Publication detail
Versatile Precision Full-Wave Rectifier Using Current and Voltage Conveyor
KOTON, J. HERENCSÁR, N. VRBA, K. CICEKOGLU, O.
Original Title
Versatile Precision Full-Wave Rectifier Using Current and Voltage Conveyor
English Title
Versatile Precision Full-Wave Rectifier Using Current and Voltage Conveyor
Type
conference paper
Language
en
Original Abstract
This paper describes a precision full-wave rectifier of minimal configuration that is able to process both low voltage and low current signals. The behavior of the proposed rectifier is compared with the opamp based circuit by evaluating their DC value transfers and RMS errors. Furthermore, experimental measurements were performed that shown the feasibility of the new circuit to process signal up to 100 kHz and beyond with no or small distortion.
English abstract
This paper describes a precision full-wave rectifier of minimal configuration that is able to process both low voltage and low current signals. The behavior of the proposed rectifier is compared with the opamp based circuit by evaluating their DC value transfers and RMS errors. Furthermore, experimental measurements were performed that shown the feasibility of the new circuit to process signal up to 100 kHz and beyond with no or small distortion.
Keywords
precision full-wave rectifier, current conveyor, voltage conveyor
RIV year
2010
Released
08.09.2010
Publisher
University of West Bohemia
Location
Plzeň
ISBN
978-80-7043-865-7
Book
Proc. Int. Conf. Applied Electronics 2010
Pages from
175
Pages to
178
Pages count
4
Documents
BibTex
@inproceedings{BUT35281,
author="Jaroslav {Koton} and Norbert {Herencsár} and Kamil {Vrba} and Oguzhan {Cicekoglu}",
title="Versatile Precision Full-Wave Rectifier Using Current and Voltage Conveyor",
annote="This paper describes a precision full-wave rectifier of minimal configuration that is able to process both low voltage and low current signals. The behavior of the proposed rectifier is compared with the opamp based circuit by evaluating their DC value transfers and RMS errors. Furthermore, experimental measurements were performed that shown the feasibility of the new circuit to process signal up to 100 kHz and beyond with no or small distortion.",
address="University of West Bohemia",
booktitle="Proc. Int. Conf. Applied Electronics 2010",
chapter="35281",
howpublished="print",
institution="University of West Bohemia",
year="2010",
month="september",
pages="175--178",
publisher="University of West Bohemia",
type="conference paper"
}