Abstract
The use of high voltage direct current (HVDC) circuit breakers (CBs) with the capabilities of bidirectional fault interruption, reclosing, and rebreaking can improve the reliable and safe operation of HVDC grids. Although several topologies of CBs have been proposed to perform these capabilities, the limitation of these topologies is either high on-state losses or long time interruption in the case bidirectional fault current interruption. Long time interruption results in the large magnitude of the fault current in the voltage source converter based HVDC (VSC-HVDC) system due to the high rate of rise of fault current. This paper proposes a new topology of hybrid CB (HCB) with lower conduction loss and lower interruption time to solve the problems. The proposed topology is based on the inverse current injection method, which uses the capacitor to enforce the fault current to zero. In the case of the bidirectional fault current interruption, the capacitor does not change its polarity after identifying the direction of fault current, which can reduce the interruption time accordingly. A switching control algorithm for the proposed topology is presented in detail. Different operation modes of proposed HCB, such as normal current mode, breaking fault current mode, discharging, and reversing capacitor voltage modes after clearing the fault, are considered in the proposed algorithm. The proposed topology with the switching control algorithm is tested in a simulation-based system. Different simulation scenarios such as temporary and permanent faults are carried out to verify the performance of the proposed topology. The simulation is performed in the Matlab/Simulink environment.
Highlights
The reliable and safe operation of the high voltage direct current (HVDC) grid can be improved with the use of the DC circuit breakers (CBs) [1,2,3,4,5]
This paper proposes a new topology of hybrid CB (HCB) to solve the above-mentioned problems
In order to test the performance of the proposed HCB, a symmetrical monopole VSC-HVDC was
Summary
The reliable and safe operation of the high voltage direct current (HVDC) grid can be improved with the use of the DC circuit breakers (CBs) [1,2,3,4,5]. The requirements for the design of CBs can be different according to the type of HVDC technologies [6]. There are two types of HVDC, traditional line-commutated current source converter (LCC-HVDC) and voltage source converter (VSC-HVDC) [7]. In the case of LCC-HVDC, the rate of rise and magnitude of the fault current is not high due to the use of the DC side reactor [8]. The main focus for the design of CB in the LCC-HVDC was on the mechanism of zero current crossing. In the VSC-HVDC technology, the fault current increases rapidly due to the capacitive behavior of the HVDC cable and low DC
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