Feature Extraction of Frequency-Mapping-Based Resonance Suppression in PMSM Drives With Low DC-Link Capacitance and Inductance

IF 6.5 1区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Power Electronics Pub Date : 2024-11-19 DOI:10.1109/TPEL.2024.3501476

Runfeng Gao;Dawei Ding;Gaolin Wang;Qiwei Wang;Guoqiang Zhang;Dianguo Xu

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Abstract

For the electrolytic capacitorless permanent magnet synchronous motor drives with low dc-link inductance, the increase of the resonant frequency and the complex coupling between the grid- and dc-side currents result in the performance reduction of the active damping method. This article proposes a suppression strategy based on the feature extraction of the grid current harmonics from frequency mapping. With the high-to-low frequency mapping, the low-frequency feature signals of grid current harmonics are applied to characterize the high-frequency resonance, which reduce the sampling and update errors caused by the higher resonant frequency. On the basis, the closed-loop control of the low-frequency feature signal is adopted to reshape the impedance relationship between the grid current and rectified voltage. Therefore, the harmonics of the grid current can be decoupled from the dc-side current, and the high-frequency resonance of the grid current can be directly controlled, which realizes resonance suppression in the low dc-link inductance drives. Experimental results verify the effectiveness of the proposed suppression strategy.

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低直流链路电容和电感 PMSM 驱动器中基于频率映射的谐振抑制特征提取

对于低直流电感的无电解电容永磁同步电机驱动器，谐振频率的增加和栅极电流与直流电流之间的复杂耦合导致主动阻尼方法的性能下降。本文提出了一种基于频率映射的电网电流谐波特征提取的抑制策略。通过高低频映射，利用电网电流谐波的低频特征信号来表征高频谐振，减小了高谐振频率带来的采样和更新误差。在此基础上，采用低频特征信号的闭环控制来重塑电网电流与整流电压之间的阻抗关系。因此，可以将电网电流的谐波与直流侧电流解耦，直接控制电网电流的高频谐振，实现了低直流环节电感驱动的谐振抑制。实验结果验证了所提抑制策略的有效性。

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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.