Publication detail

MECHANISM OF VIBRATION MICROGENERATOR BASED ON NON-LINEAR STIFFNESS

HADAŠ, Z. SINGULE, V. ONDRŮŠEK, Č.

Original Title

MECHANISM OF VIBRATION MICROGENERATOR BASED ON NON-LINEAR STIFFNESS

English Title

MECHANISM OF VIBRATION MICROGENERATOR BASED ON NON-LINEAR STIFFNESS

Type

journal article - other

Language

en

Original Abstract

The paper deals with the simulation of the vibration microgenerator mechanism. The vibration microgenerator converts energy from an ambient vibration into electrical energy. The vibration microgenerator is located on the part of a machine, which generates vibration during operation. The construction of mechanism is tuned up to resonance frequency. The excited vibration produces relative movement of the inertia mass to the frame of the microgenerator and induced voltage is the result of this movement.

English abstract

The paper deals with the simulation of the vibration microgenerator mechanism. The vibration microgenerator converts energy from an ambient vibration into electrical energy. The vibration microgenerator is located on the part of a machine, which generates vibration during operation. The construction of mechanism is tuned up to resonance frequency. The excited vibration produces relative movement of the inertia mass to the frame of the microgenerator and induced voltage is the result of this movement.

RIV year

2005

Released

20.09.2005

Publisher

Engineering Academy of the Czech Republic

Location

Brno

Pages from

19

Pages to

24

Pages count

6

BibTex


@article{BUT46671,
  author="Zdeněk {Hadaš} and Vladislav {Singule} and Čestmír {Ondrůšek}",
  title="MECHANISM OF VIBRATION MICROGENERATOR BASED ON NON-LINEAR STIFFNESS",
  annote="The paper deals with the simulation of the vibration microgenerator mechanism. The
vibration microgenerator converts energy from an ambient vibration into electrical energy.
The vibration microgenerator is located on the part of a machine, which generates vibration
during operation. The construction of mechanism is tuned up to resonance frequency. The
excited vibration produces relative movement of the inertia mass to the frame of the
microgenerator and induced voltage is the result of this movement.",
  address="Engineering Academy of the Czech Republic",
  chapter="46671",
  institution="Engineering Academy of the Czech Republic",
  journal="Inženýrská mechanika - Engineering Mechanics",
  number="A1",
  volume="12",
  year="2005",
  month="september",
  pages="19",
  publisher="Engineering Academy of the Czech Republic",
  type="journal article - other"
}