An n-MOS Quasi-Floating-Gate CMOS Technologies for Energy Harvesting and Energy Management Circuitry
An n-MOS Quasi-Floating-Gate CMOS Technologies for Energy Harvesting and Energy Management Circuitry
カテゴリ: 研究会(論文単位)
論文No: ECT23054
グループ名: 【C】電子・情報・システム部門 電子回路研究会
発行日: 2023/11/06
タイトル(英語): An n-MOS Quasi-Floating-Gate CMOS Technologies for Energy Harvesting and Energy Management Circuitry
著者名: Monteiro Cancio(National University of Timor Lorosa'e (UNTL)),C. A. Dias Diqnos(National University of Timor Lorosa'e (UNTL))
著者名(英語): Cancio Monteiro(National University of Timor Lorosa'e (UNTL)),Diqnos C. A. Dias(National University of Timor Lorosa'e (UNTL))
キーワード: Adiabatic logic|Quasi floating gate|Energy harvesting|Low power|Adiabatic logic|Quasi floating gate|Energy harvesting|Low power
要約(日本語): Energy harvesting is the process of converting ambient available energy into usable electrical energy. Multiple types of sources can be used to harness environmental energy (kinetic energy, vibration energy, thermal energy, and electromagnetic waves). This work deals with designing ultra-low-power energy-efficient circuits using Quasi-Floating-Gate (QFG) CMOS and FinFET Technologies for energy harvesting and energy management circuitry. This study has revealed that the proposed QFG circuit is able to reduce the circuit complexity and push the voltage supply of the circuit towards threshold voltage which is effectively applicable for low-power and low-voltage IoT devices.
要約(英語): Energy harvesting is the process of converting ambient available energy into usable electrical energy. Multiple types of sources can be used to harness environmental energy (kinetic energy, vibration energy, thermal energy, and electromagnetic waves). This work deals with designing ultra-low-power energy-efficient circuits using Quasi-Floating-Gate (QFG) CMOS and FinFET Technologies for energy harvesting and energy management circuitry. This study has revealed that the proposed QFG circuit is able to reduce the circuit complexity and push the voltage supply of the circuit towards threshold voltage which is effectively applicable for low-power and low-voltage IoT devices.
本誌: 2023年11月9日-2023年11月10日電子回路研究会
本誌掲載ページ: 1-5 p
原稿種別: 英語
PDFファイルサイズ: 370 Kバイト
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