感应电机弱磁运行时转子时间常数变化的分析与补偿

2009 Twenty-Fourth Annual IEEE Applied Power Electronics Conference and Exposition Pub Date : 2009-03-21 DOI:10.1109/APEC.2009.4802655

X. Nan, B. Arnet

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引用次数: 0

摘要

矢量控制方法使感应电机的精确和快速控制成为可能。转子磁通定向间接控制(RFOC)的成功与否在很大程度上取决于电机参数，特别是转子时间常数的准确性。本文从标准电流滑移试验中提取转子电阻数据并进行分析。数据表明，转子电阻随转差频率的变化而变化。这种变化可归因于转子棒中的趋肤效应和d-q电感之间的交叉耦合效应。分析了由于忽略转子电阻方差而导致的转矩进入磁链弱化时的转矩误差。提出了一种补偿转子电阻的感应电机模型，并证明了该模型可以改善转矩的线性度，特别是在弱磁操作过程中。

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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Analyzing and Compensating for Rotor Time Constant Variation in Induction Machines at Flux-Weakening Operations

Vector control methods have made accurate and fast control of induction machines possible. The success of indirect rotor-flux-oriented-control (RFOC) depends greatly on the accuracy of the machine parameters, especially the rotor time constant. In this paper, rotor resistance data is extracted from standard current-slip tests and analyzed. The data show that the rotor resistance appears to change with slip frequencies. The variation can be attributed to skin effects in the rotor bars and cross-coupling effect between d-q inductances. The torque error when entering flux-weakening caused by neglecting the variance of rotor resistance is analyzed. An induction machine model with compensated rotor resistance is proposed and proved to improve the torque linearity, particularly during flux-weakening operations.

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2009 Twenty-Fourth Annual IEEE Applied Power Electronics Conference and Exposition

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