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Direct Torque Controlled Drive for Permanent Magnet Synchronous Motor Based on Neural Networks and Multi Fuzzy Controllers

机译:基于神经网络和模糊控制器的永磁同步电动机直接转矩控制

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摘要

For permanent magnet synchronous motor (PMSM) direct torque controlled (DTC) drive, stator resistance variation and conventional hystersis controller will bring high flux linkage and torque ripples inevitably. In order to solve this problem, the implementation of direct torque controlled drive for permanent magnet synchronous based on neural networks and multi fuzzy controllers is presented, which replaces the conventional hystersis controller with fuzzy controller and estimates the stator resistance online using the learning capability of neural networks. To tune the weights and biases of the neural networks online, another fuzzy controller is adopted. Results of simulation are provided to demonstrate that the proposed drive has low flux linkage and torque ripples, and has the quick response performance even under the occurrence of parameter variations and external disturbance.
机译:对于永磁同步电动机(PMSM)直接转矩控制(DTC)驱动器,定子电阻变化和传统的磁滞控制器将不可避免地带来高磁链和转矩脉动。为了解决这个问题,提出了基于神经网络和多模糊控制器的永磁同步直接转矩控制驱动器的实现,用模糊控制器代替了传统的磁滞控制器,并利用神经网络的学习能力在线估算定子电阻。网络。为了在线调整神经网络的权重和偏差,采用了另一个模糊控制器。仿真结果表明,所提出的驱动器具有较低的磁链和转矩脉动,即使在出现参数变化和外部干扰的情况下也具有快速响应性能。

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