Modular DC Circuit Breaker With Master-Slave Concept for Gate Driver Simplification: Topology and Implementation

DC circuit breaker is the key equipment to deal with the interruption of short-circuit current. Compared with the mechanical switch, the solid circuit breaker and the hybrid circuit breaker using the semiconductor device to interrupt the short-circuit current exhibit superiorities in response duration and arc-less characteristics. Massive power devices controlled by corresponding gate drivers which make the semiconductors-based dc circuit breaker bulky and costly are required to withstand the high dc-bus voltage. In this article, the master-slave concept based modular circuit breaker is proposed to simplify the gate driver topology. Only one single gate driver is required to control highly compact modular submodules consisting of power devices, passive components, and diodes. Moreover, the proposed topology can be easily implemented with high flexibility and low cost. Specifically, the gate control function and voltage equalization for series-connected devices can be realized reliably. The master-slave concept and operation principle of the proposed topology are elaborated and the effectiveness has been demonstrated by both simulation and experimental test.

Automated summary

This article proposes a master-slave concept based modular circuit breaker to simplify the gate driver topology of DC circuit breakers, and achieve gate control and voltage equalization. The proposed topology has high flexibility and low cost, and its effectiveness has been demonstrated through simulation and experimental tests.