GDCL-10kA Impulse Current Generator Hipot Test Set for Arrester

Working Environment

• Environmental temperature: -10ºC to 40ºC
• Related humidity: ≤ 85% RH
• Altitude: ≤ 1000m
• Indoor use
• No conductive dust, no fire or explosive danger, no corrosive metal or insulation gas.
• Power voltage waveform is sine wave, distortion rate <5%
• Earth resistance is no more than 1Ω.

Applied standard

• IEC60099-4:2014 Surge Arresters-Part 4: Metal-oxide surge arresters without gaps for a.c. systems
• GB311.1-1997 Insulation coordination of HV Power transmission and transformation
• IEC 60060-1 High Voltage Testing Technique- General Testing Requirement
• IEC 60060-2 High Voltage Testing Technique- Measurement System
• GB/T16896.1-1997 Digital Recorder of High Voltage Impulse Test
• DLT992-2006 Implementing Rules for Impulse Voltage Measurement
• DL/T613-1997 Technical specifications for imported AC gapless metal oxide arresters

The basic principle

By using LC and RL circuits, the charged capacitor C discharges to nonlinear resistive load through the inductance L and the resistance R to generate the impulse current conforming to the standard requirements.

Main specification

Main Components

1. Charging unit

1) Charging method: half wave rectification with constant current in LC circuit at transformer primary side. Primary side has short-circuit/over-load protection.

2) High-voltage rectifier diode: reverse voltage 150kV, Max. Average current 0.2A.

3) Transformer primary voltage 220V, secondary voltage 50kV, rated capacity 10kVA.

4) Charging protective resistor: the enameled resistance wire is inductively dense wound on the insulation tube.

5) Constant current charging device: within 10~100% rated charging voltage, adjustable accuracy of charging voltage is 1%, and actual charging accuracy is better than 1%.

6) Voltage monitoring of capacitor: DC resistance voltage divider uses glass uranium resistance and metal film resistance. The voltage signal of the low-voltage arm is transmitted to the measuring system by shielded cable.

Discharge Unit

1) Auto grounding device: when the test is stopped or any other reason causes the access control to open, the high voltage terminal can be automatically grounded by the protective resistor and quickly discharged.

2) The discharging device adopts the pneumatic solenoid valve separation and grounding mechanism, which has compact structure, strong transmission stability and reliable action.

3) The discharge sphere is made of graphite with strong heat resistance and resistance to large current.

Measurement instrument 

1) Residual voltage: resistance voltage divider, non-inductive resistance, high precision, Max. voltage is 30kV, equipped with 1pc 75Ω measuring cable, 5meters.

2) Current: Using Rogowski coil with maximum current of 100kA and 1pc 75Ω measuring cable, 5meters.

3) Oscilloscope: Using Tektronix DPO2002B, sampling rate of 1GS/s, 100MHz broadband, two channels.

4) Software: equipped with ICG impulse current measurement system, with data and waveform reading/storage and calculation functions.

Generator

 

Control Unit

1) Table type Workbench enables operation staff to operate while sitting, more convenient.

2) The cabinet is equipped with movable casters and fixed support, which can facilitate movement and position fixing.

3) Optimal design of control system, user-friendly interface, only 3 buttons (charge, discharge, ignition) and a band switch (four waveform conversion), high reliability, simple structure, easy to operate, easy to maintain.

4) Oscilloscope setting is controlled by computer and completed with one key, which avoids complicated manual operation (oscilloscope has many functions, which is difficult for non-professionals to control).

5) Capacitor charging voltage is controlled by computer, with clear interface and simple operation.

6) The oscilloscope establishes a communication connection with the computer, the measurement data and waveform are automatically saved in the computer, and the Excel document is automatically generated.

7) Power supply of control system: isolated by transformer and filter.

8) Protection: over-voltage, over-current, access control linkage, emergency stop, automatic grounding, etc.

Measurement Analysis Software 

The analysis software is developed for impulse current test can automatically read waveform and data through communication with oscilloscope and evaluate waveform according to the measurement method of IEC1083-2 standard. Current peak, voltage peak, wave-front time and wave-end time are calculated automatically and displayed on the computer screen together with test waveform.

Data and waveform can be saved automatically and continuously (random shooting at the test site)