2017
DOI: 10.3390/s17050970
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Vibro-Shock Dynamics Analysis of a Tandem Low Frequency Resonator—High Frequency Piezoelectric Energy Harvester

Abstract: Frequency up-conversion is a promising technique for energy harvesting in low frequency environments. In this approach, abundantly available environmental motion energy is absorbed by a Low Frequency Resonator (LFR) which transfers it to a high frequency Piezoelectric Vibration Energy Harvester (PVEH) via impact or magnetic coupling. As a result, a decaying alternating output signal is produced, that can later be collected using a battery or be transferred directly to the electric load. The paper reports an im… Show more

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Cited by 8 publications
(6 citation statements)
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“…The impact-coupling configuration is examined in [23]. The active element of the VEH has a different lower and higher natural frequency ratio.…”
Section: Numerical Model and Methods Analysismentioning
confidence: 99%
See 1 more Smart Citation
“…The impact-coupling configuration is examined in [23]. The active element of the VEH has a different lower and higher natural frequency ratio.…”
Section: Numerical Model and Methods Analysismentioning
confidence: 99%
“…of state (21) can be solved using one of the methods of the numerical integration of the ordinary differential equations and restrictions in Eqs. (21) and (23) for each of the discrete steps should be established. This shows the above disadvantage, that a large amount of time-based constraints has to be dealt with.…”
Section: Lu B B B  (23)mentioning
confidence: 99%
“…61 The lowest b/a ratio, obtained from a triangular beam, produced higher strain and voltage, compared with the highest ratio rectangular beam. 66 The aforementioned cantilever EHs, however, are efficient only when the resonance and excitation frequencies are equal; this is uncontrollable due to random ambient vibration. 61 The relationships between choice of materials and beam thickness are demonstrated in Figure 18D.…”
Section: Cantilevermentioning
confidence: 99%
“…62,65 Thus, the frequency up-conversion technique was adopted in certain scenarios instead if higher energy was required. 66 The aforementioned cantilever EHs, however, are efficient only when the resonance and excitation frequencies are equal; this is uncontrollable due to random ambient vibration. One solution is to use multiple cantilevers or an array thereof, in which the beams are of varying lengths or tip masses, such that each has a different RF and the EH bandwidth is broader, 63,67,68 as illustrated in Figure 18C.…”
Section: Cantilevermentioning
confidence: 99%
“…[10] Among diverse piezoelectric generators, there have been some reports for flexible piezoelectric energy harvesters (also called "nanogenerators" when nanomaterials are involved) using lots of materials and processes to propose new concepts from biological to constructional applications. [11][12][13][14] Even though the triboelectric energy harvesting principle has been recently studied to maximize voltage output performance, [15][16][17] piezoelectric materials and devices are still the highly prospective candidate for mechanical energy harvesting devices due to their definite material mechanisms, existing industries, and intrinsically robust properties apart from extrinsic operation environments. [18,19] Although the developed flexible energy harvesters have supported and established piezoelectric wearable configuration, they should be attached as patch-type or non-woven devices, not real cloth-like features, which hinders our free movement and physical activity.…”
Section: Introductionmentioning
confidence: 99%