Model of SVPWM-Controlled Rectifier Driving Motor

In the Simulink environment, I developed a model of a motor driven by an SVPWM-controlled rectifier. This model serves as a platform for studying motor operating characteristics and achieving precise motor control through rectifier manipulation. By tuning parameters of the SVPWM algorithm—such as modulation index and switching frequency—the motor's performance can be optimized to enhance rotational speed or adjust output power. The implementation utilizes Simulink blocks for Clarke/Park transformations and space vector modulation to generate PWM signals. Additionally, varying the rectifier's control strategy, including PWM waveform frequency and duty cycle adjustments through duty cycle modulation blocks, enables different motor control approaches. Overall, this model provides a valuable tool for researching motor control optimization, with configurability for testing advanced algorithms like field-oriented control (FOC) through parameterized subsystems.