A Hybrid Analysis of Brushless DC Motor

Journal of Engineering and Sustainable Development Pub Date : 2024-07-01 DOI:10.31272/jeasd.28.4.9

Estabraq Kareem A. Abbass, Amer M. Ali

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Abstract

Brushless DC (BLDC) motors and derives have gained popularity because of numerous advantages. This motor application is achievable since permanent magnet (PM) technology has advanced. It has higher efficiency, reliability, and power with less maintenance due to the absence of brushes. A higher torque-to-mass ratio and long life are two of the most attractive characteristics making it appropriate for high-performance applications. This study describes the hybrid methodology for analyzing a three-phase, four-pole, 1500 W, brushless DC (BLDC) motor with an inner rotor. PI controllers and PWM in Matlab /Simulink, and the chopped current control in Maxwell 2d ae used. BLDC motor modeled by rotation machine export (RMxprt) analytical software and analyzed with a finite element method (FEM) Maxwell 2D software to calculate motor performance, such as torque, speed, and efficiency. The FEM results were verified by comparing them with the results taken from the Matlab/Simulink program and with the aid of the RMxprt software to supply some missing data. The motor torque and efficiency results from Maxwell 2D and Matlab show good agreement. A hybrid FEM-analytical approach is successfully applied to study a BLDC motor using three software packages RMxprt, Maxwell 2D, and Matlab/Simulink despite the lack of motor test data. The RMxprt program offers missing data like stator resistance, stator inductance, and torque constant. It is provided in the design sheet to help us with motor modeling. The successful adoption of the proposed hybrid FEM-analytical methodology will provide a good starting point for future BLDC motor research work

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无刷直流电机的混合分析

无刷直流（BLDC）电机及其衍生产品因其众多优点而广受欢迎。由于永磁（PM）技术的发展，这种电机的应用是可以实现的。由于没有电刷，它具有更高的效率、可靠性和功率，而且维护更少。更高的扭矩质量比和更长的使用寿命是永磁电机最吸引人的两个特点，这也使其适合高性能应用。本研究介绍了分析三相四极、1500 W、带内转子的无刷直流（BLDC）电机的混合方法。使用了 Matlab /Simulink 中的 PI 控制器和 PWM，以及 Maxwell 2d 中的斩波电流控制。无刷直流电机通过旋转机械导出（RMxprt）分析软件建模，并通过有限元法（FEM）Maxwell 2D 软件进行分析，以计算扭矩、速度和效率等电机性能。通过与 Matlab/Simulink 程序得出的结果进行比较，并借助 RMxprt 软件提供的一些缺失数据，对有限元法结果进行了验证。Maxwell 2D 和 Matlab 得出的电机扭矩和效率结果显示出良好的一致性。尽管缺乏电机测试数据，但使用 RMxprt、Maxwell 2D 和 Matlab/Simulink 三种软件包，成功地应用有限元-分析混合方法研究了无刷直流电机。RMxprt 程序提供了定子电阻、定子电感和转矩常数等缺失数据。设计表中提供了这些数据，以帮助我们进行电机建模。建议的有限元-分析混合方法的成功采用将为未来的无刷直流电机研究工作提供一个良好的起点。

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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