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Paper detail

Nonlinear Stability of Complex Droop Control in Converter-Based Power Systems

In this letter, we study the nonlinear stability problem of converter-based power systems, where the converter dynamics are governed by a complex droop control. This complex droop control augments the well-known power-frequency (p-f) droop control, and it proves to be equivalent to the state-of-the-art dispatchable virtual oscillator control (dVOC). In this regard, it is recognized as a promising grid-forming solution to address the high penetration of converters in future power systems. In previous work, the global stability of dVOC (i.e., complex droop control) has been proven by prespecifying a nominal synchronous steady state. For a general case of non-nominal (i.e., drooped) synchronous steady states, however, the stability problem requires further investigation. In this letter, we provide parametric conditions under which a non-nominal synchronous steady state exists and the system is almost globally asymptotically stable with respect to this non-nominal synchronous steady state.

preprint2023arXivOpen access
Xiuqiang HeVerena HäberleIrina SubotićFlorian Dörfler
Systems and Controleess.SY
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Xiuqiang HeVerena HäberleIrina SubotićFlorian Dörfler

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