IMPROVED INTERLEAVED HYBRID SOLAR AND WIND HIGH STEP-UP CONVERTER WITH HIGHER EFFICIENCY FOR RENEWABLE ENERGY APPLICATION

Authors

  • G. Arun Kalyan B.Tech Student, Department of Electrical & Electronics Engineering, Joginpally B R Engineering college, Hyderabad – 500075
  • P. E. Samuel B.Tech Student, Department of Electrical & Electronics Engineering, Joginpally B R Engineering college, Hyderabad – 500075
  • P. Jagadeesh B.Tech Student, Department of Electrical & Electronics Engineering, Joginpally B R Engineering college, Hyderabad – 500075
  • T. Ravi Teja B.Tech Student, Department of Electrical & Electronics Engineering, Joginpally B R Engineering college, Hyderabad – 500075
  • G. Naveen Associate Professor, Department of Electrical & Electronics Engineering, Joginpally B R Engineering college, Hyderabad - 500075

Keywords:

Hybrid converter, renewable energy, high step-up converter, solar and wind integration, interleaved converter, power electronics

Abstract

The integration of renewable energy sources such as solar and wind is essential to meet the increasing global energy demand while minimizing environmental impact. This paper presents an improved interleaved hybrid converter topology that combines solar and wind energy inputs, designed specifically for high step-up voltage conversion with enhanced efficiency. The proposed converter architecture leverages interleaving techniques and hybrid control strategies to minimize ripple, reduce component stress, and improve power transfer efficiency. Simulation and prototype results validate the converter's performance in varying environmental conditions, highlighting its suitability for modern renewable energy systems.

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Published

2022-04-01

How to Cite

G. Arun Kalyan, P. E. Samuel, P. Jagadeesh, T. Ravi Teja, & G. Naveen. (2022). IMPROVED INTERLEAVED HYBRID SOLAR AND WIND HIGH STEP-UP CONVERTER WITH HIGHER EFFICIENCY FOR RENEWABLE ENERGY APPLICATION. Erudite Journal of Engineering, Technology and Management Sciences, 3(1), 08–11. Retrieved from https://ejetms.com/index.php/ejetms/article/view/72

Issue

Vol. 3 No. 1 (2023): Volume 3 Issue 1 | March 2023

Section

Articles

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