Analysis of Stress Distribution in Piezoelectric MEMS Energy Harvester Using Shaped Cantilever Structure

JUNG-HYUN PARK; JUNSUK KANG; HOSANG AHN; SEON-BAE KIM; DAN LIU; DONG-JOO KIM

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Analysis of Stress Distribution in Piezoelectric MEMS Energy Harvester Using Shaped Cantilever Structure

机译：异形悬臂结构在压电MEMS能量采集器中的应力分布分析

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Much interest in energy harvesters has been focused on maintaining their conversion efficiency during scaling down via the micromachining process. The piezoelectric PZT-based MEMS energy harvester was designed and fabricated to increase the fraction of the material strained during deflection since the geometric change of the cantilever shape can change the strain distribution on the beam and improve the output power. The generated power during beam deflection was separately collected from individual electrodes located at different positions of the cantilever, and they had good agreement with the strain estimation from finite element analysis. The trapezoidal shape showed 39% higher power than that of rectangular one.

机译：能量收集器的许多兴趣都集中在通过微机械加工工艺缩小规模期间保持其转换效率。设计和制造基于压电PZT的MEMS能量收集器，以增加偏转过程中应变材料的比例，因为悬臂形状的几何变化可以改变梁上的应变分布并提高输出功率。束偏转期间产生的功率是从位于悬臂不同位置的单个电极分别收集的，它们与有限元分析中的应变估计具有良好的一致性。梯形的功率比矩形的功率高39％。

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来源
《Ferroelectrics》 |2010年第null期|共7页
作者
JUNG-HYUN PARK; JUNSUK KANG; HOSANG AHN; SEON-BAE KIM; DAN LIU; DONG-JOO KIM;
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正文语种 eng
中图分类电磁学、电动力学;
关键词
Energy harvesting; MEMS; strain distribution; trapezoid;

机译：能量收集;MEMS;应变分布;梯形;

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1. Analysis of Stress Distribution in Piezoelectric MEMS Energy Harvester Using Shaped Cantilever Structure [J] . JUNG-HYUN PARK, JUNSUK KANG, HOSANG AHN, Ferroelectrics . 2010,第Null期

机译：异形悬臂结构在压电MEMS能量采集器中的应力分布分析
2. Comparative study on standard geometrical structures of cantilever-based MEMS piezoelectric energy harvester over T-shaped cantilever beam for low frequency ambient vibrations [J] . SALEM SAADON, OTHMAN SIDEK Journal of optoelectronics and advanced materials . 2014,第5a6期

机译：T型悬臂梁上悬臂式MEMS压电能量收集器的标准几何结构在低频环境振动中的比较研究
3. E-shaped cantilever-based MEMS piezoelectric energy harvester for low frequency applications [J] . SALEM SAADON, OTHMAN SIDEK Journal of optoelectronics and advanced materials . 2014,第3a4期

机译：基于E型悬臂的MEMS压电能量采集器，适用于低频应用
4. Analysis of frequency characteristics of MEMS piezoelectric cantilever beam based energy harvester [C] . Zhang Jin-hui, Ma Sheng-lin, Qin Li-feng Symposium on Piezoelectricity, Acoustic Waves and Device Applications . 2015

机译：基于MEMS压电悬臂梁的能量采集器的频率特性分析
5. MEMS Piezoelectric Vibrational Energy Harvesters and Circuits for IoT Applications =MEMS piézoélectriques pour la récupération d’énergie vibratoire et circuits pour l’internet des objets [D] . Alameh, Abdul-Hafiz. 2019

机译：MEMS压电振动能量收割机和电路用于IOT应用=互联网对象的振动能量回收和电路的压电MEMS
6. Analysis of a Cantilevered Piezoelectric Energy Harvester in Different Orientations for Rotational Motion [O] . Wei-Jiun Su, Jia-Han Lin, Wei-Chang Li 2020

机译：旋转运动不同方向的悬臂式压电能量采集器的分析
7. Multifrequency Piezoelectric Energy Harvester Based on Polygon-Shaped Cantilever Array [O] . Dalius Mažeika, Andrius Čeponis, Ying Yang 2018

机译：基于多边形悬臂阵列的多频压电能量收割机

Analysis of Stress Distribution in Piezoelectric MEMS Energy Harvester Using Shaped Cantilever Structure

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