Abstract
The sub-module of the modular multilevel converter (MMC) in practical engineering mainly adopt half-bridge sub-module (HBSM), which does not have the capability to clear dc fault current. Based on the analysis of the dc fault current path of traditional HBSM, this paper proposes a novel MMC sub-module with dc fault clearance capability. It adds a bidirectional switch and two diodes to the HBSM. When the dc fault occurs, the bypass absorption circuit is introduced into the arm through the diodes and the freewheeling effect of diodes is eliminated by the sub-module capacitor voltage. Thereby, the fault current can be extinguished rapidly and the requirement for the consistency of the trigger pulse is reduced. By comparing with the operation principle of the HBSM, it can quickly block the dc fault current without changing the original control and modulation strategy. Then, the fault clearance principle of the sub-module and the voltage stress of the key power devices are analyzed. The simulation results in MATLAB/SIMLINK have verified the validity and feasibility of the proposed sub-module topology in the dc fault current clearance.
Highlights
Compared with traditional AC transmission, high voltage direct current (HVDC) has the advantages of large transmission capacity, low cost, low loss and high reliability
SIMULATION RESULTS In order to verify the validity of the proposed new topology in DC fault current clearance, this paper builds a DCBSSMMMC simulation model based on MATLAB/SIMLINK and analyzes the most serious DC pole-to-pole short circuit fault in HVDC transmission system
This paper has presented a novel modular multilevel converter (MMC) sub-module topology (DCBSSM) with DC fault clearance capability
Summary
Compared with traditional AC transmission, high voltage direct current (HVDC) has the advantages of large transmission capacity, low cost, low loss and high reliability. The initial MMC topology was proposed with the HBSM, but the sub-module does not have the ability to extinguish the DC fault short-circuit current due to the freewheeling diode.
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