A single-stage asymmetrical half-bridge (AHB) power factor correction (PFC) converter with coupled inductors is proposed in this thesis. The proposed converter is developed from the combination of an AHB converter and a set of coupled inductors along with a blocking diode. By applying the set of coupled inductors and the blocking diode, the proposed converter can achieve single-stage AC-DC conversion with the buck-boost type PFC. Hence, the proposed converter can provide near unity power factor (PF) and low total harmonic distortion (THD) under the universal input condition without using any extra power switch and control circuit. In addition, the proposed converter can achieve zero-voltage switching (ZVS) operation for both of the power switches under the universal input condition to reduce switching loss. As a result, the proposed converter can improve the overall conversion efficiency and power density of the AC-DC converter. Therefore, the proposed converter features the advantages of near unity PF, low THD, little component counts, simple control strategy, and high circuit efficiency under the universal input condition. Computer simulation and hardware experimental results of a 100W prototype circuit are presented to verify the effectiveness of the proposed single-stage AHB PFC converter with coupled inductors.