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Use it or lose it: the influence of second order effects of practical components on storing energy harvested by pyroelectric effects

Use it or lose it: the influence of second order effects of practical components on storing energy harvested by pyroelectric effects
Use it or lose it: the influence of second order effects of practical components on storing energy harvested by pyroelectric effects
Harvesting energy using the pyroelectric effect has seen growth as a potential energy source for low power applications, such as self-powered and autonomous wireless sensor networks. The scavenged energy is generally at low power levels, from mW to less than µW. While the voltages generated by pyroelectrics can be appreciable, the electric currents can be low in the order of nano-amps. In the case of pyroelectric harvesting the frequency of operation can also be low, typically much lower than 1 Hz, due to the slow temperature oscillations and transients in systems of large thermal mass. The combination of low power levels and low frequency of operation means that methods of storing electrical energy generated by pyroelectrics and the influence of inherent second order losses is of importance to create efficient harvesting devices. This paper examines the second order characteristic effects of practical capacitors and diodes for storage. The stored energy decay characteristics for commercially available components are examined and the data is used to characterise the second order effects. Selected components are then used in a pyroelectric harvesting system to determine potential improvements by appropriate selection of components with low loss.
533-540
Beasley, Alex E.
7b1bcea8-628c-46cc-9975-c385354123dc
Bowen, Christopher R.
Zabek, Daniel A.
7281d29f-829d-4f54-89a2-ee4f48a357af
Clarke, Christopher T.
68afb5e9-7966-4b54-9549-47c49e350f6c
Beasley, Alex E.
7b1bcea8-628c-46cc-9975-c385354123dc
Bowen, Christopher R.
Zabek, Daniel A.
7281d29f-829d-4f54-89a2-ee4f48a357af
Clarke, Christopher T.
68afb5e9-7966-4b54-9549-47c49e350f6c

Beasley, Alex E., Bowen, Christopher R., Zabek, Daniel A. and Clarke, Christopher T. (2018) Use it or lose it: the influence of second order effects of practical components on storing energy harvested by pyroelectric effects. Technisches Messen, 85 (9), 533-540. (doi:10.1515/teme-2017-0075).

Record type: Article

Abstract

Harvesting energy using the pyroelectric effect has seen growth as a potential energy source for low power applications, such as self-powered and autonomous wireless sensor networks. The scavenged energy is generally at low power levels, from mW to less than µW. While the voltages generated by pyroelectrics can be appreciable, the electric currents can be low in the order of nano-amps. In the case of pyroelectric harvesting the frequency of operation can also be low, typically much lower than 1 Hz, due to the slow temperature oscillations and transients in systems of large thermal mass. The combination of low power levels and low frequency of operation means that methods of storing electrical energy generated by pyroelectrics and the influence of inherent second order losses is of importance to create efficient harvesting devices. This paper examines the second order characteristic effects of practical capacitors and diodes for storage. The stored energy decay characteristics for commercially available components are examined and the data is used to characterise the second order effects. Selected components are then used in a pyroelectric harvesting system to determine potential improvements by appropriate selection of components with low loss.

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Accepted/In Press date: 19 February 2018
e-pub ahead of print date: 7 April 2018
Published date: 25 September 2018
Learn more about School of Geography and Environmental Sciences research

Identifiers

Local EPrints ID: 496748
URI: http://eprints.soton.ac.uk/id/eprint/496748
DOI: doi:10.1515/teme-2017-0075
PURE UUID: f8cdf35c-c0e5-4967-a749-1bf08880e503
ORCID for Daniel A. Zabek: ORCID iD orcid.org/0000-0001-5856-5301

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Date deposited: 07 Jan 2025 23:14
Last modified: 10 Jan 2025 03:21

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Contributors

Author: Alex E. Beasley
Author: Christopher R. Bowen
Author: Daniel A. Zabek ORCID iD
Author: Christopher T. Clarke

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