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| ■論文No. |
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| ■ページ数 |
7ページ |
■発行日
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2020/08/01 |
| ■タイトル |
分割鉄心形支持案内兼用複合磁石の電流積分帰還制御 |
| ■タイトル(英語) |
Current-Integral Feedback Control of Electromagnetic Levitation Systems Using Divided Iron Core Type Hybrid Magnet |
| ■著者名 |
柿木 稔男(崇城大学 情報学部 情報学科),山口 仁(崇城大学 情報学部 情報学科) |
| ■著者名(英語) |
Toshio Kakinoki (Department of Computer and Information Science, Sojo University), Hitoshi Yamaguchi (Department of Computer and Information Science, Sojo University) |
| ■価格 |
会員 ¥550 一般 ¥770 |
| ■書籍種類 |
論文誌(論文単位) |
| ■グループ名 |
【D】産業応用部門 |
| ■本誌 |
電気学会論文誌D(産業応用部門誌) Vol.140 No.8 (2020)
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| ■本誌掲載ページ |
564-570ページ |
| ■原稿種別 |
論文/日本語 |
| ■電子版へのリンク |
https://www.jstage.jst.go.jp/article/ieejias/140/8/140_564/_article/-char/ja/
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| ■キーワード |
吸引磁気浮上,磁気浮上式鉄道,励磁損失,電磁力,浮上制御 electromagnetic levitation,magnetically levitated vehicle,power loss,electromagnetic force,levitation control |
| ■要約(日本語) |
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| ■要約(英語) |
Energy saving control is desirable for magnetically levitated (MAGLEV) vehicles. Hybrid magnets controlled with a zero power control system can reduce the exciting power. However, this conventional system requires a feed bipolar current, and the excitation system becomes complicated. To achieve a simple excitation system, a hybrid magnet with permanent magnets and divided cores was developed. The magnet was a salient-pole type magnet, and the poles were placed in two rows. Each iron core pole was equipped with a coil to control both the levitation force and lateral damping force. The coils of one side of the divided core were excited with a direct current driver to produce the same polarity as the permanent magnet the others were excited the opposite polarity. The two sets of the coils were excited with direct current drivers, each of which had one IGBT. The system needed only two IGBTs per magnet, whereas the conventional zero power systems needed four IGBTs per magnet. According to our test results, the energy consumption was very small and the levitation part could start levitating from both upper and lower touch-down positions. In this paper, the characteristics of the proposed excitation system are presented. |
| ■版 型 |
A4 |
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