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Development and Fault Prediction of a New Operating Mechanism of HTPPM

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  • Hongkui Yan
  • Xin Lin
  • Jianyuan Xu

Abstract

In this article, we take a 126 kV single-break vacuum circuit breaker as the research object and study the application of high-energy-density PM motor in the high-voltage circuit breaker for the first time. The PM motor maintains maximum power density and torque density during the start-up phase. Note that most of the faults of high-voltage circuit breakers are mechanical faults. We designed a set of mechanical fault prediction systems for high-voltage circuit breakers. We present the prediction method of the opening and closing action curve of the high-voltage circuit breaker. It is inspired by Chaos Ant Colony Algorithm (CAS) and an optimized Long- and Short-Term Memory (LSTM) cycle neural network. We constructed the main structure of the neural network expert system and established the fault prediction model of the high-voltage circuit breaker, based on the LSTM cycle neural network, optimized by CAS. We used the improved least-square method to achieve the operation accuracy of the phase control switch. Finally, we completed the development and experiment of the prototype.

Suggested Citation

  • Hongkui Yan & Xin Lin & Jianyuan Xu, 2021. "Development and Fault Prediction of a New Operating Mechanism of HTPPM," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-8, April.
  • Handle: RePEc:hin:jnlmpe:6644091
    DOI: 10.1155/2021/6644091
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