由于中压火花隙操作而通过配电变压器传输的过电压尖峰

Proceedings of the 2010 Electric Power Quality and Supply Reliability Conference Pub Date : 2010-06-16 DOI:10.1109/PQ.2010.5549996

N. Sabiha, M. Lehtonen

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引用次数: 3

摘要

小型配电变压器通常有火花隙保护。当火花隙点燃时，由于电压的急剧变化，过电压耦合到二次侧。这个过电压可以到达客户插座。本文首先建立了脉冲电压叠加在交流电压上的中压火花隙击穿模型。为了研究过电压向低压侧的传播，采用了一个精确的、简化的高频变压器模型。将该模型、中压火花隙和低压网络结合在ATP/EMTP中，研究过电压尖峰传播。最后，研究了配电变压器二次端低压避雷器的过电压抑制作用。

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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Overvoltage spikes transmitted through distribution transformers due to MV spark-gap operation

Small distribution transformers are often protected with spark gaps. As the spark-gap ignites, an overvoltage is coupled to the secondary side due to the steep voltage change. This overvoltage can reach to the customer socket. In this paper, the breakdown of MV spark-gaps is first modeled under an impulse voltage superimposed on AC voltage. To study the overvoltage propagation to the low voltage side, an accurate and simplified high frequency transformer model is used. The model, MV spark-gap and LV network are combined in ATP/EMTP to study the overvoltage spike propagation. Finally, the low voltage surge arrester at the secondary terminals of the distribution transformer is investigated for overvoltage mitigation.

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Proceedings of the 2010 Electric Power Quality and Supply Reliability Conference

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