基于扩展状态观测器的IPMSM无差拍预测电流控制增强全参数鲁棒性

IF 4.5 2区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Industry Applications Pub Date : 2025-06-16 DOI:10.1109/TIA.2025.3576751

Jialiang Dai;Li Liu;Jungho Ahn;Ju Lee;Hyunwoo Kim

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引用次数: 0

摘要

本文介绍了一种采用扩展状态观测器的无差拍预测电流控制（DPCC）方法来解决内部永磁同步电机驱动中的参数不匹配问题。首先阐述了传统无差拍控制的基本原理，然后分析了传统DPCC方法固有的电感参数灵敏度。虽然现有的DPCC算法以电感变化为目标，但它的范围不足以满足要求高控制精度和鲁棒性的应用。因此，电阻、电感和磁链参数对预测电流误差的敏感性进行了检验。利用扩展状态观测器对参数偏差引起的系统扰动进行监测，实现了传统预测控制算法对扰动的实时补偿。仿真和实验结果均表明，该方法有效地减轻了参数不匹配对控制效果的影响，降低了DPCC方法的参数敏感性。

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Extended State Observer-Based Deadbeat Predictive Current Control for IPMSM Enhancing Full Parameter Robustness

This paper introduces a Deadbeat Predictive Current Control (DPCC) method that incorporates an Extended State Observer to address parameter mismatches, in Interior Permanent Magnet Synchronous Motor drives. Initially, the foundational principles of traditional deadbeat control are delineated, followed by an analysis of the inductance parameter sensitivity inherent in conventional DPCC methods. While the existing DPCC algorithm targets inductance variations, its scope is inadequate for applications demanding high control precision and robustness. Consequently, the sensitivities of resistance, inductance, and flux linkage parameters to predictive current errors are examined. An Extended State Observer is then implemented to monitor system disturbances caused by parameter deviations, facilitating real-time disturbance compensation in traditional predictive control algorithms. Ultimately, both simulation and experimental outcomes affirm that the proposed method effectively mitigates the influence of parameter mismatches on control efficacy and diminishes the parameter sensitivity of the DPCC approach.

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来源期刊

IEEE Transactions on Industry Applications 工程技术-工程：电子与电气

CiteScore

9.90

自引率

9.10%

发文量

747

审稿时长

3.3 months

期刊介绍： The scope of the IEEE Transactions on Industry Applications includes all scope items of the IEEE Industry Applications Society, that is, the advancement of the theory and practice of electrical and electronic engineering in the development, design, manufacture, and application of electrical systems, apparatus, devices, and controls to the processes and equipment of industry and commerce; the promotion of safe, reliable, and economic installations; industry leadership in energy conservation and environmental, health, and safety issues; the creation of voluntary engineering standards and recommended practices; and the professional development of its membership.