一种脉冲高电压测量探头的地电位隔离方法

卫兵; 卿燕玲; 王敏华; 付佳斌; 孙奇志; 杨礼兵; 丰树平

doi:doi:10.3788/hplpb20112308.2234

强激光与粒子束, 2011, 23 (8): 2234, 网络出版: 2011-09-20

一种脉冲高电压测量探头的地电位隔离方法

Ground isolation with common mode inductance for high voltage pulse measurement

论文大纲

卫兵 ^*卿燕玲王敏华付佳斌孙奇志杨礼兵丰树平

作者单位

中国工程物理研究院流体物理研究所，四川绵阳 621900

脉冲高电压测量探头地电位隔离共模电感 high voltage pulse measurement probe ground isolation common mode inductance

摘要

为了消除脉冲功率装置放电时地电位抬升对测试系统造成的影响，在测量探头和测量设备之间使用了共模电感。对等效电路进行了仿真分析，结果表明：对于探头输出的信号，该共模电感等效为传输线；对于共模信号等效为一个较大的电感，可以实现探头地电位隔离。共模电感使用绕制在磁芯上的同轴电缆制作，并进行了快脉冲信号传输和地电位隔离效果实验。实验结果与理论分析一致。该共模电感的响应时间为5.4 ns，隔离了约10 kV的脉冲高压，确保了示波器的安全运行。

Abstract

When pulse power device discharge, the voltage to ground rises. It leads to a common mode current from probe’s ground to oscilloscope’s. The output waveform can be affected, and the oscilloscope can be destroyed sometimes. A common mode inductance(CM inductance) made by coaxial cable which enwinds a ferromagnetic core was designed between the probe and oscilloscope. The voltage to ground was calculated based on the equivalent circuit with inductance and resistance of grounded connector. The CM inductance reduced the common mode current and isolated the ground of probe to oscilloscope. The output voltage was measured using a square waveform source with the rise time of 4.8 ns, the rise time of CM inductance output is 7.2 ns. A circuit for testing the isolating impact was designed: The outer conductor of input cable to CM inductance is connected to 10 kV voltage pulse whose width is about 1.5 μs and the rise time is about 30 ns, the output cable of CM inductance is connected to the oscilloscope. The output voltage waveform of sample resistor transmitted through the CM inductance is in accord with the input, and the oscilloscope is safe．

参考文献

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卫兵, 卿燕玲, 王敏华, 付佳斌, 孙奇志, 杨礼兵, 丰树平. 一种脉冲高电压测量探头的地电位隔离方法[J]. 强激光与粒子束, 2011, 23(8): 2234. Wei Bing, Qing Yanling, Wang Minhuan, Fu Jiabin, Sun Qizhi, Yang Libing, Feng Shuping. Ground isolation with common mode inductance for high voltage pulse measurement[J]. High Power Laser and Particle Beams, 2011, 23(8): 2234.

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