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Open Access

ARTICLE

Non-Singular Fast Terminal Sliding Mode Control of PMSM Based on Disturbance Observer

Lang Qin1, Zhengrui Jiang1, Xueshu Xing2, Xiao Wang1, Yaohua Yin2, Yuhui Zhou2, Zhiqin He1,*
1 The Electrical Engineering College, Guizhou University, Guiyang, 550025, China
2 PowerChina Guiyang Engineering Co., Ltd., Guiyang, 550081, China
* Corresponding Author: Zhiqin He. Email: email
(This article belongs to the Special Issue: Intelligent Manufacturing, Robotics and Control Engineering)

Computers, Materials & Continua https://doi.org/10.32604/cmc.2025.063358

Received 12 January 2025; Accepted 13 March 2025; Published online 08 April 2025

Abstract

In permanent magnet synchronous motor (PMSM) control, the jitter problem affects the system performance, so a novel reaching law is proposed to construct a non-singular fast terminal sliding mode controller (NFTSMC) to reduce the jitter. To enhance the immunity of the system, a disturbance observer is designed to observe and compensate for the disturbance to the sliding mode controller. In addition, considering that the controller parameters are difficult to adjust, and the traditional zebra optimization algorithm (ZOA) is prone to converge prematurely and fall into local optimum when solving the optimal solution, the improved zebra optimization algorithm (IZOA) is proposed, and the ability of the IZOA in practical applications is verified by using international standard test functions. To verify the performance of IZOA, firstly, the adjustment time of IZOA is reduced by 71.67% compared with ZOA through the step response, and secondly, the tracking error of IZOA is reduced by 51.52% compared with ZOA through the sinusoidal signal following. To verify the performance of the designed controller based on disturbance observer, the designed controller reduces the speed overshoot from 2.5% to 0.63% compared with the traditional NFTSMC in the speed mutation experiment, which is a performance improvement of 70.8%, and the designed controller outperforms the traditional NFTSMC in the load mutation experiment, which is a performance improvement of 60.0% in the case of sudden load addition, and a performance improvement of 90.0% in the case of load release, which verifies that the designed controller outperforms the traditional NFTSMC.

Keywords

PMSM; SMC; zebra optimization algorithm; disturbance observer

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