A New Coupling Solution for G3-PLC Employment in MV Smart Grids

A New Coupling Solution for G3-PLC Employment in MV Smart Grids

This paper proposes a new coupling solution for transmitting narrowband multicarrier power line communication (PLC) signals over medium voltage (MV) power lines. The proposed system is based on an innovative PLC coupling principle, patented by the authors, which exploits the capacitive divider embed...

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Main Authors: Giovanni Artale, Antonio Cataliotti, Valentina Cosentino, Dario Di Cara, Riccardo Fiorelli, Salvatore Guaiana, Nicola Panzavecchia, Giovanni Tinè
Format: Article
Language:English
Published: MDPI AG 2019-06-01
Series:Energies
Subjects:
power system communication
power system measurements
smart grids
communication system performance
narrow band power line communication
ICT infrastructure for smart grid
Online Access:https://www.mdpi.com/1996-1073/12/13/2474
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spelling doaj-b0ba7aa2dd734e3790cc4f521f2f5c442020-11-25T01:07:47ZengMDPI AGEnergies1996-10732019-06-011213247410.3390/en12132474en12132474A New Coupling Solution for G3-PLC Employment in MV Smart GridsGiovanni Artale0Antonio Cataliotti1Valentina Cosentino2Dario Di Cara3Riccardo Fiorelli4Salvatore Guaiana5Nicola Panzavecchia6Giovanni Tinè7Department of Engineering, Università degli Studi di Palermo, 90128 Palermo, ItalyDepartment of Engineering, Università degli Studi di Palermo, 90128 Palermo, ItalyDepartment of Engineering, Università degli Studi di Palermo, 90128 Palermo, ItalyInstitute of Marine Engineering (INM), National Research Council (CNR), 90146 Palermo, ItalySTMicroelectronics S.r.l., 20864 Agrate, ItalyDepartment of Engineering, Università degli Studi di Palermo, 90128 Palermo, ItalyInstitute of Marine Engineering (INM), National Research Council (CNR), 90146 Palermo, ItalyInstitute of Marine Engineering (INM), National Research Council (CNR), 90146 Palermo, ItalyThis paper proposes a new coupling solution for transmitting narrowband multicarrier power line communication (PLC) signals over medium voltage (MV) power lines. The proposed system is based on an innovative PLC coupling principle, patented by the authors, which exploits the capacitive divider embedded in voltage detecting systems (VDS) already installed inside the MV switchboard. Thus, no dedicated couplers have to be installed and no switchboard modifications or energy interruptions are needed. This allows a significant cost reduction of MV PLC implementation. A first prototype of the proposed coupling system was presented in previous papers: it had a 15 kHz bandwidth useful to couple single carrier PSK modulated PLC signals with a center frequency from 50−200 kHz. In this paper, a new prototype is developed with a larger bandwidth, up to 164 kHz, thus allowing to couple multicarrier G3-PLC signals using orthogonal frequency division multiplexing (OFDM) digital modulation. This modulation ensures a more robust communication even in harsh power line channels. In the paper, the new coupling system design is described in detail. A new procedure is presented for tuning the coupling system parameters at first installation in a generic MV switchboard. Finally, laboratory and in-field experimental test results are reported and discussed. The coupling performances are evaluated measuring the throughput and success rate in the case of both 18 and 36 subcarriers, in one of the different tone masks standardized for the FCC-above CENELEC band (that is, from 154.6875−487.5 kHz). The experimental results show an efficient behavior of the proposed coupler allowing a two-way communication of G3-PLC OFDM signals on MV networks.https://www.mdpi.com/1996-1073/12/13/2474power system communicationpower system measurementssmart gridscommunication system performancenarrow band power line communicationICT infrastructure for smart grid
collection DOAJ
language English
format Article
sources DOAJ
author Giovanni Artale
Antonio Cataliotti
Valentina Cosentino
Dario Di Cara
Riccardo Fiorelli
Salvatore Guaiana
Nicola Panzavecchia
Giovanni Tinè
spellingShingle Giovanni Artale
Antonio Cataliotti
Valentina Cosentino
Dario Di Cara
Riccardo Fiorelli
Salvatore Guaiana
Nicola Panzavecchia
Giovanni Tinè
A New Coupling Solution for G3-PLC Employment in MV Smart Grids
Energies
power system communication
power system measurements
smart grids
communication system performance
narrow band power line communication
ICT infrastructure for smart grid
author_facet Giovanni Artale
Antonio Cataliotti
Valentina Cosentino
Dario Di Cara
Riccardo Fiorelli
Salvatore Guaiana
Nicola Panzavecchia
Giovanni Tinè
author_sort Giovanni Artale
title A New Coupling Solution for G3-PLC Employment in MV Smart Grids
title_short A New Coupling Solution for G3-PLC Employment in MV Smart Grids
title_full A New Coupling Solution for G3-PLC Employment in MV Smart Grids
title_fullStr A New Coupling Solution for G3-PLC Employment in MV Smart Grids
title_full_unstemmed A New Coupling Solution for G3-PLC Employment in MV Smart Grids
title_sort new coupling solution for g3-plc employment in mv smart grids
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2019-06-01
description This paper proposes a new coupling solution for transmitting narrowband multicarrier power line communication (PLC) signals over medium voltage (MV) power lines. The proposed system is based on an innovative PLC coupling principle, patented by the authors, which exploits the capacitive divider embedded in voltage detecting systems (VDS) already installed inside the MV switchboard. Thus, no dedicated couplers have to be installed and no switchboard modifications or energy interruptions are needed. This allows a significant cost reduction of MV PLC implementation. A first prototype of the proposed coupling system was presented in previous papers: it had a 15 kHz bandwidth useful to couple single carrier PSK modulated PLC signals with a center frequency from 50−200 kHz. In this paper, a new prototype is developed with a larger bandwidth, up to 164 kHz, thus allowing to couple multicarrier G3-PLC signals using orthogonal frequency division multiplexing (OFDM) digital modulation. This modulation ensures a more robust communication even in harsh power line channels. In the paper, the new coupling system design is described in detail. A new procedure is presented for tuning the coupling system parameters at first installation in a generic MV switchboard. Finally, laboratory and in-field experimental test results are reported and discussed. The coupling performances are evaluated measuring the throughput and success rate in the case of both 18 and 36 subcarriers, in one of the different tone masks standardized for the FCC-above CENELEC band (that is, from 154.6875−487.5 kHz). The experimental results show an efficient behavior of the proposed coupler allowing a two-way communication of G3-PLC OFDM signals on MV networks.
topic power system communication
power system measurements
smart grids
communication system performance
narrow band power line communication
ICT infrastructure for smart grid
url https://www.mdpi.com/1996-1073/12/13/2474
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