@ARTICLE{Ali_A._Performance_2020, author={Ali, A. and Chuanwen, J. and Khan, M.M. and Habib, S. and Ali, Y.}, volume={68}, number={No. 4 (i.a. Special Section on Advances in Electrical Power Engineering)}, journal={Bulletin of the Polish Academy of Sciences Technical Sciences}, pages={793-807}, howpublished={online}, year={2020}, abstract={The increased power density, reduced switching losses with minimum electromagnetic interference (EMI), and high efficiency are essential requirements of power converters. To achieve these characteristics, soft power converters employing soft switching techniques are indispensable. In this paper, a ZCS/ZVS PWM AC/DC converter topology has been emphasized, which finds applications in high power systems such as automobile battery charging and renewable energy systems. This converter scheme maintains zero current and zero voltage switching conditions at turn on and turn off moments of semiconductor switches, respectively and soft operation of rectifier diodes that lead to negligible switching and diode reverse recovery losses. Moreover, it improves power quality and presents high input power factor, low total harmonic distortion of the input current (THDI) and improved efficiency. The validity of theoretical analysis of the proposed converter has been carried out experimentally on a 10 kW laboratory prototype. Experimental results prove that the soft switching operation of the semiconductor switches and diodes is maintained at 98.6% rated load efficiency. In addition, the performance evaluation has been performed by comparative analysis of the proposed converter with some prior art high power AC/DC converters. Efficiencies of the proposed and prior art high power topologies have been determined for different load conditions. The highest efficiency, power factor and lower THDI of the proposed converter topology complies with international standards.}, type={Article}, title={Performance evaluation of ZVS/ZCS high efficiency AC/DC converter for high power applications}, URL={http://journals.pan.pl/Content/117267/PDF/16_793-807_01536_Bpast.No.68-4_27.08.20.pdf}, doi={10.24425/bpasts.2020.134185}, keywords={switching loss, zero current switching, zero voltage switching, power quality, reverse recovery loss}, }