Publication detail
Development of energy harvester system for avionics
HADAŠ, Z. VETIŠKA, V. ANČÍK, Z. ONDRŮŠEK, Č. SINGULE, V.
Czech title
Development of energy harvester system for avionics
English title
Development of energy harvester system for avionics
Type
conference paper
Language
en
Original abstract
This paper deals with an energy harvesting system for avionics; it is an energy source for a unit which is used for wireless monitoring or autonomous control of a small aircraft engine. This paper is focused on development process of energy harvesting system from mechanical vibrations in the engine area. The used energy harvesting system consists of an electro-magnetic energy harvester, power management and energy storage element. The energy harvesting system with commercial power management circuits have to be tested and verified measured results are used for an optimal redesign of the electro-magnetic harvester. This developmental step is necessary for the development of the optimal vibration energy harvesting system.
Czech abstract
This paper deals with an energy harvesting system for avionics; it is an energy source for a unit which is used for wireless monitoring or autonomous control of a small aircraft engine. This paper is focused on development process of energy harvesting system from mechanical vibrations in the engine area. The used energy harvesting system consists of an electro-magnetic energy harvester, power management and energy storage element. The energy harvesting system with commercial power management circuits have to be tested and verified measured results are used for an optimal redesign of the electro-magnetic harvester. This developmental step is necessary for the development of the optimal vibration energy harvesting system.
English abstract
This paper deals with an energy harvesting system for avionics; it is an energy source for a unit which is used for wireless monitoring or autonomous control of a small aircraft engine. This paper is focused on development process of energy harvesting system from mechanical vibrations in the engine area. The used energy harvesting system consists of an electro-magnetic energy harvester, power management and energy storage element. The energy harvesting system with commercial power management circuits have to be tested and verified measured results are used for an optimal redesign of the electro-magnetic harvester. This developmental step is necessary for the development of the optimal vibration energy harvesting system.
Keywords in Czech
Energy harvesting, vibration, vibration energy harvester, simulation modeling, optimization, model-based design, power management, battery.
Keywords in English
Energy harvesting, vibration, vibration energy harvester, simulation modeling, optimization, model-based design, power management, battery.
RIV year
2013
Released
17.05.2013
Publisher
SPIE
Location
Bellingham, Washington, USA
ISBN
978-0-8194-9560-0
Book
Proceedings of SPIE Smart Sensors, Actuators, and MEMS VI
Edition number
1
Pages from–to
87631F-1–87631F-8
Pages count
8
BIBTEX
@inproceedings{BUT101379,
author="Zdeněk {Hadaš} and Vojtěch {Vetiška} and Zdeněk {Ančík} and Čestmír {Ondrůšek} and Vladislav {Singule},
title="Development of energy harvester system for avionics",
booktitle="Proceedings of SPIE Smart Sensors, Actuators, and MEMS VI",
year="2013",
month="May",
pages="87631F-1--87631F-8",
publisher="SPIE",
address="Bellingham, Washington, USA",
isbn="978-0-8194-9560-0"
}