GDXZ Variable Frequency Series AC Resonant Test System
Product Description
GDXZ
Variable Frequency Series AC Resonant Test System
What's the Variable Frequency Series AC Resonant Test System?
The Variable Frequency Series AC Resonant Test System is mainly composed of Variable frequency control power supply, excitation transformer, high voltage reactor, high voltage divider and so on. The Variable Frequency Series AC Resonant Test System uses the principle of series resonance, uses the excitation transformer to excite the series resonance circuit, adjusts the output frequency of the frequency conversion controller, and makes the loop inductance L and the test product C resonate in series, and the resonance voltage is the voltage added to the test product.
The Variable Frequency Series AC Resonant Test System is widely used in electric power, metallurgy, petroleum, chemical and other industries, and is suitable for handover and preventive test of large-capacity, high-voltage capacitive test samples.
The test voltage(kV) and capacity(kVA) can be customized according to the test object or customer's requirements.
Test object and test requirements (eg:216KVA/216KV)
1) AC withstand voltage test of 220kV GIS, the test frequency is 30-300Hz, the test voltage does not exceed 216kV, and the test time is 1min.
2) AC withstand voltage test of 35kV switch, the test frequency is 30-300Hz, the test voltage does not exceed 95kV, and the test time is 1min.
3) 35kV/300mm2 cable 1km AC withstand voltage test, capacitance≤0.1945uF, test frequency is 30-300Hz, test voltage is 52kV, test time is 5min.
4) 10kV/300mm2 cable 2.5km AC withstand voltage test, capacitance ≤0.94uF, test frequency 30-300Hz, test voltage 22kV, test time 5min.
5) 110kV/63000kVA transformer fully insulated AC withstand voltage test, capacitance ≤0.02uF, test frequency 45-65Hz, test voltage 160kV, test time 1min.
6) AC withstand voltage test of 110kV/630mm2 cable 0.1km, capacitance ≤0.0201uF, test frequency 30-300Hz, test voltage 128kV, test time 60min.
Main Technical Index and Functions (eg:216KVA/216KV)
Rated Capacity: 216kVA;
Input Power: Single Phase 220 or Three-Phase 380V,50Hz;
Rated Voltage: 36kV;72kV;216kV
Rated Current: 6A; 3A;1A
Working Frequency: 30-300Hz;
Output waveform: sine wave
Waveform distortion rate: output voltage waveform distortion rate≤1%;
Working time: allow continuous 60min under rated load; over-voltage 1.1 times for 1 minute;
Temperature Rise:After 60 minutes of continuous operation under rated load, the temperature rise is≤65K;
Quality Factor:The device itself Q≥30 (f=45Hz);
Protection function: Overcurrent, overvoltage and flashover protection for the tested product (see the variable frequency power supply section for details);
Measurement accuracy: system effective value 1.5 class.
Main Components
Variable frequency control power supply
Excitation transformer
Reactor
Capacitive voltage divider
Compensation capacitor (optional)
Cases
Main Technical Features
1) The device has protection functions such as overvoltage, overcurrent, zero-position start, system detuning (flashover), etc. The overvoltage and overcurrent protection value can be set according to the user's needs, and the flashover protection action of the test product can be recorded when the flashover occurs,the voltage value will be recorded for experimental analysis.
2) Easy to use in the field.
3) The device has three working modes: automatic mode, manual mode, automatic tuning and manual boost mode; it is convenient for users to choose flexibly according to the site conditions and improve the test speed.
4) It can store and print data in different places, and the stored data number is a number, which is convenient for users to identify and search.
5) When the device automatically sweeps the frequency, the starting point of the frequency can be set arbitrarily within the specified range, and the sweep direction can be selected upward or downward. At the same time, the large LCD screen displays the scanning curve, which is convenient for users to intuitively understand whether the resonance point is found.
6) Using DSP platform technology, the functions and upgrades can be increased or decreased according to user needs, and the man-machine exchange interface is more user-friendly.
7) The required power supply capacity is greatly reduced. The series resonant power supply uses the resonant reactor and the capacitor to resonate to generate high voltage and large current. In the whole system, the power supply only needs to provide the part of the power consumption in the system, so the power supply power required for the test is only 1/Q of the test capacity.
8) The weight and volume of the equipment are greatly reduced. In the series resonance device, the bulky high-power voltage regulator and ordinary high-power power frequency test transformer are omitted, and the resonant excitation power supply only needs 1/Q of the test capacity, which greatly reduces the weight and volume of the system. Generally, it is common 1/10-1/30 of the test device.
9) Effectively improve the output voltage waveform. The resonant power supply is a resonant filter circuit, which can improve the waveform distortion of the output voltage, obtain a good sine waveform, and effectively prevent the false breakdown of the test product by the harmonic peak.
10) Prevent large short-circuit current from burning the fault point. In the series resonance state, when the insulation weakness of the test product is broken down, the circuit is detuned immediately, and the loop current rapidly drops to 1/Q of the normal test current. If the traditional parallel resonance or test transformer is used for the withstand voltage test , the breakdown current immediately rises dozens of times. Compared with the two, the short-circuit current and the breakdown current are hundreds of times different. Series resonance can effectively find insulation weak points, and there is no worry of large short-circuit current burning the fault point.
11) There will not be any recovery overvoltage. When the sample breaks down, the high voltage disappears immediately due to the loss of resonance conditions, the arc is extinguished immediately, and the re-establishment process of the recovery voltage is very long, and it is easy to disconnect the power supply before reaching the flashover voltage again. The process is an intermittent oscillatory process of energy accumulation, which is long and no recovery overvoltage occurs.
Partners
Contact us
Contact Person: Christine Gou
Whatsapp/Wechat: +86 15123029885
Mobile: +86 15123029885
E-mail: gold05@hy-industry.com