Detail publikace
Optimal Design of Vibration Power Generator for Low Frequency
HADAŠ, Z. SINGULE, V. ONDRŮŠEK, Č.
Český název
Optimal Design of Vibration Power Generator for Low Frequency
Anglický název
Optimal Design of Vibration Power Generator for Low Frequency
Typ
článek v časopise - ostatní, Jost
Jazyk
en
Originální abstrakt
This paper deals with an optimal design of an electromagnetic energy harvesting generator for supplying wireless sensors with energy. The developed device is complex mechatronic system which generates an electrical power from an ambient low frequency mechanical vibration by use of a suitable electromagnetic generator. This device is excited by ambient mechanical vibration and electrical energy is harvested due to Faraday's law. The design of this vibration power generator results from development cycles and the final generator can provide sufficient electrical energy for wireless sensors. The vibration power generator is tuned up to frequency of vibration 17 Hz and harvested output power depends non-linearly on level of vibration. The vibration power generator operates in level of vibration 0.1 – 1 G peak and output power is in range 2 – 25 mW.
Český abstrakt
This paper deals with an optimal design of an electromagnetic energy harvesting generator for supplying wireless sensors with energy. The developed device is complex mechatronic system which generates an electrical power from an ambient low frequency mechanical vibration by use of a suitable electromagnetic generator. This device is excited by ambient mechanical vibration and electrical energy is harvested due to Faraday's law. The design of this vibration power generator results from development cycles and the final generator can provide sufficient electrical energy for wireless sensors. The vibration power generator is tuned up to frequency of vibration 17 Hz and harvested output power depends non-linearly on level of vibration. The vibration power generator operates in level of vibration 0.1 – 1 G peak and output power is in range 2 – 25 mW.
Anglický abstrakt
This paper deals with an optimal design of an electromagnetic energy harvesting generator for supplying wireless sensors with energy. The developed device is complex mechatronic system which generates an electrical power from an ambient low frequency mechanical vibration by use of a suitable electromagnetic generator. This device is excited by ambient mechanical vibration and electrical energy is harvested due to Faraday's law. The design of this vibration power generator results from development cycles and the final generator can provide sufficient electrical energy for wireless sensors. The vibration power generator is tuned up to frequency of vibration 17 Hz and harvested output power depends non-linearly on level of vibration. The vibration power generator operates in level of vibration 0.1 – 1 G peak and output power is in range 2 – 25 mW.
Klíčová slova česky
Mechatronics, Energy Harvesting, Alternative energy, Vibration, Resonant converter, Vibration Power Generator.
Klíčová slova anglicky
Mechatronics, Energy Harvesting, Alternative energy, Vibration, Resonant converter, Vibration Power Generator.
Rok RIV
2009
Vydáno
06.01.2009
Nakladatel
Trans Tech Publications
Místo
Zurich, Switzerland
ISSN
1012-0394
Časopis
Solid State Phenomena
Ročník
2009
Číslo
147-149
Strany od–do
426–431
Počet stran
6
BIBTEX
@article{BUT46971,
author="Zdeněk {Hadaš} and Vladislav {Singule} and Čestmír {Ondrůšek},
title="Optimal Design of Vibration Power Generator for Low Frequency",
journal="Solid State Phenomena",
year="2009",
volume="2009",
number="147-149",
month="January",
pages="426--431",
publisher="Trans Tech Publications",
address="Zurich, Switzerland",
issn="1012-0394"
}