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A New Active Thyristor-Based DCCB With Reliable Opening Process

Ji Shu, Junpeng Ma, Shunliang Wang, Yuqing Dong, Tianqi Liu, Zhiyuan He

2020IEEE Transactions on Power Electronics51 citationsDOI

Abstract

Replacing expensive IGBT with thyristor to design dc circuit breaker (dcCB) is attracting attention recently due to its advantages in terms of low investment and low conduction loss. However, due to the half-controlled characteristic of thyristor, the existing thyristor-based dcCBs (T-CBs) cannot be actively turned off. As a result, the opening process is not fully controllable and reliable. In this letter, a simple active T-CB (AT-CB) topology is proposed. The proposed AT-CB can interrupt both fault current and operation current actively, and the current breaking process is fast, reliable, and fully controllable. Moreover, the proposed AT-CB can be improved to be bidirectional without increasing the conduction loss, and the topology remains simple. Parameters design principle and operation process of AT-CB are presented. Scaled-down experiment verified the effectiveness of the proposed solution.

Topics & Concepts

ThyristorIntegrated gate-commutated thyristorInterruptTopology (electrical circuits)SnubberCircuit breakerNetwork topologyProcess (computing)Insulated-gate bipolar transistorThermal conductionElectrical engineeringSimple (philosophy)Electronic engineeringEngineeringComputer scienceVoltageCapacitorMaterials scienceTransmission (telecommunications)Computer networkComposite materialEpistemologyPhilosophyOperating systemHVDC Systems and Fault ProtectionSilicon Carbide Semiconductor TechnologiesIslanding Detection in Power Systems
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