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A Remedy to Losing Time Synchronization at D-PMUs, H-PMUs, and WMUs in Event Location Identification in Power Distribution Systems

Zong-Jhen Ye, Milad Izadi, Mohammad Farajollahi, Hamed Mohsenian‐Rad

2023IEEE Transactions on Smart Grid12 citationsDOI

Abstract

Recent advancements in synchronized sensor technologies has introduced an unprecedented level of visibility in power distribution systems. Apart from the Distribution-level Phasor Measurement Units (D-PMUs), a.k.a. micro-PMUs, that have been widely used in recent years, other synchronized sensors have also been developed in this field, including Harmonic Phasor Measurement Units (H-PMUs) and Waveform Measurement Units (WMUs). However, in practice, it is common for these sensors to lose time synchronization over some periods of time and for different reasons. In this paper, we propose new and customized solutions to tackle loss of time synchronization in D-PMUs, H-PMUs, and WMUs, whereby addressing the unique challenges in each case. Our focus is on solving the event location identification problem, for different types of steady-state and transient events. We show that, our methods can maintain high accuracy in event location identification, despite losing time synchronization, whether we use D-PMUs, H-PMUs, or WMUs.

Topics & Concepts

PhasorUnits of measurementSynchronization (alternating current)Identification (biology)Phasor measurement unitTransient (computer programming)Real-time computingWaveformField (mathematics)Computer scienceEvent (particle physics)Power (physics)EngineeringElectric power systemElectronic engineeringElectrical engineeringMathematicsPhysicsTopology (electrical circuits)VoltageOperating systemPure mathematicsBiologyBotanyQuantum mechanicsNetwork Time Synchronization TechnologiesPower Systems Fault DetectionSmart Grid Security and Resilience
A Remedy to Losing Time Synchronization at D-PMUs, H-PMUs, and WMUs in Event Location Identification in Power Distribution Systems | Litcius