A Multilayer Eigen-Sensitivity Method Using Loop Gain Model for Oscillation Diagnosis of Converter-Based System
Abstract
Loop gain-based eigen-sensitivity (LGES) is a useful frequency-domain tool for oscillation diagnosis of converter-based system. However, the existing theory is still scant in two aspects: participation factor (PF) is bound up with the frequency-domain modal characteristic that does not necessarily point to the stability as that of the time-domain eigen-sensitivity (i.e., PF of oscillation mode); a systematic LGES analysis framework containing both component- and parameter- level sensitivity is missing. These two factors hinder the application of LGES method on the proper evaluation of stability effects, which are closely related with the time-domain oscillation mode. To address these issues, this paper proposes a multilayer LGES method directed to the oscillation mode, and a full set of indices like PF, component and parameter sensitivity are established. The link from the eigen-sensitivity of frequency domain to that of time domain is revealed, through which it is shown how the proposed LGES method can facilitate the control parameter tuning-guided oscillation suppression. The effectiveness of the proposed LGES method is validated via case studies conducted on a generic AC/DC converter-based system.
Keywords
Cite
@article{arxiv.2402.12057,
title = {A Multilayer Eigen-Sensitivity Method Using Loop Gain Model for Oscillation Diagnosis of Converter-Based System},
author = {Haoxiang Zong and Chen Zhang and Xu Cai and Marta Molinas},
journal= {arXiv preprint arXiv:2402.12057},
year = {2024}
}
Comments
8 pages, 8 figures, to be published in CSEE Journal of Power and Energy Systems