• DocumentCode
    2271834
  • Title

    High-power-density three-phase converter utilizing a balanced-flux transformer core

  • Author

    Aguillon-Garcia, Jacobo ; Moon, Gun-Woo

  • Author_Institution
    Korea Adv. Inst. of Sci. & Technol., Daejeon, South Korea
  • fYear
    2009
  • fDate
    20-24 Sept. 2009
  • Firstpage
    1039
  • Lastpage
    1045
  • Abstract
    Three-phase architecture is an outstanding option to achieve high power ranges, which in another way are hard to reach with conventional topologies. For a three-phase galvanically isolated topology the core choice for low cost and volume is the three-legged core. Unfortunately, three-legged core has an intrinsic flux asymmetry due to unbalance on the mutual impedances among phases, caused by the core geometry; this phenomenon contribute in detriment of the converter performance. Then numerous corrective strategies have been implemented, but the asymmetry phenomenon still not totally solved. Hence, this work utilizes a singular geometrical balanced-flux core which naturally copes with asymmetry and enhances the overall converter efficiency. Therefore, a three-phase soft-switching dc-dc converter associated with a three-phase wye-wye transformer and a triple version of the hybridge rectifier is proposed. Complete study of the operating stages, balanced-flux core behavior, dynamic analysis and design of a 1.2 kW prototype is presented.
  • Keywords
    DC-DC power convertors; power transformers; rectifiers; switching convertors; balanced-flux transformer core; hybridge rectifier; intrinsic flux asymmetry; isolated topology; power 1.2 kW; three-phase soft-switching dc-dc converter; three-phase wye-wye transformer; Flux unbalance; High power density; Soft switching; Three-phase converters; Three-phase transformer;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Energy Conversion Congress and Exposition, 2009. ECCE 2009. IEEE
  • Conference_Location
    San Jose, CA
  • Print_ISBN
    978-1-4244-2893-9
  • Electronic_ISBN
    978-1-4244-2893-9
  • Type

    conf

  • DOI
    10.1109/ECCE.2009.5315971
  • Filename
    5315971