Title:	Modelling of metallic cables at G.fast frequencies
Authors:	Lafata, Pavel Nevosad, Marek
Citation:	2015 International Conference on Applied Electronics: Pilsen, 8th – 9th September 2015, Czech Republic, p.145-148.
Issue Date:	2015
Publisher:	Západočeská univerzita v Plzni
Document type:	konferenční příspěvek conferenceObject
URI:	http://hdl.handle.net/11025/35110
ISBN:	978-80-261-0385-1 (Print) 978-80-261-0386-8 (Online)
ISSN:	1803-7232 (Print) 1805-9597 (Online)
Keywords:	útlum;aproximační metody;propagační konstanta;přesnost;matematický model;digital subscriber linel|měření frekvence
Keywords in different language:	attenuation;approximation methods;propagation constant;accuracy;mathematical model;DSL;frequency measurement
Abstract in different language:	Metallic cables are still frequently used in access telecommunications networks, especially in the last-mile network segments, together with digital subscriber line (DSL) technologies. Recently, the G.fast system for reaching gigabit transmission speed over short metallic lines has been introduced. In order to achieve such performance, the frequency band of G.fast was extended up to 106 MHz or 212 MHz and several innovative transmission concepts were adopted as well. However, these innovations require accurate approximations of a G.fast transmission channel. Due to that it is necessary to provide accurate approximation of metallic cable transmission characteristics, the attenuation constant α(f) as well as the phase constant β(f). Therefore, an innovative LN model was proposed and is presented in this paper. Its main motivation is to outperform the existing models with equal number o fnecessary parameters. The accuracy of a proposed LN model was tested for various metallic cables and compared with two typical existing models.
Rights:	© University of West Bohemia
Appears in Collections:	Applied Electronics 2015 Applied Electronics 2015

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.