Control of chaotic permanent magnet synchronous motor using finite time stability approach

Science Talks Pub Date : 2024-05-08 DOI:10.1016/j.sctalk.2024.100360

Arif Iqbal , Farhad Ilahi Bakhsh , Girish Kumar Singh

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Abstract

Ensuring the stability of the Permanent Magnet Synchronous Motor (PMSM) is crucial for the smooth operation of drive systems. The behavior of PMSM can exhibit chaotic characteristics, particularly influenced by its initial operating conditions. Therefore, this paper addresses the stabilisation of chaotic PMSM system by using the concept of finite-time stability. For this purpose, three simple but effective controllers are proposed to suppress chaotic behavior in the machine. Performance evaluation of developed controllers has been presented by considering their settling time and peak overshoot. Developed controller models have been extensively simulated in the MATLAB environment. Further, practical validity has been accessed through real-time test results by using the Typhoon Hardware-in-the-loop (HIL) emulator. A closed agreement between simulation and real-time test results signify the efficacy and practical validity of the proposed controllers.

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利用有限时间稳定性方法控制混沌永磁同步电机

确保永磁同步电机（PMSM）的稳定性对于驱动系统的平稳运行至关重要。PMSM 的行为会表现出混沌特性，尤其会受到其初始运行条件的影响。因此，本文利用有限时间稳定性概念来解决混沌 PMSM 系统的稳定问题。为此，本文提出了三个简单但有效的控制器来抑制机器的混沌行为。考虑到控制器的稳定时间和峰值过冲，对开发的控制器进行了性能评估。开发的控制器模型已在 MATLAB 环境中进行了广泛模拟。此外，还使用 Typhoon 硬件在环（HIL）仿真器通过实时测试结果获得了实际有效性。仿真和实时测试结果之间的闭合一致性表明了所开发控制器的有效性和实用性。

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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