基于模糊逻辑的单相系统智能并联混合滤波器

P. K. Ray, G. Panda, P. S. Puhan
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引用次数: 3

摘要

本文比较分析了各种控制技术,如迟滞和迟滞-模糊组合控制技术,采用不同的模糊规则,在并联混合滤波器中应用,以降低配电系统的谐波,提高电能质量。采用间接电流控制技术和磁滞电流控制策略产生用于并联混合型有源滤波器中绝缘栅双极晶体管通断的开关信号,再采用模糊磁滞带技术进行电流控制,导出用于电压源逆变器的开关信号。模糊磁滞带电流控制根据电源电压和参考补偿器电流波的斜率改变磁滞带宽度。设计了一种基于模糊逻辑的控制器,以7/7和5/5两种不同模糊规则控制直流电容的电压,并对仿真结果进行了比较。在迟滞电流控制技术中,总谐波失真为基频的10.12%,在7/7规则的模糊迟滞控制技术中,总谐波失真为0.19%,在5/5规则的模糊迟滞控制技术中,总谐波失真为0.22%。从而证明了组合控制器技术的有效性,并给出了不同模糊规则的思路。
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Fuzzy logic based intelligent Shunt Hybrid filter applied to single phase system
This paper presents a comparative Analysis between various Control techniques such as Hysteresis and Hysteresis-fuzzy combined control technique with different fuzzy-rule applied in Shunt Hybrid filter for reduction of harmonics in a distribution generation to increase the power quality, An indirect current control technique along with Hysteresis current control strategy is implemented to generate switching signal used for turning on and off of the insulated gate bipolar transistor used in the shunt hybrid active filter, Again Fuzzy-hysteresis band technique is adopted for the current control to derive the switching signal for the voltage source inverter. The fuzzy-hysteresis band current control changes the hysteresis band width according to the supply voltage and the slope of the reference compensator current wave. A Fuzzy-logic based controller is developed to control the voltage of the DC Capacitor with different fuzzy rule such as 7/7 and 5/5, Simulation results are obtained and compared with each other, In hysteresis current control technique Total Harmonics Distortion is 10.12% of the Fundamental which is Decreases to a Value of 0.19 % in Fuzzy-hysteresis control technique with 7/7 rule and 0.22% in 5/5 rule, Hence It proves the effectiveness of the Combined controller technique and also gives an idea about different fuzzy-rule.
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