Patent ID: 9159721
Filing Date: 2015-10-13
Classification: H01L

Abstract:
1. A semiconductor device comprising: a semiconductor substrate comprising an diode region and an IGBT region; an anode electrode formed on a front surface of the semiconductor substrate within the diode region; a cathode electrode formed on a rear surface of the semiconductor substrate within the diode region; an emitter electrode formed on the front surface within the IGBT region; a collector electrode formed on the rear surface within the IGBT region; a gate insulating film; and a gate electrode, wherein the diode region comprises: a p-type anode region connected to the anode electrode by an Ohmic contact; a plurality of n-type pillar regions located lateral to the anode region, being in contact with the anode region, and connected to the anode electrode by Schottky contacts; an n-type barrier region located at the rear surface side with respect to the anode region, being in contact with the anode region, and connected to the plurality of the pillar regions; an n-type diode drift region located at the rear surface side with respect to the barrier region, and having an n-type impurity concentration lower than that in the barrier region; and an n-type cathode region located at the rear surface side with respect to the diode drift region, connected to the cathode electrode, and having an n-type impurity concentration higher than that in the diode drift region, the IGBT region comprises: an n-type emitter region connected to the emitter electrode by an Ohmic contact; a p-type body region connected to the emitter electrode by an Ohmic contact; an n-type IGBT drift region connected to the diode drift region, and separated from the emitter region by the body region; and a p-type collector region connected to the collector electrode, and separated from the body region by the IGBT drift region, the gate electrode is configured to face, via the gate insulating film, the body region separating the emitter region and the IGBT drift region, an on-resistance of a first pillar region among the plurality of the pillar regions with respect to the anode electrode is higher than an on-resistance of a second pillar region among the plurality of the pillar regions with respect to the anode electrode, and the second pillar region is located at a position closer to the IGBT region than the first pillar region.