Robust current control of electrical machines considering saturation effects at high speed regimes

2015 IEEE 24th International Symposium on Industrial Electronics (ISIE) Pub Date : 2015-06-03 DOI:10.1109/ISIE.2015.7281524

A. Guagnano, G. Rizzello, F. Cupertino, D. Naso

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引用次数: 3

Abstract

This paper considers a control approach for synchronous reluctance machines operating at variable speed regimes based on modern robust control tools. The main challenge arises from the inherent nonlinear magnetic behavior of the machine, caused by core saturation and cross saturation phenomena, resulting in a nonlinear dependence of the machine inductances from the instantaneous values of both direct and quadrature axis currents. The proposed method is based on a reformulation of the motor model as a linear parameter varying system. This allows transforming the controller design in a multivariable optimization problem, which can be solved with very efficient numeric tools. Depending on control objectives, several variants of the control law can be obtained, all mainly consisting of a standard proportional-integral feedback augmented with additional speed-dependent terms, and all providing guaranteed worst-case performances in the considered ranges of parameter uncertainties. The controllers are experimentally tested on a laboratory bench with a machine running at 50000rpm.

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考虑高速状态下饱和效应的电机鲁棒电流控制

本文研究了一种基于现代鲁棒控制工具的同步磁阻电机变速控制方法。主要的挑战来自机器固有的非线性磁性行为，由磁芯饱和和交叉饱和现象引起，导致机器电感与直接和正交轴电流的瞬时值非线性依赖。该方法基于将电机模型重新表述为线性参数变系统。这允许在多变量优化问题中转换控制器设计，这可以用非常有效的数值工具来解决。根据控制目标的不同，可以得到控制律的几种变体，它们都主要由一个标准的比例积分反馈和附加的速度相关项组成，并且都在参数不确定性的考虑范围内提供保证的最坏情况性能。控制器在实验室工作台上以50000rpm转速进行了实验测试。

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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2015 IEEE 24th International Symposium on Industrial Electronics (ISIE)

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