Patent application number | Description | Published |
20100153363 | STREAM DATA PROCESSING METHOD AND SYSTEM - An operation management program collects a query status table of a migration-source agent processing program and creates a server status table. The operation management program, based on the server status table, computes a migration cost for each query, and selects the query with the smallest migration cost as a migration query. Then, the operation management program migrates the selected query, using the optimum migration method. | 06-17-2010 |
20110145828 | STREAM DATA PROCESSING APPARATUS AND METHOD - A stream data processing apparatus creates a plurality of partition data on the basis of stream data, and distributes the partition data to a plurality of computers. Specifically, the stream data processing apparatus acquires from the stream data a data element group that is configured in the number of data elements based on the processing capability of the partition data destination computer, and decides an auxiliary data part of this data element group based on a predetermined value. The stream data processing apparatus creates partition data that include the acquired data element group and END data. The data element group is configured from the auxiliary data part and a result usage data part. | 06-16-2011 |
20130290242 | TIME SERIES DATA PROCESSING DEVICE AND METHOD THEREFOR - A data accumulation unit selects, upon data accumulation, time series data relating to a predicted number of vibrations and an actual number of vibrations as combinations of time series data, which become the analysis targets and are generated in the same cycle, among time series data from a time series data source, aggregates the selected combinations of time series data on an hourly basis, and accumulates the aggregated plural sets of time series data in an aggregated data table by associating them with an attribute (the number of vibrations); and upon data analysis, a data analysis unit accesses the aggregated data table based on the attribute, extracts the combinations of the time series data relating to the predicted number of vibrations and the actual number of vibrations as time series data to be used for the analysis and calculates the number of divergence vibrations. | 10-31-2013 |
Patent application number | Description | Published |
20080206941 | Method for manufacturing sic semiconductor device - A method for manufacturing a SiC semiconductor device includes: preparing a SiC substrate having a (11-20)-orientation surface; forming a drift layer on the substrate; forming a base region in the drift layer; forming a first conductivity type region in the base region; forming a channel region on the base region to couple between the drift layer and the first conductivity type region; forming a gate insulating film on the channel region; forming a gate electrode on the gate insulating film; forming a first electrode to electrically connect to the first conductivity type region; and forming a second electrode on a backside of the substrate. The device controls current between the first and second electrodes by controlling the channel region. The forming the base region includes epitaxially forming a lower part of the base region on the drift layer. | 08-28-2008 |
20080258153 | Silcon carbide semiconductor device having schottky barrier diode and method for manufacturing the same - An SiC semiconductor device is provided, which comprises: a substrate made of silicon carbide and having a principal surface; a drift layer made of silicon carbide and disposed on the principal surface; an insulating layer disposed on the drift layer and including an opening; a Schottky electrode contacting with the drift layer through the opening; a termination structure disposed around an outer periphery of the opening; and second conductivity type layers disposed in a surface part of the drift layer, contacting the Schottky electrode, surrounded by the termination structure, and separated from one another. The second conductivity type layers include a center member and ring members. Each ring member surrounds the center member and is arranged substantially in a point symmetric manner with respect to the center member. | 10-23-2008 |
20090008649 | Silicon carbide semiconductor device and method of manufacturing the same - A silicon carbide semiconductor device includes a substrate having one of a first conductivity type and a second conductivity type, a drift layer having the first conductivity type, a plurality of base regions having the second conductivity type, a plurality of source regions having the first conductivity type, a surface channel layer having the first conductivity type, a plurality of body layers having the second conductivity type, a gate insulation layer, a gate electrode, a first electrode, a second electrode, and a plurality of second conductivity-type regions. The first electrode is electrically coupled with the source regions and the body layers. The second conductivity-type regions are disposed at portions of the drift layer located under the body layers so as to be connected with the base regions respectively. | 01-08-2009 |
20090166730 | SiC semiconductor device having bottom layer and method for manufacturing the same - A SiC semiconductor device includes: a substrate; a drift layer on the substrate; a trench on the drift layer; a base region in the drift layer sandwiching the trench; a channel between the base region and the trench; a source region in the base region sandwiching the trench via the channel; a gate electrode in the trench via a gate insulation film; a source electrode coupled with the source region; a drain electrode on the substrate opposite to the drift layer; and a bottom layer under the trench. An edge portion of the bottom layer under a corner of a bottom of the trench is deeper than a center portion of the bottom layer under a center portion of the bottom of the trench. | 07-02-2009 |
20090200559 | Silicon carbide semiconductor device including deep layer - A silicon carbide semiconductor device includes a substrate, a drift layer located on a first surface of the substrate, a base region located on the drift layer, a source region located on the base region, a trench penetrating the source region and the base region to the drift layer, a channel layer located in the trench, a gate insulating layer located on the channel layer, a gate electrode located on the gate insulating layer, a source electrode electrically coupled with the source region and the base region, a drain electrode located on a second surface of the substrate, and a deep layer. The deep layer is located under the base region, extends to a depth deeper than the trench and is formed along an approximately normal direction to a sidewall of the trench. | 08-13-2009 |
20090289264 | Silicon carbide semiconductor device and method of manufacturing the same - An SiC semiconductor device includes a substrate, a drift layer disposed on a first surface of the substrate, a base region disposed above the drift layer, a source region disposed above the base region, a trench penetrating the source region and the base region to the drift layer, a gate insulating layer disposed on a surface of the trench, a gate electrode disposed on a surface of the gate insulating layer, a first electrode electrically coupled with the source region and the base region, a second electrode disposed on the second surface of the substrate, and a second conductivity-type layer disposed at a portion of the base region located under the source region. The second conductivity-type layer has the second conductivity type and has an impurity concentration higher than the base region. | 11-26-2009 |
20110291110 | SILICON CARBIDE SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - The silicon carbide semiconductor device includes a substrate, a drift layer, a base region, a source region, a trench, a gate insulating layer, a gate electrode, a source electrode, a drain electrode, and a deep layer. The deep layer is disposed under the base region and is located to a depth deeper than the trench. The deep layer is divided into a plurality of portions in a direction that crosses a longitudinal direction of the trench. The portions include a group of portions disposed at positions corresponding to the trench and arranged at equal intervals in the longitudinal direction of the trench. The group of portions surrounds corners of a bottom of the trench. | 12-01-2011 |
20110309464 | SEMICONDUCTOR DEVICE INCLUDING CELL REGION AND PERIPHERAL REGION HAVING HIGH BREAKDOWN VOLTAGE STRUCTURE - A semiconductor device includes a semiconductor substrate and an electric field terminal part. The semiconductor substrate includes a substrate, a drift layer disposed on a surface of the substrate, and a base layer disposed on a surface of the drift layer. The semiconductor substrate is divided into a cell region in which a semiconductor element is disposed and a peripheral region that surrounds the cell region. The base region has a bottom face located on a same plane throughout the cell region and the peripheral region and provides an electric field relaxing layer located in the peripheral region. The electric field terminal part surrounds the cell region and a portion of the electric field relaxing layer and penetrates the electric field relaxing layer from a surface of the electric field relaxing layer to the drift layer. | 12-22-2011 |
20140145212 | SILICON CARBIDE SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes a silicon carbide semiconductor substrate, a transistor formed in a cell region of the semiconductor substrate, and a voltage-breakdown-resistant structure formed in a region which surrounds an outer periphery of the cell region. The semiconductor substrate includes a first conductivity type substrate, a first conductivity type drift layer on the first conductivity type substrate, a second conductivity type layer on the drift layer, and a first conductivity type layer on the second conductivity type layer. The voltage-breakdown-resistant structure includes a first recess which surrounds the outer periphery of the cell region and reaches the drift layer, a trench located at a side surface of the recess on an inner periphery of the recess, and a second conductivity type buried layer buried in the trench to provide the side surface of the first recess. | 05-29-2014 |
20140175508 | SEMICONDUCTOR DEVICE WITH SCHOTTKY BARRIER DIODE - A semiconductor device includes a first conductivity-type drift region including an exposed portion, a plurality of second conductivity-type body regions, a first conductivity-type source region, a gate portion and a Schottky electrode. The drift region is defined in a semiconductor layer, and the exposed portion exposes on a surface of the semiconductor layer. The body regions are disposed on opposite sides of the exposed portion. The source region is separated from the drift region by the body region. The gate portion is disposed to oppose the body region. The exposed portion is formed with a groove, and the Schottky electrode is disposed in the groove. The Schottky electrode has a Schottky contact with the exposed portion. | 06-26-2014 |
20150115286 | SILICON CARBIDE SEMICONDUCTOR DEVICE AND METHOD FOR PRODUCING THE SAME - An SiC semiconductor device has a p type region including a low concentration region and a high concentration region filled in a trench formed in a cell region. A p type column is provided by the low concentration region, and a p | 04-30-2015 |
Patent application number | Description | Published |
20080224150 | Silicon carbide semiconductor device - The SiC semiconductor device includes a substrate of a first conduction type made of silicon carbide, a drift layer of the first conduction type made of silicon carbide, the drift layer being less doped than the substrate, a cell portion constituted by a part of the substrate and a part of the drift layer, a circumferential portion constituted by another part of the substrate and another part of the drift layer, the circumferential portion being formed so as to surround the cell portion, and a RESURF layer of a second conduction type formed in a surface portion of the drift layer so as to be located in the circumferential portion. The RESURF layer is constituted by first and second RESURF layers having different impurity concentrations, the second RESURF layer being in contact with an outer circumference of the first RESURF layer and extending to a circumference of the cell portion. | 09-18-2008 |
20080230787 | Silicon carbide semiconductor device, and method of manufacturing the same - The silicon carbide semiconductor device includes a trench formed from a surface of a drift layer of a first conductivity type formed on a substrate of the first conductivity type, and a deep layer of a second conductivity type located at a position in the drift layer beneath the bottom portion of the trench. The deep layer is formed at a certain distance from base regions of the second conductivity type formed on the drift layer so as to have a width wider than the width of the bottom portion of the trench, and surround both the corner portions of the bottom portion of the trench. | 09-25-2008 |
20090114969 | Silicon carbide semiconductor device and related manufacturing method - An SiC semiconductor device and a related manufacturing method are disclosed having a structure provided with a p | 05-07-2009 |
20130075760 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - The present application relates to technology for improving a withstand voltage of a semiconductor device. The semiconductor device includes a termination area that surrounds a cell area. The cell area is provided with a plurality of main trenches. The termination area is provided with one or more termination trenches surrounding the cell area. A termination trench is disposed at an innermost circumference of one or more termination trenches. A body region is disposed on a surface of a drift region. Each main trench reaches the drift region. A gate electrode is provided within each main trench. The termination trench reaches the drift region. Sidewalls and a bottom surface of the termination trench are covered with a insulating layer. A surface of the insulating layer covering the bottom surface of the termination trench is covered with a buried electrode. A gate potential is applied to the buried electrode. | 03-28-2013 |
20140252465 | SEMICONDUCTOR DEVICE AND METHOD OF PRODUCING THE SAME - A semiconductor device has a semiconductor substrate including a body region, a drift region, a trench that extends from a surface of the semiconductor substrate into the drift region through the body region, and a source region located adjacent to the trench in a range exposed to the surface of the semiconductor substrate, the source region being isolated from the drift region by the body region. A specific layer is disposed on a bottom of the trench, and it has a characteristic of forming a depletion layer at a junction between the specific layer and the drift region. An insulating layer covers an upper surface of the specific layer and a sidewall of the trench. A conductive portion is formed on a part of the side wall of the trench. The conductive portion is joined to the specific layer, and reaches the surface of the semiconductor substrate. | 09-11-2014 |