1チップ逆阻止IGBT逆並列構成双方向スイッチを用いた高周波複共振形PWM電力周波数変換器(エネルギー関連, 一般)  [in Japanese] High Frequency Multi-Resonant PWM Controlled Power Frequency Converter using One Chip Reverse Blocking IGBTs based Bidirectional Switch  [in Japanese]

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Author(s)

    • 杉村 央生 Sugimura Hisayuki
    • 慶南大学大学院EESRC Electric & Energy Saving Research Center, Graduate School of Electrical and Electronics Engineering, Kyungnam University
    • Eid Ahmad Mohamad Eid Ahmad Mohamad
    • 慶南大学大学院EESRC Electric & Energy Saving Research Center, Graduate School of Electrical and Electronics Engineering, Kyungnam University
    • Lee Hyun-Woo [他] Lee Hyun Woo
    • 慶南大学大学院EESRC Electric & Energy Saving Research Center, Graduate School of Electrical and Electronics Engineering, Kyungnam University
    • 中岡 睦雄 Nakaoka Mutsuo
    • 慶南大学大学院EESRC Electric & Energy Saving Research Center, Graduate School of Electrical and Electronics Engineering, Kyungnam University

Abstract

本論文は最新1チップ逆阻止IGBT逆並列双方向スイッチを用いたソフトスイッチングPWM高周波複共振形直接周波数変換器について述べている。スイッチング素子に最新1チップ逆阻止IGBTを使用することで双方向スイッチとして動作させることができるため、この電力周波数変換器は商用周波数を整流変換プロセス段なしで誘導加熱負荷に直接高周波ACに高効率電力変換できる回路トポロジーは高周波サイクロコンバータと定義し従来からの商用周波ACから低周波ACに直接変換するサイクロコンバータと区別している。本論文では高周波誘導加熱用として開発したソフトスイッチングPWM電力周波数変換器(高周波サイクロコンバータ)の動作原理と特徴を述べ、シミュレーション解析結果と試作実験結果により評価・検討した結果について議論している。

This paper presents a utility frequency AC to high frequency AC direct power frequency conversion pulse modulated conditioning and processing circuit system, which can efficiently operate under a principle of soft commutation for consumer induction heating (IH) applications. This solid-state power frequency converter defined as high frequency PWM controlled cycloconverter using bidirectional switches based on anti-parallel one chip reverse blocking IGBTs is developed originally and evaluated for consumer IH as well as industrial high frequency power supplies. Its operating principle is schematically described using switching mode equivalent circuits. It is clarified on the basis of its simulation and experimental results on the performances of high frequency PWM cycloconverter treated here for various duty factor control scheme.

Journal

  • Technical report of IEICE. Energy engineering in electronics and communications

    Technical report of IEICE. Energy engineering in electronics and communications 105(197), 73-78, 2005-07-14

    The Institute of Electronics, Information and Communication Engineers

References:  2

Codes

  • NII Article ID (NAID)
    10016678919
  • NII NACSIS-CAT ID (NCID)
    AA11135980
  • Text Lang
    JPN
  • Article Type
    ART
  • ISSN
    09135685
  • NDL Article ID
    7395213
  • NDL Source Classification
    ZN33(科学技術--電気工学・電気機械工業--電子工学・電気通信)
  • NDL Call No.
    Z16-940
  • Data Source
    CJP  NDL  NII-ELS 
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