Voltage Source Converter Stations for Direct Current Power Transmission. Generality

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Voltage Source Converter Stations for Direct Current Power Transmission. Generality

Authors : Pierre Rault, Sébastien Dennetière, Hani Saad, Anton Stepanov

Publication date: December 10, 2025 | Lire en français

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Overview

ABSTRACT

This series of three articles focuses on converter stations for high-voltage direct current (HVDC) links using voltage source converters (VSC). It is structured in three consecutive parts: the first presents general principles, the second covers control and protection strategies, and the third deals with related models and studies. This first article introduces the context for using VSCs, describes the two types of converter valves: VSC switch type valve and VSC controllable voltage source type valve, along with their operating principles, before detailing the components of modular multilevel converter (MMC) stations and their roles.

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AUTHORS

  • Pierre Rault : Engineer - RTE, France

  • Sébastien Dennetière : Engineer - RTE, France

  • Hani Saad : Engineer - ACDC Transient, France

  • Anton Stepanov : Engineer - PGSTech, Canada

 INTRODUCTION

This article presents the fundamental principles and key aspects of the operation of voltage source converters (VSC – ), used in high-voltage direct current (HVDC – ) connections. It is the first in a series of three articles: this first article is devoted to general information on VSC-HVDC stations, the second [D 4 765] will deal with control and protection principles, while the third [D 4 766] will address electrotechnical studies, associated models, and examples of typical behavior in dynamic and transient conditions.

In 1954, the first commercial direct current link, with a capacity of 20 MW/±100 kV, was installed between Sweden and the island of Gotland. Since then, the cumulative power of HVDC transmission installed worldwide has grown steadily, and recently, a dramatic increase in volume has been underway. To date, most HVDC systems installed worldwide are of the line-commutated converter (LCC) type and use thyristor valves (current source converters). Currently, the world's most powerful HVDC transmission line is LCC technology. Commissioned in 2019, it was built by several companies, including Hitachi Energy and NR Electric for the valves, and is operated by SGCC (State Grid Corporation of China). It connects the city of Changji in Xinjiang province to the city of Guquan in Anhui province in China, with a capacity of 12,000 MW/± 1,100 kV over more than 3,200 km. For more information on HVDC LCC technology, an article from Techniques de l'Ingénieur is available at [D 4 762] .

Introduced in the late 1990s, HVDC-VSC technology is based on the use of converters based on IGBTs (Insulated-Gate Bipolar Transistors), allowing for increased flexibility in power flow control, including when reversing the direction of transit, connection to electrical...

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KEYWORDS

high voltage direct current   |   voltage source converter   |   electricity transmission   |   modular multilevel converter

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Voltage Source Converter Stations for Direct Current Power Transmission. Generality

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