Empirical Investigation of a Single-phase Input Switched AC-DC Boost Converter with Improved Power Quality

•Introduction of a bridgeless converter for AC-DC conversion.•Performance improvement with respect to the traditional converter in terms of input power factor, conversion efficiency, voltage gain and input current THD.•Addition of suitable feedback control to achieve near unity power factor while maintaining moderate input current THD.•Addition of feedback control to provide stable output voltage in varying load condition.•Justification of results in hardware environment. The Boost converter topology is most widely used for power factor correction (PFC) converters. The conventional passive Boost PFC converter inherently suffers from the lack of controllability and non-ideal characteristics of the diode-bridge rectifier. Replacing diodes with active switch(es) offers viable solutions but increases the circuit complexity. Addressing this trade-off, a novel design of a single–phase input switched AC to DC Boost converter has been presented in this article. The active switch of the Boost DC converter is shifted to the input side of the full-bridge diode rectifier which provides more control on the input current without increasing much of the circuit complexity. Two Boost inductors and two output split capacitors are used for providing higher step-up operation compared to the conventional. The converter has been simulated both in open-loop and closed-loop conditions using the PSIM software. The simulation results show that the proposed converter provides good dynamic response and can maintain a constant stable output voltage during sudden load change. Furthermore, to evaluate the experimental performance of the suggested converter, a prototype converter has been developed. A scaled-down experiment has been performed which shows that the converter can achieve up to 85.2 % efficiency and an input power factor of 0.9.