Detail publikace

The design of a vibraton microgenerator

Originální název

The design of a vibraton microgenerator

Anglický název

The design of a vibraton microgenerator

Jazyk

en

Originální abstrakt

The paper deals with a design of a vibration microgenerator, which generate electrical energy from ambient vibration energy. The vibration microgenerator is located on the part of a machine, which generates vibration during operation. The mechanical vibration is characterized by an amplitude of 10 µm and frequency about 35 - 45 Hz. This source is converted to electrical energy by vibration microgenerator. The device is used as a power supply for independent feeding of passive sensors with electric output up to 1 mW. The vibration microgenerator works as an independent source of electrical energy and it provides power for correct function monitoring of machines, engines or mechatronic systems. The vibration microgenerator is a mechanical and electromagnetic coupled circuit. The construction of the mechanical part is tuned up to resonance frequency and it gets moving by permanent magnet through a coil. Owing to electromagnetic induction an output voltage is induced in the coil.

Anglický abstrakt

The paper deals with a design of a vibration microgenerator, which generate electrical energy from ambient vibration energy. The vibration microgenerator is located on the part of a machine, which generates vibration during operation. The mechanical vibration is characterized by an amplitude of 10 µm and frequency about 35 - 45 Hz. This source is converted to electrical energy by vibration microgenerator. The device is used as a power supply for independent feeding of passive sensors with electric output up to 1 mW. The vibration microgenerator works as an independent source of electrical energy and it provides power for correct function monitoring of machines, engines or mechatronic systems. The vibration microgenerator is a mechanical and electromagnetic coupled circuit. The construction of the mechanical part is tuned up to resonance frequency and it gets moving by permanent magnet through a coil. Owing to electromagnetic induction an output voltage is induced in the coil.

BibTex


@inproceedings{BUT12323,
  author="Zdeněk {Hadaš} and Vladislav {Singule}",
  title="The design of a vibraton microgenerator",
  annote="The paper deals with a design of a vibration microgenerator, which generate electrical energy from ambient vibration energy. The vibration microgenerator is located on the part of a machine, which generates vibration during operation. The mechanical vibration is characterized by an amplitude of 10 µm and frequency about 35 - 45 Hz. This source is converted to electrical energy by vibration microgenerator. The device is used as a power supply for independent feeding of passive sensors with electric output up to 1 mW. The vibration microgenerator works as an independent source of electrical energy and it provides power for correct function monitoring of machines, engines or mechatronic systems. The vibration microgenerator is a mechanical and electromagnetic coupled circuit. The construction of the mechanical part is tuned up to resonance frequency and it gets moving by permanent magnet through a coil. Owing to electromagnetic induction an output voltage is induced in the coil.",
  address="Faculty of Electrical Engineering and Communication, Brno University of Technolgy; Department of Electrical Machines and Devices Silesian University of Technology, Gliwice",
  booktitle=""Low Voltage Electrical Machines" Joint Czech - Polish Conference on Project GACR 102/038013",
  chapter="12323",
  institution="Faculty of Electrical Engineering and Communication, Brno University of Technolgy; Department of Electrical Machines and Devices Silesian University of Technology, Gliwice",
  year="2004",
  month="december",
  pages="33",
  publisher="Faculty of Electrical Engineering and Communication, Brno University of Technolgy; Department of Electrical Machines and Devices Silesian University of Technology, Gliwice",
  type="conference paper"
}