Bio-Inspired Strategies for Minimizing Distortion in DC-AC Converters

Abstract

The global shift towards sustainable energy sources, such as solar and wind power, underscores the critical role of power converters in renewable energy systems. These converters are essential in the process of converting direct current (DC) generated from renewable sources into alternating current (AC), suitable for use in homes and distribution through the grid. The efficiency and performance of these converters have far-reaching implications for the effective integration of renewable energy into the existing grid infrastructure. However, conventional control methods often fall short in optimizing DC-AC converters to adapt dynamically to changing environmental conditions and varying load demands. This letter aims to provide a holistic view of research on bio-inspired optimization strategies and their impact on minimizing distortion, maximizing efficiency, and enhancing the overall reliability of DC-AC converters within renewable energy systems