Detail publikace
Voltage Differencing Current Conveyor Based Linearly Controllable Quadrature Oscillators
ŠOTNER, R. JEŘÁBEK, J. PETRŽELA, J. DOSTÁL, T.
Originální název
Voltage Differencing Current Conveyor Based Linearly Controllable Quadrature Oscillators
Anglický název
Voltage Differencing Current Conveyor Based Linearly Controllable Quadrature Oscillators
Jazyk
en
Originální abstrakt
This paper presents two new applications of modified version of the voltage differencing current conveyor (VDCC) active device in electronically linearly controllable quadrature oscillators. In this particular case, VDCC element is modified in such a way that it uses electronically adjustable current gain controlled independently in each of output current branches of this device. Brief Spice simulation tests based on emulators of VDCC employing commercially available subparts and including system for amplitude stabilization are also presented. Results confirmed expected behavior.
Anglický abstrakt
This paper presents two new applications of modified version of the voltage differencing current conveyor (VDCC) active device in electronically linearly controllable quadrature oscillators. In this particular case, VDCC element is modified in such a way that it uses electronically adjustable current gain controlled independently in each of output current branches of this device. Brief Spice simulation tests based on emulators of VDCC employing commercially available subparts and including system for amplitude stabilization are also presented. Results confirmed expected behavior.
Dokumenty
BibTex
@inproceedings{BUT127781,
author="Roman {Šotner} and Jan {Jeřábek} and Jiří {Petržela} and Tomáš {Dostál}",
title="Voltage Differencing Current Conveyor Based Linearly Controllable Quadrature Oscillators",
annote="This paper presents two new applications of modified version of the voltage differencing current conveyor (VDCC) active device in electronically linearly controllable quadrature oscillators. In this particular case, VDCC element is modified in such a way that it uses electronically adjustable current gain controlled independently in each of output current branches of this device. Brief Spice simulation tests based on emulators of VDCC employing commercially available subparts and including system for amplitude stabilization are also presented. Results confirmed expected behavior.",
address="University of West Bohemia, FEL-KAE",
booktitle="21st 2016 International Conference on Applied Electronics",
chapter="127781",
doi="10.1109/AE.2016.7577281",
howpublished="print",
institution="University of West Bohemia, FEL-KAE",
year="2016",
month="september",
pages="237--240",
publisher="University of West Bohemia, FEL-KAE",
type="conference paper"
}