Publication detail

Matlab Simulation of Transmission Lines with Skin Effect via Fractional Telegraph Equations and NILT

BRANČÍK, L. KARTCI, A. AL-ZUBAIDI R-SMITH, N.

Original Title

Matlab Simulation of Transmission Lines with Skin Effect via Fractional Telegraph Equations and NILT

English Title

Matlab Simulation of Transmission Lines with Skin Effect via Fractional Telegraph Equations and NILT

Type

conference paper

Language

en

Original Abstract

The paper deals with the methods of simulation of signal propagation on transmission lines when skin effect is taken into account. Such simulations are useful when solving signal integrity issues in todays high-speed electronic circuits where interconnects play an important role. On conditions of continuing increase of the frequency of signals to be transferred, the real interconnects are modelled as transmission lines. Then, in case of sufficiently high frequency band, additional losses caused mostly by a skin effect exist. Two basic approaches can be considered for the simulation, based on either the Laplace-domain or time-domain formulations of fractional telegraph equations, and both accompained by proper numerical techniques. The methods are intended to be utilized for both research and education, while respective Matlab language programs can be utilized for PC exercises. The educational aspects of this research are important, as signal integrity issues and related methods fit into a doctoral course Modern Electronic Circuits Design at our university.

English abstract

The paper deals with the methods of simulation of signal propagation on transmission lines when skin effect is taken into account. Such simulations are useful when solving signal integrity issues in todays high-speed electronic circuits where interconnects play an important role. On conditions of continuing increase of the frequency of signals to be transferred, the real interconnects are modelled as transmission lines. Then, in case of sufficiently high frequency band, additional losses caused mostly by a skin effect exist. Two basic approaches can be considered for the simulation, based on either the Laplace-domain or time-domain formulations of fractional telegraph equations, and both accompained by proper numerical techniques. The methods are intended to be utilized for both research and education, while respective Matlab language programs can be utilized for PC exercises. The educational aspects of this research are important, as signal integrity issues and related methods fit into a doctoral course Modern Electronic Circuits Design at our university.

Keywords

Matlab simulation; transmission line; skin effect; fractional telegraph equation; Laplace transform

Released

07.06.2017

Publisher

European Association for Education in Electrical and Information Engineering

Location

Grenoble, France

ISBN

978-1-7281-0907-7

Book

The 27th EAEEIE Annual Conference, Proceedings

Pages from

1

Pages to

5

Pages count

5

URL

Documents

BibTex


@inproceedings{BUT141083,
  author="Lubomír {Brančík} and Aslihan {Kartci} and Nawfal {Al-Zubaidi R-Smith}",
  title="Matlab Simulation of Transmission Lines with Skin Effect via Fractional Telegraph Equations and NILT",
  annote="The paper deals with the methods of simulation of signal propagation on transmission lines when skin effect is taken into account. Such simulations are useful when solving signal integrity issues in todays high-speed electronic circuits where interconnects play an important role. On conditions of continuing increase of the frequency of signals to be transferred, the real interconnects are modelled as transmission lines. Then, in case of sufficiently high frequency band, additional losses caused mostly by a skin effect exist. Two basic approaches can be considered for the simulation, based on either the Laplace-domain or time-domain formulations of fractional telegraph equations, and both accompained by proper numerical techniques. The methods are intended to be utilized for both research and education, while respective Matlab language programs can be utilized for PC exercises. The educational aspects of this research are important, as signal integrity issues and related methods fit into a doctoral course Modern Electronic Circuits Design at our university.",
  address="European Association for Education in Electrical and Information Engineering",
  booktitle="The 27th EAEEIE Annual Conference, Proceedings",
  chapter="141083",
  doi="10.1109/EAEEIE.2017.8768702",
  howpublished="online",
  institution="European Association for Education in Electrical and Information Engineering",
  year="2017",
  month="june",
  pages="1--5",
  publisher="European Association for Education in Electrical and Information Engineering",
  type="conference paper"
}