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Hauptverfasser: Conte, Francesco, Mancilla-David, Fernando, Silvestro, Federico, Grillo, Samuele
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2605.26254
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author Conte, Francesco
Mancilla-David, Fernando
Silvestro, Federico
Grillo, Samuele
author_facet Conte, Francesco
Mancilla-David, Fernando
Silvestro, Federico
Grillo, Samuele
contents This paper proposes a systematic framework to assess the small-signal stability of power systems with high shares of grid-following inverter-based resources (IBRs) under varying controller parameters and operating conditions. Stability manifolds are introduced to identify controller-parameter regions that ensure stability across multiple scenarios. Full-network linearization and eigenvalue analysis are combined with adaptive sampling based on probabilistic support vector machine classification to approximate stability boundaries efficiently, while surrogate optimization identifies feasible initial controller settings meeting bandwidth and phase-margin constraints. The approach is validated on a modified Cigré European HV network benchmark with 50 operating scenarios and increasing inverter penetration. Results show that stability sensitivity grows with inverter share, interactions among IBRs reshape admissible parameter regions, and simplified equivalent-network models may overlook critical system-level limitations. The framework supports stability-oriented controller design and interconnection studies in converter-dominated systems.
format Preprint
id arxiv_https___arxiv_org_abs_2605_26254
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Small-Signal Stability Manifolds in Converter-Dominated Power Systems
Conte, Francesco
Mancilla-David, Fernando
Silvestro, Federico
Grillo, Samuele
Systems and Control
This paper proposes a systematic framework to assess the small-signal stability of power systems with high shares of grid-following inverter-based resources (IBRs) under varying controller parameters and operating conditions. Stability manifolds are introduced to identify controller-parameter regions that ensure stability across multiple scenarios. Full-network linearization and eigenvalue analysis are combined with adaptive sampling based on probabilistic support vector machine classification to approximate stability boundaries efficiently, while surrogate optimization identifies feasible initial controller settings meeting bandwidth and phase-margin constraints. The approach is validated on a modified Cigré European HV network benchmark with 50 operating scenarios and increasing inverter penetration. Results show that stability sensitivity grows with inverter share, interactions among IBRs reshape admissible parameter regions, and simplified equivalent-network models may overlook critical system-level limitations. The framework supports stability-oriented controller design and interconnection studies in converter-dominated systems.
title Small-Signal Stability Manifolds in Converter-Dominated Power Systems
topic Systems and Control
url https://arxiv.org/abs/2605.26254