Optimum resistive loads for vibration-based electromagnetic energy harvesters with a stiffening nonlinearity
Optimum resistive loads for vibration-based electromagnetic energy harvesters with a stiffening nonlinearity
The exploitation of nonlinear behavior in vibration-based energy harvesters has received much attention over the last decade. One key motivation is that the presence of nonlinearities can potentially increase the bandwidth over which the excitation is amplified and therefore the efficiency of the device. In the literature, references to resonating energy harvesters featuring nonlinear oscillators are common. In the majority of the reported studies, the harvester powers purely resistive loads. Given the complex behavior of nonlinear energy harvesters, it is difficult to identify the optimum load for this kind of device. In this paper the aim is to find the optimal load for a nonlinear energy harvester in the case of purely resistive loads. This work considers the analysis of a nonlinear energy harvester with hardening compliance and electromagnetic transduction under the assumption of negligible inductance. It also introduces a methodology based on numerical continuation which can be used to find the optimum load for a fixed sinusoidal excitation.
1757-1770
Cammarano, A.
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Neild, S.A.
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Burrow, S.G.
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Wagg, D.J.
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Inman, D.J.
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Cammarano, A.
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Neild, S.A.
e11b68bb-ddff-4cac-a8a7-798cc3cc3891
Burrow, S.G.
76e1fbd4-91d4-443a-a0b1-bc7a4d88cd78
Wagg, D.J.
7aa7d661-df7e-4ecc-86b1-823d4adaf05f
Inman, D.J.
e7a193c3-1285-415c-9f40-404ce6823a7d
Cammarano, A., Neild, S.A., Burrow, S.G., Wagg, D.J. and Inman, D.J.
(2014)
Optimum resistive loads for vibration-based electromagnetic energy harvesters with a stiffening nonlinearity.
Journal of Intelligent Material Systems and Structures, 25 (14), .
(doi:10.1177/1045389X14523854).
Abstract
The exploitation of nonlinear behavior in vibration-based energy harvesters has received much attention over the last decade. One key motivation is that the presence of nonlinearities can potentially increase the bandwidth over which the excitation is amplified and therefore the efficiency of the device. In the literature, references to resonating energy harvesters featuring nonlinear oscillators are common. In the majority of the reported studies, the harvester powers purely resistive loads. Given the complex behavior of nonlinear energy harvesters, it is difficult to identify the optimum load for this kind of device. In this paper the aim is to find the optimal load for a nonlinear energy harvester in the case of purely resistive loads. This work considers the analysis of a nonlinear energy harvester with hardening compliance and electromagnetic transduction under the assumption of negligible inductance. It also introduces a methodology based on numerical continuation which can be used to find the optimum load for a fixed sinusoidal excitation.
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e-pub ahead of print date: 25 February 2014
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Local EPrints ID: 490826
URI: http://eprints.soton.ac.uk/id/eprint/490826
ISSN: 1045-389X
PURE UUID: 65427faa-7d5b-4a14-8d72-42df26fdc575
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Date deposited: 06 Jun 2024 17:10
Last modified: 07 Jun 2024 02:08
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Author:
A. Cammarano
Author:
S.A. Neild
Author:
S.G. Burrow
Author:
D.J. Wagg
Author:
D.J. Inman
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