Detail publikace

# Fractional-Order Low- and High-Pass Filters Using UVCs

KOTON, J. KUBÁNEK, D. SLÁDOK, O. VRBA, K. SHADRIN, A. USHAKOV, P.

Originální název

Fractional-Order Low- and High-Pass Filters Using UVCs

Anglický název

Fractional-Order Low- and High-Pass Filters Using UVCs

Jazyk

en

Originální abstrakt

In this paper, the application of universal voltage conveyors in the design of fractional-order frequency fiters is presented. Using the continued fraction expansion approach, circuit solutions approximating the low- and high-pass fractional transfer function are proposed, analyzed and their behavior verified both by simulations and experimental measurements. The considered order of the fiters is (1 + \alpha), where 0 < \alpha < 1. The proposed filters operate in the voltage-mode, are of minimal configuration and are easy to be connected in cascade as their output impedance is low, zero in theory.

Anglický abstrakt

In this paper, the application of universal voltage conveyors in the design of fractional-order frequency fiters is presented. Using the continued fraction expansion approach, circuit solutions approximating the low- and high-pass fractional transfer function are proposed, analyzed and their behavior verified both by simulations and experimental measurements. The considered order of the fiters is (1 + \alpha), where 0 < \alpha < 1. The proposed filters operate in the voltage-mode, are of minimal configuration and are easy to be connected in cascade as their output impedance is low, zero in theory.

Dokumenty

BibTex


@article{BUT140381,
author="Jaroslav {Koton} and David {Kubánek} and Ondřej {Sládok} and Kamil {Vrba} and Aleksandr {Shadrin} and Peter A. {Ushakov}",
title="Fractional-Order Low- and High-Pass Filters Using UVCs",
annote="In this paper, the application of universal voltage conveyors in the design of fractional-order frequency fiters is presented. Using the continued fraction expansion approach, circuit solutions approximating the low- and high-pass fractional transfer function are proposed, analyzed and their behavior verified both by simulations and experimental measurements. The considered order of the fiters is (1 + \alpha), where 0 < \alpha < 1. The proposed filters operate in the voltage-mode, are of minimal configuration and are easy to be connected in cascade as their output impedance is low, zero in theory.",
chapter="140381",
doi="10.1142/S0218126617501924",
howpublished="print",
institution="World Scientific Publishing Company",
number="12",
volume="26",
year="2017",
month="april",
pages="1--22",
publisher="World Scientific Publishing Company",
type="journal article in Web of Science"
}