Multi-Constraint Design of Single-Switch Resonant Converters Based on Extended Impedance Method

Publisher:闻天明Release Time:2022-06-22Number of visits:10

Speaker:    Yifan Jiang

Time:         14:00-16:00, Jun. 23

Location:   Tencent Meeting

    Meeting ID674-813-167

     Linkhttps://meeting.tencent.com/dm/CkZMJvD1WJmk

Host:          Minfan Fu

 

Abstract:

The single-switch resonant converter is attractive for low-cost high-frequency power conversion applications. However, the exiting design method needs complicated derivations to meet various practical demands, and it would become impossible as the circuit order increases. This paper incorporates the iteration-free extended impedance method to evaluate the potential designs. Any practical demands can be mathematically represented by the inequality constraints. Given the design variables, the proposed design is able to improve the steady-state performance (like the system robustness, voltage gain, load insensitivity, efficiency, current stress, and voltage stress for the existing resonant converters. A family of Class E inverters is designed to justify the generality and validity of the proposed design. The first case is a classical Class E inverter. The EIM-based design is able to improve the system robustness under 6% parameter variation. The second case is a Class E inverter with resonant input inductor. The EIM-based design is able to offer a wider voltage gain compared to the benchmark method. The last case is a Class E inverter using π network. Compared to the previous design approach, the proposed method is able to find a better design point, whose light-load efficiency is improved by 5%.

 

Bio:

Yifan Jiang received the B.S. degree in electrical engineering from Shanghai University of Electric Power, Shanghai, China, in 2019. She is currently working toward the master degree in power electronics with the School of Information Science and Technology, ShanghaiTech University, Shanghai, China. Her current research interests include the high-efficiency power amplifiers and high frequency resonant converters.