Detail publikace

Universal Voltage Conveyors in Fractional-Order Filter Design

KOTON, J. KUBÁNEK, D. VRBA, K. SHADRIN, A. USHAKOV, P.

Originální název

Universal Voltage Conveyors in Fractional-Order Filter Design

Anglický název

Universal Voltage Conveyors in Fractional-Order Filter Design

Jazyk

en

Originální abstrakt

In this paper voltage-mode fractional-order low- and high-pass filters using universal voltage conveyors are presented. The assumed order of the filters is (1 + α), where 0 < α < 1. The proposed structures use the continued fraction expansion approach and hence the fractional-order transfer functions of the filters are approximated by integer-order functions. The proposed structures are easily cascadable since their output impedance is zero in theory. The performance of the filters has been verified by Spice simulations that show the proper behaviour of the proposed structures.

Anglický abstrakt

In this paper voltage-mode fractional-order low- and high-pass filters using universal voltage conveyors are presented. The assumed order of the filters is (1 + α), where 0 < α < 1. The proposed structures use the continued fraction expansion approach and hence the fractional-order transfer functions of the filters are approximated by integer-order functions. The proposed structures are easily cascadable since their output impedance is zero in theory. The performance of the filters has been verified by Spice simulations that show the proper behaviour of the proposed structures.

Dokumenty

BibTex 


@inproceedings{BUT126741,
  author="Jaroslav {Koton} and David {Kubánek} and Kamil {Vrba} and Aleksandr {Shadrin} and Peter A. {Ushakov}",
  title="Universal Voltage Conveyors in Fractional-Order Filter Design",
  annote="In this paper voltage-mode fractional-order low- and high-pass filters using universal voltage conveyors are presented.
The assumed order of the filters is (1 + α), where 0 < α < 1. The proposed structures use the continued fraction expansion approach and hence the fractional-order transfer functions of the filters are approximated by integer-order functions. The proposed structures are easily cascadable since their output impedance is zero in theory. The performance of the filters has been verified by Spice simulations that show the proper behaviour of the proposed structures.",
  booktitle="Proc. 39t Int. Conf. Telecommunications and Signal Processing - TSP 2016",
  chapter="126741",
  doi="10.1109/TSP.2016.7760950",
  howpublished="online",
  year="2016",
  month="june",
  pages="593--598",
  type="conference paper"
}