商品情報にスキップ
1 1

Microcomputer-based Discontinuous PWM for DC-link Current Harmonic Reduction in Three-phase VSIs

Microcomputer-based Discontinuous PWM for DC-link Current Harmonic Reduction in Three-phase VSIs

通常価格 ¥770 JPY
通常価格 セール価格 ¥770 JPY
セール 売り切れ
税込

カテゴリ: 論文誌(論文単位)

グループ名: 【D】産業応用部門(英文)

発行日: 2019/11/01

タイトル(英語): Microcomputer-based Discontinuous PWM for DC-link Current Harmonic Reduction in Three-phase VSIs

著者名: Koroku Nishizawa (Nagaoka University of Technology), Jun-ichi Itoh (Nagaoka University of Technology), Akihiro Odaka (Fuji Electric Co., Ltd.), Akio Toba (Fuji Electric Co., Ltd.), Hidetoshi Umida (Fuji Electric Co., Ltd.)

著者名(英語): Koroku Nishizawa (Nagaoka University of Technology), Jun-ichi Itoh (Nagaoka University of Technology), Akihiro Odaka (Fuji Electric Co., Ltd.), Akio Toba (Fuji Electric Co., Ltd.), Hidetoshi Umida (Fuji Electric Co., Ltd.)

キーワード: two-level voltage source inverter,discontinuous PWM,DC-link capacitors,DC-link current harmonics

要約(英語): This paper proposes a novel discontinuous pulse width modulation (DPWM) strategy to reduce the switching-frequency-order DC-link current harmonics for a two-level three-phase voltage source inverter (VSI). The proposed modulation method realizes a long lifetime of the smoothing capacitor to the motor drive system. Furthermore, the proposed strategy requires only one carrier; thus, high cost hardware such as field-programmable gate arrays are unnecessary. The DC-link current harmonics are reduced by shifting two unclamped modulating signals in every half control period. In addition, the injection of the zero sequence signal to all discontinuous modulating signals optimizes the phase of the clamped modulating signal and its clamped value according to the conditions of the output phase currents; consequently, the DC-link current harmonics are reduced even when the load power factor varies. Experiments confirm that the proposed DPWM strategy can reduce the DC-link current harmonics by a maximum of 18.3% at a modulation index of 0.705 and a load power factor of 0.819.

本誌: IEEJ Journal of Industry Applications Vol.8 No.6 (2019)

本誌掲載ページ: 904-914 p

原稿種別: 論文/英語

電子版へのリンク: https://www.jstage.jst.go.jp/article/ieejjia/8/6/8_904/_article/-char/ja/

販売タイプ
書籍サイズ
ページ数
詳細を表示する