Improving the Design of the Shield for the Electric Field in SiC-Based Schottky-Rectifiers and Ion-Implantation Cascades by SPM Dopant-Imaging

Display Omitted We discuss the concept of Junction Barrier Schottky diodes.We perform dopant imaging of implanted p+ regions.We perform numerical device simulations for application voltages of 3.3kV (traction). In order to avoid a premature breakdown and high leakage-currents of Silicon Carbide (SiC) unipolar Schottky power diodes the Schottky-contact area needs to be shielded from the high electric field inside the device. This can be achieved by the application of a Junction-Barrier Schottky (JBS) device architecture where highly doped p+ regions serve as a shielding structure at the anode side of the device when operated under reverse bias-voltage conditions. In contrast, the active area consumption of this p+-type regions has a negative effect on the differential resistance. To design those p+-shields it is inevitable to compare simulated dopant profiles with those manufactured by ion implantation. Hence, in this contribution we performed SPM-based measurements to image the p+-doped areas. As complementary measurement also secondary electron potential contrast (SEPC) was performed.