Download PDFOpen PDF in browserPerformance Analysis of Grid-Connected Six-Switch Current Source Inverter Under Different Switching StrategiesEasyChair Preprint no. 44836 pages•Date: October 29, 2020AbstractSix-Switch current source inverter (CSI) is a promising unidirectional DC-AC power conversion topology deduced from the reversed structure of the very sparse matrix rectifier. This latter is a single-stage boost-type inverter suitable for grid-connected applications as it provides active power injection from renewable energy sources into the AC grid. This paper investigates the performance of three different soft-switching strategies for three-phase six-switch grid-connected CSI. These strategies are analyzed in terms of the number of switching transitions, DC-link current ripple, average global value of the conduction and switching power losses, as well as, the quality of the injected grid-currents. The proposed evaluation is based on both, theoretical analysis and computer simulations. A comparative study is, commonly, established and the optimum modulation strategies are selected. Keyphrases: current ripple, current source inverter, Grid-connected PV, Modulation Index, modulation strategy, Power Quality, PV energy, soft switching, SVPWM, Switching and Conduction Losses
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