Development of a Class-E Resonant-based Wireless Single-Stage DC Motor Driver

カテゴリ: 研究会(論文単位)

論文No: SPC23257,HCA23047,VT23040

グループ名: 【D】産業応用部門 半導体電力変換/【D】産業応用部門 家電・民生/【D】産業応用部門 自動車合同研究会

発行日: 2023/12/11

タイトル(英語): Development of a Class-E Resonant-based Wireless Single-Stage DC Motor Driver

著者名: Lai Ching-Ming(国立中興大学),Lin De-Tai(国立中興大学),Liu Hao-En(国立中興大学),三島 智和(神戸大学)

著者名(英語): Ching-Ming Lai(National Chung Hsing University),De-Tai Lin(National Chung Hsing University),Hao-En Liu(National Chung Hsing University),Tomokazu Mishima(Kobe University)

キーワード: ワイヤレス給電|ワイヤレスＤＣ駆動|シングルステージ電力変換|Ｅ級共振コンバータ|ゼロ電圧スイッチング|位相差制御|wireless power transfer|wireless DC motor driver|single stage power conversion|class-E resonant converter|zero voltage switching|phase-control

要約(日本語): Conventional wired DC motors frequently encounter issues related to cable connections, copper losses, and magnetic losses, which can significantly affect the motors' efficiency and lifespan. This paper introduces an inventive solution to address the challenges associated with traditional wired DC motors. It presents a single-stage class-E resonant wireless power transfer (WPT) technique for controlling the DC motor. Numerical results demonstrate that the method outlined in this paper achieves a maximum efficiency of 96.9% when the phase shift is set at 180 deg.

要約(英語): Conventional wired DC motors frequently encounter issues related to cable connections, copper losses, and magnetic losses, which can significantly affect the motors' efficiency and lifespan. This paper introduces an inventive solution to address the challenges associated with traditional wired DC motors. It presents a single-stage class-E resonant wireless power transfer (WPT) technique for controlling the DC motor. Numerical results demonstrate that the method outlined in this paper achieves a maximum efficiency of 96.9% when the phase shift is set at 180 deg.

本誌: 2023年12月14日-2023年12月15日半導体電力変換/家電・民生/自動車合同研究会-1

本誌掲載ページ: 31-35 p

原稿種別: 英語

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