Future Internet (Apr 2022)

Channel Characterization and SC-FDM Modulation for PLC in High-Voltage Power Lines

  • Jose Alberto Del Puerto-Flores,
  • José Luis Naredo,
  • Fernando Peña-Campos,
  • Carolina Del-Valle-Soto,
  • Leonardo J. Valdivia,
  • Ramón Parra-Michel

DOI
https://doi.org/10.3390/fi14050139
Journal volume & issue
Vol. 14, no. 5
p. 139

Abstract

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Digital communication over power lines is an active field of research and most studies in this field focus on low-voltage (LV) and medium-voltage (MV) power systems. Nevertheless, as power companies are starting to provide communication services and as smart-grid technologies are being incorporated into power networks, high-voltage (HV) power-line communication has become attractive. The main constraint of conventional HV power-line carrier (PLC) systems is their unfeasibility for being migrated to wideband channels, even with a high signal-to-noise ratio (SNR). In this scenario, none of the current linear/non-linear equalizers used in single carrier schemes achieve the complete compensation of the highly dispersive conditions, which limits their operation to 4 kHz channels. In this paper, a new PLC-channel model is introduced for transmission lines incorporating the effects of the coupling equipment. In addition, the use of the single-carrier frequency-division modulation (SC-FDM) is proposed as a solution to operate PLC systems in a wide bandwidth, achieving transmission speeds above those of the conventional PLC system. The results presented in this paper demonstrate the superior performance of the SC-FDM-PLC over conventional PLC systems, obtaining a higher transmission capacity in 10 to 30 times.

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