Abstract: A diode is provided with a pillar region formed so as to extend between a barrier region and an anode electrode, contact the barrier region, and made of a first conductivity type semiconductor having a concentration higher than that of the barrier region; and a barrier height adjusting region formed so as to be located between the pillar region and the anode electrode, and contact the pillar region and the anode electrode. The barrier height adjusting region includes at least one component selected from the group consisting of a second conductivity type semiconductor having a concentration lower than that of an anode region, the first conductivity type semiconductor having a concentration lower than that of the pillar region, and an i-type semiconductor. The barrier height adjusting region and the anode electrode are connected through a Schottky junction.

Abstract: In a structure which secures a breakdown voltage of a semiconductor device by providing a channel stop region to a boundary part between an outer circumferential side surface and a front surface of the semiconductor substrate, the channel stop region is formed by a plurality of regions having different impurity concentrations. Upon this occasion, the channel stop region satisfies following relations: the impurity concentrations of the plurality of the regions are higher for regions closer to the outer circumferential side surface of the semiconductor substrate; and a depth of a high-impurity-concentration region is equal to or deeper than a depth of a low-impurity-concentration region. Electric field concentration is alleviated around the channel stop region and a breakdown voltage of the semiconductor substrate increases.

Abstract: A technology for inhibiting gate interference in an RC-IGBT employing a diode structure having Schottky connections is provided. A semiconductor device includes a semiconductor substrate including a diode region and an IGBT region. In this semiconductor device, the diode region includes: a p-type anode region connected to an anode electrode by an Ohmic contact; a plurality of n-type pillar regions connected to the anode electrode by Schottky contacts; an n-type barrier region; an n-type diode drift region; and an n-type cathode region. An on-resistance of a first pillar region with respect to the anode electrode is higher than an on-resistance of a second pillar region with respect to the anode electrode. The second pillar region is located at a position close to the IGBT region.

Abstract: A semiconductor device is provided with a silicon layer, an upper surface side aluminum layer containing silicon and an insulation film. The upper surface side aluminum layer contacts and is layered on a part of a surface of the silicon layer. The insulation film contacts and is layered on another part of the surface of the silicon layer. The insulation film is adjacent to and contacts the upper surface side aluminum layer. The insulation film includes an insulation film body and a plurality of first nodule segregated portions projecting from the insulation film body toward the upper surface side aluminum layer as seen along a vertical direction relative to the surface of the silicon layer. A corner is formed by a side surface of the insulation film body and a side surface of each of the first nodule segregated portions as seen along the vertical direction.

Abstract: A technology for inhibiting gate interference in an RC-IGBT employing a diode structure having Schottky connections is provided. A semiconductor device includes a semiconductor substrate including a diode region and an IGBT region. In this semiconductor device, the diode region includes: a p-type anode region connected to an anode electrode by an Ohmic contact; a plurality of n-type pillar regions connected to the anode electrode by Schottky contacts; an n-type barrier region; an n-type diode drift region; and an n-type cathode region. An on-resistance of a first pillar region with respect to the anode electrode is higher than an on-resistance of a second pillar region with respect to the anode electrode. The second pillar region is located at a position close to the IGBT region.

Abstract: A diode is provided with a pillar region formed so as to extend between a barrier region and an anode electrode, contact the barrier region, and made of a first conductivity type semiconductor having a concentration higher than that of the barrier region; and a barrier height adjusting region formed so as to be located between the pillar region and the anode electrode, and contact the pillar region and the anode electrode. The barrier height adjusting region includes at least one component selected from the group consisting of a second conductivity type semiconductor having a concentration lower than that of an anode region, the first conductivity type semiconductor having a concentration lower than that of the pillar region, and an i-type semiconductor. The barrier height adjusting region and the anode electrode are connected through a Schottky junction.