Huan Xue scite author profile

We study the technique to adjust the performance of a piezoelectric bimorph vibrating in the flexural mode through axial preloads, which is useful for a power harvester to effectively scavenge energy from ambient mechanical vibrations/noise with varying-frequency spectra. The external circuit connected to the bimorph is simplified as an impedance in the analysis. Analytical solutions are derived. The analyses show that resonance happens when the natural frequency of the bimorph is adjusted adjacent to the external driving frequency by preloading, and the output power density can be raised many more times in that case. The mechanism for an axial preload to improve the bimorph performance at varying-frequency vibrations is examined in detail.

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Broadband piezoelectric energy harvesting devices using multiple bimorphs with different operating frequencies

Xue

Wang

2008

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

262

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This paper presents a novel approach for designing broadband piezoelectric harvesters by integrating multiple piezoelectric bimorphs (PBs) with different aspect ratios into a system. The effect of 2 connecting patterns among PBs, in series and in parallel, on improving energy harvesting performance is discussed. It is found for multifrequency spectra ambient vibrations: 1) the operating frequency band (OFB) of a harvesting structure can be widened by connecting multiple PBs with different aspect ratios in series; 2) the OFB of a harvesting structure can be shifted to the dominant frequency domain of the ambient vibrations by increasing or decreasing the number of PBs in parallel. Numerical results show that the OFB of the piezoelectric energy harvesting devices can be tailored by the connection patterns (i.e., in series and in parallel) among PBs.

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Nonlinear behavior of a piezoelectric power harvester near resonance

Xue

Yang

et al. 2006

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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A spiral-shaped harvester with an improved harvesting element and an adaptive storage circuit

Xue

2007

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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A piezoelectric energy harvester consists of a spiral-shaped piezoelectric bimorph to transfer mechanical energy into electric energy, an electrochemical battery to store the scavenged electric energy, and a rectifier together with a step-down dc-dc converter to connect the two components as an integrated system. A spiral-shaped harvesting structure is studied in this paper because it is very useful in the microminiaturization of advanced sensing technology. The aim of employing a step-down dc-dc converter in the storage circuit is to match the optimal output voltage of the piezoelectric bimorph with the battery voltage for efficient charging. In order to raise the output power density of a harvesting element, moreover, we apply a synchronized switch harvesting on inductor (SSHI) in parallel with the piezoelectric bimorph to artificially extend the closedcircuit interval of the rectifier. Numerical results show that the introduction of a dc-dc converter in the storage circuit or a SSHI in the harvesting structure can raise the charging efficiency several times higher than a harvester without a dc-dc converter or an SSHI.

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Analysis of Rosen piezoelectric transformers with a varying cross-section

Xue

Yang

2008

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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Huan Xue

A piezoelectric power harvester with adjustable frequency through axial preloads

Broadband piezoelectric energy harvesting devices using multiple bimorphs with different operating frequencies

Nonlinear behavior of a piezoelectric power harvester near resonance

A spiral-shaped harvester with an improved harvesting element and an adaptive storage circuit

Analysis of Rosen piezoelectric transformers with a varying cross-section

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