• DocumentCode
    9189
  • Title

    Simple and Causal Copper Cable Model Suitable for G.fast Frequencies

  • Author

    Acatauassu, Diogo ; Host, Stefan ; Chenguang Lu ; Berg, Markus ; Klautau, Aldebaro ; Borjesson, Per Ola

  • Author_Institution
    Signal Process. Lab., Fed. Univ. of Para, Belem, Brazil
  • Volume
    62
  • Issue
    11
  • fYear
    2014
  • fDate
    Nov. 2014
  • Firstpage
    4040
  • Lastpage
    4051
  • Abstract
    G.fast is a new standard from the International Telecommunication Union, which targets 1 Gb/s over short copper loops using frequencies up to 212 MHz. This new technology requires accurate parametric cable models for simulation, design, and performance evaluation tests. Some existing copper cable models were designed for the very high speed digital subscriber line spectra, i.e., frequencies up to 30 MHz, and adopt assumptions that are violated when the frequency range is extended to G.fast frequencies. This paper introduces a simple and causal cable model that is able to accurately characterize copper loops composed by single or multiple segments, in both frequency and time domains. Results using G.fast topologies show that, apart from being accurate, the new model is attractive due to its low computational cost and closed-form expressions for fitting its parameters to measurement data.
  • Keywords
    copper; digital subscriber lines; transmission line theory; twisted pair cables; G.fast frequency; G.fast topologies; bit rate 1 Gbit/s; closed-form expressions; copper cable model; digital subscriber line spectra; parametric cable models; short copper loops; transmission line theory; twisted-pair copper cables; Communication cables; Copper; Crosstalk; Impedance; Mathematical model; Power cables; Propagation constant; Cable models; G.fast; digital subscriber line (DSL); transmission line theory; twisted-pair copper cables;
  • fLanguage
    English
  • Journal_Title
    Communications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0090-6778
  • Type

    jour

  • DOI
    10.1109/TCOMM.2014.2364585
  • Filename
    6934987