引用本文:巫庆辉.感应电动机定子磁链与转矩的逆解耦及存在性[J].控制理论与应用,2009,26(9):983~987.[点击复制]
Wu Qing-hui.The inverse decoupling control for the stator flux and torque in induction motors and its existence[J].Control Theory and Technology,2009,26(9):983~987.[点击复制]
感应电动机定子磁链与转矩的逆解耦及存在性
The inverse decoupling control for the stator flux and torque in induction motors and its existence
摘要点击 2186  全文点击 1068  投稿时间:2008-06-26  修订日期:2008-10-21
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DOI编号  10.7641/j.issn.1000-8152.2009.9.CCTA080663
  2009,26(9):983-987
中文关键词  解耦控制  感应电动机  逆系统  变频调速  反馈线性化
英文关键词  decoupling control  induction motor  inverse system  frequency control  feedback linearization
基金项目  辽宁省自然科学基金资助项目(20072199).
作者单位E-mail
巫庆辉* 渤海大学 qinghuiwu@tom.com 
中文摘要
      对于具有多变量、非线性、强耦合特征的异步电动机调速系统, 实现定子磁链与电磁转矩的动态解耦控制是提高系统性能的关键. 本文从异步电动机的5阶模型及其固有的电磁特性出发, 证明了其系数矩阵的非奇异性, 进而结合逆系统理论证明定子磁链与电磁转矩的逆解耦在任何状态下都是存在的. 在此基础上设计了一种通过非线性状态反馈的逆解耦控制方案, 将复杂系统解耦成电磁转矩与定子磁链的两个独立线性回路, 然后利用线性系统理论分别对转矩与磁链调节器进行综合设计. 仿真实验结果验证逆解耦的存在性与解耦控制方案的有效性.
英文摘要
      For induction motor drives, characterized by MIMO, non-linearity and strong coupling, the key technique for improving its dynamic performance is to realize the dynamic decoupling between the stator flux and the electromagnetic torque. Based on a 5th-order model and the electromagnetic characteristics of an induction motor(IM), we prove that the coefficient matrix is nonsingular, confirming the existence of the inverse decoupling control of stator flux and torque in any conditions. An inverse decoupling controller is designed via non-linear state feedback, which decouples the complex system into two independent linear subsystems, the electromagnetic torque system and the stator flux system. These two subsystems are separately synthesized using linear system theory. Simulation results verify the existence of the inverse decoupling and validate the proposed decoupling control scheme.