Modelling of a piezoelectric beam with a full-bridge rectifier under arbitrary excitation: experimental validation

Q2 Engineering Energy Harvesting and Systems Pub Date : 2023-01-04 DOI:10.1515/ehs-2022-0099
Mariano Febbo, Sebastian P. Machado, Alejandro Oliva, Matias Ortiz, Nicolas Pereyra
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Abstract

Abstract This paper presents a set of nonlinear differential equations to model a piezoelectric energy harvesting (PEH) system with a full-bridge waveform rectifier (FWR) under arbitrary base excitations. The PEH comprises a piezoelectric element modeled as a current source with a capacitor in parallel, which are connected with an inductor and a resistor. The inductor is proposed to smooth the current generated by the piezoelectric element under rapid mechanical variations and improve the convergence of the set of differential equations. The equations are obtained using piecewise linear modelling for the diodes. The main advantage of this piecewise linear modelling is considering different bias points to represent the nonlinear characteristics of real diodes. Numerical simulations are employed to obtain the optimum inductor value through a comparison with an analytical result, validated with experimental tests. A real case of random acceleration in a bike is applied to the PEH-FWR to evaluate the performance of the proposed equations. They are validated with experiments, a LTspice formulation and a numerical previous one. The proposed formulation can estimate the output DC voltage and energy for a large range of excitation frequencies, including resonant and nonresonant conditions and arbitrary or harmonically externally excited PEHs with FWR.
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任意激励下带全桥整流的压电梁的建模:实验验证
摘要本文建立了一组非线性微分方程,用于模拟任意基极激励下全桥波形整流器压电能量收集系统。PEH包括一个模拟为电流源的压电元件,其并联电容器与电感器和电阻连接。为了平滑压电元件在快速力学变化下产生的电流,提高微分方程组的收敛性,提出了电感器。利用二极管的分段线性建模得到了方程。这种分段线性建模的主要优点是考虑了不同的偏置点来表示实际二极管的非线性特性。通过数值模拟与分析结果的比较,得到了最优的电感值,并进行了实验验证。以自行车随机加速度的实际情况为例,对所提方程的性能进行了评价。通过实验、LTspice配方和数值模拟验证了它们的有效性。所提出的公式可以估计大范围激励频率下的输出直流电压和能量,包括谐振和非谐振条件以及任意或谐波外激励带FWR的PEHs。
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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来源期刊
Energy Harvesting and Systems
Energy Harvesting and Systems Energy-Energy Engineering and Power Technology
CiteScore
2.00
自引率
0.00%
发文量
31
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