Speed Control Of Brushless DC Motor Using Hybrid ANFIS-FOPID Controller

Bhaskara Naga Siresha, N. Swathi, R. Kiranmayi, K. Nagabhushanam
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Abstract

Brushless DC motor (BLDC) is a type of synchronous motor, gaining high popularity in various industries due to having high efficiency, dynamic response and long operating life. Closed loop control strategies were established for industrial drive applications, and PI, PID, FOPID, and FUZZY controllers were utilized in conjunction with power electronic converters. This paper presents controlling of speed and torque of BLDC motor using hybrid techniques. With the help of FOPID & Fuzzy controller, motor's reference current and inverter DC Bus voltage can be varied respectively. For tuning parameters of FOPID controller, a Modified Harmonic Search (HS) algorithm is employed. Hybrid Fuzzy-FOPID controller is used and implemented in simulink platform. BLDC motor is tested under three different operating conditions such as No-Load, Variable load, variable speed. Simulation results show that Fuzzy-FOPID controller gives greater steady-state error, rated starting torque and ripples throughout the speed profile. To overcome this drawback Hybrid ANFIS-FOPID controller with HS algorithm will be implemented and developed in MATLAB/Simulink platform and evaluates its performance under three different operating conditions. Simulation results show that proposed ANFIS-FOPID controller reduces steady-state error and ripples.
基于anfiss - fopid混合控制器的无刷直流电动机速度控制
无刷直流电动机(BLDC)是同步电机的一种,由于其效率高、动态响应快、使用寿命长等优点,在各个行业中得到了广泛的应用。针对工业驱动应用,建立了闭环控制策略,将PI、PID、FOPID和FUZZY控制器与电力电子变换器结合使用。本文介绍了用混合动力技术控制无刷直流电机的转速和转矩。借助FOPID和模糊控制器,可以分别改变电机的参考电流和逆变器的直流母线电压。对于FOPID控制器的参数整定,采用了改进的谐波搜索(HS)算法。采用模糊- fopid混合控制器,并在simulink平台上实现。无刷直流电机在空载、变载、变速三种不同工况下进行测试。仿真结果表明,Fuzzy-FOPID控制器具有更大的稳态误差、额定起动转矩和整个转速曲线的波动。为了克服这一缺点,在MATLAB/Simulink平台上实现并开发了HS算法的混合anfiss - fopid控制器,并对其在三种不同工况下的性能进行了评估。仿真结果表明,所提出的anfi - fopid控制器减小了稳态误差和波纹。
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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