Impulse voltage and current test systems

Impulse test systems are used for impulse testing of high voltage devices such as transformers, cables, gas-insulated switchgears (GIS), arresters, etc. The test systems generate lightning impulse voltage waveform (LI, 1.2/50 µs), chopped lightning impulse voltages waveform (LIC, front, crest or tail chopped), and switching impulse voltage (SI, 250/2500 µs) in accordance with IEC 60060-1; as well as IEC 60076-3 for transformers, and IEC 62067, 60840 und 60502-1 for cables).

Impulse test systems are available in different configurations boardly divided in two types.

1.  W series: 100kV, 5/10 KJ per stage with max. rating up to 1600 kV, 160 kJ
2.  V series: 200 kV, 20/30 KJ per stage with max. rating of 6000 kV, 900 kJ

The standard test system consists of following components:

• Impulse Generator
• HVDC Charging Power Supply
• Impulse Voltage Divider
• Impulse Control, Measuring and Analyzing System

Optional Acessories:

• Impulse Current Shunts
• Multi-stage Chopping Gap
• Overshoot Compensation Device
• Glaninger Circuit
• Recurrent Impulse Generator
• Reference Impulse Calibrator

APPLICATION
Applications cover testing according to IEC, ANSI/IEEE as well as other national & international standards. The Impulse Voltage System can be used to test any high voltage electrical equipment like:

• Power & Distribution Transformers
• Cables
• Surge / Lightning Arresters
• Insulators
• Instrument Transformers
• Bushings
• GIS
• Switchgears
• Shunt Reactors
• Special Application Transformers

FEATURES:

• Low internal inductance ensures high efficiency.
• Easy & quick reconfiguration to meet different testing requirements.
• User friendly operation through computer-controlled hardware.
• Special resistors, capacitors and inductors can be supplied for other impulse shapes like (8/20 μS, 4/10 μS) as per IEC 60099 and/or other load testing.
• Reliable, accurate and fail – safe triggering circuitry.
• Load range can be extended using Glaninger Circuit, overshoot compensation, termination resistors and special wave shaping resistors.
• The electronic measurement and controlling device include optical isolators to provide safety of the electronics in high voltage environment thus ensuring trouble-free operation.
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