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Impact of Strength and Proximity of Receiving AC Systems on Cascaded LCC-MMC Hybrid HVDC System

Yongjie He, Wang Xiang, Binye Ni, Xiaojun Lu, Jinyu Wen

2021IEEE Transactions on Power Delivery31 citationsDOIOpen Access PDF

Abstract

The cascaded hybrid LCC-MMC inverter is considered as a feasible option to mitigate the commutation failure problem of conventional LCC-HVDC while maintaining bulk power transmission capability. However, the coupling between different types of converters may result in instability when the inverter integrates with weak AC systems. This paper establishes a small-signal model of the cascaded LCC-MMC inverter based hybrid HVDC system and validates the model against PSCAD/EMTDC. Through eigenvalue analysis, the impact of the strength and proximity of receiving AC systems on the small-signal stability is investigated, and the stable zone of the strength of receiving AC systems is identified. Besides, a supplementary coupling mitigation control is proposed to tackle the instability problem under weak AC systems integration. Both analytical results and time-domain simulations demonstrate the validity of the supplementary control.

Topics & Concepts

InverterCommutationControl theory (sociology)Electric power systemConvertersTransmission systemEngineeringCoupling (piping)Stability (learning theory)Power (physics)Electronic engineeringTransmission (telecommunications)Control engineeringComputer scienceControl (management)Electrical engineeringVoltagePhysicsMachine learningMechanical engineeringArtificial intelligenceQuantum mechanicsHVDC Systems and Fault ProtectionFrequency Control in Power Systems
Impact of Strength and Proximity of Receiving AC Systems on Cascaded LCC-MMC Hybrid HVDC System | Litcius