Publication detail

Approximated Fractional-Order Capacitor "Seed" Impedance Characterization to Support Fully-Controllable Immittance Converters

GALE, S.M. KOTON, J. FREEBORN, T.J.

Original Title

Approximated Fractional-Order Capacitor "Seed" Impedance Characterization to Support Fully-Controllable Immittance Converters

Type

conference paper

Language

English

Original Abstract

One recent method to approximate and physically implement fractional-order elements utilizes a fully-controllable immittance converter (FGIC). With this approach, external components are used with the FGIC to implement a target floating immittance value. This immittance can be fractional-order if at least one of the external components is a fractional-order element. Here, a fractional-order capacitor is approximated for use as the fractional-order element using an RC-network; designed specifically to meet the usable bandwidth (10 kHz to 1 MHz) of an FGIC44 (an integrated circuit realization of a floating immittance converter using operational-transconductance amplifiers).

Keywords

Circuit realization; External components; Floating immittances; Fractional order; Immittance converter; Impedance characterization; RC networks; Operational amplifiers

Authors

GALE, S.M.; KOTON, J.; FREEBORN, T.J.

Released

28. 4. 2023

Publisher

IEEE

Location

NEW YORK

ISBN

978-1-6654-7611-9

Book

Conference Proceedings - IEEE SOUTHEASTCON

Edition

Volume 2023-April

Pages from

821

Pages to

826

Pages count

6

URL

BibTex

@inproceedings{BUT184034,
  author="Storm {Gale} and Jaroslav {Koton} and Todd {Freeborn}",
  title="Approximated Fractional-Order Capacitor {"}Seed{"} Impedance Characterization to Support Fully-Controllable Immittance Converters",
  booktitle="Conference Proceedings - IEEE SOUTHEASTCON",
  year="2023",
  series="Volume 2023-April",
  pages="821--826",
  publisher="IEEE",
  address="NEW YORK",
  doi="10.1109/SoutheastCon51012.2023.10115103",
  isbn="978-1-6654-7611-9",
  url="https://ieeexplore.ieee.org/document/10115103"
}