Interharmonic Power–A New Concept for Power System Oscillation Source Location

Abstract

Power system oscillations are a significant concern for system operators, a problem that has grown due to the interconnection of inverter-based resources. To address this issue, various methods have been proposed to locate the sources of oscillations, which is essential for effective mitigation actions. A common characteristic of these methods is that they rely on phasor representation of oscillation phenomena. This paper takes a different approach by examining the actual voltage and current waveforms underlying the phasors. It is found that the presence of interharmonic components is both the necessary and sufficient condition for phasor oscillations. Oscillation is the appearance of a beating waveform viewed from the phasor domain, and the beating waveform is created by interharmonics interacting with the fundamental frequency wave. As a result, the generation and propagation of interharmonics are the general cause of oscillation phenomena. Based on these insights, two new methods are developed for locating oscillation sources: one for measurement-based monitoring applications and another for model-based system studies. These findings are validated through four field data-based and one simulation-based case studies.