Detail publikace

Principal tests and verification of a resonance-based solar harvester utilizing micro/nano technology

FIALA, P. NEŠPOR, D. DREXLER, P.

Originální název

Principal tests and verification of a resonance-based solar harvester utilizing micro/nano technology

Anglický název

Principal tests and verification of a resonance-based solar harvester utilizing micro/nano technology

Jazyk

en

Originální abstrakt

The authors propose an analysis of a model solar element based on the principle of a resonance system facilitating the transformation of the external form of incident energy into electrical energy. A similar principle provides the basis for harvesters designed to operate at lower frequencies, (Jirku et al. Microsyst Technol 16:677–690, 2010; Wen et al. In: Proceedings of World Automation Congress, Maui, 2000). In these harvesters, the efficiency of the energy form transformation can be controlled from the frequency spectrum of an external source.

Anglický abstrakt

The authors propose an analysis of a model solar element based on the principle of a resonance system facilitating the transformation of the external form of incident energy into electrical energy. A similar principle provides the basis for harvesters designed to operate at lower frequencies, (Jirku et al. Microsyst Technol 16:677–690, 2010; Wen et al. In: Proceedings of World Automation Congress, Maui, 2000). In these harvesters, the efficiency of the energy form transformation can be controlled from the frequency spectrum of an external source.

Dokumenty

BibTex


@article{BUT106150,
  author="Pavel {Fiala} and Dušan {Nešpor} and Petr {Drexler}",
  title="Principal tests and verification of a resonance-based solar harvester utilizing micro/nano technology",
  annote="The authors propose an analysis of a model solar element based on the principle of a resonance system facilitating the transformation of the external form of incident energy into electrical energy. A similar principle provides the basis for harvesters designed to operate at lower frequencies, (Jirku et al. Microsyst Technol 16:677–690, 2010; Wen et al. In: Proceedings of World Automation Congress, Maui, 2000). In these harvesters, the efficiency of the energy form transformation can be controlled from the frequency spectrum of an external source.",
  address="Springer",
  chapter="106150",
  doi="10.1007/s00542-013-2063-x",
  institution="Springer",
  number="4-5",
  volume="20",
  year="2014",
  month="march",
  pages="845--860",
  publisher="Springer",
  type="journal article in Web of Science"
}