VCS 500N8 Series Surge Simulator-Century Wisdom (Suzhou) Testing Technology Co., Ltd

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VCS 500N8 Series Surge Simulator

Brand:

EM TEST

Product Description
Main features
Technical parameters

- Commodity name: VCS 500N8 Series Surge Simulator
- Commodity ID: 1064635652931997696
- 品牌11: EMTEST
- 行业: 民用
- 描述: The occurrence of surge pulses is caused by lightning directly or indirectly hitting outdoor circuits.
- 品牌: EM TEST
　　Combined Wave Simulator

　　Surge pulses are caused by lightning directly or indirectly hitting outdoor circuits. This will cause a transient high voltage or high current from an electrical current or electromagnetic field. In addition, switching transients from switching glitches and system faults are another source of surges. Due to the nature of this phenomenon, almost all electrical and electronic equipment is affected by surges, which further justifies the need for extensive surge testing. The surge voltage to be tested should be as large as several thousand volts, and the surge current should be several thousand amperes.
main feature:

　　Surge voltage up to 8 kV

　　Inrush current up to 4 kA

　　With voltage/current monitoring function

　　Built-in single-phase or three-phase coupling/decoupling network up to 3 x 690 V / 32 A

　　warning light control

　　Security lock

　　Standard Test Procedure

　　USB and GPIB interface

Standards compliant:

　　EN 61000-4-5

　　IN 61000-4-9

　　IEC 60255-22-5

　　IEC 61000-4-5

　　IEC 61000-4-9

　　IEC 61326

　　IEC 61850-3

　　IEC 62477-1

　　ITU-T K.12

　　ITU-T K.20

　　ITU-T K.45

advantage:

　　VCS 500N8 - 8 kV / 4 kA Surge Combined Wave Simulator

　　VCS 500N8 surge combined wave simulator can generate surge pulses with a test voltage up to 8 kV and a test current up to 4 kA, which is suitable for testing electronic components (for example: overvoltage protection testing of communication equipment). Its built-in single-phase or three-phase coupling/decoupling network is rated at 16 A per phase. If higher current is required, the current per phase can be extended to 100 A through an external coupling/decoupling network. The coupling network is controlled by VCS 500N8, which can automatically set the coupling mode and source impedance.

　　VCS 500N8 has a failure detection function for monitoring the level of the equipment under test. Peak voltage and peak current can not only be displayed on the front panel, but also can be uploaded to the software and recorded in the test report. In addition, the VCS 500N8 includes safety features such as access control warning lights and safety interlocks.

　　Pre-programmed standard test routines are easy to use. Through the quick start test program of VCS 500N8, the user can adjust the test parameters online during the test, so as to evaluate the sensitivity threshold of a single device under test. This feature is most suitable for product development testing.

　　Through the front panel menu and function keys, users can quickly and accurately edit the test program. The control cursor is used to quickly control all test parameters of the programmed test program, which makes the test process very simple and ensures that each test step can be carried out correctly.

controlling software:

　　Control and report generation software iec.control

　　iec.control is a very user-friendly control software. It is easy to use, has a clear user interface structure and strong flexibility. Various operating functions and EM TEST standard information library allow users to easily complete custom test procedures. It can automatically identify the connected EM TEST test equipment and perform automatic configuration. Its powerful reporting function can help users generate test reports that meet international requirements.

　　iec.control supports Windows 7, Windows 8 (64Bit) and Windows 10 operating systems. Remote control is done via USB or GPIB interface. iec.control is compatible with various GPIB cards of National Instruments.

Accessory equipment:

　　CNI 503 - Three-phase coupling/decoupling network for burst and surge testing

　　EM TEST provides a series of fully automatic three-phase coupling/decoupling networks for burst and surge testing to expand the testing capabilities for three-phase equipment under test. The nominal current of the network can be up to 100 A.

　　CNV 503 - Three-phase coupling/decoupling network for surge testing

　　EM TEST provides a series of fully automatic three-phase coupling/decoupling networks for surge testing, which can expand the test capability for three-phase equipment under test, and the rated current of the network can reach up to 100 A.

　　CNV 504N/508N - Signal/Data Line Coupling/Decoupling Networks for Surge Testing

　　CNV 504N / 508N coupling/decoupling network can couple surge pulses to I/O lines, signal/data lines and communication lines, meeting the requirements of IEC 61000-4-5 Ed 3.0 standard.

appendix:

　　MS 100N - Magnetic field coil for power frequency and pulsed magnetic field testing

　　MS 100N is a 1 m * 1 m magnetic field coil, which meets the requirements of IEC / EN61000-4-8 and IEC / EN 61000-4-9 standards. The coil moves easily, is height-adjustable, and swivels 360 degrees. When it is necessary to generate low-level power frequency magnetic field strength, the current transformer MC 2630 can be used together. For high-level field strength tests above 100 A/m, MC 26100 current transformers are required.

Specific indicators:

VCS 500N8 Series
VCS 500N8 model
VCS 500N8	The 8 kV surge simulator has no built-in coupling/decoupling network and needs an external coupling/decoupling network
VCS 500N8.1	8 kV surge simulator with built-in single-phase 250 V / 16 A coupling/decoupling network
VCS 500N8.2	8 kV surge simulator with built-in three-phase 3 x 440 V / 16 A coupling/decoupling network
VCS 500N8.3	8 kV surge simulator with built-in three-phase 3 x 690 V / 32 A coupling/decoupling network
VCS 500N8.5	8 kV surge simulator with built-in three-phase 3 x 440 V / 32 A coupling/decoupling network
Combined Waveform 1.2 / 50 US - 8 / 20 US
open circuit voltage	250 V - 8,000 V ± 10%
Rise Time	1.2 us ± 30%
Pulse half peak time	50 us ± 20%
short circuit current	4,000 A max ± 10%
Rise Time	8 us ± 20%
Pulse half peak time	20 us ± 20%
polarity	positive, negative, alternating
counter	1 - 30,000 or unlimited
trigger circuit
trigger method	Automatic, manual, external trigger
CRO trigger	Oscilloscope 5 V trigger signal
Synchronize	0° - 360°, resolution 1°
repetition rate	3 s - 999 s, depending on voltage
output
direct output	Output via high voltage connector: - Zi = 2 ohm with optional IMN2 adapter - Connection to external surge coupling network
VCS 500N8.1	Built-in single-phase coupling network AC: 250 V / 16 A; 50 / 60 Hz DC: 250 V / 10 A
VCS 500N8.2	Built-in three-phase coupling network AC : 3 x 440 V / 16 A; 50 / 60 Hz DC: 250 V / 10 A
VCS 500N8.5	Built-in three-phase coupling network AC : 3 x 440 V / 32 A; 50 / 60 Hz DC: 250 V / 20 A
VCS 500N8.3	Built-in three-phase coupling network AC : 3 x 690 V / 32 A; 50 / 60 Hz DC: 400 V / 20 A
Coupling method	L - L, 2 ohm impedance L(s) - PE, 12 ohm impedance
Measurement
voltage monitoring	10 Vp corresponds to 8,000 V
current monitoring	10 Vp corresponds to 4,000 A
peak voltage	8,000 V, LCD display
peak current	4,000 Amps, LCD display
test program
Quick Start	Parameters can be adjusted online, simple and fast
Standard Test Procedure	Conforms to IEC 61000-4-5 standard, test level 1kV - 4 KV manual setting standard test procedure
user testing program	Change polarity after N pulses Change coupling after N pulses Change voltage after N pulses Change phase angle after N pulses
Serve	Service, Setup, Self-Test
interface
serial interface	Optical link with 3 m long cable, USB Type A connector
parallel interface	IEEE 488, addresses 1 - 30
Safety
safety circuit	Control input (24 V DC)
Warning Light	floating output contact
general data
size and weight
VCS 500N8	19" /6 HU, about 25 kg
VCS 500N8.1	19"/6 HU, about 28 kg
VCS 500N8.2	19"/9 HU, about 55 kg
VCS 500N8.3	19"/9 HU, about 55 kg
VCS 500N8.5	19"/9 HU, about 52 kg
supply voltage	115 / 230 V +10 / -15%
fuse	2 x T 2 AT(230 V)或 2 X T 4 AT(115 V)
Environmental requirements
temperature	10 °C -35 °C
Relative humidity	30 % - 75 %, non-condensing
atmospheric pressure	86 kPa - 106 kPa
option
IMN 2	Impedance matching adapter for connection between direct output port and 2 ohm source impedance
iec.control	Remote control and reporting software including standard test procedures and report generation.
appendix
AC/DC power line coupling/decoupling network
CNI503A10	Three-phase coupling/decoupling network for EFT burst and surge testing, 3x480V/16A
CNI503A12	Three-phase coupling/decoupling network for EFT burst and surge testing, 3x480V/32A
CNI 503A13	Three-phase coupling/decoupling network for EFT burst and surge testing, 3x480V/63A
CNI 503A14	Three-phase coupling/decoupling network for EFT burst and surge testing, 3x480V/100A
CNV 501S4	Single phase coupling and decoupling network for surge test, 250V/16A
CNV 503S6	Three-phase coupling/decoupling network for surge testing, 3x480V/63A
CNV 503S7	Three-phase coupling/decoupling network for surge testing, 3x480V/100A
Signal line/communication line coupling/decoupling network
CNV 504N series	4-wire signal line/data line coupling network according to IEC 61000-4-5 Ed 3.0 fig. 9 Surge voltage: up to 10 kV EUT current: up to 4 A
CNV 508N series	8-wire signal line/data line coupling network according to IEC 61000-4-5 Ed 3.0 fig. 9 Surge voltage: up to 10 kV EUT current: up to 4 A
CNV 504T5	4-wire unshielded symmetrical line (communication line) coupling and decoupling network according to IEC 61000-4-5 standard Ed 3.0 (fig. 10)
CNV 508T5	8-wire unshielded symmetrical line (communication line) coupling and decoupling network conforming to IEC 61000-4-5 standard Ed 3.0 (fig. 10)
Pulse magnetic field test according to IEC 61000-4-9
MS 100N	Field coils with field strengths up to 3,200 A/m