Soft-Switching of IGCTs in Three-Level Voltage Source Inverter
DOI:
https://doi.org/10.24425/bpasts.2026.1622Abstract
The paper presents a soft-switching system in three-level voltage source inverters based on Integrated Gate-Commutated Thyristors. The proposal of the soft-switching system refers to inverter thyristors connected to the voltage source terminals. The operation principles of the inverter equipped with the proposed soft-switching solution are comprehensively discussed herein. The main thyristors are controlled the same as those in an inverter operating with a hard-switching technique. The correctness of the IGCT model, used in calculations, is verified by comparing the numerically determined voltage and current with waveforms recorded at the laboratory stand. Numerical analysis is performed for the voltage source inverter of the rated power of 10 MW (2x2.5 kV, 3.0 kA). Examples of voltage and current waveforms for a single switching of one of the main thyristors and selected waveforms for two periods of the inverter output voltage are presented. The switching losses of the three-level voltage source inverter with the described soft-switching system are compared with those in an inverter with the hard-switching technique. The proposed soft-switching solution allows to increase the inverter efficiency.
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