Feasibility of 4.5 kV and 10 kV Silicon Carbide IGBTs

The on-state voltage of the 4.5 kV and 10 kV PT and NPT IGBT structures in 6H SiC has been investigated by means of numerical simulation using an improved version of TMA´s Medici which includes anisotropic physical models. A realistic trench gate UMOS type structure has been used. The influence of the carrier lifetime and temperature on the on-state characteristics have been studied. The shortest carrier lifetime required for an on-state voltage of less than 7V at 100 A/cm² is 2¿s and 10¿s for PT and NPT designs, respectively. At temperatures below 400K and 300K for the PT and NPT designs, respectively, anomalous on-state characteristics are observed. This is attributed to the insufficient p⁺ emitter injection efficiency, associated with incomplete ionisation of the p-type dopant.