Design and reliability analysis of converter topology for Micro Grid system through optimal switching control

Abstract

Micro grid systems have emerged as a promising solution for integrating renewable energy sources and enhancing the overall reliability and efficiency of power distribution. The design and stability analysis of converter topologies play a crucial role in ensuring the seamless operation of micro grids. This research focuses on the development and optimization of converter topologies through advanced control techniques to enhance the stability and performance of micro grid systems. Special attention is given to the challenges associated with the integration of renewable energy sources, such as variable output and intermittent nature. A novel converter topology is proposed to address these challenges, leveraging advanced power electronics and control methodologies. The stability analysis is conducted using optimal control techniques to ensure robust and reliable operation of the micro grid. Mathematical models and simulation tools are employed to assess the dynamic behavior of the proposed converter topology under various operating change in load conditions. The research explores the potential of micro grid system with the converter topology to enhance the micro grid’s overall stability and response to load variations. The results of the stability analysis highlight the improvements achieved in terms of system response, efficiency, and reliability.