Single-End Transient Current Based Protection Method for VSC-HVDC Cable

Hanbing Qu, Pu Zhao, Bo Wang, Yujian Jia, Yuying Zhang, Yong Wang, Xiaowei Wang
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Abstract

Based on the boundary characteristic and frequency characteristic of cable, a protection method for VSC-HVDC cable is proposed in this paper, which only uses the single-end transient current signal. First, the frequency components of the currents at the DC-side and AC-side of the DC boundary are extracted by means of S transform, and the magnitude of the high frequency components of DC-side current is employed to detect the fault. Then, the ratio of the magnitude of the high frequency components of the DC- and AC-side currents is calculated to identify the internal fault from the close-up external fault. Finally, the ratio of the high and low frequency components of the DC-side current is calculated to identify the internal fault from the opposite external fault. This protection method is verified on basis of a two-terminal VSC-HVDC model with EMTDC/PSCAD. Various types of faults are simulated, and the simulation results show that this method can identify the internal faults under different conditions rapidly, while can ignore the external faults reliably.
VSC-HVDC电缆单端瞬态电流保护方法
本文根据电缆的边界特性和频率特性,提出了一种仅使用单端暂态电流信号的vdc - hvdc电缆保护方法。首先,通过S变换提取直流边界直流侧和交流侧电流的频率分量,利用直流侧电流高频分量的幅值检测故障;然后,计算直流侧和交流侧电流高频分量的幅值之比,从近距离的外部故障中识别内部故障。最后,计算直流侧电流的高低频分量之比,从相对的外部故障中识别内部故障。基于EMTDC/PSCAD的两端vdc - hvdc模型验证了该保护方法。仿真结果表明,该方法能够快速识别不同工况下的内部故障,同时可靠地忽略外部故障。
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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