基于反电动势的异步电机矢量控制滑模观测器

Shuying Yang, Dawei Ding, Xi Li, Xing Zhang
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引用次数: 4

摘要

研究了感应电机反电动势的高阶滑模观测器(SMO),以实现转速估计和矢量定位。观测器由IM的数学模型推导而来,采用非奇异终端滑动曲面。以观测到的电动势为参考,设计了自适应观测器,并推导了相应的转子转速自适应机制。考虑观察到的电动势在转子磁链外的相位特性,利用所设计的观测器得到矢量控制的方向。该策略的突出优点在于对转子电阻失配和非奇异端滑模设计带来的抖振干扰具有良好的鲁棒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Back-EMF based sliding mode observer for vector control of induction machine
In this paper a high-order sliding mode observer (SMO) for back electromotive force (EMF) in induction machine (IM) is investigated to achieve speed estimation and vector orientation. The observer is derived from the mathematical mode of IM and a non-singular terminal sliding surface is adopted. With the observed EMF used as the reference, an adaptive observer is designed and the corresponding adaption mechanism for rotor speed is figured out. Considering the phase property of the observed EMF out of the rotor flux, the orientation of vector control is obtained with the designed observer. The outstanding advantages of the strategy are consist of its good robustness to rotor resistance mismatch and inhabitation of the chattering disturbances benefiting from the non-singular terminal sliding mode design.
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