MSXZ (f) -270kVA/270kV AC withstand voltage test equipment system: This device is mainly designed for 35kV, 110kV cables, 110kV main transformers GIS、 The AC withstand voltage test of circuit breakers has a wide range of applications and is an ideal withstand voltage equipment for high-voltage testing departments and power installation and maintenance engineering units at the prefecture, city, and county levels. The device mainly consists of a variable frequency power supply, excitation transformer, reactor, capacitive voltage divider, and compensation capacitor.
1. 110kV/300mm ² cable 0.5km, capacitance ≤ 0.0735 μ, test frequency 30-300Hz, test voltage 128kV, test time 60min
2. 35kV/300mm ² cable 2km, capacitance ≤ 0.389 μ Test frequency 30-300Hz, test voltage 52kV, test time 60min
3. 10kV/300mm ² cable 5km, capacitance ≤ 1.88 μ F Test frequency 30-300Hz, test voltage 22kV, test time 60min
4. GIS, switch and other substation equipment with voltage levels of 110kV and below shall be tested at a frequency of 30-300Hz, with a test voltage of 265kV and a test time of 1 minute
5. 110kV/63000kVA main transformer, capacitance ≤ 0.02uF, test frequency 45-65Hz, test voltage 52kV, test time 1min
6. GIS, switch and other substation equipment with voltage levels of 35kV and below shall be tested at a frequency of 30-300Hz, with a test voltage of 95kV and a test time of 1 minute
The main functions and technical features of our company's communication pressure test equipment system are as follows:
1. The communication voltage withstand test equipment system has protection functions such as overvoltage, overcurrent, zero position start, and system detuning (flashover).
2. The weight and volume of the equipment are 1/10-1/30 of that of a regular testing device. The power required for the experiment is only 1/Q of the test capacity.
3. The device has three working modes: fully automatic mode, manual mode, and automatic tuning manual boost mode
4. Store and print data, with numerical numbers for easy identification and retrieval by users.
5. The starting point of the frequency during automatic frequency scanning of the device can be set arbitrarily within the specified range.
6. DSP platform technology can add or remove functions and upgrade according to user needs, making the human-machine exchange interface more user-friendly.
7. Improve the waveform of the output voltage.
8. Prevent large short-circuit currents from burning the fault point.
9. There will be no overvoltage recovery.