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Main Authors: Chatterjee, Kaustav, Nekkalapu, Sameer, Varghese, Antos, Elizondo, Marcelo, Nguyen, Quan, Fan, Xiaoyuan
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.03017
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author Chatterjee, Kaustav
Nekkalapu, Sameer
Varghese, Antos
Elizondo, Marcelo
Nguyen, Quan
Fan, Xiaoyuan
author_facet Chatterjee, Kaustav
Nekkalapu, Sameer
Varghese, Antos
Elizondo, Marcelo
Nguyen, Quan
Fan, Xiaoyuan
contents In recent years, several studies conducted by both industry and U.S. Department of Energy (DOE)-funded initiatives have proposed linking North America's Eastern and Western Interconnections (EI and WI) through a multiterminal DC (MTDC) macrogrid. These studies have explored the advantages and opportunities of the proposed configuration from the perspectives of capacity sharing and frequency support. However, the potential challenges of small-signal stability arising from this interconnection have not been thoroughly examined. To address this gap, detailed model-based simulation studies are performed in this paper to assess the risks of poorly damped inter-area oscillations in the proposed macrogrid. A custom-built dynamic model of the MTDC system is developed and integrated with industry-grade models of the EI and WI, incorporating high levels of inverter-based energy resources. Through model-based oscillation analysis, potential shifts in inter-area modes for both EI and WI, resulting from the MTDC integration are characterized, and modes with inadequate damping are identified. Furthermore, to mitigate the risks of unstable oscillations, supplementary damping controllers are designed for the MTDC system, leveraging wide-area feedback to modulate active power set points at selected converter stations. A frequency scanning approach is employed for data-driven model linearization and controller synthesis. The damping performance is evaluated under the designed operating conditions and selected contingency scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2511_03017
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Oscillation Analysis and Damping Control for a Proposed North American AC-DC Macrogrid
Chatterjee, Kaustav
Nekkalapu, Sameer
Varghese, Antos
Elizondo, Marcelo
Nguyen, Quan
Fan, Xiaoyuan
Systems and Control
In recent years, several studies conducted by both industry and U.S. Department of Energy (DOE)-funded initiatives have proposed linking North America's Eastern and Western Interconnections (EI and WI) through a multiterminal DC (MTDC) macrogrid. These studies have explored the advantages and opportunities of the proposed configuration from the perspectives of capacity sharing and frequency support. However, the potential challenges of small-signal stability arising from this interconnection have not been thoroughly examined. To address this gap, detailed model-based simulation studies are performed in this paper to assess the risks of poorly damped inter-area oscillations in the proposed macrogrid. A custom-built dynamic model of the MTDC system is developed and integrated with industry-grade models of the EI and WI, incorporating high levels of inverter-based energy resources. Through model-based oscillation analysis, potential shifts in inter-area modes for both EI and WI, resulting from the MTDC integration are characterized, and modes with inadequate damping are identified. Furthermore, to mitigate the risks of unstable oscillations, supplementary damping controllers are designed for the MTDC system, leveraging wide-area feedback to modulate active power set points at selected converter stations. A frequency scanning approach is employed for data-driven model linearization and controller synthesis. The damping performance is evaluated under the designed operating conditions and selected contingency scenarios.
title Oscillation Analysis and Damping Control for a Proposed North American AC-DC Macrogrid
topic Systems and Control
url https://arxiv.org/abs/2511.03017