- A smart and self-sufficient frequency tunable vibration energy harvester
[作者:Eichhorn, C; Tchagsim, R; Wilhelm, N; Woias, P,期刊:Journal of Micromechanics and Microengineering, 页码:104003-104003 , 文章类型: Proceedings Paper,,卷期:2011年21-10]
- We present a piezoelectric energy-harvesting system, which is able to self-tune its resonance frequency in an energy-autonomous way, in order to extend its efficient operation over a large frequency range. The system con...
- Power output enhancement of a vibration-driven electret generator for wireless sensor applications
[作者:Masaki, T; Sakurai, K; Yokoyama, T; Ikuta, M; Sameshima, H; Doi, M; Seki, T; Oba, M,期刊:Journal of Micromechanics and Microengineering, 页码:104004-104004 , 文章类型: Proceedings Paper,,卷期:2011年21-10]
- We developed a compact vibration-driven electret generator that excelled at a power output. It succeeded in the operation of wireless sensor modules only on electricity from electret generators. This electret generator c...
- Silicon nanowire arrays as thermoelectric material for a power microgenerator
[作者:Davila, D; Tarancon, A; Fernandez-Regulez, M; Calaza, C; Salleras, M; Paulo, AS; Fonseca, L,期刊:Journal of Micromechanics and Microengineering, 页码:104007-104007 , 文章类型: Proceedings Paper,,卷期:2011年21-10]
- A novel design of a silicon-based thermoelectric power microgenerator is presented in this work. Arrays of silicon nanowires, working as thermoelectric material, have been integrated in planar uni-leg thermocouple micros...
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