| 講演名 | 2021-12-16 Six-Layers Stacked Wideband Metasurface for Compact Dual-band Wireless Power Transfer System Xin Jiang(九大), Fairus Tahar(九大), Ramesh K. Pokharel(九大), Adel Barakat(九大), Kuniaki Yoshitomi(九大), |
|---|---|
| PDFダウンロードページ |  PDFダウンロードページへ |
| 抄録(和) | A novel six-layers stacked wideband metamaterial is proposed for a dual-band wireless power transfer (WPT) system. First, two types of unit cells with opposite polarizations compose metamaterials. Each type of metamaterial can improve the WPT efficiency either in the lower band or higher band only. Then, a six-layers metamaterial is constructed by stacking these two types of metamaterials in a 2-dimensional (2D) configuration. As a result, the proposed metamaterial is effective at both bands. The size of the proposed WPT system (both transmitter and receiver) and the metamaterial is 15 x 15 mm2 and 20 x 20 mm2, respectively. As a result, at the WPT distance of 29 mm, the WPT increased from 2.7% at 390 MHz and 3.2% 780 MHz on each band to 64.2% at 396 MHz and 29.6% at 770 MHz, respectively. |
| 抄録(英) | A novel six-layers stacked wideband metamaterial is proposed for a dual-band wireless power transfer (WPT) system. First, two types of unit cells with opposite polarizations compose metamaterials. Each type of metamaterial can improve the WPT efficiency either in the lower band or higher band only. Then, a six-layers metamaterial is constructed by stacking these two types of metamaterials in a 2-dimensional (2D) configuration. As a result, the proposed metamaterial is effective at both bands. The size of the proposed WPT system (both transmitter and receiver) and the metamaterial is 15 x 15 mm2 and 20 x 20 mm2, respectively. As a result, at the WPT distance of 29 mm, the WPT increased from 2.7% at 390 MHz and 3.2% 780 MHz on each band to 64.2% at 396 MHz and 29.6% at 770 MHz, respectively. |
| キーワード(和) | Dual-band Wireless Power Transfer (WPT) / Metamaterial / Biomedical Application |
| キーワード(英) | Dual-band Wireless Power Transfer (WPT) / Metamaterial / Biomedical Application |
| 資料番号 | MW2021-85 |
| 発行日 | 2021-12-09 (MW) |
| 研究会情報 | |
| 研究会 | MW |
|---|---|
| 開催期間 | 2021/12/16(から2日開催) |
| 開催地(和) | 川崎市産業振興会館 |
| 開催地(英) | Kawasaki City Industrial Promotion Hall |
| テーマ(和) | マイクロ波一般/学生設計試作コンテスト発表会・表彰式 |
| テーマ(英) | Microwave/Presentation and Award Ceremony of SDC |
| 委員長氏名(和) | 末松 憲治(東北大) |
| 委員長氏名(英) | Noriharu Suematsu(Tohoku Univ.) |
| 副委員長氏名(和) | 河合 正(兵庫県立大) / 大久保 賢祐(岡山県立大) / 中溝 英之(三菱電機) |
| 副委員長氏名(英) | Tadashi Kawai(Univ. of Hyogo) / Kensuke Okubo(Okayama Prefectural Univ.) / Hideyuki Nakamizo(Mitsubishi Electric) |
| 幹事氏名(和) | 大平 昌敬(埼玉大) / 河口 民雄(東芝) |
| 幹事氏名(英) | Masataka Ohira(Saitama Univ.) / Tamio Kawaguchi(Toshiba) |
| 幹事補佐氏名(和) | 長谷川 直輝(ソフトバンク) / 片山 光亮(徳山高専) |
| 幹事補佐氏名(英) | Naoki Hasegawa(Softbank) / Kosuke Katayama(NIT, Tokuyama College) |
| 講演論文情報詳細 | |
| 申込み研究会 | Technical Committee on Microwaves |
|---|---|
| 本文の言語 | ENG |
| タイトル(和) | |
| サブタイトル(和) | |
| タイトル(英) | Six-Layers Stacked Wideband Metasurface for Compact Dual-band Wireless Power Transfer System |
| サブタイトル(和) | |
| キーワード(1)(和/英) | Dual-band Wireless Power Transfer (WPT) / Dual-band Wireless Power Transfer (WPT) |
| キーワード(2)(和/英) | Metamaterial / Metamaterial |
| キーワード(3)(和/英) | Biomedical Application / Biomedical Application |
| 第 1 著者 氏名(和/英) | Xin Jiang / Xin Jiang |
| 第 1 著者 所属(和/英) | 九州大学(略称:九大) Kyushu University(略称:Kyushu Univ.) |
| 第 2 著者 氏名(和/英) | Fairus Tahar / Fairus Tahar |
| 第 2 著者 所属(和/英) | 九州大学(略称:九大) Kyushu University(略称:Kyushu Univ.) |
| 第 3 著者 氏名(和/英) | Ramesh K. Pokharel / Ramesh K. Pokharel |
| 第 3 著者 所属(和/英) | 九州大学(略称:九大) Kyushu University(略称:Kyushu Univ.) |
| 第 4 著者 氏名(和/英) | Adel Barakat / Adel Barakat |
| 第 4 著者 所属(和/英) | 九州大学(略称:九大) Kyushu University(略称:Kyushu Univ.) |
| 第 5 著者 氏名(和/英) | Kuniaki Yoshitomi / Kuniaki Yoshitomi |
| 第 5 著者 所属(和/英) | 九州大学(略称:九大) Kyushu University(略称:Kyushu Univ.) |
| 発表年月日 | 2021-12-16 |
| 資料番号 | MW2021-85 |
| 巻番号(vol) | vol.121 |
| 号番号(no) | MW-303 |
| ページ範囲 | pp.7-10(MW), |
| ページ数 | 4 |
| 発行日 | 2021-12-09 (MW) |