Publication detail
VERIFICATION OF VIBRATION POWER GENERATOR MODEL FOR PREDICTION OF HARVESTED POWER
HADAŠ, Z. SINGULE, V. ONDRŮŠEK, Č.
Czech title
VERIFICATION OF VIBRATION POWER GENERATOR MODEL FOR PREDICTION OF HARVESTED POWER
English title
VERIFICATION OF VIBRATION POWER GENERATOR MODEL FOR PREDICTION OF HARVESTED POWER
Type
conference paper
Language
en
Original abstract
This paper deals with simulation modelling of a vibration power generator and verification of a complex generator model for prediction of harvested power. The vibration power generator is an electromagnetic energy harvesting device which uses an ambient energy on mechanical vibrations for generating useful electrical energy. This energy harvesting device presents a complex mechatronic system and it consists of resonance mechanism, electromechanical converter, power management (electronics and energy storage) and powered device. When this system is placed in environment with sufficient mechanical vibration, the generator harvests energy and it can be use as autonomous source of electrical energy for powering of wireless sensors or remote application in this environment. The verified simulation model of this device can provide a prediction of possible harvested power without any physical position of this device in a vibratory environment, only acceleration measurement is used as input.
Czech abstract
This paper deals with simulation modelling of a vibration power generator and verification of a complex generator model for prediction of harvested power. The vibration power generator is an electromagnetic energy harvesting device which uses an ambient energy on mechanical vibrations for generating useful electrical energy. This energy harvesting device presents a complex mechatronic system and it consists of resonance mechanism, electromechanical converter, power management (electronics and energy storage) and powered device. When this system is placed in environment with sufficient mechanical vibration, the generator harvests energy and it can be use as autonomous source of electrical energy for powering of wireless sensors or remote application in this environment. The verified simulation model of this device can provide a prediction of possible harvested power without any physical position of this device in a vibratory environment, only acceleration measurement is used as input.
English abstract
This paper deals with simulation modelling of a vibration power generator and verification of a complex generator model for prediction of harvested power. The vibration power generator is an electromagnetic energy harvesting device which uses an ambient energy on mechanical vibrations for generating useful electrical energy. This energy harvesting device presents a complex mechatronic system and it consists of resonance mechanism, electromechanical converter, power management (electronics and energy storage) and powered device. When this system is placed in environment with sufficient mechanical vibration, the generator harvests energy and it can be use as autonomous source of electrical energy for powering of wireless sensors or remote application in this environment. The verified simulation model of this device can provide a prediction of possible harvested power without any physical position of this device in a vibratory environment, only acceleration measurement is used as input.
Keywords in Czech
Mechatronics, Simulation Modelling, Simulink, Energy Harvesting, Electro-mechanical Conversion, Vibration Power Generator.
Keywords in English
Mechatronics, Simulation Modelling, Simulink, Energy Harvesting, Electro-mechanical Conversion, Vibration Power Generator.
RIV year
2009
Released
22.10.2009
Publisher
VilniusTechnika
Location
Vilnius
ISBN
978-9955-28-493-2
Book
The 5th International Conference Mechatronic Systems and Materials
Edition number
1
Pages from–to
27–29
Pages count
3
BIBTEX
@inproceedings{BUT29378,
author="Zdeněk {Hadaš} and Vladislav {Singule} and Čestmír {Ondrůšek},
title="VERIFICATION OF VIBRATION POWER GENERATOR MODEL FOR PREDICTION OF HARVESTED POWER",
booktitle="The 5th International Conference Mechatronic Systems and Materials",
year="2009",
month="October",
pages="27--29",
publisher="VilniusTechnika",
address="Vilnius",
isbn="978-9955-28-493-2"
}