Scaling Effects for Electromagnetic Vibrational Power Generators

T. O'Donnell; C. Saha; S.-P. Beeby; M.-J. Tudor

arXiv:0711.3316·cs.OH·November 29, 2007

Scaling Effects for Electromagnetic Vibrational Power Generators

T. O'Donnell, C. Saha, S.-P. Beeby, M.-J. Tudor

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TL;DR

This paper explores how the size of electromagnetic vibrational power generators affects their power output, analyzing magnetic, coil, and damping effects for both traditional and micro-fabricated coil technologies.

Contribution

It provides a comparative analysis of scaling effects on electromagnetic vibrational generators using different coil technologies.

Findings

01

Scaling impacts magnetic field strength and coil parameters.

02

Electromagnetic damping varies with size and design.

03

Micro-fabricated coils exhibit different scaling behaviors.

Abstract

This paper investigates how the power generated by electromagnetic based vibrational power generators scales with the dimension of the generator. The effects of scaling on the magnetic fields, the coil parameters and the electromagnetic damping are presented. An analysis is presented for both wire-wound coil technology and micro-fabricated coils.

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