考虑 PMSM 逆变器非线性的电感识别方法综述

Q1 Engineering Chinese Journal of Electrical Engineering Pub Date : 2024-06-01 DOI:10.23919/CJEE.2023.000046

Qiwei Wang;Jiqing Xue;Gaolin Wang;Yihua Hu;Dianguo Xu

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引用次数: 0

摘要

永磁同步电机（PMSM）被广泛应用于高功率密度和灵活的控制方法中。一般来说，由于磁饱和和耦合效应，电感在机器实时运行过程中会发生显著变化。因此，电感的识别对于 PMSM 控制至关重要。现有的电感识别方法主要基于电压源逆变器（VSI），这使得逆变器的非线性成为电感识别的主要误差源之一。为了提高电感识别的精度，有必要对逆变器的非线性效应进行补偿。本研究概述了 PMSM 电感识别和相关的逆变器非线性自学习方法。

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Review of Inductance Identification Methods Considering Inverter Nonlinearity for PMSM

Permanent magnet synchronous motors (PMSMs) are widely used in high-power-density and flexible control methods. Generally, the inductance changes significantly in real-time machine operations because of magnetic saturation and coupling effects. Therefore, the identification of inductance is crucial for PMSM control. Existing inductance identification methods are primarily based on the voltage source inverter (VSI), making inverter nonlinearity one of the main error sources in inductance identification. To improve the accuracy of inductance identification, it is necessary to compensate for the inverter nonlinearity effect. In this study, an overview of the PMSM inductance identification and the related inverter nonlinearity self-learning methods are presented.

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