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Statistical data analysis for harmonic reduction in 3Ø -fragmented source using novel fuzzy digital logic switching technique

Yuvaraja T. (Channabasaveshwara Institute of Technology, Tumkur, India)
K. Ramya (Sri Sairam College of Engineering, Bengaluru, India)

Circuit World

ISSN: 0305-6120

Article publication date: 21 August 2019

Issue publication date: 21 August 2019

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Abstract

Purpose

The purpose of this paper is to analyze the Luo super boost converter coupled fragmented source inversion system (LC-FSIS) and the progress of a controller structure for energy stored. The inversion system is characterized by a diode arm structure and can be easily amassed into a conversion system for high/medium- power conversion systems.

Design/methodology/approach

The investigation is based on the practice of a simplified circuit established as common anode/common cathode, where all the diodes in each arm are connected to a renewable DC voltage source. In this proposed work, a novel fuzzy digital logic switching technique (FDLST) for three-phase fragmented source inversion (FSI) for enhancement in power excellence is measured to enterprise the novel fuzzy digital logic switching technique to authorize operative voltage utilization and enhanced harmonic spectrum.

Findings

Sequential circuit design using flip-flops is used in the analysis of fuzzy digital logic switching technique.

Originality/value

The three-phase fragmented source configuration is designed using a split DC source which is obtained from the Opto-electric source and is implemented using MOSFET. The procedure of novel FDLST reduces the Statistical Harmonic Reduction (SHR). Simulation and results are carried out to prove the dominance of designed FDLST.

Keywords

Citation

T., Y. and Ramya, K. (2019), "Statistical data analysis for harmonic reduction in 3Ø -fragmented source using novel fuzzy digital logic switching technique", Circuit World, Vol. 45 No. 3, pp. 148-155. https://doi.org/10.1108/CW-12-2018-0107

Publisher

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Emerald Publishing Limited

Copyright © 2019, Emerald Publishing Limited

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