Feasibility study of PMU based on IEEE 1588

The principal function of phasor measurement unit (PMU) is the synchronized collection of data from each node of the power system, monitoring of the important nodal voltage phasors. It plays an increasingly important role in the security operation of the grid. Precision timing signal is the basis of the synchronized collection of data. IEEE 1588 is the standard for a precision clock synchronization protocol for networked measurement and control system. The capital function of IEEE 1588 is to make the most accurate clock of distributed network synchronized with the other clocks of the network. As a result, the clocks of the network will keep synchronization. The features of radio communication are employed to minimize the synchronous information, and the synchronous system can readily achieve sub-microsecond accuracy. Researchers of the automation, communications and other industrial areas pay more and more attention to the standard. This paper analyzes the operation principle of the standard and compares the performance of the GPS and the IEEE 1588 protocol. A new accurate time synchronization scheme was proposed which is in accordance with the IEEE 1588 protocol and can be used in the PMU, and the structure modes were given. Finally, the feasibility of the scheme was analyzed.

[1]  Deog-Kyoon Jeong,et al.  A Practical Implementation of IEEE 1588-2008 Transparent Clock for Distributed Measurement and Control Systems , 2010, IEEE Transactions on Instrumentation and Measurement.

[2]  Carlo Muscas,et al.  A PMU fortheMeasurement ofSynchronized Harmonic Phasors inThree-Phase Distribution Networks , 2008, IMTC 2008.

[3]  Antonio Moreno-Munoz,et al.  A experimental IEEE1588-BASED system for synchronized phasor measurement in electric subestation , 2010, 2010 5th IEEE Conference on Industrial Electronics and Applications.

[4]  Du Yan-sen Research of Time Synchronization in Digital Substation Based on IEEE 1588 , 2008 .

[5]  Carlo Muscas,et al.  GPS and IEEE 1588 synchronization for the measurement of synchrophasors in electric power systems , 2011, Comput. Stand. Interfaces.

[6]  Zhang Run-dong Analysis of IEEE 1588 Precision Clock Synchronization Protocol Version 2.0 , 2010 .

[7]  Long Fei,et al.  Research of time synchronization in digital substation based on IEEE 1588 , 2010, The 2nd International Conference on Information Science and Engineering.

[8]  Guo Jinghong The Research of Precision Time Protocol IEEE 1588 , 2009 .

[9]  Wang Peng Feasibility Study of PMU Based on the Beidou Satellite Navigation and Position System , 2005 .

[10]  Cheng Shijie Development of high quality time synchronous device based on GPS , 2003 .

[11]  Wu Jing-tao STUDY ON DISTRIBUTED PMU FOR SYNCHRONOUS PHASOR MEASUREMENT USING MUTUALLY BACKUP SYNCHRONIZATION SIGNALS FROM BOTH BEIDOU SATELLITE NAVIGATION SYSTEM AND GLOBAL POSITIONING SYSTEM , 2005 .

[12]  Y. Ota,et al.  Evaluation of stability and electric power quality in power system by using phasor measurements , 2000, PowerCon 2000. 2000 International Conference on Power System Technology. Proceedings (Cat. No.00EX409).