Implementing IEC 61850-7-420 DER Logical Nodes in a single board computer

Salazar-Zuluaga, Anderson; Aguilar-Londoño, Luis A.; Zapata-Madrigal, Germán D.; García-Sierra, Rodolfo

Implementación de Nodos Lógicos DER IEC 61850-7-420 en una placa electrónica

dc.creator	Salazar-Zuluaga, Anderson
dc.creator	Aguilar-Londoño, Luis A.
dc.creator	Zapata-Madrigal, Germán D.
dc.creator	García-Sierra, Rodolfo
dc.date	2017-09-04
dc.date.accessioned	2021-03-18T21:06:47Z
dc.date.available	2021-03-18T21:06:47Z
dc.identifier	https://revistas.itm.edu.co/index.php/tecnologicas/article/view/701
dc.identifier	10.22430/22565337.701
dc.identifier.uri	http://test.repositoriodigital.com:8080/handle/123456789/11699
dc.description	This article discusses the implementation of a variety of logical nodes (LNs) of power generation systems based on distributed energy resources (DER) in a single board computer (SBC). The SBC allows for the acquisition and encapsulation of analog signals from a photovoltaic (PV) array with batteries, based on the IEC 61850-7-420 standard. To achieve this, an SBC integrated with an analog-digital conversion card (ADC) enables to read the system’s analog values. The SBC communicates with the ADC card to encapsulate the collected data in the IEC 61850 data object by using the corresponding logical node (LN). An open license library was used to create the IEC 61850 server inside the SBC and the driver of the ADC card manufacturer to communicate both cards. This work aims to develop LNs for DERs in such way that manufacturers of power generation technologies based on renewable sources (such as the sun and/or the wind) implement Intelligent Electronic Devices (IED) and controllers in accordance with the scope of the standard for these logical nodes (LNs). Finally, the communication testing of the implementation and the results obtained are presented.	en-US
dc.description	En este artículo se presenta la implementación de una variedad de nodos lógicos (NLs) de sistemas de generación basados en recursos energéticos distribuidos (DER), en una placa electrónica (o SBC) que permite la adquisición y empaquetamiento de señales analógicas de un arreglo fotovoltaico con baterías, con base en el estándar IEC 61850-7-420. Para esto, se usa una placa electrónica SBC (Single Board Computer) integrada con una tarjeta de conversión análogo digital (ADC) que permite la lectura de los valores analógicos del sistema. La SBC se comunica con la tarjeta ADC para empaquetar los datos leídos dentro de los objetos de datos propios del estándar IEC 61850, usando el nodo lógico (NL) respectivo. Se usó una librería con licencia abierta para la creación del servidor IEC 61850 en la placa electrónica, y el driver del fabricante de la tarjeta ADC para comunicar las dos tarjetas efectivamente. Lo que se busca con este trabajo es el desarrollo de nodos lógicos (NLs) para recursos energéticos distribuidos (DER), de tal forma que los fabricantes de tecnologías de generación basadas en fuentes renovables, como la solar y/o la eólica, incorporen los equipos electrónicos inteligentes (IED) y los controladores de acuerdo con la extensión del estándar para estos nodos lógicos. Se presentan las pruebas de comunicación de la implementación realizada y los resultados obtenidos.	es-ES
dc.format	application/pdf
dc.language	spa
dc.publisher	Instituto Tecnológico Metropolitano (ITM)	en-US
dc.relation	https://revistas.itm.edu.co/index.php/tecnologicas/article/view/701/682
dc.relation	/ref/L. Zhu, D. Shi, and P. Wang, “IEC 61850-Based Information Model and Configuration Description of Communication Network in Substation Automation,” Power Deliv. IEEE Trans., vol. 29, no. 1, pp. 97–107, 2014. [2] A. Timbus, M. Larsson, and C. Yuen, “Active Management of Distributed Energy Resources Using Standardized Communications and Modern Information Technologies,” Ind. Electron. IEEE Trans., vol. 56, no. 10, pp. 4029–4037, 2009. [3] J. Schmutzler, C. Wietfeld, and C. A. Andersen, “Distributed energy resource management for electric vehicles using IEC 61850 and ISO/IEC 15118,” Veh. Power Propuls. Conf. (VPPC), 2012 IEEE, pp. 1457–1462, 2012. [4] N. Honeth, W. Yiming, N. Etherden, and L. Nordstrom, “Application of the IEC 61850-7-420 data model on a Hybrid Renewable Energy System,” PowerTech, 2011 IEEE Trondheim, pp. 1–6, 2011. [5] F. Andren, R. Brundlinger, and T. Strasser, “IEC 61850/61499 Control of Distributed Energy Resources: Concept, Guidelines, and Implementation,” Energy Conversion, IEEE Trans., vol. 29, no. 4, pp. 1008–1017, 2014. [6] W. Shi, X. Xie, C.-C. Chu, and R. Gadh, “Distributed Optimal Energy Management in Microgrids,” Smart Grid, IEEE Trans., vol. 6, no. 3, pp. 1137–1146, 2015. [7] H. J. Laaksonen, “Protection Principles for Future Microgrids,” Power Electron. IEEE Trans., vol. 25, no. 12, pp. 2910–2918, 2010. [8] T. S. Ustun, C. Ozansoy, and A. Zayegh, “Simulation of communication infrastructure of a centralized microgrid protection system based on IEC 61850-7-420,” in Smart Grid Communications (SmartGridComm), 2012 IEEE Third International Conference on, 2012, pp. 492–497. [9] T. S. Ustun, C. Ozansoy, and A. Zayegh, “Modeling of a Centralized Microgrid Protection System and Distributed Energy Resources According to IEC 61850-7-420,” Power Syst. IEEE Trans., vol. 27, no. 3, pp. 1560–1567, 2012. [10] T. S. Ustun, C. R. Ozansoy, and A. Zayegh, “Implementing Vehicle-to-Grid (V2G) Technology With IEC 61850-7-420,” IEEE Trans. Smart Grid, vol. 4, no. 2, pp. 1180–1187, Jun. 2013. [11] T. S. Ustun, C. Ozansoy, and A. Zayegh, “Extending IEC 61850-7-420 for distributed generators with fault current limiters,” in Innovative Smart Grid Technologies Asia (ISGT), 2011 IEEE PES, 2011, pp. 1–8. [12] A. Apostolov, “Integration of distributed energy resources in electric power systems,” Energize RE Renew. Energy Suppl., no. June, pp. 1–12, 2015. [13] IEC International Electrotechnical Commission, “Communication networks and systems for power utility automation – Part 7-4: Basic communication structure – Compatible logical node classes and data object classes.” 2010. [14] IEC International Electrotechnical Commission, “Communication networks and systems for power utility automation – Part 7-2: Basic information and communication structure – Abstract communication service interface (ACSI).” 2010. [15] IEC International Electrotechnical Commission, “IEC 61850 Part 7-420 DER Logical Nodes: Communication Networks and Systems for Power Utility Automation for Distributed Energy Resources (DER).” 2010. [16] K. Schwarz, “IEC 61850 and IEC 61400-25 Logical Node Classes.” Netted Automation, p. 7, 2012. [17] M. Zillgith, “libIEC61850,” 2015. [Online]. Available: http://libiec61850.com/libiec61850/contact/. [18] IEC International Electrotechnical Commission, “Communication networks and systems for power utility automation – Part 6: Configuration description language for communication in electrical substations related to IEDs.” 2010.
dc.rights	https://creativecommons.org/licenses/by/3.0/deed.es_ES	en-US
dc.source	TecnoLógicas; Vol. 20 No. 40 (2017); 13-28	en-US
dc.source	TecnoLógicas; Vol. 20 Núm. 40 (2017); 13-28	es-ES
dc.source	2256-5337
dc.source	0123-7799
dc.subject	Renewable energy	en-US
dc.subject	IEC 61850-7-420	en-US
dc.subject	logical nodes	en-US
dc.subject	single board computer	en-US
dc.subject	distributed energy resources	en-US
dc.subject	Energías renovables	es-ES
dc.subject	IEC 61850-7-420	es-ES
dc.subject	nodos lógicos	es-ES
dc.subject	placa electrónica SBC	es-ES
dc.subject	recursos energéticos distribuidos	es-ES
dc.title	Implementing IEC 61850-7-420 DER Logical Nodes in a single board computer	en-US
dc.title	Implementación de Nodos Lógicos DER IEC 61850-7-420 en una placa electrónica	es-ES
dc.type	info:eu-repo/semantics/article
dc.type	info:eu-repo/semantics/publishedVersion
dc.type	Research Papers	en-US
dc.type	Artículos de investigación	es-ES

Ficheros en el ítem

Ficheros	Tamaño	Formato	Ver
No hay ficheros asociados a este ítem.

Este ítem aparece en la(s) siguiente(s) colección(ones)

tecnologia [520]

Mostrar el registro sencillo del ítem