Stabilization of DC-link voltage in single-phase AC/DC converter with power factor correction using predictive control algorithm

This paper proposes a power factor correction (PFC) method in a single-phase AC/DC converter using a predictive control algorithm (PCA) through a boost DC/DC converter. The minimum value of the DC-link capacitor has been evaluated on the DC distribution side for stable operation of the converter. The proposed technique can be applied to the cascade connection of the converters, that is, the uncontrolled rectifier with boost converter and load. The value of the minimum capacitance is obtained as a function of the reference voltage of the DC-link capacitor, the frequency of the supply, the input power, and the maximum DC-link voltage. The proposed design is applied to control the boost converter for PFC applications using PCA at the minimum DC-link capacitor value. The calculated value of DC-link capacitance has been reduced to a greater extent as compared to the conventional calculation of DC-link capacitance. The converter operation with the designed value of DC-link capacitance has been verified through the MATLAB and Typhoon Simulink environment, and an experimental prototype model is used for the validation by using the FPGA based Typhoon HIL-402 kit.