Determination of an Asymmetrical Nine Phase Induction Machine Stator and Rotor Inductances Using Winding Function Approach

2023 IEEE Workshop on Electrical Machines Design, Control and Diagnosis (WEMDCD) Pub Date : 2023-04-13 DOI:10.1109/WEMDCD55819.2023.10110904

Taiwo Samuel Ajayi, G. Adam, D. Gaona, O. Anaya‐Lara

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Abstract

It is an established fact that the simplest means of parameter extraction of an induction machine (e.g resistances and inductances) can be determined from no load (also known as synchronous) test and locked rotor (short circuit ) test. To find the resistance of an electric machine for single or multiple phase induction machine pose no problem, because it is a straight forward approach. However, in multiphase induction machine, with phase number greater than three, such approaches are not utterly sufficient to determine the inductances of the machine. An efficient and easily applicable, analytical approach for calculating the inductance of an asymmetrical multiple phase induction machine based on machine geometric information is presented. An algorithm translated to a Matlab script is developed to numerically evaluate the inductances of any multiphase induction machine using turn function and winding function approach is thoroughly established. Important conclusions regarding the processes to obtain the inductance are presented.

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用绕组函数法确定非对称九相感应电机定子和转子电感

众所周知，感应电机参数提取的最简单方法(如电阻和电感)可以通过空载(也称为同步)试验和锁住转子(短路)试验来确定。对于单相或多相感应电机，寻找电机的电阻是没有问题的，因为它是一种直接的方法。然而，在三相以上的多相感应电机中，这种方法并不完全足以确定电机的电感。提出了一种基于电机几何信息的非对称多相感应电机电感的高效、简便的解析计算方法。开发了一种转化为Matlab脚本的算法，利用匝数函数和绕组函数法对任意多相感应电机的电感进行了数值计算。提出了有关获得电感的过程的重要结论。

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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2023 IEEE Workshop on Electrical Machines Design, Control and Diagnosis (WEMDCD)

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