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Analytical Force and Flux for a 1-D Electromagnetic Vibration Energy Harvester

Carlos Imbaquingo, Marco Beleggia, Andrea Roberto Insinga, C.R.H. Bahl, Brian P. Mann, Rasmus Bjørk

2020IEEE Transactions on Magnetics28 citationsDOIOpen Access PDF

Abstract

A vibration energy harvester (VEH) converts the kinetic energy of a moving source into electrical energy. In this article, we consider a 1-D electromagnetic vibration energy harvester (1-D EMVEH) that consists of three coaxial cylindrical permanent magnets enclosed in a tube such that the middle magnet is levitating. The resulting movement of the middle magnet can then induce an electromotive force (EMF) in one or more surrounding coils. Using an analytical model, we derive expressions for the 1-D-EMVEHs characteristic frequency and output power by using the Fourier space approach. First, the magnetostatic energy of the system as a function of the position of the levitating magnet is calculated. Its spatial gradient gives the force acting on a magnet, which drives its dynamics. Next, more accurate magnetic flux and EMF expressions are obtained. The results are compared with experimental measurements, revealing an excellent agreement.

Topics & Concepts

MagnetPhysicsElectromotive forceLevitationVibrationCoaxialMagnetic levitationMagnetic fluxPermanent magnet synchronous generatorEnergy fluxMechanicsAcousticsNuclear magnetic resonanceMagnetic fieldElectrical engineeringAstronomyQuantum mechanicsEngineeringInnovative Energy Harvesting TechnologiesEnergy Harvesting in Wireless NetworksWireless Power Transfer Systems
Analytical Force and Flux for a 1-D Electromagnetic Vibration Energy Harvester | Litcius