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Autori principali: Mugambi, Germano Rugendo, Nouri, Behnam, Saborío-Romano, Oscar, Raducu, George Alin, Cutululis, Nicolaos A.
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.23030
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author Mugambi, Germano Rugendo
Nouri, Behnam
Saborío-Romano, Oscar
Raducu, George Alin
Cutululis, Nicolaos A.
author_facet Mugambi, Germano Rugendo
Nouri, Behnam
Saborío-Romano, Oscar
Raducu, George Alin
Cutululis, Nicolaos A.
contents With recent developments in offshore grid architectures, power park modules (PPMs) such as clusters of offshore wind power plants (OWPPs) are increasingly interconnected offshore. Consequently, it is necessary to assess how integrating a new OWPP affects the stability margins of an existing OWPP at the point of connection. Although impedance-based methods are widely used for small-signal stability assessment of interconnected converter-based systems, many studies rely primarily on Nyquist encirclements and do not explicitly quantify stability margins. Thus, this paper proposes a general impedance-based methodology to (i) evaluate the stability margins of an existing connection after a new PPM is integrated and (ii) derive a maximum allowable impedance for the new connection such that the minimum stability margin requirements specified by system operators are satisfied and stable operation is maintained. In addition, new Nyquist-based stability regions are introduced to complement the generalized Nyquist criterion, providing analytical indications of margin compliance and headroom. The proposed method is validated through case studies using vendor-based frequency-domain models of two interconnected OWPPs and HVDC system.
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publishDate 2026
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spellingShingle A Methodology for Impedance-based Stability Margin Analysis for Interconnected Offshore Wind Clusters
Mugambi, Germano Rugendo
Nouri, Behnam
Saborío-Romano, Oscar
Raducu, George Alin
Cutululis, Nicolaos A.
Systems and Control
With recent developments in offshore grid architectures, power park modules (PPMs) such as clusters of offshore wind power plants (OWPPs) are increasingly interconnected offshore. Consequently, it is necessary to assess how integrating a new OWPP affects the stability margins of an existing OWPP at the point of connection. Although impedance-based methods are widely used for small-signal stability assessment of interconnected converter-based systems, many studies rely primarily on Nyquist encirclements and do not explicitly quantify stability margins. Thus, this paper proposes a general impedance-based methodology to (i) evaluate the stability margins of an existing connection after a new PPM is integrated and (ii) derive a maximum allowable impedance for the new connection such that the minimum stability margin requirements specified by system operators are satisfied and stable operation is maintained. In addition, new Nyquist-based stability regions are introduced to complement the generalized Nyquist criterion, providing analytical indications of margin compliance and headroom. The proposed method is validated through case studies using vendor-based frequency-domain models of two interconnected OWPPs and HVDC system.
title A Methodology for Impedance-based Stability Margin Analysis for Interconnected Offshore Wind Clusters
topic Systems and Control
url https://arxiv.org/abs/2605.23030