感应电机中多重显著性的物理理解及其对无传感器控制的影响

2008 International Symposium on Power Electronics, Electrical Drives, Automation and Motion Pub Date : 2008-06-11 DOI:10.1109/SPEEDHAM.2008.4581099

H. Zatocil

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引用次数: 8

摘要

本文的第一部分详细研究了高频测试信号激励下感应电机性能的物理原因。测量的阻抗曲线受转子槽桥饱和水平的影响很大。封闭转子槽的饱和现象可分为机械角度相关和独立两类。饱和和打开转子槽会导致高频场的非正弦分布。通过有限元计算和等效磁路验证了实测曲线和假设。第二部分提出了一种新的无传感器控制方法。由于所测阻抗曲线的不可模仿性，该方法是基于机器运行过程中所测阻抗曲线与预定参考曲线之间的最小误差。在静止状态下运行，甚至在零频率下运行，都是可能的，没有任何问题。

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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Physical understanding of multiple saliencies in induction motors and their impact on sensorless control

In the first part of the paper a detailed investigation of the physical reasons for the behaviour of an induction machine excited with high-frequency test signals is presented. The measured impedance curves are heavily influenced by the saturation level of the rotor slot bridges. The saturation phenomena of the closed rotor slots can be divided into mechanical angle-dependent and independent groups. The saturated and the opened rotor slots lead to non-sinusoidal HF-field distribution. The measured curves and the assumptions made are verified by FE calculations and an equivalent magnetic circuit. In the paperpsilas second part a new method for sensorless control is presented. Because of the inimitability of the measured impedance curves, the method is based on the minimum error between the measured curves during the machinepsilas operation and precommissioned reference curves. Operation at standstill, and even at zero-frequency, is possible without any problems.

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2008 International Symposium on Power Electronics, Electrical Drives, Automation and Motion

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