A Position Error Correction Method for Sensorless Control of Dual Three-Phase Permanent Magnet Synchronous Machines

T. Liu, Z.Q. Zhu, X.M. Wu, Z.Y. Wu, D. Stone, M. Foster
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引用次数: 3

Abstract

In this paper, an online rotor position error correction method is proposed to eliminate the impact of parameter mismatch in sensorless control of dual three-phase (DTP) permanent magnet synchronous machines (PMSMs). The position error production mechanism is firstly derived, i.e., the error changes with the trend of current variation when there is a parameter mismatch. Based on this mechanism, by injecting sinusoidal current signals into both sets of three-phase windings, the presence of parameter mismatch and its level can be revealed through the corresponding sinusoidal responses from the estimated speed of sensorless observers. Since the amplitudes of rotor position error responses decrease as the parameter mismatch level reduces, with the help of the least mean square (LMS) algorithm, the parameters can be adaptively adjusted to the actual values, and the position error can be thus corrected. Moreover, through a simple technique and with the extra freedom of DTP machines, the detrimental effects because of current signal injection can be eliminated. The proposed method has been validated through simulation and experimental results.
双三相永磁同步电机无传感器控制的位置误差校正方法
针对双三相永磁同步电机无传感器控制中参数失配的影响,提出了一种转子位置误差在线校正方法。首先推导了位置误差产生机理,即存在参数失配时,误差随电流变化趋势而变化;基于该机制,通过向两组三相绕组注入正弦电流信号,可以通过无传感器观测器估计速度的相应正弦响应来揭示参数失配的存在及其水平。由于转子位置误差响应的幅值随参数失配程度的减小而减小,因此利用最小均方算法可以自适应地将参数调整到实际值,从而对位置误差进行校正。此外,通过一种简单的技术,加上DTP机的额外自由度,可以消除电流信号注入带来的不利影响。仿真和实验结果验证了该方法的有效性。
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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