Detail publikace

Fundamental analog cells for fractional-order two-port synthesis

Originální název

Fundamental analog cells for fractional-order two-port synthesis

Anglický název

Fundamental analog cells for fractional-order two-port synthesis

Jazyk

en

Originální abstrakt

This paper is dedicated to the searching for optimal elemental analog cell for systematic synthesis of fractional-order two-port circuit device. The design procedure is based on the decomposition of transfer function into fundamental bilinear and biquadratic filtering section which is connected in cascade. Starting transfer functions are obtained the most probably by approximation of ideal fractional element in the frequency domain. Several networks will be proposed, briefly discussed and verified by Orcad Pspice circuit simulator. The possibility to change final order between 0 and 1 with step 0.1 will be also addressed. For circuit design only commercially available active building blocks will be utilized.

Anglický abstrakt

This paper is dedicated to the searching for optimal elemental analog cell for systematic synthesis of fractional-order two-port circuit device. The design procedure is based on the decomposition of transfer function into fundamental bilinear and biquadratic filtering section which is connected in cascade. Starting transfer functions are obtained the most probably by approximation of ideal fractional element in the frequency domain. Several networks will be proposed, briefly discussed and verified by Orcad Pspice circuit simulator. The possibility to change final order between 0 and 1 with step 0.1 will be also addressed. For circuit design only commercially available active building blocks will be utilized.

BibTex


@inproceedings{BUT99680,
  author="Jiří {Petržela}",
  title="Fundamental analog cells for fractional-order two-port synthesis",
  annote="This paper is dedicated to the searching for optimal elemental analog cell for systematic synthesis of fractional-order two-port circuit device. The design procedure is based on the decomposition of transfer function into fundamental bilinear and biquadratic filtering section which is connected in cascade. Starting transfer functions are obtained the most probably by approximation of ideal fractional element in the frequency domain. Several networks will be proposed, briefly discussed and verified by Orcad Pspice circuit simulator. The possibility to change final order between 0 and 1 with step 0.1 will be also addressed. For circuit design only commercially available active building blocks will be utilized.",
  booktitle="Proceedings of 23rd International Conference RADIOELEKTRONIKA 2013",
  chapter="99680",
  howpublished="electronic, physical medium",
  year="2013",
  month="april",
  pages="182--187",
  type="conference paper"
}