A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants
Within this study, single-cable propagation facilitated by PV strings’ wiring characteristics is considered for an adapted design of PLC electronics. We propose to close the communications signal path, resulting in a ring topology where a resonance condition could be implemented. A PLC topology usin...
- Autores:
-
Morales-Aragonés, José Ignacio
Michael Williams, Matthew St.
Gómez, Víctor Alonso
Gallardo-Saavedra, Sara
Redondo-Plaza, Alberto
Fernández-Martínez, Diego
Sánchez-Pacheco, Francisco José
Fajardo Cuadro, Juan Gabriel
Hernández-Callejo, Luis
- Tipo de recurso:
- Fecha de publicación:
- 2022
- Institución:
- Universidad Tecnológica de Bolívar
- Repositorio:
- Repositorio Institucional UTB
- Idioma:
- eng
- OAI Identifier:
- oai:repositorio.utb.edu.co:20.500.12585/11132
- Palabra clave:
- Loop antenna
Power line communication
Resonance
Single-wire transmission
Tuning
- Rights
- openAccess
- License
- http://creativecommons.org/licenses/by-nc-nd/4.0/
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dc.title.es_CO.fl_str_mv |
A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants |
title |
A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants |
spellingShingle |
A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants Loop antenna Power line communication Resonance Single-wire transmission Tuning |
title_short |
A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants |
title_full |
A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants |
title_fullStr |
A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants |
title_full_unstemmed |
A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants |
title_sort |
A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants |
dc.creator.fl_str_mv |
Morales-Aragonés, José Ignacio Michael Williams, Matthew St. Gómez, Víctor Alonso Gallardo-Saavedra, Sara Redondo-Plaza, Alberto Fernández-Martínez, Diego Sánchez-Pacheco, Francisco José Fajardo Cuadro, Juan Gabriel Hernández-Callejo, Luis |
dc.contributor.author.none.fl_str_mv |
Morales-Aragonés, José Ignacio Michael Williams, Matthew St. Gómez, Víctor Alonso Gallardo-Saavedra, Sara Redondo-Plaza, Alberto Fernández-Martínez, Diego Sánchez-Pacheco, Francisco José Fajardo Cuadro, Juan Gabriel Hernández-Callejo, Luis |
dc.subject.keywords.es_CO.fl_str_mv |
Loop antenna Power line communication Resonance Single-wire transmission Tuning |
topic |
Loop antenna Power line communication Resonance Single-wire transmission Tuning |
description |
Within this study, single-cable propagation facilitated by PV strings’ wiring characteristics is considered for an adapted design of PLC electronics. We propose to close the communications signal path, resulting in a ring topology where a resonance condition could be implemented. A PLC topology using the resulting circular closed-loop path of a PV series string as its physical communication support is designed and leveraged for practical use. When the path length or the number of transceivers is changed, the resonance properties that come with the circular path as the physical support are affected but are shown to be preserved with the application of automatic adjustable tuning. This automatic tuning guarantees that the resonance improves propagation parameters and reverts the system to its optimal values at the chosen carrier frequency. |
publishDate |
2022 |
dc.date.accessioned.none.fl_str_mv |
2022-10-27T21:38:18Z |
dc.date.available.none.fl_str_mv |
2022-10-27T21:38:18Z |
dc.date.issued.none.fl_str_mv |
2022-08-09 |
dc.date.submitted.none.fl_str_mv |
2022-10-26 |
dc.type.driver.es_CO.fl_str_mv |
info:eu-repo/semantics/article |
dc.type.hasversion.es_CO.fl_str_mv |
info:eu-repo/semantics/restrictedAccess |
dc.type.spa.es_CO.fl_str_mv |
http://purl.org/coar/resource_type/c_2df8fbb1 |
dc.identifier.citation.es_CO.fl_str_mv |
Morales-Aragonés, J.I.; Williams, M.S.M.; Gómez, V.A.; Gallardo-Saavedra, S.; Redondo-Plaza, A.; Fernández-Martínez, D.; Sánchez-Pacheco, F.J.; Cuadro, J.G.F.; Hernández-Callejo, L. A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants. Appl. Sci. 2022, 12, 7973. https://doi.org/10.3390/app12167973 |
dc.identifier.uri.none.fl_str_mv |
https://hdl.handle.net/20.500.12585/11132 |
dc.identifier.doi.none.fl_str_mv |
https://doi.org/10.3390/app12167973 |
dc.identifier.instname.es_CO.fl_str_mv |
Universidad Tecnológica de Bolívar |
dc.identifier.reponame.es_CO.fl_str_mv |
Repositorio Universidad Tecnológica de Bolívar |
identifier_str_mv |
Morales-Aragonés, J.I.; Williams, M.S.M.; Gómez, V.A.; Gallardo-Saavedra, S.; Redondo-Plaza, A.; Fernández-Martínez, D.; Sánchez-Pacheco, F.J.; Cuadro, J.G.F.; Hernández-Callejo, L. A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants. Appl. Sci. 2022, 12, 7973. https://doi.org/10.3390/app12167973 Universidad Tecnológica de Bolívar Repositorio Universidad Tecnológica de Bolívar |
url |
https://hdl.handle.net/20.500.12585/11132 https://doi.org/10.3390/app12167973 |
dc.language.iso.es_CO.fl_str_mv |
eng |
language |
eng |
dc.rights.coar.fl_str_mv |
http://purl.org/coar/access_right/c_abf2 |
dc.rights.uri.*.fl_str_mv |
http://creativecommons.org/licenses/by-nc-nd/4.0/ |
dc.rights.accessrights.es_CO.fl_str_mv |
info:eu-repo/semantics/openAccess |
dc.rights.cc.*.fl_str_mv |
Attribution-NonCommercial-NoDerivatives 4.0 Internacional |
rights_invalid_str_mv |
http://creativecommons.org/licenses/by-nc-nd/4.0/ Attribution-NonCommercial-NoDerivatives 4.0 Internacional http://purl.org/coar/access_right/c_abf2 |
eu_rights_str_mv |
openAccess |
dc.format.extent.none.fl_str_mv |
14 Páginas |
dc.format.mimetype.es_CO.fl_str_mv |
application/pdf |
dc.publisher.place.es_CO.fl_str_mv |
Cartagena de Indias |
dc.source.es_CO.fl_str_mv |
Applied Sciences - Vol. 12 N° 16 (2022) |
institution |
Universidad Tecnológica de Bolívar |
bitstream.url.fl_str_mv |
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Morales-Aragonés, José Ignacio894c93cb-e8da-4ba2-bd5d-77133b255ce1Michael Williams, Matthew St.533bc301-a2f4-4ccc-b555-3ba965cf8f21Gómez, Víctor Alonso972daef3-0aca-44d7-a4fe-a2e4495db1ffGallardo-Saavedra, Sara31fdb5e2-be94-4cf5-9b6c-0f7a2a4935e7Redondo-Plaza, Albertoe8e84dbc-79e5-4203-96dc-1090a85f2954Fernández-Martínez, Diego6f26c7d0-119c-4e28-8ec9-fcf65b843c0cSánchez-Pacheco, Francisco Josée46e744b-03cc-4ad8-9a0b-e7e88198016aFajardo Cuadro, Juan Gabriel4f4a85b8-c73e-4b8d-8b06-17fa2bf10afaHernández-Callejo, Luisae2226ae-ba0f-46ef-8738-0231270f5b7d2022-10-27T21:38:18Z2022-10-27T21:38:18Z2022-08-092022-10-26Morales-Aragonés, J.I.; Williams, M.S.M.; Gómez, V.A.; Gallardo-Saavedra, S.; Redondo-Plaza, A.; Fernández-Martínez, D.; Sánchez-Pacheco, F.J.; Cuadro, J.G.F.; Hernández-Callejo, L. A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plants. Appl. Sci. 2022, 12, 7973. https://doi.org/10.3390/app12167973https://hdl.handle.net/20.500.12585/11132https://doi.org/10.3390/app12167973Universidad Tecnológica de BolívarRepositorio Universidad Tecnológica de BolívarWithin this study, single-cable propagation facilitated by PV strings’ wiring characteristics is considered for an adapted design of PLC electronics. We propose to close the communications signal path, resulting in a ring topology where a resonance condition could be implemented. A PLC topology using the resulting circular closed-loop path of a PV series string as its physical communication support is designed and leveraged for practical use. When the path length or the number of transceivers is changed, the resonance properties that come with the circular path as the physical support are affected but are shown to be preserved with the application of automatic adjustable tuning. This automatic tuning guarantees that the resonance improves propagation parameters and reverts the system to its optimal values at the chosen carrier frequency.14 Páginasapplication/pdfenghttp://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccessAttribution-NonCommercial-NoDerivatives 4.0 Internacionalhttp://purl.org/coar/access_right/c_abf2Applied Sciences - Vol. 12 N° 16 (2022)A Resonant Ring Topology Approach to Power Line Communication Systems within Photovoltaic Plantsinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/restrictedAccesshttp://purl.org/coar/resource_type/c_2df8fbb1Loop antennaPower line communicationResonanceSingle-wire transmissionTuningCartagena de IndiasMorales-Aragonés, J.I.; Gallardo-Saavedra, S.; Alonso-Gómez, V.; Sánchez-Pacheco, F.J.; González, M.A.; Martínez, O.; Muñoz-García, M.A.; Alonso-García, M.D.C.; Hernández-Callejo, L. Low-Cost Electronics for Online I-V Tracing at Photovoltaic Module Level: Development of Two Strategies and Comparison between Them. Electronics 2021, 10, 671.Kurniawan, A.; Taqwa, A.; Bow, Y. PLC Application as an Automatic Transfer Switch for on-grid PV System; Case Study Jakabaring Solar Power Plant Palembang. J. Phys. Conf. Ser. 2019, 1167, 012026Kabalci, E.; Kabalci, Y. A measurement and power line communication system design for renewable smart grids. Meas. Sci. Rev. 2013, 13, 248–252Ropp, M.E.; Aaker, K.; Haigh, J.; Sabbah, N. Using power line carrier communications to prevent islanding. In Proceedings of the Name of the Conference Record of the Twenty-Eighth IEEE Photovoltaic Specialists Conference-2000 (Cat. No. 00CH37036), Anchorage, AK, USA, 15–22 September 2000; pp. 1675–1678.Evans, D.; Cox, R. Powerline communications strategy enabling fully decentralized control of AC-stacked PV inverters. In Proceedings of the 2017 IEEE Energy Conversion Congress and Exposition (ECCE), Cincinnati, OH, USA, 1–5 October 2017; pp. 2277–2284.Han, J.; Choi, C.S.; Park, W.K.; Lee, I.; Kim, S.H. PLC-based photovoltaic system management for smart home energy management system. IEEE Trans. Consum. Electron. 2014, 60, 184–189Jonke, P.; Eder, C.; Stockl, J.; Schwark, M. Development of a module integrated photovoltaic monitoring system. In Proceedings of the IECON 2013-39th Annual Conference of the IEEE Industrial Electronics Society, Vienna, Austria, 10–13 November 2013; pp. 8080–8084.Mao, W.; Zhang, X.; Cao, R.; Wang, F.; Zhao, T.; Xu, L. A research on power line communication based on parallel resonant coupling technology in pv module monitoring. IEEE Trans. Ind. Electron. 2018, 65, 2653–2662.Goubau, G. Surface Waves and Their Application to Transmission Lines. J. Appl. Phys. 2004, 21, 1119Sommerfeld, A. Ueber die Fortpflanzung elektrodynamischer Wellen längs eines Drahtes. Ann. Phys. 1899, 303, 233–290.US8497749B2-Single Conductor Surface Wave Transmission Line System for Terminating E Field Lines at Points Along the Single Conductor-Google Patents. Available onlineRoberts, T.E. Theory of the Single-Wire Transmission Line. J. Appl. Phys. 2004, 24, 57Vaughn, B.; Peroulis, D. An updated applied formulation for the Goubau transmission line. J. Appl. Phys. 2019, 126, 194902.Santos, A.C.F.; Santos, W.S.; Aguiar, C.E. Electromagnetic wave velocities: An experimental approach. Eur. J. Phys. 2013, 34, 591–597Sanchez-Pacheco, F.J.; Sotorrio-Ruiz, P.J.; Heredia-Larrubia, J.R.; Perez-Hidalgo, F.; de Cardona, M.S. PLC-Based PV Plants Smart Monitoring System: Field Measurements and Uncertainty Estimation. IEEE Trans. Instrum. Meas. 2014, 63, 2215–2222Han, J.; Lee, I.; Kim, S.H. User-friendly monitoring system for residential PV system based on low-cost power line communication. IEEE Trans. Consum. Electron. 2015, 61, 175–180Ochiai, H.; Ikegami, H. PPLC-PV: A pulse power line communication for series-connected PV monitoring. In Proceedings of the 2016 IEEE International Conference on Smart Grid Communications, SmartGridComm 2016, Sydney, Australia, 6–9 November 2016; pp. 338–344.Chen, K.M.; King, R.W.P. A loop antenna coupled to a four-wire line and its possible use as an element in a circularly polarized end-fire array. Proc. IEE Part C Monogr. 1962, 109, 55Adekola, S.A. On the excitation of a circular loop antenna by travelling-and standing-wave current distributions. Int. J. Electron. 1983, 54, 705–732Boswell, A. Loop antennas in the 3-30 MHz band. In Proceedings of the 8th International Conference on High-Frequency Radio Systems and Techniques, Guildford, UK, 10–13 July 2000; pp. 33–36.Li, R.; Bushyager, N.A.; Laskar, J.; Tentzeris, M.M. Determination of reactance loading for circularly polarized circular loop antennas with a uniform traveling-wave current distribution. IEEE Trans. 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