Reliability of Diode-Integrated SiC Power MOSFET(DioMOS)

Abstract Status of the reliability study on silicon carbide (SiC) power MOS transistors is presented. The SiC transistors studied are diode-integrated MOSFETs (DioMOS) in which a highly doped n-type epitaxial channel layer formed underneath the gate oxide acts as a reverse diode and thus an external Schottky barrier diode can be eliminated. The novel MOS device can reduce the total area of SiC leading to potentially lower cost as well as the size of the packaging. After summarizing the issues on reliability of conventional SiC MOS transistors, the improvements by the newly proposed DioMOS with blocking voltage of 1200 V are presented. The I–V characteristic of the integrated reverse diode is free from the degradation which is typically observed in conventional pn-junction-based body diode in SiC MOS transistors. The improved quality of the MOS gate in the DioMOS results in very stable threshold voltage within its variation less than 0.1 V even after 2000 h of serious gate voltage stresses of + 25 V and − 10 V at 150 °C. High temperature reverse bias test (HTRB) shows very stable off-state and gate leakage current up to 2000 h under the drain voltage of 1200 V at 150 °C. These results indicate that the presented DioMOS can be applied to practical switching systems free from the reliability issues.