Fuzzy Logic-based Soft Starter for Controlling Starting Parameters of Induction Motor

Sharith Dhar, Md. Saiful Islam
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Abstract

The industrial revolution has increased the use of induction motors enormously. Today's soft starter is used for controlling starting current, acceleration torque, and acceleration time of the induction motor. Intelligent techniques are used in soft starters for controlling starting parameters of the induction motor smoothly. But developed intelligent algorithm based soft starter takes more acceleration time, and due to this induction motor can not accelerate the load properly during the starting period. To solve this problem fuzzy logic-based soft starter is proposed in this paper. This proposed starting technique reaches the target through its instinctive decision making capability. The fuzzy logic controller takes stator phase current and torque from the three phase induction motor (IM) and gives firing angles to the thyristor unit in the soft starter by using the Mamdani fuzzy inference system and the mean of maximum method in defuzzification. The proposed technique accelerates the IM with the load smoothly by decreasing acceleration time. The proposed intelligent soft starter reduces the starting current of IM with a Direct on line (DOL) starting technique by more than 10% at the constant load and also provides proper acceleration torque. The proposed soft starter provides a better response compared with another method.
基于模糊逻辑的感应电机软起动器起动参数控制
工业革命极大地增加了感应电动机的使用。今天的软起动器是用来控制起动电流,加速转矩,和加速时间的感应电机。软起动器采用智能技术,实现对异步电动机起动参数的平稳控制。但开发的基于智能算法的软起动器需要较长的加速时间,导致异步电动机在起动期间不能正常加速负载。为了解决这一问题,本文提出了基于模糊逻辑的软启动器。提出的起跑技术通过其本能的决策能力达到了目标。模糊控制器利用Mamdani模糊推理系统和去模糊化中的最大值均值法,从三相异步电动机(IM)中获取定子相电流和转矩,并给出软起动器中可控硅单元的点火角。该方法通过减小加速度时间,使IM随负载平稳加速。所提出的智能软起动器在恒载条件下可使采用在线直接起动技术的IM起动电流降低10%以上,并提供适当的加速转矩。与另一种方法相比,所提出的软起动器提供了更好的响应。
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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