气体绝缘变电站开关浪涌特性

Proceedings of the 41st International Universities Power Engineering Conference Pub Date : 2006-09-01 DOI:10.1109/UPEC.2006.367618

A. Ametani, T. Goto, S. Yoshizaki, H. Omura, H. Motoyama

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引用次数: 4

摘要

本文在现场测量和EMTP仿真的基础上，通过对电压互感器和电流互感器的测量，研究了气体绝缘变电站主回路转来的低压控制回路的开关浪涌特性。在EMTP仿真中，主电路中开关浪涌的振荡频率在大约MHz到大约10mhz之间，控制电缆上的浪涌电压在大约10v到300v之间。仿真结果与现场实测的2 ~ 80 MHz振荡频率一致，不支持IEC 61000-4-12推荐频率100 kHz和1 MHz。测量电压范围从10v到近500v。主电路与控制电缆之间的相互耦合产生高频振荡电压，叠加在传递电压上。将控制电缆金属护套两端接地，在由金属护套和接地电路组成的闭环中产生循环电流，产生另一振荡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Switching Surge Characteristics in Gas-Insulated Substation

This paper has investigated switching surge characteristics in low-voltage control circuits transferred from main circuits of gas insulated substations through measuring voltage transformers (VT) and current transformers (CT) based on field measurements and EMTP simulations. The oscillating frequency of the switching surges in main circuits ranges from some MHz to some 10 MHz, and the surge voltages on a control cable are from some 10 V to 300 V in the EMTP simulation. The simulation results agree with the field measurements of the oscillating frequency ranging from 2 MHz to 80 MHz, which don't support the IEC 61000-4-12 recommended frequency 100 kHz and 1 MHz. The measured voltages range from 10 V to nearly 500 V. Mutual coupling between the main circuits and the control cable induces a high frequency oscillating voltage which are superposed on the transferred voltage. Grounding the both ends of the control cable metallic sheath produces another oscillation due to a circulating current in a closed loop composed of the sheath and the grounding circuit.

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Proceedings of the 41st International Universities Power Engineering Conference

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