• DocumentCode
    708373
  • Title

    Multi-mode controlled push-pull boost power factor corrector

  • Author

    Chung-Yi Lin ; Jih-sheng Lai ; Yu-Kang Lo ; Huang-Jen Chiu ; Cheng-Yen Yang ; Yu-Chen Liu

  • Author_Institution
    Flextronics Power, New Taipei City, Taiwan
  • fYear
    2015
  • fDate
    15-19 March 2015
  • Firstpage
    1917
  • Lastpage
    1923
  • Abstract
    This paper proposes a novel multi-mode controlled power factor corrector (PFC) based on the push-pull boost PFC topology which features distributing the input and output currents equally in the internal two-phase modules, coupling the two-phase boost inductors into the same magnetic core to allow the reduction of both the circuit volume and the input current ripple under the same inductance, and a cut-in-half duty cycle to allow the reduction of switch conduction losses and the number of inductor winding turns. A multi-mode operation is further propose to integrate the discontinuous-conduction-mode single-phase operation at light loads with the switching frequency being constant over a half line cycle and proportional to the output current, the quasi-resonant mode at medium-to-heavy loads, and the continuous-conduction mode at heavy loads to improve the power conversion efficiency over the entire load range.
  • Keywords
    inductors; power convertors; power factor correction; cut-in-half duty cycle; discontinuous-conduction-mode single-phase operation; inductor winding turns; internal two-phase modules; multimode controlled push-pull boost power factor corrector; power conversion efficiency; push-pull boost PFC topology; switch conduction losses reduction; switching frequency; two-phase boost inductors; Cities and towns; Inductors; Resistors; Switches; Switching frequency; Topology; Windings; coupled inductor; multi-mode operations; push-pull PFC;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Applied Power Electronics Conference and Exposition (APEC), 2015 IEEE
  • Conference_Location
    Charlotte, NC
  • Type

    conf

  • DOI
    10.1109/APEC.2015.7104608
  • Filename
    7104608