Switched-mode load impedance synthesis to parametrically tune electromagnetic vibration energy harvesters
Switched-mode load impedance synthesis to parametrically tune electromagnetic vibration energy harvesters
Energy harvesters based upon resonant mass-spring-damper systems can only generate useful power over a narrow range of excitation frequencies. This is a significant limitation in applications where the vibration source frequency changes over time. In this paper, an active electrical load is presented which can overcome the bandwidth limitations by parametrically tuning the overall harvester system. The electrical tuning technique synthesizes an optimum reactive load with high-efficiency switch-mode electronics, which also provides rectification, feeding the energy harvested into a dc store. The method is shown to be effective at increasing the power frequency bandwidth of resonant type harvesters and offers the capability of autonomous operation. The theoretical basis for the technique is presented and verified with experiment results. The paper illustrates the challenges of implementing the power electronic converter for a low-quiescent power overhead and in choosing the control architecture and tuning algorithms.
603-610
Bowden, James A.
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Burrow, Stephen G.
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Cammarano, Andrea
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Clare, Lindsay R.
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Mitcheson, Paul D.
e80570ee-f771-4aaa-9efe-0f16857b8d0e
Bowden, James A.
cc830314-9ed6-4309-8a10-813f012591f4
Burrow, Stephen G.
76e1fbd4-91d4-443a-a0b1-bc7a4d88cd78
Cammarano, Andrea
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Clare, Lindsay R.
7969d975-ca52-439a-ad09-bc7814043fef
Mitcheson, Paul D.
e80570ee-f771-4aaa-9efe-0f16857b8d0e
Bowden, James A., Burrow, Stephen G., Cammarano, Andrea, Clare, Lindsay R. and Mitcheson, Paul D.
(2014)
Switched-mode load impedance synthesis to parametrically tune electromagnetic vibration energy harvesters.
IEEE/ASME Transactions on Mechatronics, 20 (2), .
(doi:10.1109/TMECH.2014.2325825).
Abstract
Energy harvesters based upon resonant mass-spring-damper systems can only generate useful power over a narrow range of excitation frequencies. This is a significant limitation in applications where the vibration source frequency changes over time. In this paper, an active electrical load is presented which can overcome the bandwidth limitations by parametrically tuning the overall harvester system. The electrical tuning technique synthesizes an optimum reactive load with high-efficiency switch-mode electronics, which also provides rectification, feeding the energy harvested into a dc store. The method is shown to be effective at increasing the power frequency bandwidth of resonant type harvesters and offers the capability of autonomous operation. The theoretical basis for the technique is presented and verified with experiment results. The paper illustrates the challenges of implementing the power electronic converter for a low-quiescent power overhead and in choosing the control architecture and tuning algorithms.
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e-pub ahead of print date: 16 June 2014
Identifiers
Local EPrints ID: 490798
URI: http://eprints.soton.ac.uk/id/eprint/490798
ISSN: 1083-4435
PURE UUID: 879eb9a8-fc06-4fdd-8254-588fb62022af
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Date deposited: 06 Jun 2024 16:54
Last modified: 07 Jun 2024 02:08
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Contributors
Author:
James A. Bowden
Author:
Stephen G. Burrow
Author:
Andrea Cammarano
Author:
Lindsay R. Clare
Author:
Paul D. Mitcheson
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