Abstract

Series-connected integrated gate-commutated thyristors (IGCTs) find application in hard-switched commercial power converters at the megawatt power levels. Expanding the application of these devices to medium-voltage dc&#x2013;dc resonant converters is of great interest due to the IGCT&#x0027;s low conduction losses. This requires a deeper understanding of the device&#x0027;s behavior in series connection and under switching conditions different than those in hard-switched converters. In particular, the voltage sharing between series-connected IGCTs must be achieved with significantly reduced turn-<small>off</small> currents, typical for resonant converters. Relying on a versatile IGCT test setup, this article explores the operational performances of series-connected IGCT operation at very low turn-<small>off</small> current and with snubber capacitance in the range of a few tens of nanofarad. The results presented in this article are obtained from commercially available 4.5-kV 68-mm reverse-conducting IGCTs (with standard irradiation), as well as two customized engineering samples (high irradiated variants), optimized on their technology curve for high switching frequencies. The IGCTs are successfully operated in series connection at 5 kHz, with device voltage being effectively shared in resonant converter operation.

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