Modelling of Electromagnetic Coupling in Micro-Scale Electromagnetic Energy Harvesters

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Title: Modelling of Electromagnetic Coupling in Micro-Scale Electromagnetic Energy Harvesters
Authors: Sokolov, AndriiMallick, DhimanRoy, SaibalKennedy, Michael PeterBlokhina, Elena
Permanent link: http://hdl.handle.net/10197/11206
Date: 14-May-2019
Online since: 2019-11-15T14:04:25Z
Abstract: Kinetic energy harvesters as systems which convert kinetic energy of the oscillations to electric power has different transduction mechanisms. One of the most common transduction mechanisms in such systems is electromagnetic generation, when a voltage is generated according to the Faraday law. Despite the clear physical nature of the electromechanical coupling, the development of the close lumped model for electromotive force and electromagnetic force is challenging problem. The algorithm for estimation of these values and criteria of self-consistency for the model is presented in this paper. In addition, suggested algorithm is applied to the real microscopic electromagnetic energy harvester and predicted signal was compared to the experimental data.
Funding Details: Science Foundation Ireland
Type of material: Conference Publication
Publisher: IEEE
Copyright (published version): 2019 IEEE
Keywords: Electric potentialElectromagnetic couplingEnergy harvesting
DOI: 10.1109/DTIP.2019.8752738
Other versions: http://www.dtip-mems.org/
Language: en
Status of Item: Peer reviewed
Is part of: 2019 Symposium on Design, Test, Integration & Packaging of MEMS and MOEMS (DTIP)
Conference Details: Symposium on Design, Test, Integration & Packaging of MEMS and MOEMS (DTIP'2019), Paris, France, 12-15 May 2019
Appears in Collections:Electrical and Electronic Engineering Research Collection

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