Detail publikace
Electronically Tunable Fractional-Order Low-Pass Filter with Current Followers
Originální název
Electronically Tunable Fractional-Order Low-Pass Filter with Current Followers
Anglický název
Electronically Tunable Fractional-Order Low-Pass Filter with Current Followers
Jazyk
en
Originální abstrakt
Proposal of a fractional (1+α)-order low-pass filter is presented in this paper. The proposed filter operates in the current-mode and it is designed using multi-output current followers (MO-CFs) and adjustable current amplifiers (ACAs). The filter possesses ability to electronically control its order and also the pole frequency. Verification of actual function of the filter is supported by the simulation results. The simulations were performed using Pspice simulator. The simulation results for three different values of its order and also three different values of pole frequency are illustrated and compared in this contribution.
Anglický abstrakt
Proposal of a fractional (1+α)-order low-pass filter is presented in this paper. The proposed filter operates in the current-mode and it is designed using multi-output current followers (MO-CFs) and adjustable current amplifiers (ACAs). The filter possesses ability to electronically control its order and also the pole frequency. Verification of actual function of the filter is supported by the simulation results. The simulations were performed using Pspice simulator. The simulation results for three different values of its order and also three different values of pole frequency are illustrated and compared in this contribution.
BibTex
@inproceedings{BUT125450,
author="Jan {Dvořák} and Lukáš {Langhammer} and Jan {Jeřábek} and Jaroslav {Koton} and Roman {Šotner} and Josef {Polák}",
title="Electronically Tunable Fractional-Order Low-Pass Filter with Current Followers",
annote="Proposal of a fractional (1+α)-order low-pass filter is presented in this paper. The proposed filter operates in the current-mode and it is designed using multi-output current followers (MO-CFs) and adjustable current amplifiers (ACAs). The filter possesses ability to electronically control its order and also the pole frequency. Verification of actual function of the filter is supported by the simulation results. The simulations were
performed using Pspice simulator. The simulation results for three different values of its order and also three different values of pole frequency are illustrated and compared in this contribution.",
booktitle="Proceedings of 2016 39th International Conference on Telecommunications and Signal Processing (TSP)",
chapter="125450",
doi="10.1109/TSP.2016.7760949",
howpublished="electronic, physical medium",
year="2016",
month="june",
pages="587--592",
type="conference paper"
}