Single-Cycle Control MDL Model for Rectification and Inversion

An MDL model based on single-cycle control methodology, designed for both rectification and inversion operations. This model implements power conversion and regulation functions through precise control of switching devices' timing and frequency parameters. Single-cycle control is a power system technique that achieves stable output current and voltage by algorithmically determining optimal switching instants. The rectification process converts AC to DC using controlled switching sequences, while inversion performs DC-to-AC conversion through modulated pulse patterns. The implementation utilizes Simulink blocks for switching logic, feedback control loops, and power component modeling. Key algorithmic components include PWM generation modules, phase-locked loops for synchronization, and voltage/current PID controllers. This MDL model's architecture supports various power conversion applications, including renewable energy systems, motor drives, and uninterruptible power supplies, with configurable parameters for different operational scenarios.