Synchrophasor for Smart Grid with IEEE 1588-2008 Synchronism

• Autorzy: Pallares-Lopez V. , Moreno-Muńoz A. , Gonzalez de la Rosa J. , Gonzalez-Redondo M. , Real-Calvo R. , Moreno-Garcia I. , Gil de Castro A. , Domingo Perez F.

Warianty tytułu

PL

Synchronizator do sieci Smart Grid zgodny z IEEE 1588-2008

• Języki publikacji: EN

Abstrakty

EN

We propose a new synchronized technique for Smart Grid. A PTP-Based IEEE 1588-2008 Global System has been defined. Specifically for PMUs with synchronism needs up to the microsecond range, for Energy Measurements System (EMS), for Intelligent Electronics Devices (IEDs) and for automated real-time control systems called Special Integrity Protection Schemes (SIPS). This new Electronic Devices comprise two main technologies; a Single-Board-RIO and a Compact-RIO integrating the acquisition and synchronization with IEEE 1588-2008. For tasks such as PTP master a NI PCI_1588 card and a Symmetricom’s XLI IEEE1588 GrandMaster system for test. For the essays we have defined one experimental system for high precision Synchronism.

PL

W artykule zaproponowano nową technikę synchronizacji w sieciach typu Smart Grid. Zdefiniowany został system globalny oparty na PTP IEEE 1588-2008. Szczególnie jednostki Phasor Measurement Units (PMU) stosowane w układach Energy Measurements System (EMS), Intelligent Electronics Devices (IEDs) i w układach sterowania w czasie rzeczywistym typu Special Integrity Protection Schemes (SIPS) wymagają synchronizacji w czasie kilku mikrosekund. Te nowe układy elektroniczne składają się z dwóch głównych technologii: Single-Board-RIO i Compact- RIO integrujących w jednej strukturze układy akwizycyjne i synchronizacyjne zgodne z IEEE 1588-2008. W układzie testowym do realizacji zadań serwera Precision Time Protocol (PTP) zastosowano kartę NI PCI_1588 oraz jednostkę Symmetricom XLI IEEE1588 GrandMaster. Opracowany został także system testowy z synchronizacją wysokiej precyzji.

Słowa kluczowe

EN

PTP-Based IEEE 1588; synchrophasor; intelligent electronics devices; IEC 61850

PL

PTP-Based IEEE 1588; synchronizator; IEC 61850; inteligentne układy elektroniczne

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2012
• Tom: R. 88, nr 1a
• Strony: 31--36
• Opis fizyczny: Bibliogr. 26 poz., rys., schem.

Twórcy

autor

Pallares-Lopez V.

autor

Moreno-Muńoz A.

autor

Gonzalez de la Rosa J.

autor

Gonzalez-Redondo M.

autor

Real-Calvo R.

autor

Moreno-Garcia I.

autor

Gil de Castro A.

autor

Domingo Perez F.

• Electronics and Electronic Technology Area, Department of AC, Electronics and TE. University of Cordoba. SPAIN,

Bibliografia

• [1] Moreno-Muñoz, A., De La Rosa, J.J.G., Real-Calvo, R.J., Pallarés, V. (2010). “Embedding measurement in Distribution Automation Systems”. IEEE International Symposium on Industrial Electronics, art. no. 5637698, pp. 3722-3727.
• [2] Moreno-Muñoz, A. (2007). Power Quality: Mitigation Technologies in a Distributed Environment. Springer.
• [3] Jeff Katz; the Chief Technology Officer of the Energy and Utilities industry at IBM, Smart-grid-newsletter August 2011, http://smartgrid.ieee.org.
• [4] Pallares-Lopez, V.; Moreno-Munoz, A.; Gonzalez-Redondo, M.; Real-Calvo, R.; Garcia, I.M.; de Castro, A.G.; Perez, F.D.; de la Rosa, J.J.G.; “Deterministic Ethernet synchronism with PTP-base system for synchrophasor in Smart Grid”; Compatibility and Power Electronics (CPE), 2011 7th International Conference-Workshop; Page(s): 22 – 27.
• [5] Pallares-Lopez, V.; Moreno-Munoz, A.; Gonzalez-Redondo, M.; Real-Calvo, R.; Garcia, I.M.; de la Rosa, J.J.G.;” Synchrophasor integration in IEC 61850 standard for SmartGrid and synchronism with PTP-base system”, Industrial Electronics and Applications (ICIEA), 2011 6th IEEE Conference on, Page(s): 1507 – 1512.
• [6] NIST Special Publication 1108; “NIST Framework and Roadmap for Smart Grid Interoperability Standards, Release 1.0”. Janury 2010.
• [7] PAP13 61850 C37118 Harmonize and Synchronization; “Time Synchronization, IEC 61850 Objects/IEEE C37.118 Harmonization (6.1.2, 6.2.2)”. 2009.
• [8] Andrea Carta, Nicola Locci, Carlo Muscas, Member, IEEE, and Sara Sulis, Member, IEEE, “A Flexible GPS-Based System for Synchronized Phasor Measurement in Electric Distribution Networks”, IEEE transactions on instrumentation and measurement, VOL. 57, NO. 11, NOVEMBER 2008
• [9] IEEE 37.118-2005. IEEE Standard for Synchrophasors for Power System.
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• [11] PC37.238™/D5.6 2 Draft Standard Profile for Use of IEEE 3 Std. 1588 Precision Time Protocol in 4 Power System Applications. February 2011.
• [12] IEEE PC37.239™/D05 2 Draft Standard for Common Format for 3 Event Data Exchange (COMFEDE) for 4 Power Systems. May 2010.
• [13] IEEE Std 1588-2008, IEEE Standard for a Precision Clock Synchronization Protocol for Networked Measurement and Control Systems. (2008) The Institute for Electrical and Electronics Engineers, Inc., New York.
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• [17] Pallarés-López, V., Moreno-Muñoz, A., De La Rosa, J.J.G., Real-Calvo, R. (2010). “An IEEE1588-BASED system for synchronized PMUs and protective relaying functions”. SPEEDAM 2010 - International Symposium on Power Electronics, Electrical Drives, Automation and Motion, art. no. 5542201, pp. 593-598.
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• [20] Lee Barford, Member, IEEE, and Jeff Burch. “Fourier Analysis From Networked Measurements Using Time Synchronization”. IEEE Transactions on Instrumentation and Measurement. vol. 56, no. 5, october 2007
• [21] Synchronized Phasor Measurements and Their Applications. A.G. Phadke • J.S. Thorp. EDIT. Springer, 2008. ISBN: 978-0- 387-76535-8.
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