Real-Time Simulation and Control of Power Electronics for Smart Grids

Abstract

This paper discusses the significance and application of real-time simulation and control techniques for power electronics in smart grids. The integration of renewable energy sources, energy storage systems, and dynamic load management demands advanced control strategies to ensure grid stability, efficiency, and reliability. Real-time simulation serves as an essential tool for evaluating the performance of power electronics in various operational conditions, enabling real-time decision-making for grid optimization. The paper explores the challenges, methodologies, and case studies related to the implementation of real-time simulation and control systems, with a focus on their role in enhancing smart grid performance.