Hermes Eslava¹, Luis Alejandro Rojas¹, Danny Pineda^2
1Universidad Distrital, Bogotá, Colombia.
²Openlink Sistemas DE Redes DE Datos S.A.S, Bogotá, Colombia.
DOI: 10.4236/jpee.2015.34004   PDF    HTML     5,607 Downloads   6,300 Views   Citations

Abstract

Optical fiber has been used as typical physical transmission medium in Colombian high power substations for effective communication between substations and control centers. However, suita- ble transmissions of tele-protection services continues to be a challenging area in the electrical- supply sector since link stability as well as various performance tests suggest that link recurrence requirements still exhibit limitations when using Metroethernet networks in this context. At pre- sent, improvements have been achieved via proprietary protocols such as Mirrored Bits, which matches the performance of a tele-protection link transmission under normal operation conditions. However, this imposes commercial limitations on the Colombian electrical-supply sector since proprietary protocols hinder fair competition among manufacturers. This is the rationale behind conducting trials with precision time protocol as it is defined in IEEE 1588 standard. The main purpose is to validate whether, under real operation conditions, it is possible to substitute such tele-protection links via Metroethernet networks, yet considering a standard protocol that allows incorporating various pieces of equipment from different manufacturers into the system as well as providing common benefits derived from using this type of communication networks. The present work provides technical results obtained after conducting various simulated tele-trigger tests, including stress tests, where results-stability validation occurs through network-saturation simulations. These saturation conditions are achieved by incorporating additional traffic, which involves several switching events over link paths and permits validating tele-protection-response timing when specifically using IEEE 1588 precision time protocol. Based on the aforementioned reasons as well as on the resulting benefits, a series of laboratory tests have been defined in order to evaluate delay and availability on tele-protection services when transported over IP networks.

Keywords

Metro Ethernet, IEEE 1588, IEC 61850, Tele-Protection, Effective Communications, Tele-Trigger Simulations

Share and Cite:

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Martin, A. and Francisco, G. (2013) Temas específicos de comunicaciones II: Ethernet/IP. http://www.monografias.com/trabajos-pdf2/ethernet-ip/ethernet-ip.pdf
[2]	Comino, R. and Stittmatter, M. (2011) Protección avanzada de redes eléctricas: La próxima generación de soluciones de teleprotección. ABB revista, 2-8.
[3]	I. Cisco Systems (2005) Servicios y Soluciones Metro Ethernet. Cisco Systems, Inc.
[4]	Calero, R. (2007) Laboratorio de comunicaciones: Redes Metro Ethernet. FIUBA, Buenos Aires.
[5]	UNAM (2011) Consideraciones sobre el Protocolo IEC-61850. UNAM, Ciudad de Mexico.
[6]	IEC61850 (2008) Communication Networks and Systems for Power Utility Automation. International Electrotechnical Commission, IEC 61850, 2, 57/942/CDV.
[7]	Fing (2007) Estabilidad de Sistemas Eléctricos de Potencia. In: Capítulo 5: Estabilidad Transitoria, Protecciones, Montevideo, Universidad de la República, Instituto de Ingeniería Eléctrica, 2-31.
[8]	Sena, C. (2010) Tesis Oscilación de potencia en los sistemas eléctricos: protección y control, Montevideo: Universidad de la República, Maestría en Ingeniería Eléctrica, 6-19.
[9]	Villalón, E.P. (2008) Dise?o y Optimización de una Arquitectura IEC61850. ESCUELA TéCNICA SUPERIOR DE INGENIERíA (ICAI), Madrid, Junio.