Semiconductor device and semiconductor device manufacturing method

摘要

An n-type low lifetime adjustment region is provided in a portion inside an n− type drift region deeper than the bottom surface of a termination p-type base region or p-type guard ring from a substrate front surface, separated from the termination p-type base region and the p-type guard ring. The carrier lifetime of the n-type low lifetime adjustment region is shorter than the carrier lifetime of the n− type drift region. Because of this, it is possible to provide a reverse blocking IGBT such that it is possible to suppress both a high temperature reverse leakage current and an increase in turn-off loss, while suppressing deterioration in the trade-off relationship between the turn-off loss and the on-state voltage.

主权项

1. A semiconductor device, comprising:
an active region including:
an insulated gate structure having a second conductivity type base region selectively provided on a first main surface side of a first conductivity type semiconductor substrate,a first conductivity type emitter region selectively provided inside the second conductivity type base region, anda gate electrode provided across a gate dielectric on the surface of a portion of the second conductivity type base region sandwiched by a drift region formed of the first conductivity type semiconductor substrate and the first conductivity type emitter region; an edge termination structure portion surrounding the outer periphery of the active region; a second conductivity type collector layer provided on a second main surface side of the first conductivity type semiconductor substrate; a second conductivity type isolation layer provided in an outer peripheral portion of the edge termination structure portion so as to link the first main surface and the second main surface of the first conductivity type semiconductor substrate and electrically connected to the second conductivity type collector layer; and a first conductivity type low lifetime adjustment region provided separated from the second conductivity type base region and second conductivity type collector layer in a position inside the drift region deeper than the bottom surface of the second conductivity type base region from the one main surface of the first conductivity type semiconductor substrate, wherein the first conductivity type low lifetime adjustment region is provided from the active region to the second conductivity type isolation layer, wherein the center in the depth direction of the first conductivity type low lifetime adjustment region is positioned in a depth range of within 20 μm to the second conductivity type collector layer side from the bottom surface of the outermost second conductivity type base region in the active region wherein, after the insulated gate structure and a required metal electrode film are formed on the first main surface side of the first conductivity type semiconductor substrate, the first conductivity type low lifetime adjustment region is formed by protons being implanted from the other main surface side of the first conductivity type semiconductor substrate, and a thermal annealing process is performed, and wherein the protons are implanted in a dose range of 5.0×1013 cm−2 to 5.0×1014 cm−2, and the thermal annealing process is carried out in a hydrogen atmosphere at a temperature of 330° C. to 380° C.