Microgrid Inverter Control Strategy Based on Virtual Synchronous Generator

Abstract

Study the control strategy of distributed power supply grid-connected based on virtual synchronous generator. Establish the mathematical model of the inverter grid connection and the mathematical model of the virtual synchronous generator control scheme. Study the grid-connected active and reactive power regulation scheme, and analyze the influence of inertia and damping parameters on grid-connected power tracking in detail. A self-synchronous control strategy without phase-locked loop is designed, which simulates the characteristics of synchronous generator's speed regulation system and excitation system and can seamlessly switch between two operating states of off-grid and on-grid, which is conducive to the improvement of micro-grid stability. Finally, a simple microgrid system is built on the Matlab/Simulink platform. It is verified that the proposed control strategy has good power tracking characteristics and can enable the distributed power supply to switch quickly in different operating modes.