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A Hybrid Five-Level Modular Multilevel Converter With High Efficiency and Small Energy Storage Requirements for HVDC Transmission

Levi Bieber, Joel Pfannschmidt, Liwei Wang, Juri Jatskevich, Wei Li

2022IEEE Transactions on Industrial Electronics17 citationsDOI

Abstract

This article presents a hybrid five-level converter (H5LC) with cascaded full-bridge submodules (FBSMs) for high voltage direct current (HVdc) transmission. A five-level converter operates at a fundamental switching frequency to generate symmetric five-level square wave output voltages which are shaped into smooth sinusoidal voltages by the ac-side FBSMs. Using a proposed third-order harmonic voltage injection scheme, the FBSMs’ total blocking voltage is limited to one-eighth of the dc-side voltage, reducing the H5LC's losses, footprint, and capital costs. dc pole-to-pole fault blocking is enabled using a bypass branch consisting of bidirectional thyristor valves and fast mechanical switches to suppress the ac-side fault contribution within half a fundamental cycle. Full-scale HVdc simulation studies show the H5LC's ability to control real and reactive powers and additionally, its dc fault resilience. A lab-scale hardware implementation of an H5LC with 30 FBSMs is presented to verify its operating principle. In contrast to the half-bridge submodule based modular multilevel converter, the H5LC has improved efficiency, fewer semiconductor devices, and significantly reduced energy storage requirements.

Topics & Concepts

Modular designEnergy storageComputer scienceTransmission (telecommunications)HVDC converter stationElectrical engineeringElectronic engineeringEngineeringPower (physics)VoltagePhysicsQuantum mechanicsOperating systemHVDC Systems and Fault ProtectionSilicon Carbide Semiconductor TechnologiesMultilevel Inverters and Converters
A Hybrid Five-Level Modular Multilevel Converter With High Efficiency and Small Energy Storage Requirements for HVDC Transmission | Litcius