Patent ID: 6440787
Filing Date: 2002-08-27
Classification: H01L

Abstract:
A manufacturing method of a semiconductor device which forms bipolar transistors and MOS transistors on the same semiconductor substrate, comprising the steps of:a first insulating film forming of forming separated first insulating films on a major surface of the semiconductor substrate; a second insulating film forming of forming a second insulating film on the semiconductor substrate and the first insulating films; a second insulating film removing of removing a portion, on the semiconductor substrate, of the second insulating film in a region where to form a base of a first conductivity type bipolar transistor; forming a first polysilicon film on a second-insulating-film-removed portion of the semiconductor substrate and a remaining portion of the second insulating film, implanting a first conductivity type impurity of a first concentration into the first polysilicon film, and forming a third insulating film on the first polysilicon film; a first forming of forming, at the same time, an external base lead-out electrode and a gate of a first conductivity type MOS transistor on the semiconductor substrate by etching a stacked film of the first polysilicon film and the third insulating film in predetermined regions; forming a fourth insulating film in the etched, predetermined regions of the stacked film, and, at the same time, forming an external base layer by introducing the first conductivity type impurity of a first concentration into the semiconductor substrate from the external base lead-out electrode of the first conductivity type bipolar transistor; defining, by photolithography, a region where to form an external base lead-out electrode of the first conductivity type bipolar transistor, and forming the link base layer of the first conductivity type bipolar transistor by implanting the first conductivity impurity of a second concentration into the semiconductor substrate in the defined region; a second forming of defining, by photolithography, a first conductivity type MOS transistor forming region where to form the first conductivity type MOS transistor and a second conductivity type bipolar transistor forming region where to form an emitter and a collector of a second conductivity type bipolar transistor, and forming LDD layers in the first conductivity type MOS transistor forming region and an emitter layer and a collector layer in the second conductivity type bipolar transistor forming region by implanting the first conductivity type impurity of a third concentration into the semiconductor substrate in the first conductivity type MOS transistor forming region and the second conductivity type bipolar transistor forming region; forming a fifth insulating film on the films existing after execution of said step of second forming; a frame forming of forming frames on a side face of the external base lead-out electrode of the first conductivity type bipolar transistor and a side face of the gate of the first conductivity type MOS transistor by etching the fifth insulating film; a third forming of defining, by photolithography, a second conductivity type bipolar transistor intrinsic base forming region where to form an intrinsic base of the second conductivity type bipolar transistor and a first conductivity type MOS transistor forming region where to form the first conductivity type MOS transistor, and implanting the first conductivity type impurity of a fourth concentration into the semiconductor substrate in the second conductivity type bipolar transistor intrinsic base forming region and the first conductivity type MOS transistor forming region, to form the emitter layer and the collector layer in the second conductivity type bipolar transistor intrinsic base forming region and to form a source and a drain in the first conductivity type MOS transistor forming region; a sixth insulating film forming of forming a sixth insulating film on predetermined films existing after execution of said step of third forming; defining, by photolithography, a region where to form an external base lead-out electrode of the first conductivity type bipolar transistor, and forming the intrinsic base layer of the first conductivity type bipolar transistor by implanting the first conductivity type impurity of a fifth concentration into the semiconductor substrate in the defined region; a semiconductor substrate exposing of etching the sixth insulating film in the region where to form the external base lead-out electrode of the first conductivity type bipolar transistor, to expose the major surface of the semiconductor substrate there; forming a second polysilicon film on the films existing after execution of said step of semiconductor substrate exposing, implanting a second conductivity type impurity of a first concentration into the second polysilicon film, and forming a seventh insulating film on the second polysilicon film; a fourth forming of forming an emitter lead-out electrode of the first conductivity type bipolar transistor and a gate of a second conductivity type MOS transistor at the same time by etching a stacked film of the seventh insulating film and the second polysilicon film in predetermined regions; a second conductivity type MOS transistor LDD layer forming of defining, by photolithography, a region where to form the second conductivity type MOS transistor, and forming LDD layers of the second conductivity type MOS transistor by implanting the second conductivity type impurity of a second concentration into the semiconductor substrate in the defined region; forming an eighth insulating film on the films existing after execution of said step of second conductivity type MOS transistor LDD layer forming, and forming a frame on a side face of the gate of the second conductivity type MOS transistor by etching the eighth insulating film; a second conductivity type MOS transistor source and drain layers forming of defining, by photolithography, a region where to form the second conductivity type MOS transistor, and forming a source layer and a drain layer of the second conductivity type MOS transistor by implanting the second conductivity type impurity of a third concentration in the semiconductor substrate in the defined region; and forming an interlayer insulating film on the films existing after execution of said step of second conductivity type MOS transistor source and drain layers forming, and forming an emitter layer by diffusing the first conductivity type impurity into the semiconductor substrate from the emitter lead-out electrode of the first conductivity type bipolar transistor.