基于滑模和改进型PR控制器的PMSM矢量控制

2022 4th International Conference on Smart Power & Internet Energy Systems (SPIES) Pub Date : 2022-12-09 DOI:10.1109/SPIES55999.2022.10082319

Yugang Li, Xiaojian Luan, Chuanxiao Wang

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引用次数: 0

摘要

对于永磁同步电机矢量控制系统中的PI控制，难以满足高性能控制的要求，且对外界干扰比较敏感。有人建议在速度环中使用滑模控制(SMC)而不是PI控制。这将消除速度的超调，使突然施加负载时的速度波动较小，并允许速度迅速恢复稳定，从而提高系统的抗冲击能力。针对传统的永磁同步电机矢量控制系统需要进行三次坐标变换的问题，在电流环中采用了改进的比例谐振控制器。这个特殊的控制器不包括与电机参数相关的补偿项目。计算的复杂性。Matlab/Simulink仿真结果表明，将上述控制策略结合到永磁同步电机矢量控制系统中是可行的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PMSM Vector Control Based on Sliding Mode and Improved PR Controller

For the PI control in the permanent magnet synchronous motor vector control system, it is difficult to meet the requirements of high-performance control, and it is sensitive to external disturbances. It has been suggested that Sliding Mode Control (SMC) be used in the speed loop rather than PI control. This would eliminate the overshoot of the speed, make the speed fluctuation small when the load is suddenly applied, and allow the speed to be quickly restored to stability, all of which would improve the system’s ability to withstand shocks. Because the conventional vector control system for permanent magnet synchronous motors needs to execute three coordinate changes, an improved proportional resonance (PR) controller is utilized in the current loop. This particular controller does not include compensation items related to motor parameters. the complex nature of the computation. The findings of a Matlab/Simulink simulation indicate that combining the aforementioned control strategies in a PMSM vector control system is a workable possibility.

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2022 4th International Conference on Smart Power & Internet Energy Systems (SPIES)

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