Control of a Flyback Converter in Mixed Conduction Mode: Influence on the Converter Design Using Optimization under Constraints

[1]  Jun Zhang,et al.  Flyback-Based Single-Stage Power-Factor-Correction Scheme With Time-Multiplexing Control , 2010, IEEE Transactions on Industrial Electronics.

[2]  James Roudet,et al.  Control of a flyback converter in power factor correction mode: compromize between the current constraints and the transformer volume , 2002, APEC. Seventeenth Annual IEEE Applied Power Electronics Conference and Exposition (Cat. No.02CH37335).

[3]  Jiamin Cui,et al.  The control-loop design of quasi-resonant flyback converter for HI-bright LED driver , 2011, 2011 International Conference on Electrical and Control Engineering.

[4]  Shehab Ahmed,et al.  Flyback converter with novel active clamp control and secondary side post regulator for low standby power consumption under high-efficiency operation , 2011 .

[5]  J.-J. Huselstein,et al.  Design of Intercell Transformers for High-Power Multicell Interleaved Flyback Converter , 2009, IEEE Transactions on Power Electronics.

[6]  Ahmed Chaibet,et al.  Design of Power Converters by Optimization Under Multiphysic Constraints: Application to a Two-Time-Scale AC/DC–DC Converter , 2010, IEEE Transactions on Industrial Electronics.

[7]  Dylan Dah-Chuan Lu,et al.  A High-Efficiency AC/DC Converter With Quasi-Active Power Factor Correction , 2010, IEEE Transactions on Power Electronics.

[8]  Sang Hee Kang,et al.  On-line efficiency optimization in flyback dc-dc converters over wide ranges of operating conditions , 2011, 2011 Twenty-Sixth Annual IEEE Applied Power Electronics Conference and Exposition (APEC).

[9]  Yu-Kang Lo,et al.  A Single-Stage Soft-Switching Flyback Converter for Power-Factor-Correction Applications , 2010, IEEE Transactions on Industrial Electronics.

[10]  Ye Xu,et al.  Design and Analysis of Single-Stage Power Factor Correction Converter With a Feedback Winding , 2010, IEEE Transactions on Power Electronics.

[11]  E. Atienza,et al.  PWM Inverter Output Filter Cost-to-Losses Tradeoff and Optimal Design , 2009, IEEE Transactions on Industry Applications.

[12]  S. Nakagawa,et al.  Power Flow Control for Efficiency Improvement in a Forward-Flyback Mixed Converter , 2007, 2007 7th International Conference on Power Electronics and Drive Systems.

[13]  B Tamyurek,et al.  A Three-Phase Unity Power Factor Single-Stage AC–DC Converter Based on an Interleaved Flyback Topology , 2011, IEEE Transactions on Power Electronics.

[14]  Chris Mi,et al.  A model‐based dead‐band compensation for the dual‐active‐bridge isolated bidirectional DC–DC converter , 2011 .

[15]  Fanghua Zhang,et al.  A New Control Strategy of Single-Stage Flyback Inverter , 2009, IEEE Transactions on Industrial Electronics.

[16]  Yu-Lung Ke,et al.  Single-Stage Power-Factor-Correction Circuit with Flyback Converter to Drive LEDs for Lighting Applications , 2010, 2010 IEEE Industry Applications Society Annual Meeting.

[17]  Loganathan Umanand,et al.  Multiphase Bidirectional Flyback Converter Topology for Hybrid Electric Vehicles , 2009, IEEE Transactions on Industrial Electronics.

[18]  Yong Li,et al.  A low-cost adaptive multi-mode digital control solution maximizing AC/DC power supply efficiency , 2010, 2010 Twenty-Fifth Annual IEEE Applied Power Electronics Conference and Exposition (APEC).

[19]  M.M. Hernando,et al.  Limitations of the Flyback Power Factor Corrector as a One-Stage Power Supply , 2007, 2007 IEEE Power Electronics Specialists Conference.

[20]  E.C. Tatakis,et al.  Design and control of a current source flyback inverter for decentralized grid-connected photovoltaic systems , 2005, 2005 European Conference on Power Electronics and Applications.