Current Vector Phase Based Weak Open-Circuit Fault Diagnosis of Voltage-Source Inverters

IF 6.5 1区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Power Electronics Pub Date : 2026-06-01 Epub Date: 2024-10-14 DOI:10.1109/TPEL.2024.3478766

Yu Zhang;Yuxin Liu;Shouqiang Kang;Peng Wang

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Abstract

This article presents an open-circuit fault diagnosis approach for the drive inverter system in a permanent magnet synchronous motor. This method can detect weak faults, and extract key features based on the current vector phase. Initially, the three-phase current signal is collected as the original input, and the current vector phase is calculated. Subsequently, fault detection employs time-domain inversion techniques. A current vector residual coding signal is constructed based on the Park’s Vector. Phase characteristics are then precisely and automatically extracted through logical operations on relational patterns. Ultimately, the fault type is located according to the different combinations of characteristic variables. Compared with the traditional methods, the proposed diagnostic technique has a simple structure and is not affected by variations in load and speed. Automatic feature extraction avoids the loss of traditional sliding window sampling information and the influence of boundary effect. The experimental results show that the method is effective and practical in the open-circuit fault diagnosis of inverters.

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基于电流矢量相位的电压源逆变器开路弱故障诊断

提出了一种永磁同步电动机驱动逆变系统的开路故障诊断方法。该方法可以检测微弱故障，并根据当前矢量相位提取关键特征。首先采集三相电流信号作为原始输入，计算电流矢量相位。随后，采用时域反演技术进行故障检测。基于帕克矢量构造了电流矢量残差编码信号。然后，通过对关系模式的逻辑运算，精确、自动地提取相位特征。最终根据特征变量的不同组合定位故障类型。与传统的诊断方法相比，该方法结构简单，不受负载和转速变化的影响。自动特征提取避免了传统滑动窗采样信息的丢失和边界效应的影响。实验结果表明，该方法在逆变器开路故障诊断中是有效和实用的。

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来源期刊

IEEE Transactions on Power Electronics 工程技术-工程：电子与电气

CiteScore

15.20

自引率

20.90%

发文量

1099

审稿时长

3 months

期刊介绍： The IEEE Transactions on Power Electronics journal covers all issues of widespread or generic interest to engineers who work in the field of power electronics. The Journal editors will enforce standards and a review policy equivalent to the IEEE Transactions, and only papers of high technical quality will be accepted. Papers which treat new and novel device, circuit or system issues which are of generic interest to power electronics engineers are published. Papers which are not within the scope of this Journal will be forwarded to the appropriate IEEE Journal or Transactions editors. Examples of papers which would be more appropriately published in other Journals or Transactions include: 1) Papers describing semiconductor or electron device physics. These papers would be more appropriate for the IEEE Transactions on Electron Devices. 2) Papers describing applications in specific areas: e.g., industry, instrumentation, utility power systems, aerospace, industrial electronics, etc. These papers would be more appropriate for the Transactions of the Society which is concerned with these applications. 3) Papers describing magnetic materials and magnetic device physics. These papers would be more appropriate for the IEEE Transactions on Magnetics. 4) Papers on machine theory. These papers would be more appropriate for the IEEE Transactions on Power Systems. While original papers of significant technical content will comprise the major portion of the Journal, tutorial papers and papers of historical value are also reviewed for publication.