Title :
Synchrophasor time skew: Formulation, detection and correction
Author :
Zhang, Qiang Frankie ; Venkatasubramanian, Vaithianathan Mani
Author_Institution :
Bus. Archit. & Technol., ISO New England Inc., Holyoke, MA, USA
Abstract :
The most critical part of the synchrophasor technology is the availability of accurate UTC time. Usually an external GPS clock device feeds PMU with 1 pulse per second time signals. During the second, PMU´s internal clock keeps the pace until the next time signal arrives. Because of various reasons, time skews have been observed in some real life synchrophasor data. Two fundamental types of time skews are identified in this paper. Synchrophasor time skew problem is fundamentally different from that in SCADA system, because time shift is translated into error in phase angle measurements and subsequent errors in frequency and rate of change of frequency measurements. Algorithms are developed to automatically detect time skews online and to estimate the time errors. A correction method is also provided. Both simulated data and real life data are used to verify that the proposed methods are effective and accurate.
Keywords :
Global Positioning System; SCADA systems; phasor measurement; signal detection; PMU internal clock; SCADA system; UTC time; external GPS clock device; phase angle measurement error correction method; rate of change of frequency measurement; synchrophasor time skew correction; synchrophasor time skew detection; time shift; universal time coordination; Accuracy; Clocks; Global Positioning System; Phasor measurement units; Synchronization; Time-frequency analysis; Accuracy; Clocks; Detection algorithms; Error correction; Modeling; Phasor measurement units;
Conference_Titel :
North American Power Symposium (NAPS), 2014
Conference_Location :
Pullman, WA
DOI :
10.1109/NAPS.2014.6965457
