DSTATCOM Simulink Models Implementation

The DSTATCOM (Distribution Static Synchronous Compensator) system is implemented through multiple Simulink models that simulate various operational scenarios and control strategies. These models demonstrate DSTATCOM's significant effects and practical applications in power systems, including advanced voltage regulation algorithms and harmonic compensation techniques. By utilizing DSTATCOM simulation, engineers can effectively address critical power system issues such as voltage fluctuations, current harmonics, and power quality degradation through implemented PID controllers and PWM modulation techniques. Furthermore, the models showcase DSTATCOM's capability for power system stability enhancement and power quality improvement using reactive power compensation algorithms and instantaneous power theory calculations. The implementation includes key Simulink blocks like Three-Phase VSC (Voltage Source Converter), Phase-Locked Loop (PLL) synchronization, and current control loops with detailed parameter configuration. Understanding DSTATCOM's underlying principles through these MATLAB/Simulink implementations, including the mathematical modeling of switching devices and control system design, provides substantial value for power engineers and researchers working on smart grid applications and power electronic systems.