Patent ID: 8288824
Filing Date: 2012-10-16
Classification: H01L,H03K

Abstract:
1. A semiconductor device including a vertical insulated gate bipolar transistor (IGBT) and a vertical free-wheeling diode in a semiconductor substrate of a first conductivity type, the semiconductor substrate having a first surface and a second surface opposing each other, the vertical IGBT and the vertical free-wheeling diode coupled in anti-parallel with each other, the vertical IGBT including a gate electrode adjacent to the first surface of the semiconductor substrate, the semiconductor substrate including a first-surface side portion adjacent to the first surface and a second-surface side portion adjacent to the second surface, the semiconductor substrate having a main section where the vertical IGBT is disposed and an outer peripheral section having a ring shape and surrounding the main section in one direction perpendicular to a thickness direction of the semiconductor substrate, the semiconductor device comprising: a plurality of base regions of a second conductivity type disposed at the first-surface side portion of the semiconductor substrate, the plurality of base regions arranged along the one direction, the plurality of base regions located across the main section and an outer peripheral end of the plurality of base regions located at the outer peripheral section, each of the plurality of base regions including a first-surface side portion adjacent to the first surface of the semiconductor substrate; a plurality of first regions of the first conductivity type disposed at the first-surface side portion of a part of the plurality of base regions, the plurality of first regions having an impurity concentration higher than an impurity concentration of the semiconductor substrate, the plurality of first regions constituting a part of the vertical IGBT; an electrode electrically coupled with a part of the plurality of base regions and the plurality of first regions; and a plurality of second regions of the second conductivity type and a plurality of third regions of the first conductivity type disposed at the second-surface side portion of the semiconductor substrate, ones of the plurality of second regions and ones of the plurality of third regions alternately arranged in the one direction so as to be adjacent to each other, the plurality of second regions constituting a part of the vertical IGBT, the plurality of third regions constituting a part of the vertical free-wheeling diode, the plurality of third regions having an impurity concentration higher than the impurity concentration of the semiconductor substrate, wherein: when the vertical IGBT is in an operating state, a plurality of channels of the first conductivity type is provided in the part of the plurality of base regions including the plurality of first regions in such a manner that ones of the plurality of channels is respectively adjacent to ones of the plurality of first regions; the plurality of base regions includes an eighth region at the outer peripheral section; the eighth region is a region from the outer peripheral end of the plurality of base regions to a predetermined distance from the outer peripheral end and is located within a region between the outer peripheral end and one of the plurality of channels closest to the outer peripheral end in the one direction or a direction perpendicular to the one direction and the thickness direction of the semiconductor substrate; one of the plurality of third regions is located at the outer peripheral section and is opposed to the eighth region; the first-surface side portion of the semiconductor substrate further includes a plurality of fourth regions and a ninth region; ones of the plurality of fourth regions are respectively opposed to ones of the plurality of third regions; each of the plurality of fourth regions is located between adjacent two of the plurality of channels and includes one region of the plurality of base regions electrically coupled with the electrode; the ninth region is the region between the outer peripheral end of the plurality of base region and the one of the plurality of channels closest to the outer peripheral end; each of the plurality of fourth regions has a first width in the one direction; the ninth region has a second width between the outer peripheral end and the one of the plurality of channels closest to the outer peripheral end; and the second width is greater than a half of the first width.