低成本电动汽车四象限驱动直流斩波自整定模糊控制斩波运算

2015 6th International Conference on Intelligent Systems, Modelling and Simulation Pub Date : 2015-02-09 DOI:10.1109/ISMS.2015.34

S. Arof

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引用次数: 24

摘要

直流牵引传动系统一般采用四象限直流斩波器控制的分励串联直流电机。然而，传统的H-Bridge四象限驱动直流斩波器用于串联电机的运行方式仅限于驱动和再生制动(仅在存在剩磁的情况下)，没有反向运行的能力。为此，开发了一种新型的四象限直流驱动斩波器，并对其进行了人工智能优化。本文进一步介绍了自整定模糊逻辑在四象限直流驱动斩波控制中的应用。适当的操作模式将保证电池电量的最佳消耗，从而提供更长的穿越距离。

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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Self Tuning Fuzzy Logic Controlling Chopper Operation of Four Quadrants Drive DC Chopper for Low Cost Electric Vehicle

DC drive system for traction are always powered by separately excited and series dc motor controlled by four quadrants dc chopper. However, the operation modes of the conventional H-Bridge four quadrants drive dc chopper for series motor are limited to driving and regenerative braking (only with the presence of residual magnetism), with no capability of reverse operation. Hence, a new Four Quadrants dc drive chopper for series motor in EV's application, optimized by Artificial Intelligence is developed. This paper further describes the application of Self Tuning Fuzzy Logic for controlling chopper operation of the proposed Four Quadrants dc drive chopper. The appropriate mode of operation will guarantee optimum consumption of the battery power, thus provide longer distance traversed.

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2015 6th International Conference on Intelligent Systems, Modelling and Simulation

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