Detail publikace
Non-conventional Electronically Controlled Filters Based on Transformation Cells with OTA and CCII.
OLŠÁK, M., VRBA, K., KOTON, J.
Originální název
Non-conventional Electronically Controlled Filters Based on Transformation Cells with OTA and CCII.
Anglický název
Non-conventional Electronically Controlled Filters Based on Transformation Cells with OTA and CCII.
Jazyk
en
Originální abstrakt
This paper describes a high-order electronically controlled filter structure based on transformation cells that employ OTA and CCII+ as active elements. The filter has two outputs, where low-pass and high-pass responses can coexist. The transformation cell forms the basic building block in the design of high-order filters with tunable frequency response. To confirm the theoretical analysis, the results measured for a fourth-order filter with tunable cut-off frequency in the range of 1 kHz to 1 MHz are included.
Anglický abstrakt
This paper describes a high-order electronically controlled filter structure based on transformation cells that employ OTA and CCII+ as active elements. The filter has two outputs, where low-pass and high-pass responses can coexist. The transformation cell forms the basic building block in the design of high-order filters with tunable frequency response. To confirm the theoretical analysis, the results measured for a fourth-order filter with tunable cut-off frequency in the range of 1 kHz to 1 MHz are included.
Dokumenty
BibTex
@article{BUT42528,
author="Michal {Olšák} and Kamil {Vrba} and Jaroslav {Koton}",
title="Non-conventional Electronically Controlled Filters Based on Transformation Cells with OTA and CCII.",
annote="This paper describes a high-order electronically controlled filter structure based on transformation cells that employ OTA and CCII+ as active elements. The filter has two outputs, where low-pass and high-pass responses can coexist. The transformation cell forms the basic building block in the design of high-order filters with tunable frequency response. To confirm the theoretical analysis, the results measured for a fourth-order filter with tunable cut-off frequency in the range of 1 kHz to 1 MHz are included.",
chapter="42528",
journal="International Transaction on Computer Science and Engineering",
number="11",
volume="2005",
year="2005",
month="november",
pages="172--181",
type="journal article - other"
}