Parameter identification and self-commissioning of AC permanent magnet machines - A review

2015 IEEE Workshop on Electrical Machines Design, Control and Diagnosis (WEMDCD) Pub Date : 2015-03-26 DOI:10.1109/WEMDCD.2015.7194529

S. Odhano, R. Bojoi, Mircea Popescu, A. Tenconi

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引用次数: 18

Abstract

Parameter identification of permanent magnet synchronous machines is a topic of utmost interest these days. The growing effort and investment in this field of research is largely due to the ever-expanding market share of these machines. The high-performance and efficient control of the drive depends on the accuracy with which the information about the machine connected to its terminals is available. The available identification methods are surveyed here and they are classified into offline and online strategies. Self-commissioning, in principle, is a subset of offline methods, yet it is treated separately for its importance in modern adjustable speed drives that tend to minimize the user intervention. Fully exploiting the power electronic converter and the computational power on-board a modern drive, the self-commissioning feature can be embedded in the start-up routine of the drive to estimate the parameters of the machine at hand. This paper presents a review of the parameter identification techniques and schemes investigated over the past few decades.

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交流永磁电机参数辨识与自调试综述

永磁同步电机的参数辨识是目前研究的热点之一。在这一研究领域不断增加的努力和投资很大程度上是由于这些机器的市场份额不断扩大。驱动器的高性能和高效控制取决于连接到其终端的机器信息的准确性。本文对现有的识别方法进行了调查，并将其分为离线策略和在线策略。原则上，自调试是离线方法的一个子集，但由于其在现代可调速度驱动器中的重要性而被单独对待，这种驱动器倾向于将用户干预降至最低。充分利用现代驱动器上的电力电子转换器和计算能力，可以在驱动器的启动程序中嵌入自调试功能，以估计手头机器的参数。本文综述了过去几十年来研究的参数识别技术和方案。

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 Workshop on Electrical Machines Design, Control and Diagnosis (WEMDCD)

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