基于RBF的永磁同步电机自适应滑模控制方法

Fang Wang
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引用次数: 0

摘要

永磁电机自适应反步控制方法存在坐标变换过程复杂、位置跟踪误差大的问题。在此基础上,提出了一种基于RBF的永磁同步电机自适应反步控制方法。根据电机原理,获得了永磁同步电动机的电磁波和磁场数据,建立了永磁同步电动机的数学模型。在保持坐标变换后磁动势合力不变的条件下,采用RBF方法建立了电机转矩神经网络结构,并对坐标变换过程进行了优化。通过补偿控制策略,设计了自适应反步控制模式,实现了永磁同步电机的自适应反步控制。仿真结果表明,该方法在运行时间为7 s时的位置跟踪误差为4.549 mm,在运行时间为14 s时的位置跟踪误差为43.699 mm,证明了该方法具有较好的自适应反演控制效果。
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Adaptive backsliding control method of permanent magnet synchronous motor based on RBF
The adaptive backstepping control method of permanent magnet motor has the problems of complicated coordinate transformation process and high position tracking error. Based on this, an adaptive backstepping control method of permanent magnet synchronous motor based on RBF is proposed. According to the principle of electrical machinery, the electromagnetic wave and magnetic field data are obtained, and the mathematical model of permanent magnet synchronous motor is constructed. Under the condition of keeping the resultant magnetomotive force after coordinate transformation unchanged, the structure of motor torque neural network is established by RBF method, and the coordinate transformation process is optimized. Through the compensation control strategy, the adaptive backstepping control mode is designed to realize the adaptive backstepping control of permanent magnet synchronous motor. The simulation results show that the position tracking error of the proposed method is 4.549 mm when the running time is 7 s and 43.699 mm when the running time is 14 s, which proves that the adaptive backstepping control effect of the proposed method is better.
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