基于对称分量理论的五相永磁同步磁阻电机故障检测

A. Arafat, Seungdeog Choi
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引用次数: 3

摘要

本文提出了一种五相永磁同步磁阻电动机(PMa-SynRM)相位故障检测新方法。本文提出的故障检测方法是通过对五相电机的顺序部件进行新的分解技术来实现的。与常规三相电机不同,五相电机在单相故障、两相相邻故障和两相非相邻故障下的相故障响应不同。采用一种新的对称分量分析方法来识别五相电机的相位故障。将分析进一步扩展到基于对称分量的基频幅图来检测故障类型。在本文中,通过大量的仿真和实验测试进行了开相故障检测分析,以验证所提出的方法。采用TI-DSP F28335控制的5Kw发电机系统。
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Fault detection of a five-phase permanent magnet synchronous reluctance motor based on symmetrical components theory
This paper presents a new approach for phase fault detection of a five-phase permanent magnet synchronous reluctance motor (PMa-SynRM). The proposed fault detection method has been developed through novel decomposition technique of sequential components of a five-phase electrical machine. Unlike conventional three phase machines, phase fault of five-phase machine shows different response under single phase fault, two adjacent phase fault, and two non-adjacent phase fault. A newly developed symmetrical component analysis is applied to identify those phase fault condition in five phase machines. The analysis has been further extended to detect the types of faults based on magnitude pattern of the fundamental frequencies of the symmetrical components in frequency domain. In this paper, open-phase fault detection analysis has been carried out through extensive simulation and experimental tests to validate the proposed method. A 5Kw dynamo system controlled by TI-DSP F28335 has been used.
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