Dc-link voltage regulation in all-DC offshore wind farms

Amir Hossein Mahdizadeh; Mehdi Tavan; Mohsen Soltani; Frede Blaabjerg; Amin Hajizadeh; Pietro Tricoli

Dc-link voltage regulation in all-DC offshore wind farms

Amir Hossein Mahdizadeh^*
, Mehdi Tavan
, Mohsen Soltani
, Frede Blaabjerg
, Amin Hajizadeh
, Pietro Tricoli

^*Corresponding author for this work

Electronic, Electrical and Systems Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Offshore wind farms located far from the shore currently use AC-based collection systems with bulky line frequency transformers. Due to limited space, this approach is challenging and expensive. As an alternative, Medium Voltage DC (MVDC) collector systems have been proposed as a cost-effective solution for integrating offshore wind farms. One crucial area of research for these systems is DC-link voltage regulation to ensure safe, reliable, and stable operation of the entire system. In this study, an adaptive voltage regulator is designed to stabilize the DC-link voltage at its nominal value against disturbances. Additionally, current observers are suggested to eliminate the need for current sensors, increasing reliability and reducing implementation costs. To validate the control method and test the observer’s performance, simulations and Hardware-in-theLoop tests (HIL) were conducted on a 10-MW wind turbine.

Original language	English
Journal	Electrical Engineering
Publication status	Accepted/In press - 12 Jan 2026

Bibliographical note

Not yet published as of 03/02/2026

Keywords

DC wind turbines
MVDC converter
current observer
adaptive linear controller
DC-link voltage regulation

Embargoed Document

MahdizadehAH2026DcLink_AAM
Accepted author manuscript, 1.58 MB
Embargo ends: 3/03/26

Cite this

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title = "Dc-link voltage regulation in all-DC offshore wind farms",

abstract = "Offshore wind farms located far from the shore currently use AC-based collection systems with bulky line frequency transformers. Due to limited space, this approach is challenging and expensive. As an alternative, Medium Voltage DC (MVDC) collector systems have been proposed as a cost-effective solution for integrating offshore wind farms. One crucial area of research for these systems is DC-link voltage regulation to ensure safe, reliable, and stable operation of the entire system. In this study, an adaptive voltage regulator is designed to stabilize the DC-link voltage at its nominal value against disturbances. Additionally, current observers are suggested to eliminate the need for current sensors, increasing reliability and reducing implementation costs. To validate the control method and test the observer{\textquoteright}s performance, simulations and Hardware-in-theLoop tests (HIL) were conducted on a 10-MW wind turbine.",

keywords = "DC wind turbines, MVDC converter, current observer, adaptive linear controller, DC-link voltage regulation",

author = "Mahdizadeh, \{Amir Hossein\} and Mehdi Tavan and Mohsen Soltani and Frede Blaabjerg and Amin Hajizadeh and Pietro Tricoli",

note = "Not yet published as of 03/02/2026",

year = "2026",

month = jan,

day = "12",

language = "English",

journal = "Electrical Engineering",

issn = "0948-7921",

publisher = "Springer",

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TY - JOUR

T1 - Dc-link voltage regulation in all-DC offshore wind farms

AU - Mahdizadeh, Amir Hossein

AU - Tavan, Mehdi

AU - Soltani, Mohsen

AU - Blaabjerg, Frede

AU - Hajizadeh, Amin

AU - Tricoli, Pietro

N1 - Not yet published as of 03/02/2026

PY - 2026/1/12

Y1 - 2026/1/12

N2 - Offshore wind farms located far from the shore currently use AC-based collection systems with bulky line frequency transformers. Due to limited space, this approach is challenging and expensive. As an alternative, Medium Voltage DC (MVDC) collector systems have been proposed as a cost-effective solution for integrating offshore wind farms. One crucial area of research for these systems is DC-link voltage regulation to ensure safe, reliable, and stable operation of the entire system. In this study, an adaptive voltage regulator is designed to stabilize the DC-link voltage at its nominal value against disturbances. Additionally, current observers are suggested to eliminate the need for current sensors, increasing reliability and reducing implementation costs. To validate the control method and test the observer’s performance, simulations and Hardware-in-theLoop tests (HIL) were conducted on a 10-MW wind turbine.

AB - Offshore wind farms located far from the shore currently use AC-based collection systems with bulky line frequency transformers. Due to limited space, this approach is challenging and expensive. As an alternative, Medium Voltage DC (MVDC) collector systems have been proposed as a cost-effective solution for integrating offshore wind farms. One crucial area of research for these systems is DC-link voltage regulation to ensure safe, reliable, and stable operation of the entire system. In this study, an adaptive voltage regulator is designed to stabilize the DC-link voltage at its nominal value against disturbances. Additionally, current observers are suggested to eliminate the need for current sensors, increasing reliability and reducing implementation costs. To validate the control method and test the observer’s performance, simulations and Hardware-in-theLoop tests (HIL) were conducted on a 10-MW wind turbine.

KW - DC wind turbines

KW - MVDC converter

KW - current observer

KW - adaptive linear controller

KW - DC-link voltage regulation

UR - http://link.springer.com/journal/202

M3 - Article

SN - 0948-7921

JO - Electrical Engineering

JF - Electrical Engineering

ER -

Dc-link voltage regulation in all-DC offshore wind farms

Abstract

Bibliographical note

Keywords

Embargoed Document

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