Multicell nonisolated resonant modular multilevel dc‐dc converter with self‐voltage balancing and step‐up conversion

Abstract: SummaryWith the rapid development of renewable energy power generation technologies in high‐voltage direct‐current (HVDC) system, the high step‐up ratio dc‐dc conversion plays an important role to connect dc grids with different voltage levels. This paper presents a multicell nonisolated resonant modular multilevel dc–dc converter (MMDC) for medium‐ and high‐voltage applications. The converter exhibits expandability without using transformer. Moreover, by adding additional switched‐inductor (SL) cells, switche… Show more

“…The study demonstrates the converter's effectiveness in efficiently harnessing renewable energy and highlights its potential significance in enhancing sustainable energy systems. A multicell non-isolated resonant modular multilevel DC-DC converter is proposed in [25], which incorporates self-voltage balancing and step-up conversion capabilities. The proposed converter offers improved efficiency and enhanced voltage gain, making it well suited for various applications in renewable energy integration.…”

An ultra‐high voltage gain interleaved converter based on three‐winding coupled inductor with reduced input current ripple for renewable energy applications

“…The study demonstrates the converter's effectiveness in efficiently harnessing renewable energy and highlights its potential significance in enhancing sustainable energy systems. A multicell non-isolated resonant modular multilevel DC-DC converter is proposed in [25], which incorporates self-voltage balancing and step-up conversion capabilities. The proposed converter offers improved efficiency and enhanced voltage gain, making it well suited for various applications in renewable energy integration.…”

An ultra‐high voltage gain interleaved converter based on three‐winding coupled inductor with reduced input current ripple for renewable energy applications