The simplified topology of three-phase SST based on 15kV SIC devices and the control strategy under unbalanced grid voltage

Abstract

Solid state transformer (SST), as one of the most important technologies for energy internet application, will play a crucial role in the future especially with the the development of semiconductor technology. In this paper, a simplified 5.96 MVA three-phase SST system based on 15kV silicon carbide (SIC) power semiconductor devices is shown in order to solve some disadvantages of the three-phase cascaded modular SST. The simplified topology has a great practical prospect, such as urban rail transit power supply of most cities in china. The two stages of SIC-SST, front-end rectifier and DC/DC converter are both designed in closed loop, and then a novel control strategy under unbalanced grid voltages by suppressing the negative-sequence currents at the grid side of SST is presented. Simulation results in PSIM software have verified the effectiveness of the proposed control strategy.