Patent application number | Description | Published |
20120143940 | INFORMATION DELIVERY SYSTEM FOR GENERATING A DATA STREAM WITH A SERVER SYSTEM BASED ON A CONTENT FILE RECEIVED FROM A CLIENT DEVICE - An information delivery system, an information delivery method, an information processing apparatus, and an information processing method is used advantageously to deliver content stream data easily, reliably and inexpensively to the general users. A personal computer prepares a content file and an order form file using software provided by a center system, and transmits the prepared files to the center system over the Internet. Given the order form file from a customer device, the center system encodes a content file accordingly to generate content stream data and causes a moving picture delivery server to deliver the generated stream data to user terminals. This invention can be applied, among others, to systems for delivering content data over the Internet. | 06-07-2012 |
20140379788 | INFORMATION DELIVERY SYSTEM FOR GENERATING A DATA STREAM WITH A SERVER SYSTEM BASED ON A CONTENT FILE RECEIVED FROM A CLIENT DEVICE - An information delivery system, an information delivery method, an information processing apparatus, and an information processing method is used advantageously to deliver content stream data easily, reliably and inexpensively to the general users. A personal computer prepares a content file and an order form file using software provided by a center system, and transmits the prepared files to the center system over the Internet. Given the order form file from a customer device, the center system encodes a content file accordingly to generate content stream data and causes a moving picture delivery server to deliver the generated stream data to user terminals. This invention can be applied, among others, to systems for delivering content data over the Internet. | 12-25-2014 |
Patent application number | Description | Published |
20080283846 | METHOD FOR GROWING SEMICONDUCTOR LAYER, METHOD FOR PRODUCING SEMICONDUCTOR LIGHT-EMITTING ELEMENT, SEMICONDUCTOR LIGHT-EMITTING ELEMENT, AND ELECTRONIC DEVICE - Disclosed herein is a method for growing a semiconductor layer which includes the step of growing a semiconductor layer of hexagonal crystal structure having the (11-22) or (10-13) plane direction on the (1-100) plane of a substrate of hexagonal crystal structure. | 11-20-2008 |
20110212559 | LIGHT-EMITTING DIODE AND METHOD FOR MANUFACTURING SAME, INTEGRATED LIGHT-EMITTING DIODE AND METHOD FOR MANUFACTURING SAME, METHOD FOR GROWING A NITRIDE-BASED III-V GROUP COMPOUND SEMICONDUCTOR, SUBSTRATE FOR GROWING A NITRIDE-BASED III-V GROUP COMPOUND SEMICONDUCTOR, LIGHT SOURCE CELL UNIT, LIGHT-EMITTING DIODE BACKLIGHT, LIGHT-EMITTING DIODE ILLUMINATING DEVICE, LIGHT-EMITTING DIODE DISPLAY AND ELECTRONIC INSTRUMENT, ELECTRONIC DEVICE AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a light-emitting diode, which includes the steps of: providing a substrate having a plurality of protruded portions on one main surface thereof wherein the protruded portion is made of a material different in type from that of the substrate and growing a first nitride-based III-V Group compound semiconductor layer on each recess portion of the substrate through a state of making a triangle in section wherein a bottom surface of the recess portion becomes a base of the triangle; laterally growing a second nitride-based III-V Group compound semiconductor layer on the substrate from the first nitride-based III-V Group compound semiconductor layer; and successively growing, on the second nitride-based III-V Group compound semiconductor layer, a third nitride-based III-V Group compound semiconductor layer of a first conduction type, an active layer, and a fourth nitride-based III-V compound semiconductor layer of a second conduction type. | 09-01-2011 |
20130142210 | NITRIDE SEMICONDUCTOR LIGHT EMITTING DEVICE - A nitride semiconductor light-emitting device has a semiconductor ridge, and includes a first inner-layer between an active layer and an n-type cladding and a second inner-semiconductor layer between the active layer and a p-type cladding. The first inner-layer, active layer and second inner-layer constitute a core-region. The n-type cladding, core-region and p-type cladding constitute a waveguide-structure. The active layer and the first inner-layer constitute a first heterojunction inclined at an angle greater than zero with respect to a reference plane of the c-plane of the nitride semiconductor of the n-type cladding. Piezoelectric polarization of the well layer is oriented in a direction from the p-type cladding toward the n-type cladding. The second inner-layer and InGaN well layer constitute a second heterojunction. A distance between the ridge bottom and the second heterojunction is 200 nm or less. The ridge includes a third heterojunction between the second inner-layer and the p-type cladding. | 06-06-2013 |
20130156060 | LASER DIODE DEVICE AND METHOD OF MANUFACTURING LASER DIODE DEVICE - A laser diode device includes: a semiconductor substrate including a semi-polar surface, the semiconductor substrate being formed of a hexagonal III-nitride semiconductor; an epitaxial layer including a light emitting layer, the epitaxial layer being formed on the semi-polar surface of the semiconductor substrate, and the epitaxial layer including a ridge section; a first electrode formed on a top surface of the ridge section; an insulating layer covering the epitaxial layer in an adjacent region of the ridge section and a side surface of the ridge section, the insulating layer covering part or all of side surfaces of the first electrode continuously from the epitaxial layer; a pad electrode formed to cover a top surface of the first electrode and the insulating layer, the pad electrode being electrically connected to the first electrode; and a second electrode formed on a surface, of the semiconductor substrate, opposite to the semi-polar surface. | 06-20-2013 |
20130208747 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a semiconductor substrate made of a hexagonal Group III nitride semiconductor and having a semi-polar plane; and an epitaxial layer formed on the semi-polar plane of the semiconductor substrate and including a first cladding layer of a first conductive type, a second cladding layer of a second conductive type, and a light-emitting layer formed between the first cladding layer and the second cladding layer, the first cladding layer being made of In | 08-15-2013 |
20150043601 | LIGHT EMITTING ELEMENT AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a light emitting element includes, sequentially (a) forming a first light reflecting layer having a convex shape; (b) forming a layered structure body by layering a first compound semiconductor layer, an active layer, and a second compound semiconductor layer; (c) forming, on the second surface of the second compound semiconductor layer, a second electrode and a second light reflecting layer formed from a multilayer film; (d) fixing the second light reflecting layer to a support substrate; (e) removing the substrate for manufacturing a light emitting element, and exposing the first surface of the first compound semiconductor layer and the first light reflecting layer; (f) etching the first surface of the first compound semiconductor layer; and (g) forming a first electrode on at least the etched first surface of the first compound semiconductor layer. | 02-12-2015 |
20150043606 | LIGHT EMITTING ELEMENT AND METHOD OF PRODUCING SAME - Light emitting elements, and methods of producing the same, the light emitting elements including: a laminated structure, the laminated structure including a first compound semiconductor layer that includes a first surface and a second surface facing the first surface, an active layer that is in contact with the second surface of the first compound semiconductor layer, and a second compound semiconductor layer; where the first surface of the first compound semiconductor layer has a first surface area and a second surface area, the first and second surface areas being different in at least one of a height or a roughness, a first light reflection layer is formed on at least a portion of the first surface area, and a first electrode is formed on at least a portion of the second surface area. | 02-12-2015 |
20150044795 | METHOD OF MANUFACTURING LIGHT EMITTING ELEMENT - A method of manufacturing a light emitting element includes, sequentially, (a) forming a mask layer for selective growth; (b) forming a layered structure body by layering a first compound semiconductor layer, an active layer, and a second compound semiconductor layer; (c) forming, on the second surface of the second compound semiconductor layer, a second electrode and a second light reflecting layer formed from a multilayer film; (d) fixing the second light reflecting layer to a support substrate; (e) removing the substrate for manufacturing a light emitting element, and exposing the first surface of the first compound semiconductor layer and the mask layer; and (f) forming a first light reflecting layer formed from a multilayer film and a first electrode on the first surface of the first compound semiconductor layer. | 02-12-2015 |
20150050768 | LASER DIODE DEVICE AND METHOD OF MANUFACTURING LASER DIODE DEVICE - A laser diode device includes: a semiconductor substrate including a semi-polar surface, the semiconductor substrate being formed of a hexagonal III-nitride semiconductor; an epitaxial layer including a light emitting layer, the epitaxial layer being formed on the semi-polar surface of the semiconductor substrate, and the epitaxial layer including a ridge section; a first electrode formed on a top surface of the ridge section; an insulating layer covering the epitaxial layer in an adjacent region of the ridge section and a side surface of the ridge section, the insulating layer covering part or all of side surfaces of the first electrode continuously from the epitaxial layer; a pad electrode formed to cover a top surface of the first electrode and the insulating layer, the pad electrode being electrically connected to the first electrode; and a second electrode formed on a surface, of the semiconductor substrate, opposite to the semi-polar surface. | 02-19-2015 |
20150228846 | METHOD FOR GROWING A NITRIDE-BASED III-V GROUP COMPOUND SEMICONDUCTOR - A method for manufacturing a light-emitting diode, which includes the steps of: providing a substrate having a plurality of protruded portions on one main surface thereof wherein the protruded portion is made of a material different in type from that of the substrate and growing a first nitride-based III-V Group compound semiconductor layer on each recess portion of the substrate through a state of making a triangle in section wherein a bottom surface of the recess portion becomes a base of the triangle; laterally growing a second nitride-based III-V Group compound semiconductor layer on the substrate from the first nitride-based III-V Group compound semiconductor layer; and successively growing, on the second nitride-based III-V Group compound semiconductor layer, a third nitride-based III-V Group compound semiconductor layer of a first conduction type, an active layer, and a fourth nitride-based III-V compound semiconductor layer of a second conduction type. | 08-13-2015 |
20150357795 | METHOD OF MANUFACTURING LIGHT EMITTING ELEMENT - A method of manufacturing a light emitting element includes, sequentially, (a) forming a mask layer for selective growth; (b) forming a layered structure body by layering a first compound semiconductor layer, an active layer, and a second compound semiconductor layer; (c) forming, on the second surface of the second compound semiconductor layer, a second electrode and a second light reflecting layer formed from a multilayer film; (d) fixing the second light reflecting layer to a support substrate; (e) removing the substrate for manufacturing a light emitting element, and exposing the first surface of the first compound semiconductor layer and the mask layer; and (f) forming a first light reflecting layer formed from a multilayer film and a first electrode on the first surface of the first compound semiconductor layer. | 12-10-2015 |