Patent application number | Description | Published |
20120307508 | SEMICONDUCTOR DEVICE, MANUFACTURING METHOD THEREOF, ELECTRONIC DEVICE AND VEHICLE - The present invention makes it possible to inhibit an SOA (Safe Operating Area) in a vertical-type bipolar transistor from narrowing. A p-type base layer | 12-06-2012 |
20120313163 | SEMICONDUCTOR DEVICE, AND METHOD OF MANUFACTURING THE SAME - The generation of a variation in properties of vertical transistors is restrained. A vertical MOS transistor is formed in a semiconductor substrate. A first interlayer dielectric film and a first source wiring are formed over the front surface of the substrate. The first source wiring is formed over the first interlayer dielectric film, and is overlapped with the vertical MOS transistor as viewed in plan. Contacts are buried in the first interlayer dielectric film. Through the contacts, an n-type source layer of vertical MOS transistor is coupled with the first source wiring. Openings are made in the first source wiring. | 12-13-2012 |
20130256783 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A trench gate type MISFET and a diode are formed in a semiconductor substrate. First and second trenches are formed in the semiconductor substrate. A gate electrode is formed in the first trench through a gate insulating film. A dummy gate electrode is formed in the second trench through a dummy gate insulating film. A cathode n | 10-03-2013 |
20130264637 | SEMICONDUCTOR DEVICE - Trenches are formed in a base layer and extend parallel to each other. A gate insulating film is formed on the inner wall of each of multiple trenches. A gate electrode GE is buried in each of the trenches. The source layer is formed in the base layer to a depth less than the base layer. The source layer is disposed between each of the trenches. A second conduction type high concentration layer is formed between the source layer and the trench in a plan view. The trench, the source layer, and the second conduction type high concentration are arranged in this order repetitively in a plan view. One lateral side of the trench faces the source layer and the other lateral side of the trench faces the second conduction type high concentration layer. | 10-10-2013 |
20140138774 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device includes a base region of a second conduction type provided over a drain region of a first conduction type, an outer peripheral well region of a second conduction type provided to cover the outer peripheral end of the base region and having an impurity concentration lower than that of the base region, a buried electrode buried in the semiconductor substrate not to overlap the outer peripheral well region, plural gate electrodes connected to the buried electrode and buried in the substrate such that each of them is adjacent to a source region, a gate interconnect provided over the substrate to overlap a portion of the outer peripheral well region in a plan view and connected to the buried electrode, and a grounding electrode provided over the substrate and connected to a portion of the outer peripheral well region not overlapping the gate interconnect in a plan view. | 05-22-2014 |
20140322877 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A trench gate type MISFET and a diode are formed in a semiconductor substrate. First and second trenches are formed in the semiconductor substrate. A gate electrode is formed in the first trench through a gate insulating film. A dummy gate electrode is formed in the second trench through a dummy gate insulating film. A cathode n | 10-30-2014 |
20150079745 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - The generation of a variation in properties of vertical transistors is restrained. A vertical MOS transistor is formed in a semiconductor substrate. A first interlayer dielectric film and a first source wiring are formed over the front surface of the substrate. The first source wiring is formed over the first interlayer dielectric film, and is overlapped with the vertical MOS transistor as viewed in plan. Contacts are buried in the first interlayer dielectric film. Through the contacts, an n-type source layer of vertical MOS transistor is coupled with the first source wiring. Openings are made in the first source wiring. | 03-19-2015 |
20150228737 | SEMICONDUCTOR DEVICE - A semiconductor device includes a base region of a second conduction type provided over a drain region of a first conduction type, an outer peripheral well region of a second conduction type provided to cover the outer peripheral end of the base region and having an impurity concentration lower than that of the base region, a buried electrode buried in the semiconductor substrate not to overlap the outer peripheral well region, plural gate electrodes connected to the buried electrode and buried in the substrate such that each of them is adjacent to a source region, a gate interconnect provided over the substrate to overlap a portion of the outer peripheral well region in a plan view and connected to the buried electrode, and a grounding electrode provided over the substrate and connected to a portion of the outer peripheral well region not overlapping the gate interconnect in a plan view. | 08-13-2015 |