnetic Immunity Test Antenna
NHHA & NTSA Series
* Purpose : Use antennas according to frequency of various mobile communication equipments and reproduce “State the mobile equipments work in the near field”, and evaluate
resistibility or deterioration against the near filed electromagnetic noises. Realize to conduct the test which is good and stable reproducibility as well as sufficient margin
Specification
NHHA series
Parameter
Frequency (MHz)
Max. Input power
Recommended test environment
Specification (NHHA series)
Specification (NTSA series)
145, 223, 430, 455, 835,900, 430, 835, 900, 940, 1280,
940, 1270, 1450, 1750, 1900
1440, 1750, 1880
30W
Anechoic chamber or sheilded room
Total solution not only the antennas but also including SG and amplifier can be offered Adopt
efficient figured antenna
NTSA series
Test Setup Example
Broad band power amplifier
Near-field electromagnetic
field immunity test antenna
Singnal generator
Power meter
Free arm probe stand
E-filed probe
Antenna mount
The broadband power amplifier amplifies the signal generated by the signal generator. Then, the near-field electromagnetic immunity test
antenna radiates the EUT with strong electromagnetic fields. The field strength can be monitored using an E-field probe. In consideration
of test reproducibility and safety, the near-field electromagnetic immunity test antenna shall be fixed to a free arm probe stand. The power
input to the near-field electromagnetic immunity test antenna can be monitored with a power meter, leading to repeatable tests.
■Electric Field Strength Reference Values
Terminating power (W)
Electric field strength (V / m)
Antenna
d=0cm d=5cm d=50cm d=100cm Configuration
793
152
6
4
Helical
567
136
14
8
225
64
18
10
λ/4
282
83
21
12
334
98
12
3
341
109
11
4 Sleeva
373
121
11
4
345
104
12
5
330
171
44
27
298
178
41
20 λ/4
245
136
33
16
255
130
32
17
Maximum point
Tip
Transmission antenna height :1m (measured at the antenna
connected) Height of electric field strength meter : At d = 0cm,
measured at the height where the hightest level of field has
been obtained.
Tip
Bottom of the
sleeva
Lower part of
the rod
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d
Near field electromagnetic
immunity test antenna
1.0m
E-filed probe
1.0m +
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Immunity Test Antenna
Frequency
(MHz)
10
145
223
430
455
835
900
904
940
1270
1450
5
1750
1900
http://www.noiseken.com
International Sales & Marketing Section
1-4-4 Chiyoda, Chuo-ku, Sagamihara City, Kanagawa Pref. 252-0237 Japan
TEL: +81-(0)42-712-2051 FAX: +81-(0)42-712-2050
E-mail : [email protected]
Authorized representative
P-B10064
1111-5K