Patent application number | Description | Published |
20080298291 | SEMICONDUCTOR DEVICE - Aiming at realizing high breakdown voltage and low ON resistance of a semiconductor device having the super-junction structure, the semiconductor device of the present invention has a semiconductor substrate having an element forming region having a gate electrode formed therein, and a periphery region formed around the element forming region, and having an field oxide film formed therein; and a parallel p-n layer having n-type drift regions and p-type column regions alternately arranged therein, formed along the main surface of the semiconductor substrate, as being distributed over the element forming region and a part of the periphery region, wherein the periphery region has no column region formed beneath the end portion on the element forming region side of the field oxide film and has p-type column regions as at least one column region formed under the field oxide film. | 12-04-2008 |
20080299726 | SEMICONDUCTOR APPARATUS AND METHOD OF MANUFACTURING SEMICONDUCTOR APPARATUS - A semiconductor apparatus with a superjunction structure includes a gate electrode which fills a trench that is formed in an epitaxial layer, and a column region which is surrounded by the gate electrode in a plane view. A photomask for forming the column region is elaborated. The photomask has a compensation pattern that compensates a deformation of a photo resist pattern caused by photo interference and a deformation of the ion implantation region diffused by heat treatment. Therefore extending direction of the gate electrode and the outer edge of the column region are substantially parallel. | 12-04-2008 |
20090275180 | METHOD FOR MANUFACTURING A SEMICONDUCTOR DEVICE - A conventional power MOSFET structure is difficult to improve a breakdown voltage of an element even using a super-junction structure. A power MOSFET according to an embodiment of the invention is a semiconductor device of a super-junction structure, including: a gate electrode filled in a trench formed on a semiconductor substrate; a gate wiring metal forming a surface layer; and a gate electrode plug connecting between the gate electrode and the gate wiring metal. Thus, a polysilicon layer necessary for the conventional typical power MOSFET is unnecessary. That is, column regions of an element active portion and an outer peripheral portion can be formed under the same conditions. As a result, it is possible to improve an element breakdown voltage as compared with the conventional one. | 11-05-2009 |
20100044786 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a semiconductor layer of a first conductivity type; a base region of a second conductivity type formed on a surface of the semiconductor layer of the first conductivity type; a plurality of first column regions of the second conductivity type formed in a matrix fashion in the semiconductor layer when seen in a plan view; a trench gate formed in a grid fashion in the semiconductor layer so that each of the first column regions is surrounded by the trench gate when seen in a plan view, the trench gate penetrating through the base region to reach the semiconductor layer of the first conductivity type; and a plurality of second column regions of the second conductivity type selectively formed below each intersection of the grid of the trench gate except line section of the trench gate. | 02-25-2010 |
20130076322 | POWER CONVERSION CIRCUIT, MULTIPHASE VOLTAGE REGULATOR, AND POWER CONVERSION METHOD - Disclosed is a power conversion circuit that suppresses the flow of a through current to a switching element based on a normally-on transistor. The power conversion circuit includes a high-side transistor and a low-side transistor, which are series-coupled to each other to form a half-bridge circuit, and two drive circuits, which complementarily drive the gate of the high-side transistor and of the low-side transistor. The high-side transistor is a normally-off transistor. The low-side transistor is a normally-on transistor. | 03-28-2013 |
20140097445 | SEMICONDUCTOR DEVICE - A transistor SEL is formed by using a compound semiconductor layer (channel layer CNL). The channel layer CNL is formed over a buffer layer BUF. In a first direction where a drain electrode DRE, a gate electrode GE, and a source electrode SOE of the transistor SEL are arranged, at least a portion of the buried electrode BE is situated on the side opposing the source electrode SOE with reference to the gate electrode GE. The buried electrode BE is connected to the source electrode SOE of the transistor SEL. The top end of the buried electrode BE intrudes into the buffer layer BUF. | 04-10-2014 |
20140110760 | SEMICONDUCTOR DEVICE - Provided is a semiconductor device including: a DC/DC converter circuit, wherein the DC/DC converter circuit includes a transistor of a normally-off type, having a first drain electrode connected to an input terminal and a first source electrode connected to an output terminal, which is formed in a first compound semiconductor substrate having a two-dimensional electron gas layer, and a transistor having a second drain electrode connected to the first source electrode and a grounded second source electrode. | 04-24-2014 |
20150035080 | Semiconductor Device - Disclosed is a semiconductor device in which a resistance component resulting from wiring is reduced. A plurality of transistor units are arranged side by side in a first direction (Y direction in the view), each of which has a plurality of transistors. The gate electrodes of the transistors extend in the first direction. First source wiring extends between first transistor unit and second transistor unit, and first drain wiring extends between the second transistor unit and third transistor unit. Second drain wiring extends on the side of the first transistor unit opposite to the side where the first source wiring extends, and second source wiring extends on the side of the third transistor unit opposite to the side where the second drain wiring extends. | 02-05-2015 |