改善内部永磁同步电机驱动高速性能的控制技术

Conference Record of the 1988 IEEE Industry Applications Society Annual Meeting Pub Date : 1988-10-02 DOI:10.1109/IAS.1988.25074

S. R. Macminn, T. Jahns

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引用次数: 150

摘要

描述了两种控制技术，以提高内部永磁(IPM)驱动器的性能在一个扩大的速度范围。第一种技术是一种前馈补偿算法，它提高了在固定参考系中运行的电流调节器的性能。速度相关的反电动势(电动势)和感应电压降得到补偿，以便在所有速度下消除稳态电流误差，直到遇到电流调节器饱和限制。第二种技术是一种磁链弱化控制算法，它使用定子电流元件来防止电流调节器过早饱和，从而提高机器在高速下的转矩产生能力。这两种算法都不需要来自电机的额外反馈信号，除了那些已经在现有的控制中使用的反馈信号，而且它们对机器参数的变化相对不敏感，尽管它们具有前馈特性。

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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Control techniques for improved high-speed performance of interior PM synchronous motor drives

A description is given of two control techniques to enhance the performance of the interior permanent magnet (IPM) drive over an extended speed range. The first technique is a feedforward compensation algorithm that improves the performance of current regulators operating in the stationary reference frame. Speed-dependent back-EMF (electromotive force) and inductive voltage drops are compensated, so that steady-state current errors are nulled at all speeds until current regulator saturation limits are encountered. The second technique is a flux-weakening control algorithm which uses stator current components to prevent premature current regulator saturation, thereby improving the machine's torque production capabilities at high speeds. Neither algorithms requires additional feedback signals from the motor beyond those already used in the preexisting controls, and they are relatively insensitive to variations in the machine parameters, despite their feedforward characteristics.<>

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Conference Record of the 1988 IEEE Industry Applications Society Annual Meeting

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