Patent ID: 6949401

Claim:
A method for producing a semiconductor component with outer contacts as anode and cathode, and having alternately arranged Schottky junctions and pn junctions arranged near the surface of the semiconductor component, as well as low-doped drift zones of a semiconductor material that are arranged between the Schottky junctions and the pn junctions, and with the energy difference (E gap −Φ barrier ) between the band gap (E gap ), in the electronic excitation range of the drift zone semiconductor material and the energetic height (Φ barrier ) of the Schottky barrier being at least 0.8 eV in the non-voltage state of the semiconductor component said method including: providing a silicon carbide substrate doped with a first doping material with at least 10 18 cm −3 , homo-epitaxially depositing a silicon carbide layer with a second doping material of the same charge carrier type in the range of 10 14 and 10 17 cm −3 on the silicon carbide substrate; inserting a third doping material with a complementary charge carrier type, and structured with the aid of at least one of diffusion and ion implantation, on the surface of the silicon carbide layer that is arranged far from the substrate in order to form pn junctions; subsequently subjecting the semiconductor component to a first temperature treatment between 1400° C. and 1700° C.; following the first temperature treatment, depositing a first metal coating on the implanted surface in order to form a Schottky contact, and then depositing a second metal coating in order to form an ohmic contact; and subsequently structuring the first and second metal coating.