Detail publikace

Current-Mode KHN Equivalent Frequency Filter Using ECCIIs

KOTON, J. HERENCSÁR, N. CICEKOGLU, O. VRBA, K.

Originální název

Current-Mode KHN Equivalent Frequency Filter Using ECCIIs

Anglický název

Current-Mode KHN Equivalent Frequency Filter Using ECCIIs

Jazyk

en

Originální abstrakt

In this paper we present a current-mode electronically tunable multifunction frequency filter that behavior is equivalent to the well known KHN filter. The proposed structure has one low-impedance input with zero potential and three highimpedance outputs with low-, band- and high-pass responses. The mutually independent control of the quality factor Q and natural frequency w0 is made by electronically tunable current conveyors ECCII. The behavior of the structure has been verified by Spice simulations and, furthermore, by experimental measurements, where AC and transient analyses have been performed.

Anglický abstrakt

In this paper we present a current-mode electronically tunable multifunction frequency filter that behavior is equivalent to the well known KHN filter. The proposed structure has one low-impedance input with zero potential and three highimpedance outputs with low-, band- and high-pass responses. The mutually independent control of the quality factor Q and natural frequency w0 is made by electronically tunable current conveyors ECCII. The behavior of the structure has been verified by Spice simulations and, furthermore, by experimental measurements, where AC and transient analyses have been performed.

Dokumenty

BibTex


@inproceedings{BUT34637,
  author="Jaroslav {Koton} and Norbert {Herencsár} and Oguzhan {Cicekoglu} and Kamil {Vrba}",
  title="Current-Mode KHN Equivalent Frequency Filter Using ECCIIs",
  annote="In this paper we present a current-mode electronically tunable multifunction frequency filter that behavior is equivalent to the well known KHN filter. The proposed structure has one low-impedance input with zero potential and three highimpedance outputs with low-, band- and high-pass  responses. The mutually independent control of the quality factor Q and natural frequency w0 is made by electronically tunable current conveyors ECCII. The behavior of the structure has been verified by Spice simulations and, furthermore, by experimental measurements, where AC and transient analyses have been performed.",
  booktitle="Proc. 33rd International conrefence on Telecommunications and Signal Procesing, TSP 2010",
  chapter="34637",
  howpublished="print",
  year="2010",
  month="august",
  pages="27--30",
  type="conference paper"
}