Comparison of dynamic models of SLIM

i-manager’s Journal on Electrical Engineering Pub Date : 1900-01-01 DOI:10.26634/jee.16.2.19255

M. Nagaraju, Sukumar G. Durga, M. Ravindrababu

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Abstract

The Single Linear Induction Motor (SLIM) is a specialized electrical machine that produces linear motion instead of the rotary motion produced by a traditional rotary induction motor. SLIM's accurate dynamic model is required to analyze the performance of the motor under different operating conditions. Dynamic modelling of SLIM using the traditional DQ- axis equivalent circuits is difficult due to the time-varying parameters such as end effect, air gap flux, saturation, and half-filled slot. The two methods for modelling SLIMs were compared, namely the conventional method and the split method. The results of the comparison showed that both methods provided similar results, but the split method offered a more detailed analysis of the components and provided deeper insight into the behavior of the motor. The choice between the two methods depends on the specific requirements and objectives of the analysis. In this paper, the dynamic model of SLIM is modelled using conventional and split methods in MATLAB/SIMULINK. The results of the two modelling methods are compared with each other, and it is concluded that the splitting method provides better transient performance than traditional D-Q axis methods.

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SLIM动力学模型的比较

单直线感应电动机(SLIM)是一种专门的电机，它产生直线运动，而不是由传统的旋转感应电动机产生的旋转运动。需要SLIM精确的动态模型来分析电机在不同工况下的性能。由于末端效应、气隙磁通、饱和和半填充槽等参数随时间变化，传统的DQ轴等效电路难以对SLIM进行动态建模。比较了两种建模方法，即传统方法和分裂方法。对比结果表明，两种方法都提供了相似的结果，但拆分方法提供了更详细的组件分析，并对电机的行为提供了更深入的了解。这两种方法之间的选择取决于分析的具体要求和目标。本文在MATLAB/SIMULINK中采用常规和分割两种方法对SLIM的动态模型进行建模。将两种建模方法的结果进行了比较，得出了分裂方法比传统的D-Q轴方法具有更好的瞬态性能的结论。

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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i-manager’s Journal on Electrical Engineering

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