基于被动性的感应电机鲁棒组合自适应控制

Machines Pub Date : 2024-04-18 DOI:10.3390/machines12040272
J. Travieso-Torres, A. Ricaldi-Morales, N. Aguila-Camacho
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引用次数: 0

摘要

工业和商业机械越来越需要在保持高扭矩的同时,精确地跟踪可变角速度。为满足这一需求,感应电机(IM)通常与采用面向现场控制(FOC)方案的变速驱动器(VSD)配合使用。在过去的三十年中,感应电动机因其成本效益高、维护需求少和效率高,已逐渐取代了独立连接的直流电动机。然而,IM 和 VSD 表现出非线性行为、不确定性和干扰。本文针对这类非线性系统提出了一种稳健的基于自适应被动性的组合控制(CAPBC),适用于 IMs' VSD 的 FOC 方案中的转子角速度和定子电流调节。它使用基于 Lyapunov 的通用设计能量函数和具有 σ 修正的自适应法则,以确保在结合控制和监控变量后的鲁棒性。Lyapunov 第二方法和 Barbalat 定理证明,控制和识别误差随着时间的推移趋于零。此外,与标准比例积分控制器(PIC)和直接 APBC 的对比实验结果表明,所提出的 CAPBC 在正常和不断变化的条件下均具有有效性和鲁棒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robust Combined Adaptive Passivity-Based Control for Induction Motors
The need for industrial and commercial machinery to maintain high torque while accurately following a variable angular speed is increasing. To meet this demand, induction motors (IMs) are commonly used with variable speed drives (VSDs) that employ a field-oriented control (FOC) scheme. Over the last thirty years, IMs have been replacing independent connection direct current motors due to their cost-effectiveness, reduced maintenance needs, and increased efficiency. However, IMs and VSDs exhibit nonlinear behavior, uncertainties, and disturbances. This paper proposes a robust combined adaptive passivity-based control (CAPBC) for this class of nonlinear systems that applies to angular rotor speed and stator current regulation inside an FOC scheme for IMs’ VSDs. It uses general Lyapunov-based design energy functions and adaptive laws with σ-modification to assure robustness after combining control and monitoring variables. Lyapunov’s second method and the Barbalat Lemma prove that the control and identification error tends to be zero over time. Moreover, comparative experimental results with a standard proportional–integral controller (PIC) and direct APBC show the proposed CAPBC’s effectiveness and robustness under normal and changing conditions.
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