Design And Implementation Of A Fuzzy Controller For A Multi-Input DC-DC Buck Converter In A Coordinated Renewable Energy Generation System

Authors

  • Narendra Kumar Yegireddy

Keywords:

Renewable energy, Buck converter, Fuzzy controller.

Abstract

This paper aims to introduce a multi-input control converter tailored for hybrid systems, with the primary goal of streamlining power grid management and cutting down on related expenses. Sustainable energy technologies harness the power of resources like sunlight and wind, which naturally renew themselves. As the demand for power increases, so does the risk of power outages. Hence, renewable energy sources can play a crucial role in providing a stable power supply. In this context, a novel converter topology is proposed for hybrid energy systems that integrate both wind and photovoltaic sources. This integration of solar and wind power sources presents a cost-effective approach to power generation. The proposed topology employs a combination of Buck converters,
enabling each energy source to supply power independently or concurrently, depending on the availability of these energy sources Totally The system undergoes simulation in MATLAB/SIMULINK software, and the results for both the Buck converter and the hybridized converter are showcased in the paper.

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Published

2023-12-20

How to Cite

Narendra Kumar Yegireddy. (2023). Design And Implementation Of A Fuzzy Controller For A Multi-Input DC-DC Buck Converter In A Coordinated Renewable Energy Generation System. Elementary Education Online, 19(2), 2369–2375. Retrieved from https://ilkogretim-online.org/index.php/pub/article/view/6906

Issue

Section

Articles