THE SIMULATION OF MATHAMETICAL MODEL OF OUTER ROTOR BLDC MOTOR

4th International Symposium on Innovative Approaches in Engineering and Natural Sciences Proceedings Pub Date : 2019-07-26 DOI:10.36287/setsci.4.6.106

M. Kelek, I. Çelik, U. Fidan, Y. Oğuz

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引用次数: 3

Abstract

In this study, mathematical modeling of outer rotor brushless direct current motor (BLCD) is performed. Brushless direct current motor is highly preferred in industrial applications when compared the other motor types with considering advantages and disadvantages. Producing higher torque with smaller dimensions, being easily controllable and developing high efficiency electronic materials can be given such an example of these advantages. In this study, an outer rotor brushless DC motor which was used in the laboratory is modeled. This motor hasn’t currently information parameters. For this reason, first of all, the metric measurements, phase winding orders are obtained for the motor parameters. With the motor parameters that we have, the motor was created and analyzed in Maxwell program environment. And then the parameters (torque constant, back EMF constant, phase resistance, etc.) were obtained required for the simulation. Mathematical model was completed with the obtained parameters in Matlab / Simulink environment. So, Torque characteristics, motor speed and trapezoidal back-EMF were determined. The motor currents matched with the Maxwell and Matlab / Simulink programs. So the accuracy of the simulation modeling has been confirmed.

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外转子无刷直流电机数学模型的仿真

本文对外转子无刷直流电机(BLCD)进行了数学建模。与其他类型的电机相比，考虑到优点和缺点，无刷直流电机在工业应用中是高度首选的。以更小的尺寸产生更高的扭矩，易于控制和开发高效率的电子材料可以给出这些优点的例子。本文对实验室使用的外转子无刷直流电动机进行了建模。这台电机目前没有信息参数。为此，首先得到了电机参数的公制测量值、相位绕组阶数。利用已有的电机参数，在Maxwell程序环境中对电机进行了创建和分析。然后得到仿真所需的参数(转矩常数、反电动势常数、相阻等)。利用得到的参数在Matlab / Simulink环境下建立数学模型。因此，确定了转矩特性、电机转速和梯形反电动势。电机电流与Maxwell和Matlab / Simulink程序匹配。从而验证了仿真建模的准确性。

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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4th International Symposium on Innovative Approaches in Engineering and Natural Sciences Proceedings

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