矩阵变换器同步磁阻电机驱动的无传感器控制

A. Yousefi-Talouki, Fausto Stella, S. Odhano, Liliana de Lilo, A. Trentin, G. Pellegrino, P. Zanchetta
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引用次数: 3

摘要

本文提出了一种基于直接磁链矢量控制(DFVC)的无传感器控制技术,用于三相到三相矩阵变换器(MC)驱动的同步磁阻(SyR)电机。转子位置是根据主动磁通(AF)概念估计到50 [rpm]。在此基础上,对非线性电压误差的影响进行了补偿,提出了一种能够在补偿前识别电压误差的自调试方法,并进行了测试。提出的驱动器结合了矩阵转换器和SyR电机的优点,适用于从航空紧凑型驱动器到工业应用的线路供电驱动器等多个领域。实验结果证明了该方法的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sensorless control of matrix converter-fed synchronous reluctance motor drives
This paper presents a sensorless control technique based on direct flux vector control (DFVC) method for synchronous reluctance (SyR) motor drives fed by a three-phase to three-phase matrix converter (MC). Rotor position is estimated based on active flux (AF) concept down to 50 [rpm]. Furthermore, the effect of nonlinear voltage errors of the MC is compensated, and a self-commissioning method capable of identifying the voltage error before compensation is presented and tested. The proposed drive combines the advantages of matrix converters and SyR motors in sensorless fashion, for application into a number of fields, spanning from compact drives for aviation to line-supplied drives for industry applications. Experimental results are provided to prove the feasibility of the proposed technique.
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