Three-Phase Inverter with PWM Control Implementation

<p>This MATLAB-based three-phase inverter system features fully operational PWM control functionality that implements SPWM (Sinusoidal Pulse Width Modulation) or SVPWM (Space Vector PWM) algorithms for precise AC waveform generation. The inverter system effectively converts DC power to AC power, meeting various industrial application demands through proper switching frequency control and modulation index adjustments.</p> <p>For renewable energy applications, the system can be integrated into solar panel configurations where it converts DC electricity generated by photovoltaic panels into grid-compatible AC power for residential and commercial use. The implementation includes MPPT (Maximum Power Point Tracking) algorithm integration capabilities for optimal energy harvesting.</p> <p>In electric vehicle charging systems, the inverter facilitates DC to AC conversion for EV charging infrastructure, with configurable output frequency and voltage parameters through MATLAB's Simulink environment. The code structure allows modification of carrier wave frequency, modulation depth, and dead-time compensation parameters to adapt to specific operational requirements. Users can customize control algorithms, modify switching patterns, and adjust protection mechanisms to suit particular application scenarios while maintaining system stability through proper PI controller tuning and harmonic reduction techniques.</p>