Patent application number | Description | Published |
20090090978 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A high-voltage transistor and a peripheral circuit including a second conductivity type MOSFET are provided together on a first conductivity type semiconductor substrate. The high-voltage transistor includes: a low concentration drain region of a second conductivity type formed in the semiconductor substrate; a low concentration source region of a second conductivity type formed in the semiconductor substrate and spaced apart from the low concentration drain region; and a high concentration source region of a second conductivity type having a diffusion depth deeper than that of the low concentration source region. A diffusion depth of the low concentration source region is equal to that of source/drain regions of the MOSFET. | 04-09-2009 |
20090206366 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - Disclosed is a semiconductor device including: an N-type RESURF region formed in a P-type semiconductor substrate; a P-type base region formed in an upper portion of the semiconductor substrate so as to be adjacent to the RESURF region; an N-type emitter/source region formed in the base region so as to be apart from the RESURF region; a P-type base connection region formed in the base region so as to be adjacent to the emitter/source region; a gate insulating film and a gate electrode overlying the emitter/source region, the base region, and the RESURF region; and a P-type collector region formed in the RESURF region so as to be apart from the base region. Lattice defect is generated in the semiconductor substrate such that a resistance value of the semiconductor substrate is twice or more the resistance value of the semiconductor substrate that depends on the concentration of an impurity implanted in the semiconductor substrate. | 08-20-2009 |
20100093113 | SEMICONDUCTOR MANUFACTURING APPARATUS - A semiconductor manufacturing apparatus includes: an ion source and a beam line for introducing an ion beam into a target film which is formed over a wafer with an insulating film interposed therebetween; a flood gun for supplying the target film with electrons for neutralizing charges contained in the ion beam; a rotating disk for subjecting the target film to mechanical scanning of the ion beam in two directions composed of r-θ directions; a rear Faraday cage for measuring the current density produced by the ion beam; a disk-rotational-speed controller and a disk-scanning-speed controller for changing the scanning speed of the target film; and a beam current/current density measuring instrument for controlling, according to the current density, the scanning speed of the target film. | 04-15-2010 |
20110207275 | METHOD FOR PRODUCING SEMICONDUCTOR ELEMENT - A method of producing a semiconductor device according to the present invention includes: a step of implanting an impurity into a semiconductor layer | 08-25-2011 |
20120205670 | SEMICONDUCTOR DEVICE AND PROCESS FOR PRODUCTION THEREOF - A semiconductor device | 08-16-2012 |
20130082285 | SEMICONDUCTOR DEVICE AND PROCESS FOR PRODUCTION THEREOF - A semiconductor device according to the present invention includes a contact region | 04-04-2013 |
20130140586 | SILICON CARBIDE SEMICONDUCTOR ELEMENT AND METHOD FOR PRODUCING THE SAME - This silicon carbide semiconductor element includes: a body region of a second conductivity type which is located on a drift layer of a first conductivity type; an impurity region of the first conductivity type which is located on the body region; a trench which runs through the body region and the impurity region to reach the drift layer; a gate insulating film which is arranged on surfaces of the trench; and a gate electrode which is arranged on the gate insulating film. The surfaces of the trench include a first side surface and a second side surface which is opposed to the first side surface. The concentration of a dopant of the second conductivity type is higher at least locally in a portion of the body region which is located beside the first side surface than in another portion of the body region which is located beside the second side surface. | 06-06-2013 |
20130328065 | SEMICONDUCTOR ELEMENT, SEMICONDUCTOR DEVICE, AND SEMICONDUCTOR ELEMENT MANUFACTURING METHOD - A method for fabricating a semiconductor element according to the present disclosure includes the steps of: (A) forming a first silicon carbide semiconductor layer of a first conductivity type on a semiconductor substrate; (B) forming a first mask to define a body region on the first silicon carbide semiconductor layer; (C) forming a body implanted region of a second conductivity type in the first silicon carbide semiconductor layer using the first mask; (D) forming a sidewall on side surfaces of the first mask; (E) defining a dopant implanted region of the first conductivity type and a first body implanted region of the second conductivity type in the first silicon carbide semiconductor layer using the first mask and the sidewall; and (F) thermally treating the first silicon carbide semiconductor layer. | 12-12-2013 |
20140110723 | SEMICONDUCTOR ELEMENT AND METHOD OF MANUFACTURING THEREOF - A semiconductor device disclosed in the present application includes: a semiconductor substrate; a first silicon carbide semiconductor layer located on a principal surface of the semiconductor substrate, the first silicon carbide semiconductor layer including a drift region of a first conductivity type, a body region of a second conductivity type, and an impurity region of a first conductivity type; a trench provided in the first silicon carbide semiconductor layer so as to reach inside of the drift region; a second silicon carbide semiconductor layer of the first conductivity type located at least on a side surface of the trench so as to be in contact with the impurity region and the drift region; a gate insulating film; a gate electrode; a first ohmic electrode; and a second ohmic electrode. The body region includes a first body region which is in contact with the second silicon carbide semiconductor layer on the side surface of the trench, and a second body region which is in contact with the drift region and has a smaller average impurity concentration than the first body region. | 04-24-2014 |
20140151719 | SILICON CARBIDE SEMICONDUCTOR ELEMENT - This silicon carbide semiconductor element includes: a body region of a second conductivity type which is located on a drift layer of a first conductivity type; an impurity region of the first conductivity type which is located on the body region; a trench which runs through the body region and the impurity region to reach the drift layer; a gate insulating film which is arranged on surfaces of the trench; and a gate electrode which is arranged on the gate insulating film. The surfaces of the trench include a first side surface and a second side surface which is opposed to the first side surface. The concentration of a dopant of the second conductivity type is higher at least locally in a portion of the body region which is located beside the first side surface than in another portion of the body region which is located beside the second side surface. | 06-05-2014 |
20140231828 | SEMICONDUCTOR DEVICE - A semiconductor device includes a first cell and a second cell. Each of the first cell and the second cell includes a first silicon carbide semiconductor layer including a first region and a second region provided in the first region, a second silicon carbide semiconductor layer provided on and in contact with the first silicon carbide semiconductor layer, a first ohmic electrode in ohmic contact with the second region, and an insulating film provided on the second silicon carbide semiconductor layer. The first cell includes a gate electrode, and the second cell includes no electrode configured to control the electric potential of the second silicon carbide semiconductor layer independently of the electric potential of the first ohmic electrode. | 08-21-2014 |