An electromagnetic micro power generator for low frequency environmental vibrations based on the frequency upconversion technique
An electromagnetic micro power generator for low frequency environmental vibrations based on the frequency upconversion technique
This paper presents a microelectromechanical-system-based electromagnetic vibration-to-electrical power generator that can harvest energy from low-frequency external vibrations. The efficiency of vibration-based harvesters is proportional to excitation frequency, so the proposed generator is designed to convert low-frequency environmental vibrations to a higher frequency by employing the frequency upconversion (FupC) technique. It has been shown that the generator can effectively harvest energy from environmental vibrations of 70–150 Hz and generates 0.57-mV voltage with 0.25-nW power from a single cantilever by upconverting the input vibration frequency of 95 Hz–2 kHz. The fabricated generator size is 8.5×7×2.5 mm3, and a total of 20 serially connected cantilevers have been used to multiply the generated voltage and power. The generator demonstrated in this paper is designed for the proof of concept, and the power and voltage levels can further be increased by increasing the number of cantilevers or coil turns. The performance of the generator is also compared with that of a same-sized custom-made traditional magnet–coil-type generator and with that of a traditional generator from the literature to prove its effectiveness.[2009-0136]
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Sari, Ibrahim
cdcb1265-4a94-4c5a-b8b1-f1ca7e6759d7
Balkan, Tuna
02b83efc-fa8f-4372-8800-891a096e20d1
Kulah, Haluk
890edc75-4521-4764-8ece-6dd2847ecdc7
Sari, Ibrahim
cdcb1265-4a94-4c5a-b8b1-f1ca7e6759d7
Balkan, Tuna
02b83efc-fa8f-4372-8800-891a096e20d1
Kulah, Haluk
890edc75-4521-4764-8ece-6dd2847ecdc7
Sari, Ibrahim, Balkan, Tuna and Kulah, Haluk
(2009)
An electromagnetic micro power generator for low frequency environmental vibrations based on the frequency upconversion technique.
Journal of Microelectromechanical Systems, 19 (1), , [11118190].
(doi:10.1109/JMEMS.2009.2037245).
Abstract
This paper presents a microelectromechanical-system-based electromagnetic vibration-to-electrical power generator that can harvest energy from low-frequency external vibrations. The efficiency of vibration-based harvesters is proportional to excitation frequency, so the proposed generator is designed to convert low-frequency environmental vibrations to a higher frequency by employing the frequency upconversion (FupC) technique. It has been shown that the generator can effectively harvest energy from environmental vibrations of 70–150 Hz and generates 0.57-mV voltage with 0.25-nW power from a single cantilever by upconverting the input vibration frequency of 95 Hz–2 kHz. The fabricated generator size is 8.5×7×2.5 mm3, and a total of 20 serially connected cantilevers have been used to multiply the generated voltage and power. The generator demonstrated in this paper is designed for the proof of concept, and the power and voltage levels can further be increased by increasing the number of cantilevers or coil turns. The performance of the generator is also compared with that of a same-sized custom-made traditional magnet–coil-type generator and with that of a traditional generator from the literature to prove its effectiveness.[2009-0136]
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e-pub ahead of print date: 22 December 2009
Identifiers
Local EPrints ID: 485805
URI: http://eprints.soton.ac.uk/id/eprint/485805
ISSN: 1057-7157
PURE UUID: 55286b36-c815-4115-ba80-43439cf9bab4
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Date deposited: 19 Dec 2023 17:56
Last modified: 17 Mar 2024 06:28
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Author:
Ibrahim Sari
Author:
Tuna Balkan
Author:
Haluk Kulah
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