Patent ID: 7838888
Filing Date: 2010-11-23
Classification: H01L

Abstract:
1. An SiC semiconductor device comprising: a substrate made of silicon carbide, having a first conductivity type, and having a principal surface and a rear surface opposite to each other; a drift layer made of silicon carbide, having the first conductivity type, and disposed on the principal surface of the substrate, wherein an impurity concentration of the drift layer is lower than an impurity concentration of the substrate; an insulating layer disposed on the drift layer and including an opening, wherein a part of the substrate and a part of the drift layer are defined as a cell, which is positioned between the opening of the insulating layer and the rear surface of the substrate; an ohmic electrode disposed on the rear surface of the substrate; a Schottky electrode contacting with the drift layer through the opening of the insulating layer; a Schottky barrier diode provided by the ohmic electrode, the Schottky electrode and the cell; a termination structure that is disposed on an outer periphery of the cell, and that includes a resurf reduced surface field layer disposed in a surface part of the drift layer, wherein the resurf layer surrounds the cell; and a plurality of second conductivity type layers disposed in another surface part of the drift layer, contacting the Schottky electrode, surrounded by the resurf layer, and separated from one another, wherein: the first conductivity type and the second conductivity type are opposite conductivity types; the plurality of second conductivity type layers includes a center member, which is disposed at a center of a contact region between the Schottky electrode and the drift layer; the plurality of second conductivity type layers further includes a plurality of ring members, each of which surrounds the center member; each of the plurality of ring members is arranged substantially in a point symmetric manner on the contact region with respect to a center of the center member; one of the plurality of ring members is defined as an outermost ring member, which is disposed most distant from the center member; the plurality of ring members except the outermost ring member is defined as a plurality of inner ring members; a two-dimensional plane passing through the center of the contact region and perpendicular to the principal surface of the substrate is defined as a reference plane; a plurality of cross sections corresponding to the plurality of inner ring members taken along the reference plane is defined as a plurality of inner ring cross sections; the plurality of second conductivity type layers is configured so that an arrangement of the plurality of inner ring cross sections on the reference plane is symmetric between a cross section of the center member and a cross section of the outermost ring member on the reference plane; the plurality of ring members is arranged substantially in a concentric manner on the drift layer with respect to the center of the center member; the plurality of second conductivity type layers is substantially arranged at regular intervals; the regular interval is in a range between 1.5 μm and 2.5 μm; each ring member has a same width along a radial direction of the center member; the same width is in a range between 1.0 μm and 2.0 μm; the outermost ring member is in contact with an inner circumference of the resurf layer or embedded in the resurf layer; and the plurality of second conductivity type layers, which includes the outermost ring member, is different in impurity concentration from the resurf layer.