Detail publikace

Transfer Function of Power Line Channel – Influence of Topology Parameters and Power Line Topology Estimation

MLÝNEK, P. MIŠUREC, J. KOUTNÝ, M. FUJDIAK, R.

Originální název

Transfer Function of Power Line Channel – Influence of Topology Parameters and Power Line Topology Estimation

Anglický název

Transfer Function of Power Line Channel – Influence of Topology Parameters and Power Line Topology Estimation

Jazyk

en

Originální abstrakt

The article presents an analysis of the influence of power line characteristic and power line topology parameters on transfer function. The effects of load impedance, branch length, number of branches, and time and frequency selectivity of terminal impedance are shown in this analysis. The analysis results give power line network parameters which have a significant effect on the transfer function and attenuation. Based on this analysis, a method for managing the power line topology is proposed.

Anglický abstrakt

The article presents an analysis of the influence of power line characteristic and power line topology parameters on transfer function. The effects of load impedance, branch length, number of branches, and time and frequency selectivity of terminal impedance are shown in this analysis. The analysis results give power line network parameters which have a significant effect on the transfer function and attenuation. Based on this analysis, a method for managing the power line topology is proposed.

Dokumenty

BibTex


@inproceedings{BUT110250,
  author="Petr {Mlýnek} and Jiří {Mišurec} and Martin {Koutný} and Radek {Fujdiak}",
  title="Transfer Function of Power Line Channel – Influence of Topology Parameters and Power Line Topology Estimation",
  annote="The article presents an analysis of the influence of power line characteristic and power line topology parameters on transfer function. The effects of load impedance, branch length, number of branches, and time and frequency selectivity of terminal impedance are shown in this analysis. The analysis results give power line network parameters which have a significant effect on the transfer function and attenuation. Based on this analysis, a method for managing the power line topology is proposed.",
  booktitle="The 5th IEEE PES Innovative Smart Grid Technologies (ISGT) European 2014 Conference",
  chapter="110250",
  howpublished="electronic, physical medium",
  year="2014",
  month="october",
  pages="1--5",
  type="conference paper"
}