Abstract:
Silicon carbide (SiC) is becoming a preferred technology of choice for power dense application compared with silicon (Si). A more comprehensive analysis of the long-term ...Show MoreMetadata
Abstract:
Silicon carbide (SiC) is becoming a preferred technology of choice for power dense application compared with silicon (Si). A more comprehensive analysis of the long-term pulsed power reliability of SiC is necessary so that the technology can make the transition commercially. In this article, a testbed is utilized to evaluate research grade 15-kV SiC MOSFETs and 20-kV SiC IGBTs manufactured by Wolfspeed, a Cree Company. A testbed was developed here at Texas Tech University (TTU), Lubbock, TX, USA, to test these two devices. The narrow pulse testbed's capacitor bank can be charged up to 10 kV and output square waveform pulse up to 2.0 μs. The waveform has a fullwidth at half-maximum pulse and is tested at a repetition pulse rate of three seconds. The electrical characteristics of the forward conduction and reverse breakdown of the device under test (DUT) are measured periodically during the experiment. The DUTs were pulsed at different current levels, up to 340 A (1.06 kA/cm2) for the IGBTs and 74 A (296 A/cm2) for MOSFETs, while the electrical device degradation was monitored. This work discusses the results of the long-term pulsed power reliability, failure modes, and their robustness in overcurrent operations of highpower SiC MOSFETs and IGBTs.
Published in: IEEE Transactions on Plasma Science ( Volume: 48, Issue: 11, November 2020)