Detailed and Averaged Models for a 401-Level MMC–HVDC System

Peralta, Jaime; Saad, Hani; Dennetière, S.; Mahseredjian, Jean; Nguefeu, Samuel

doi:10.1109/tpwrd.2012.2188911

articleIEEE Transactions on Power DeliveryApr 12, 2012Closed access

Detailed and Averaged Models for a 401-Level MMC–HVDC System

JPJaime Peralta HSHani Saad SDS. Dennetière JMJean Mahseredjian SNSamuel Nguefeu

Polytechnique Montréal · Électricité de France (France)

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Abstract

Voltage-source-converter (VSC) technologies present a bright opportunity in a variety of fields within the power system industry. New modular multilevel converters (MMCs) are expected to supersede two- and three-level VSC-based technologies for HVDC applications due to their recognized advantages in terms of scalability, performance, and efficiency. The computational burden introduced by detailed modeling of MMC-HVDC systems in electromagnetic-transients (EMT)-type programs complicates the study of transients especially when these systems are integrated into a large network. This paper presents a novel average-value model (AVM) for efficient and accurate representation of a detailed MMC-HVDC system. It also…

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Topics

Keywords

Modular design
Converters
Electric power system
Electronic engineering
Voltage source
Scalability
Computer science
Transmission system

UN Sustainable Development Goals

Industry, innovation and infrastructure

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