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Efficiency Enhancement of Non-Isolated DC-DC Interleaved Buck Converter for Renewable Energy Sources

Matej Bereš, Dobroslav Kováč, Tibor Vince, Irena Kováčová, Ján Molnár, Iveta Tomčíková, Jozef Dziak, Patrik Jacko, Branislav Fecko, Šimon Gans

2021Energies24 citationsDOIOpen Access PDF

Abstract

The article describes the principles based on which it is possible to obtain energy from renewable sources more efficiently. The principles use the conventional DC-DC interleaved buck converter based on the common electronic component types and the control strategy. A novelty of such a proposed solution lies in the methods which are not new, but with the right combination, better results can be achieved. The resulting method can be implemented into various topologies where the highest efficiency for wide input power is required. In case of the renewable energy sources where the power can vary hugely during the day, the proposed method can be implemented. Therefore, the article provides several steps, from calculation through simulation to experimental results that brings reader close to understanding of a such proposed solution.

Topics & Concepts

Renewable energyComputer scienceBuck converterComponent (thermodynamics)Power (physics)Network topologyNoveltyElectronic engineeringTopology (electrical circuits)Electrical engineeringEngineeringPhysicsQuantum mechanicsTheologyPhilosophyOperating systemThermodynamicsAdvanced DC-DC ConvertersPhotovoltaic System Optimization TechniquesAdvanced Battery Technologies Research
Efficiency Enhancement of Non-Isolated DC-DC Interleaved Buck Converter for Renewable Energy Sources | Litcius