Impedance-based finite element modelling of a highly-coupled and pre-stressed piezoelectric energy harvester

Yang Kuang, M. Zhu
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引用次数: 0

Abstract

This work presents an experimentally validated impedance-based finite element model (FEM) of a highly-coupled pre-stressed piezoelectric energy harvester (PEH) with piezoelectric multilayer stacks (PMSs). The FEM first simulates the status of the PEH as a result of the static pre-stress. It then analyses the internal impedance$|Z_{in}|$ of the pre-stressed PEH, which is used as the optimal load resistance Ropt for power output generation. The developed FEM is able to precisely predict (1) the maximum power output at each frequency without the tedious load-resistance sweeping approach traditionally used; (2) the dual-power-peaks phenomenon of highly-coupled PEHs, which cannot be observed when using the traditional approach of $R_{opt}=1/\omega C_{P}$. This model provides a useful tool for the design and optimization highly-coupled piezoelectric energy harvesters.
基于阻抗的高耦合预应力压电能量采集器有限元建模
本文提出了一种实验验证的基于阻抗的压电多层堆叠(pms)高耦合预应力压电能量收集器(PEH)的有限元模型(FEM)。有限元法首先模拟了PEH在静预应力作用下的状态。然后分析了预应力PEH的内部阻抗$|Z_{in}} $,并将其作为输出功率的最佳负载电阻Ropt。所开发的有限元法能够精确地预测(1)在每个频率下的最大功率输出,而不需要传统上使用的繁琐的负载-阻力扫描方法;(2)采用$R_{opt}=1/\omega C_{P}$的传统方法无法观察到高耦合PEHs的双功率峰现象。该模型为高耦合压电能量采集器的设计和优化提供了有用的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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