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| ■論文No. |
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| ■ページ数 |
9ページ |
■発行日
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2018/01/01 |
| ■タイトル |
Heterogeneous Integration of Boost Power Supply and On-Chip Solar Cell using triple well CMOS Process |
| ■タイトル(英語) |
Heterogeneous Integration of Boost Power Supply and On-Chip Solar Cell using triple well CMOS Process |
| ■著者名 |
Kazuma Igarashi (Faculty of Science and Technology, Keio University), Yoshimasa Minami (Faculty of Science and Technology, Keio University), Nobuhiko Nakano (Faculty of Science and Technology, Keio University) |
| ■著者名(英語) |
Kazuma Igarashi (Faculty of Science and Technology, Keio University), Yoshimasa Minami (Faculty of Science and Technology, Keio University), Nobuhiko Nakano (Faculty of Science and Technology, Keio 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 |
【C】電子・情報・システム部門 |
| ■本誌 |
電気学会論文誌C(電子・情報・システム部門誌) Vol.138 No.1 (2018) 特集:電子回路関連技術
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| ■本誌掲載ページ |
41-49ページ |
| ■原稿種別 |
論文/英語 |
| ■電子版へのリンク |
https://www.jstage.jst.go.jp/article/ieejeiss/138/1/138_41/_article/-char/ja/
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| ■キーワード |
DC-DC converter,On-chip solar cell,CMOS |
| ■要約(日本語) |
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| ■要約(英語) |
We have been proposed on-chip power supply system for a micro system. This power supply system operates application circuit, to achieve a stand-alone chip, referred to as a micro system. In this work, we fabricate the chip to evaluate the on-chip boost power supply that consists of photovoltaic device, ring oscillator and DC-DC boost converter on the same die. The solar cell using N-well and P-substrate outputs about 500 mV and several μW under about 7600 lx lighting. This solar cell generates negative voltage to the P-substrate but the photoelectric conversion efficiency is much higher than the solar cell generates positive voltage. In this work, the integration method is shown to realize the solar cell with negative voltage output and bootstrap charge pump(BSCP) DC-DC converter using triple well technology. The performance of newly designed BSCP DC-DC converter using MIM capacitor and previously designed BSCP DC-DC converter using MOS capacitor are compared. The converter using MIM capacitor shows the much higher voltage conversion ratio than the converter using MOS capacitor. However, designed on-chip power supply system shows a large variation of the output voltage. We discuss the variation and mismatch with simulation considering parasitic capacitances using corner simulation. |
| ■版 型 |
A4 |
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