Speed control for a permanent magnet synchronous motor based on fuzzy logic with reduced perturbations on the supply network

2016 Electric Power Quality and Supply Reliability (PQ) Pub Date : 2016-08-01 DOI:10.1109/PQ.2016.7724114

Emil Lazarescu, F. Frigura-Iliasa, P. Andea, M. Frigura-Iliasa

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引用次数: 2

Abstract

Fuzzy logic controllers, FLCs, are elements of the artificial intelligence, and, today, they are widely use in command and control of many industrial processes. It involves the acquisition of better signal wave forms at the output and the reduction of all oscillations (in case of electric drives, we consider speed variation, torque variation, current variation for all the three phases ore more) in comparison with the classic control procedures. This paper presents two case studies of two FLCs applied for some exterior permanent magnet synchronous machines, PMSM. One fuzzy logic algorithm has 25 rules and the other has 49 rules. These FLCs are developed for less computational issues, which make them suitable for real time implementation. The permanent magnet synchronous machines are used today in state of the art drives due to their dynamic performances. It is known that PMSM has a high torque density, with reduced losses/torque rates, a high power factor and a quick torque and speed time response. All the references concerning the real time implementation are made on the digital signal processor controller board type DS1104.

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基于模糊逻辑的永磁同步电机速度控制与电网微扰减小

模糊逻辑控制器(flc)是人工智能的组成部分，如今，它们被广泛应用于许多工业过程的指挥和控制。与经典控制程序相比，它涉及在输出处获取更好的信号波形并减少所有振荡(在电力驱动的情况下，我们考虑速度变化，转矩变化，所有三相的电流变化等等)。本文介绍了两种FLCs应用于某些外部永磁同步电机的两个实例。一种模糊逻辑算法有25条规则，另一种有49条规则。这些flc是为较少的计算问题而开发的，这使得它们适合于实时实现。永磁同步电机由于其动态性能，今天在最先进的驱动器中使用。众所周知，PMSM具有高扭矩密度、低损耗/转矩率、高功率因数以及快速的扭矩和速度时间响应。所有有关实时实现的参考资料都是在DS1104型数字信号处理器控制器板上完成的。

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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2016 Electric Power Quality and Supply Reliability (PQ)

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