Space Vector Controlled Reversible Inverter with MATLAB/Simulink Implementation

This document presents a MATLAB/Simulink simulation model implementing space vector control for reversible inverters, serving as a practical reference for power electronics applications. Space Vector Control (SVC) is a widely adopted industrial control technique known for its high-efficiency power conversion capabilities and minimal harmonic distortion characteristics. The model demonstrates key implementation aspects including: sector identification algorithms, duty cycle calculations for active/zero vectors, and PWM signal generation through Simulink's power electronics toolbox. Through this simulation environment, engineers can effectively analyze switching patterns, voltage vector trajectories, and bidirectional power flow control mechanisms. The model utilizes Clarke/Park transformations for reference frame conversions and implements hysteresis-based current control loops for precise regulation. This resource aims to facilitate deeper understanding of SVC principles, reversible inverter operational dynamics, and practical implementation using MATLAB/Simulink's simulation and analysis tools for real-world engineering applications.