Publication detail
Dual-Output All-Pass Filter Employing Fully-Differential Operational Amplifier and Current-Controlled Current Conveyor
BIOLKOVÁ, V. KOLKA, Z. BIOLEK, D.
Original Title
Dual-Output All-Pass Filter Employing Fully-Differential Operational Amplifier and Current-Controlled Current Conveyor
English Title
Dual-Output All-Pass Filter Employing Fully-Differential Operational Amplifier and Current-Controlled Current Conveyor
Type
conference paper
Language
en
Original Abstract
First-order voltage-mode all-pass filter providing high input and low output impedances is described. The proposed filter employs a fully-differential operational amplifier, a current-controlled current conveyor CCCII, and one capacitor, with the possibility of electronic control of natural frequency. Two voltage outputs are simultaneously available for non-inverting and inverting transfer functions, with the possibility of utilizing them as a differential output.
English abstract
First-order voltage-mode all-pass filter providing high input and low output impedances is described. The proposed filter employs a fully-differential operational amplifier, a current-controlled current conveyor CCCII, and one capacitor, with the possibility of electronic control of natural frequency. Two voltage outputs are simultaneously available for non-inverting and inverting transfer functions, with the possibility of utilizing them as a differential output.
Keywords
all-pass, OpAmp, current conveyor
RIV year
2011
Released
01.12.2011
Publisher
TEE
Location
Bursa, Turkey
ISBN
978-605-01-0208-6
Book
Proceedings of the 7th INTERNATIONAL CONFERENCE on ELECTRICAL and ELECTRONICS ENGINEERING
Pages from
319
Pages to
323
Pages count
5
BibTex
@inproceedings{BUT75750,
author="Viera {Biolková} and Zdeněk {Kolka} and Dalibor {Biolek}",
title="Dual-Output All-Pass Filter Employing Fully-Differential Operational Amplifier and Current-Controlled Current Conveyor",
annote="First-order voltage-mode all-pass filter providing high input and low output impedances is described. The proposed filter employs a fully-differential operational amplifier, a current-controlled current conveyor CCCII, and one capacitor, with the possibility of electronic control of natural frequency. Two voltage outputs are simultaneously available for non-inverting and inverting transfer functions, with the possibility of utilizing them as a differential output.",
address="TEE",
booktitle="Proceedings of the 7th INTERNATIONAL CONFERENCE on ELECTRICAL and ELECTRONICS ENGINEERING",
chapter="75750",
howpublished="electronic, physical medium",
institution="TEE",
year="2011",
month="december",
pages="319--323",
publisher="TEE",
type="conference paper"
}