Papers by Author: Naoyuki Ohse

Abstract: We investigated the relationship between secondary defects and electrical characteristics in the activation annealing (1600 °C-1800 °C) of 4H-SiC after Al implantation (3 × 10¹⁷ cm^-3-3 × 10¹⁹ cm^-3). X-ray topography revealed that the dislocation density did not increase after implantation and annealing. Scanning transmission electron microscopy (STEM) images revealed black spots that aggregate with increase in Al dose. The results of energy dispersive X-ray spectroscopy analysis suggested that these black spots are due to the strain of secondary defects. The I-V characteristics at reverse bias of a pin diode fabricated with Al implantation show that secondary defects shown as black spots in the STEM images do not affect the electrical characteristics under the implantation and annealing conditions used in this experiment.

Abstract: We successfully fabricated 13-kV, 20-A, 8 mm × 8 mm, drift-free 4H-SiC PiN diodes. The fabricated diodes exhibited breakdown voltages that exceeded 13 kV, a forward voltage drop of 4.9–5.3 V, and an on-resistance (R_onA_active) of 12 mW·cm². The blocking yield at 10 kV on a 3-in wafer exceeded 90%. We investigated failed devices using Candela defect maps and light-emission images and found that a few devices failed because of large defects on the chip. We also demonstrated that the fabricated diodes can be used in conducting high-voltage and high-current switching tests.

Abstract: SiC power module with low loss and high reliability was developed by utilizing IEMOSFET and SBD. The IEMOSFET is the SiC MOSFET with high channel mobility in which the channel region is the p-type carbon-face epitaxial layer with low acceptor concentration. Elemental technologies for the high channel mobility and the high reliability of the gate oxide have been developed to realize the excellent characteristics by the IEMOSFET. The SBD was designed so as to minimize the forward voltage drops and the reverse leakage current. For the fabrication of these SiC power devices, the mass production technology such as gate oxidation, ion implantation and following activation annealing have been also developed.