• DocumentCode
    1437043
  • Title

    Dynamic Properties of Current-Fed Quadratic Full-Bridge Buck Converter for Distributed Photovoltaic MPP-Tracking Systems

  • Author

    Huusari, Juha ; Suntio, Teuvo

  • Author_Institution
    Dept. of Electr. Energy Eng., Tampere Univ. of Technol., Tampere, Finland
  • Volume
    27
  • Issue
    11
  • fYear
    2012
  • Firstpage
    4681
  • Lastpage
    4689
  • Abstract
    Interfacing a single photovoltaic (PV) module into either a single-phase or a three-phase inverter requires an interfacing converter with wide conversion ratio and sufficient dynamic headroom. In terms of avoiding issues with common-mode currents between the PV module and the inverter, a converter with galvanic isolation is preferred. This is especially important with the emerging thin-film modules that have larger cell-to-frame parasitic capacitances compared to traditional modules. This paper presents the dynamic properties and analysis of the current-fed quadratic full-bridge buck converter. The foundation for the proposed topology is based on the concept of true current-fed converters that differ fundamentally from the conventional voltage-fed converters. The relevant analytical steady-state equations and the dynamic model are presented with the operational details of the proposed converter. The analytical claims are verified with extensive measurements from a corresponding 190-W prototype. According to the measurements, the prototype performed well in PV application and reached an efficiency of 92% at the maximum power point of the PV module.
  • Keywords
    distributed power generation; invertors; maximum power point trackers; photovoltaic power systems; power convertors; cell-to-frame parasitic capacitances; common-mode currents; current-fed quadratic full-bridge buck converter; distributed photovoltaic MPP-tracking Systems; galvanic isolation; interfacing converter; inverter; maximum power point tracking systems; power 190 W; single PV module; single photovoltaic module; steady-state equations; thin-film modules; voltage-fed converters; Capacitors; Electricity; Equations; Inductors; Inverters; Mathematical model; Voltage control; DC–DC power conversion; photovoltaic power systems;
  • fLanguage
    English
  • Journal_Title
    Power Electronics, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0885-8993
  • Type

    jour

  • DOI
    10.1109/TPEL.2012.2186318
  • Filename
    6144050