Patent application number | Description | Published |
20090256153 | THIN FILM TRANSISTOR MATRIX DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a thin film transistor matrix device which includes forming a transparent insulating substrate, arranging a plurality of thin film transistors on the substrate in a matrix, arranging a plurality of picture element electrodes on the substrate in a matrix and connecting the picture element electrodes to sources of the thin film transistors. The method also includes forming a plurality of bus lines for commonly connecting gates or drains of the thin film transistors, forming a plurality of bus line terminals on the ends of the bus lines, respectively, with each bus line terminal being provided for each bus line, and forming one connection line on the substrate in a region outer of plurality of the bus line terminals and commonly connecting the plurality of bus lines. The method further includes the step of electrically disconnecting the bus lines from the connection line by laser melting. | 10-15-2009 |
20100117087 | THIN FILM TRANSISTOR MATRIX DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a thin film transistor matrix device which includes forming a transparent insulating substrate, arranging a plurality of thin film transistors on the substrate in a matrix, arranging a plurality of picture element electrodes on the substrate in a matrix and connecting the picture element electrodes to sources of the thin film transistors. The method also includes forming a plurality of bus lines for commonly connecting gates or drains of the thin film transistors, forming a plurality of bus line terminals on the ends of the bus lines, respectively, with each bus line terminal being provided for each bus line, and forming one connection line on the substrate in a region outer of plurality of the bus line terminals and commonly connecting the plurality of bus lines. The method further includes the step of electrically disconnecting the bus lines from the connection line by laser melting. | 05-13-2010 |
20100214202 | THIN FILM TRANSISTOR MATRIX DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a thin film transistor matrix device which includes forming a transparent insulating substrate, arranging a plurality of thin film transistors on the substrate in a matrix, arranging a plurality of picture element electrodes on the substrate in a matrix and connecting the picture element electrodes to sources of the thin film transistors. The method also includes forming a plurality of bus lines for commonly connecting gates or drains of the thin film transistors, forming a plurality of bus line terminals on the ends of the bus lines, respectively, with each bus line terminal being provided for each bus line, and forming one connection line on the substrate in a region outer of plurality of the bus line terminals and commonly connecting the plurality of bus lines. The method further includes the step of electrically disconnecting the bus lines from the connection line by laser melting. | 08-26-2010 |
20130015451 | THIN FILM TRANSISTOR MATRIX DEVICE AND METHOD FOR FABRICATING THE SAME - A thin film transistor matrix device including an insulating substrate; a plurality of lines arranged on the substrate, with the lines being defined as odd-number-th lines alternating with even-number-th lines; a first connection line extending in a direction transverse to the plurality of lines, where the first connection line and the odd-number-th lines are configured and arranged to be electrically connected/disconnected to/from each other; and a second connection line extending in a direction transverse to the plurality of lines, where the second connection line and the ven-number-th lines are configured and arranged to be electrically connected/disconnected to/from each other. | 01-17-2013 |
Patent application number | Description | Published |
20080303997 | VERTICALLY-ALLIGNED (VA) LIQUID CRYSTAL DISPLAY DEVICE - A vertically alignment mode liquid crystal display device having an improved viewing angle characteristic is disclosed. The disclosed liquid crystal display device uses a liquid crystal having a negative anisotropic dielectric constant, and orientations of the liquid crystal are vertical to substrates when no voltage being applied, almost horizontal when a predetermined voltage is applied, and oblique when an intermediate voltage is applied. At least one of the substrates includes a structure as domain regulating means, and inclined surfaces of the structure operate as a trigger to regulate azimuths of the oblique orientations of the liquid crystal when the intermediate voltage is applied. | 12-11-2008 |
20090207360 | VERTICALLY-ALLIGNED (VA) LIQUID CRYSTAL DISPLAY DEVICE - A vertically alignment mode liquid crystal display device having an improved viewing angle characteristic is disclosed. The disclosed liquid crystal display device uses a liquid crystal having a negative anisotropic dielectric constant, and orientations of the liquid crystal are vertical to substrates when no voltage being applied, almost horizontal when a predetermined voltage is applied, and oblique when an intermediate voltage is applied. At least one of the substrates includes a structure as domain regulating means, and inclined surfaces of the structure operate as a trigger to regulate azimuths of the oblique orientations of the liquid crystal when the intermediate voltage is applied. | 08-20-2009 |
20110176098 | VERTICALLY-ALLIGNED (VA) LIQUID CRYSTAL DISPLAY DEVICE - A vertically alignment mode liquid crystal display device having an improved viewing angle characteristic is disclosed. The disclosed liquid crystal display device uses a liquid crystal having a negative anisotropic dielectric constant, and orientations of the liquid crystal are vertical to substrates when no voltage being applied, almost horizontal when a predetermined voltage is applied, and oblique when an intermediate voltage is applied. At least one of the substrates includes a structure as domain regulating means, and inclined surfaces of the structure operate as a trigger to regulate azimuths of the oblique orientations of the liquid crystal when the intermediate voltage is applied. | 07-21-2011 |
20120120338 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device comprising a liquid crystal layer including liquid crystal molecules provided between a first substrate and a second substrate; pixels forming a display area; electrodes for applying a voltage across the liquid crystal layer within each of the pixels; a plurality of domain regulating structures for dividing orientations of the liquid crystal molecules and forming multiple domains within each of the pixels, when a predetermined voltage is applied across the liquid crystal layer within each of the pixels; and a structure which is formed in an outer area located next to the display area and is substantially the same as at least one of the plurality of domain regulating structures. | 05-17-2012 |
Patent application number | Description | Published |
20080292899 | Titanium Alloy Composite Material, Method of Producing the Titanium Alloy Composite Material, Titanium Clad Material Using the Titanium Alloy Composite Material, and Method of Producing the Titanium Clad Material - A titanium alloy composite material including dispersed carbon fibers coated with a layer containing an element which forms a carbide in reaction with carbon, and the carbide formed thereby, in crystal grains of the titanium alloy. The element which forms a carbide in reaction with carbon is preferably at least one of silicon (Si), chromium (Cr), titanium (Ti), vanadium (V), tantalum (Ta), molybdenum (Mo), zirconium (Zr), boron (B), and calcium (Ca). The carbon fibers are preferably carbon nanotubes, vapor-grown carbon fibers, or a mixture thereof. The titanium alloy composite material has excellent mechanical strength, such as tensile strength, Young's modulus, toughness, and hardness. | 11-27-2008 |
20100143176 | METHOD OF PRODUCING TITANIUM ALLOY COMPOSITE MATERIAL - A method of producing a titanium alloy composite material comprises mixing carbon fibers and a powder of an element which forms a carbide in reaction with carbon, subliming the element under high temperature vacuum, and coating the carbon fibers with a layer containing the element and the carbide to produce coated carbon fibers. The method further comprises mixing the coated carbon fibers and titanium alloy powder to form a mixture, and applying a mechanical impact force to the mixture to fix the carbon fibers on the surface of the titanium alloy powder to obtain a carbon fiber-fixed titanium alloy powder. The method further comprises sintering the carbon fiber-fixed titanium alloy powder to form a sintered body and plastic working the sintered body to disperse the carbon fibers in crystal grains of the titanium alloy. | 06-10-2010 |
20120189839 | METHOD OF MANUFACTURING METAL COMPOSITE MATERIAL, METAL COMPOSITE MATERIAL, METHOD OF MANUFACTURING HEAT DISSIPATING COMPONENT, AND HEAT DISSIPATING COMPONENT - A method of manufacturing a metal composite material includes applying a mechanical impact force to a carbon material and a metal powder at such an intensity as capable of pulverizing the carbon material, thereby adhering the carbon material to a surface of the metal powder. | 07-26-2012 |
Patent application number | Description | Published |
20110233408 | PYROELECTRIC DETECTOR AND METHOD FOR MANUFACTURING SAME, PYROELECTRIC DETECTION DEVICE, AND ELECTRONIC INSTRUMENT - A pyroelectric detector includes a pyroelectric detection element, a support member, a fixing part and a first reducing gas barrier layer. A first side of the support member faces a cavity and the pyroelectric detection element is mounted and supported on a second side opposite from the first side. An opening part communicated with the cavity is formed on a periphery of the support member in plan view from the second side of the support member. The fixing part supports the support member. The first reducing gas barrier layer covers a first surface of the support member on the first side, a side surface of the support member facing the opening part, and a part of a second surface of the support member on the second side and the pyroelectric detection element exposed as viewed from the second side of the support member. | 09-29-2011 |
20110233710 | PYROELECTRIC DETECTOR, PYROELECTRIC DETECTION DEVICE, AND ELECTRONIC INSTRUMENT - A pyroelectric detector includes a support member, a capacitor and a fixing part. The support member includes a first side and a second side opposite from the first side, with the first side facing a cavity. The capacitor includes a pyroelectric body between a first electrode and a second electrode such that an amount of polarization varies based on a temperature. The capacitor is mounted and supported on the second side of the support member with the first electrode being disposed on the second side of the support member. A thermal conductance of the first electrode is less than a thermal conductance of the second electrode. The fixing part supports the support member. | 09-29-2011 |
20110235676 | THERMAL DETECTOR, THERMAL DETECTION DEVICE, AND ELECTRONIC INSTRUMENT - A thermal detector includes a thermal detection element, a support member, and a fixing part supporting the support member. The support member mounts and supports the thermal detection element on a second side thereof with a first side thereof facing a cavity. The support member includes a first layer member disposed on the second side and having a residual stress in a first direction, and a second layer member laminated on the first layer member on the first side and having a residual stress in a second direction opposite to the first direction. A thermal conductance of the first layer member is less than a thermal conductance of the second layer member. | 09-29-2011 |
20120018635 | THERMAL DETECTOR, THERMAL DETECTION DEVICE, AND ELECTRONIC INSTRUMENT - A thermal detector has a thermal detection element in which a physical characteristic changes based on temperature, a light-absorbing member configured and arranged to collect heat and transmit collected heat to the thermal detection element, a support member mounting the thermal detection element on a first side with a second surface facing a cavity, and a support part supporting a portion of the support member. The light-absorbing member is a plate shaped member at least partially contacting a top part of the thermal detection element and having a portion overhanging to an outside from the top part of the thermal detection element in plan view. | 01-26-2012 |
20120292511 | PYROELECTRIC DETECTOR, PYROELECTRIC DETECTION DEVICE, AND ELECTRONIC INSTRUMENT - A pyroelectric detector includes a support member, a capacitor and a fixing part. The support member includes a first side and a second side opposite from the first side, with the first side facing a cavity. The capacitor includes a pyroelectric body between a first electrode and a second electrode such that an amount of polarization varies based on a temperature. The capacitor is mounted and supported on the second side of the support member with the first electrode being disposed on the second side of the support member. The fixing part supports the support member, with the cavity being formed between the support member and the fixing part. | 11-22-2012 |
20140034832 | PYROELECTRIC DETECTOR AND METHOD FOR MANUFACTURING SAME, PYROELECTRIC DETECTION DEVICE, AND ELECTRONIC INSTRUMENT - A pyroelectric detector includes a pyroelectric detection element, a support member, a fixing part and a first reducing gas barrier layer. A first side of the support member faces a cavity and the pyroelectric detection element is mounted and supported on a second side opposite from the first side. An opening part communicated with the cavity is formed on a periphery of the support member in plan view from the second side of the support member. The fixing part supports the support member. The first reducing gas barrier layer covers a first surface of the support member on the first side, a side surface of the support member facing the opening part, and a part of a second surface of the support member on the second side and the pyroelectric detection element exposed as viewed from the second side of the support member. | 02-06-2014 |
20150060672 | PYROELECTRIC DETECTOR AND METHOD FOR MANUFACTURING SAME, PYROELECTRIC DETECTION DEVICE, AND ELECTRONIC INSTRUMENT - A pyroelectric detector includes a first electrode, a second electrode, a pyroelectric body that is disposed between the first electrode and the second electrode, and a first gas barrier layer that covers the pyroelectric body. The first electrode includes a first layer and a second layer. The second layer is disposed between the first layer and the pyroelectric body, and the first layer is a second gas barrier layer. | 03-05-2015 |
Patent application number | Description | Published |
20090148109 | OPTICAL CONNECTOR - An optical connector for splicing a rear end of a pre-assembled optical fiber that is mounted within an optical ferrule with a tip of a second optical fiber is provided. The optical connector includes a connector body and an anchor mechanism for anchoring the second optical fiber to the connector body. The anchor mechanism includes a holder for holding the second optical fiber, and connecting portion which anchors the holder to the connector body. The length of the second optical fiber from the holder to the tip is longer than the distance from the holder to the rear end of the pre-assembled optical fiber. The rear end of the pre-assembled optical fiber is a curved convex end surface or an end with a diameter-reducing portion, and is PC-connectable to the tip of the second optical fiber. | 06-11-2009 |
20090317074 | METHOD AND APPARATUS FOR CONFIRMING OPTICAL FIBERS CONNECTION IN OPTICAL CONNECTOR - Provided is a method for confirming optical fibers connection in a connection part in an optical connector, including: allowing light to pass through a first optical fiber and allowing cladding mode light to disappear; and detecting a difference in light intensity in the connection part between before and after the light from the first optical fiber enters a second optical fiber disposed in the optical connector. | 12-24-2009 |
20100158452 | METHOD CONNECTING OPTICAL FIBER OF OPTICAL CONNECTOR WITH OPTICAL TRANSMISSION ELEMENT, CONNECTOR-ATTACHED OPTICAL TRANSMISSION ELEMENT, OPTICAL CONNECTOR, AND ASSEMBLING METHOD OF OPTICAL CONNECTOR - A connection method connects an optical connector and an optical transmission element. The optical connector includes a connector housing, a stop-ring structure, and an optical fiber which protrudes from an end part of the stop-ring structure. The optical transmission element includes a tensile-strength fiber body. The connection method includes fuse-connecting a first end of the optical fiber with a second end of an optical fiber protruding from a transmission element terminal part of the optical transmission element; inserting a fuse-connected optical fiber part and the tensile strength fiber body inside a reinforcing sleeve provided with a hot melt body, and covering and bridging the transmission element terminal part and at least the end part of the stop-ring structure; and integrating the fuse-connected optical fiber part, the tensile strength fiber body, the transmission element terminal part, and the stop-ring structure, by a hot melt resin melted from the hot melt body. | 06-24-2010 |
20110079930 | CONNECTION METHOD, CONNECTION TOOL, AND CONNECTION JIG FOR OPTICAL FIBER - A method of butting and connecting a first optical fiber and a second optical fiber in an optical connector comprises placing said optical connector that holds said first optical fiber in wherein an optical fiber connection tool; mounting said optical fiber holder on a holder mounting base of a front end bevel processing tool; processing a front end face of said second optical fiber such that said front end face of said second optical fiber is beveled relative to the surface perpendicular to the optical fiber axis direction; transferring said optical fiber holder to said holder support base; and moving said optical fiber holder toward said optical connector along said guide part, and butting and connecting the beveled front end face of said second optical fiber to the front end face of said first optical fiber such that their bevel directions are aligned. | 04-07-2011 |
20110097044 | OPTICAL CONNECTOR AND METHOD OF ASSEMBLING OPTICAL CONNECTOR - An optical connector that is assembled onto a terminal of an optical fiber cable including tension bodies. The optical connector includes a housing, a ferrule that is provided in the housing, and a fixing cap that is mounted on the housing. The housing includes a fixing portion of which an outer peripheral surface is provided with a screw portion. While the tension bodies leading from the terminal of the optical fiber cable are interposed between the housing and the fixing cap, the fixing cap is screwed onto and fixed to the fixing portion. | 04-28-2011 |
20110293222 | OPTICAL CONNECTOR - An optical connector of the present invention includes a ferrule to which an internal optical fiber is embedded and an end face grinding is performed; and a connection mechanism which extends to an opposite side of a connection end face of the ferrule, wherein the optical connector butt connects the internal optical fiber and an insert optical fiber which is inserted from outside within a positioning groove provided at the connection mechanism; and a back end side of an end face of the internal optical fiber which butts to the insert optical fiber is made a beveled end face by cutting process. | 12-01-2011 |
20110293224 | OPTICAL CONNECTOR AND METHOD OF ASSEMBLING OPTICAL CONNECTOR - An optical connector that is assembled at the terminal of an optical fiber cable that integrates an optical fiber and a tension-resisting member extending in the longitudinal direction of the optical fiber, the optical connector including: a connector body having a stationary portion at the rear end thereof, the stationary portion having a threaded portion formed on the outer periphery surface, and a fixing cap that is screwed onto the threaded portion of the stationary portion, wherein the fixing cap fixes the tension-resisting member that has been drawn out from the optical fiber cable terminal by sandwiching the tension-resisting member between the fixing cap and the connector body when the fixing cap is screwed onto the stationary portion. | 12-01-2011 |
20120082418 | OPTICAL CONNECTOR AND OPTICAL CONNECTOR FERRULE - An optical connector comprises a housing, a regulating portion which is protrudes toward an inner surface of the housing, a ferrule which is secured to an optical fiber and which is accommodated inside the housing so as to be movable. The ferrule includes a base portion and a thinned portion that has a thickness smaller than that of the base portion. If the ferrule moves forward in the butt-connection direction, the regulating portion and the base portion approach each other, so that the regulating portion regulates the movement of the ferrule in the thickness direction. If the ferrule moves backward in the butt-connection direction, the ferrule reaches a position where the thinned portion faces the regulating portion, so that the movement of the ferrule in the thickness direction is not regulated by the regulating portion. | 04-05-2012 |
20120163753 | METHOD AND APPARATUS FOR CONFIRMING OPTICAL FIBERS CONNECTION IN OPTICAL CONNECTOR - Provided is a method for confirming optical fibers connection in a connection part in an optical connector, including: allowing light to pass through a first optical fiber and allowing cladding mode light to disappear; and detecting a difference in light intensity in the connection part between before and after the light from the first optical fiber enters a second optical fiber disposed in the optical connector. | 06-28-2012 |
20120275748 | OPTICAL CONNECTOR - The present invention relates to an optical connector including, a ferrule within which an integrated optical fiber is fixed, a clamp portion disposed at a rear of the ferrule, the clamp portion comprising: a base component and a lid component facing the based component, where the base component and the lid component together are configured to clamp an end portion of the integrated optical fiber and an end portion of a naked optical fiber abutting the end portion of the integrated optical fiber, and a naked optical fiber guide portion disposed at a rear of the clamp portion, where the naked optical fiber guide portion comprises a through hole through which the naked optical fiber can be inserted, and that guides the naked optical fiber to the clamp portion by the through hole. | 11-01-2012 |
20120281951 | OPTICAL FIBER CONNECTOR, OPTICAL FIBER CONNECTOR ASSEMBLING METHOD, FUSION-SPLICED PORTION REINFORCING METHOD, PIN CLAMP, CAP-ATTACHED OPTICAL FIBER CONNECTOR, OPTICAL FIBER CONNECTOR CAP, OPTICAL FIBER CONNECTOR ASSEMBLING TOOL, AND OPTICAL FIBER CONNECTOR ASSEMBLING SET - An optical fiber connector includes a ferrule, an inserted optical fiber, an external optical fiber, and a pair of reinforcing members that pinches and reinforces a fusion-spliced portion of the other end portion of the inserted optical fiber and the front end portion of the external optical fiber. The reinforcing members include adhesion layer on the inner surface thereof which comes in contact with the other end portion of the inserted optical fiber and the front end portion of the external optical fiber. The adhesion layer is depressed at the position where the inserted optical fiber and the external optical fiber come in contact with each other so as to closely adhere to the outer circumferential surfaces of the optical fibers in the fusion-spliced portion. | 11-08-2012 |
20140026717 | COATING REMOVAL TOOL USED FOR OPTICAL FIBER AND METHOD OF REMOVING COATING - A coating removal tool used for an optical fiber includes: a base; and a pair of arm members extending in one direction from the base. Also, the arm members, each of which comprises an elastically deformable deformation portion on a base side, and an operation portion which is closer to a tip end side than the deformation portion, contact portions in a wedge shape are provided on the inner sides of operation portions, respectively, the inner sides opposing to each other so that tip edges of contact portions oppose to each other, and grip portions are provided outside the operation portions, respectively, and a coating of an optical fiber is configured to be removed by pulling out the optical fiber in a state where the tip edges of the contact portions are brought into contact with the optical fiber disposed along an extending direction of the arm members. | 01-30-2014 |
20140105548 | OPTICAL FIBER CONNECTOR, OPTICAL FIBER CONNECTOR ASSEMBLING METHOD, FUSION-SPLICED PORTION REINFORCING METHOD, PIN CLAMP, CAP-ATTACHED OPTICAL FIBER CONNECTOR, OPTICAL FIBER CONNECTOR CAP, OPTICAL FIBER CONNECTOR ASSEMBLING TOOL, AND OPTICAL FIBER CONNECTOR ASSEMBLING SET - An optical fiber connector includes a ferrule, an inserted optical fiber, an external optical fiber, and a pair of reinforcing members that pinches and reinforces a fusion-spliced portion of the other end portion of the inserted optical fiber and the front end portion of the external optical fiber. The reinforcing members include adhesion layer on the inner surface thereof which comes in contact with the other end portion of the inserted optical fiber and the front end portion of the external optical fiber. The adhesion layer is depressed at the position where the inserted optical fiber and the external optical fiber come in contact with each other so as to closely adhere to the outer circumferential surfaces of the optical fibers in the fusion-spliced portion. | 04-17-2014 |
20140140668 | MECHANICAL SPLICE UNIT, MECHANICAL SPLICING TOOL, AND OPTICAL FIBER SPLICING METHOD - A mechanical splice unit of the invention includes: a mechanical splice having an optical fiber guide groove that is formed at matching surfaces of both a base and a lid in a two-part-divided structure, the mechanical splice being capable of grasping a first optical fiber at one end side of the lid; and an optical fiber splice auxiliary tool used for splice of the first optical fiber that is grasped by the mechanical splice, wherein the optical fiber splice auxiliary tool includes: a mechanical splice grasping portion that holds the mechanical splice; and a guided portion that is slidable along a guide portion formed at a splicing tool to which a second optical fiber to be spliced to the first optical fiber is fixed. | 05-22-2014 |
20140254989 | OPTICAL FIBER CABLE HAVING CONNECTOR AND ASSEMBLING METHOD THEREOF - An optical fiber cable having an optical connector, includes: an optical connector assembled on a tip portion of an optical fiber cable, including a ferrule in which an optical fiber protruding from a terminal of the optical fiber cable is inserted and fixed; and a reinforced portion formed by heating and shrinking a heat-shrinkable tube and by solidifying a hot-melt adhesive of an inner portion of the heat-shrinkable tube after melting the hot-melt adhesive so as to integrate a rear end portion of the ferrule, the tip portion of the optical fiber cable which is disposed so as to be separated in a rear side of the ferrule, and the heat-shrinkable tube which accommodates the rear end portion of the ferrule and the tip portion of the optical fiber cable and in which the hot-melt adhesive is disposed in the inner portion of the heat-shrinkable tube. | 09-11-2014 |
Patent application number | Description | Published |
20100095888 | PLASMA GENERATING APPARATUS AND PLASMA FILM FORMING APPARATUS - A plasma generating apparatus is provided with an impedance matching member, which is connected to a feeding line that supplies an antenna element with a high frequency signal, and has variable characteristic parameters for impedance matching; a distribution wire, which is arranged corresponding to the impedance matching member and connects the impedance matching member with at least two antenna elements; and a control section which changes at the same time impedance matching statuses of at least the two antenna elements connected to the impedance matching member through the distribution wire by changing the characteristic parameters of the impedance member. Thus, the number of impedance matching devices is smaller than that of the antenna elements, and a mechanism relating to impedance matching is made relatively small. | 04-22-2010 |
20100131226 | PLASMA ELECTRON TEMPERATURE MEASURING METHOD AND DEVICE - A laser beam with a wavelength capable of exciting atoms of helium in the metastable state is directed to a generated plasma, and atoms in the metastable state are excited. Absorption amount information representing the amount of laser beam absorbed is acquired, and the density of atoms of helium in the metastable state in the plasma is computed from the absorption amount. The emissions of light from helium gas in the plasma caused by transition from two different excited states to the lower level are measured, and the ratio between the intensities of the emissions is determined. The electron temperature of the produced plasma is computed from the computed density of the atoms of helium gas in the metastable state and the computed emission intensity ratio. With this, the plasma electron temperature can be computed with a relatively high accuracy irrespective of the condition of the plasma atmosphere. | 05-27-2010 |
20110293853 | THIN FILM FORMING APPARATUS AND THIN FILM FORMING METHOD - A thin film forming apparatus controls pressures of a first internal space in a deposition vessel and a second internal space provided in the first internal space according to determined pressure conditions, respectively. The apparatus causes a source gas to flow onto a substrate in the second internal space and supplies a high-frequency power to a plasma source provided in the first internal space according to the pressure conditions, thereby generating plasma in the second internal space to form a thin film on the substrate. | 12-01-2011 |
20110293854 | ATOMIC LAYER GROWING APPARATUS AND THIN FILM FORMING METHOD - An atomic layer growing apparatus introduces an organic metal gas containing hydrogen to a deposition vessel to cause an organic metal component to be adsorbed on a substrate. Then, the apparatus introduces an oxidizing gas or a nitriding gas to the deposition vessel to generate plasma, thereby oxidizing or nitriding the organic metal component deposited on the substrate. When the plasma is generated, the apparatus detects emission intensity of a predetermined wavelength of light emitted on the substrate through an observation window provided in the deposition vessel. When the detected emission intensity becomes a predetermined value or less, the apparatus stops the generation of the plasma. | 12-01-2011 |
Patent application number | Description | Published |
20090218592 | Method of producing encapsulation resins - A process is provided for producing curable polyorganosiloxanes where noble metal oxides are used as hydrosilylation catalysts. The noble metals can be used in solid granular form or as part of a fixed bed, and do not form part of the final curable composition or cured product. The cured polyorganosiloxanes have increased stability and can be used as encapsulation resins at a temperature far lower than 300° C., have excellent light transmission properties (colorless transparency) in a wavelength region of from ultraviolet light to visible light, light resistance, heat resistance, resistance to moist heat and UV resistance, and do not generate cracks and peeling even in use over a long period of time. | 09-03-2009 |
20090221783 | Encapsulation resins - Curable polyorganosiloxanes are provided that cure in the absence of a hydrosilylation catalyst. The cured polyorganosiloxanes have increased stability and can be used as encapsulation resin is at a temperature far lower than 300° C., have excellent light transmission properties (colorless transparency) in a wavelength region of from ultraviolet light to visible light, light resistance, heat resistance, resistance to moist heat and UV resistance, and do not generate cracks and peeling even in use over a long period of time. | 09-03-2009 |
20110147722 | SEMICONDUCTOR LIGHT EMITTING DEVICE COMPRISING HIGH PERFORMANCE RESINS - A semiconductor light emitting device comprising curable polyorganosiloxane compositions is provided where the compositions contain a 13 | 06-23-2011 |
20120286220 | MATERIAL FOR A MOLDED RESIN FOR USE IN A SEMICONDUCTOR LIGHT-EMITTING DEVICE - The present invention provides a material for a molded resin as a material for a semiconductor light-emitting device that can yield a highly durable (light resistance and heat resistance) molded resin and can also improve the LED output through an excellent reflectivity. The present invention also provides an easily moldable material for a molded resin for a semiconductor light-emitting device. The material for a molded resin for a semiconductor light-emitting device is a resin composition comprising (A) a polyorganosiloxane, (B) a white pigment, and (C) a curing catalyst, wherein the white pigment (B) has the following characteristics (a) and (b); (a) an aspect ratio 1.2 or more and 4.0 or less, and (b) a primary particle diameter 0.1 μm or more and 2.0 μm or less. | 11-15-2012 |
20140091266 | MATERIAL FOR A MOLDED RESIN FOR USE IN A SEMICONDUCTOR LIGHT-EMITTING DEVICE - The present invention provides a material for a molded resin as a material for a semiconductor light-emitting device that can yield a highly durable (light resistance and heat resistance) molded resin and can also improve the LED output through an excellent reflectivity. The present invention also provides an easily moldable material for a molded resin for a semiconductor light-emitting device. The material for a molded resin for a semiconductor light-emitting device is a resin composition, comprising (A) a polyorganosiloxane, (B) a white pigment, and (C) a curing catalyst, wherein the white pigment (B) has the following characteristics (a) and (b):
| 04-03-2014 |
Patent application number | Description | Published |
20100239776 | METHOD FOR PRODUCING PLASTIC LENS - The present invention relates to a method of manufacturing a plastic lens comprising a cured film on at least one of a pair of opposing surfaces of a plastic lens substrate. The method of manufacturing a plastic lens of the present invention comprises heating the plastic lens substrate to a temperature greater than or equal to a glass transition temperature of the substrate; coating a photocurable composition on at least one of a pair of opposing surfaces of the lens substrate following the heating; forming a cured film by irradiating the photocurable composition that has been coated on the substrate with light to cure at least a portion of the composition; and conducting a heat treatment of the plastic lens on which the cured film has been formed at a temperature, the temperature being lower than the glass transition temperature of the substrate but greater than or equal to a glass transition temperature of the cured film. | 09-23-2010 |
20110127685 | METHOD OF MANUFACTURING LENS CASTING MOLD AND METHOD OF MANUFACTURING EYEGLASS LENS - An aspect of the present invention relates to a method of manufacturing a lens casting mold by introducing a forming mold, with a forming surface on which a glass material being formed is positioned, into a continuous heating furnace and conducting thermal treatment while conveying the forming mold in the furnace to form an upper surface of the glass material being formed by bring a lower surface of the glass material being formed into tight contact with the forming surface. The aspect comprises utilizing a forming mold having a curvature distribution on the forming surface as the forming mold; specifying an average curvature in a direction running from a geometric center toward a perimeter portion of the forming surface of the forming mold in two or more different directions before introduction to the furnace; directly or indirectly measuring a temperature at two or more measurement points on the forming surface of the forming mold in one or two or more regions within the furnace and specifying a direction running from the geometric center of the forming surface toward a point that is of maximum temperature among the two or more measurement points as a maximum temperature direction; continuously or intermittently repeating approximately full circle rotation in a horizontal direction of the forming mold during passage through the furnace; and in the region in which the maximum temperature direction has been specified, the rotation is conducted so that an angular rotation speed of the forming mold decreases as the average curvature in an n | 06-02-2011 |
20110163466 | METHOD OF MANUFACTURING LENS CASTING MOLD AND METHOD OF MANUFACTURING EYEGLASS LENS - The present invention relates to a method of manufacturing a lens casting mold in which an upper surface of a glass material being formed is formed into a shape of a molding surface for forming a surface comprising a progressive surface or a progressive element by using a continuous heating furnace. As the forming mold, a forming mold having a curvature distribution on the forming surface is utilized. In one aspect, a temperature of the continuous heating furnace is controlled so that the continuous heating furnace comprises a temperature rising region having a temperature distribution such that the temperature rises in a conveyance direction of the forming mold, and a separation distance between the forming surface of the forming mold and a lower surface of the glass material being formed is specified in two or more spots before introduction to the continuous heating furnace. The forming mold is conveyed in the temperature rising region so that a portion with the greatest separation distance among the specified separation distances is comprised in a portion on a side of the conveyance direction as divided in two by a virtual line, the virtual line running orthogonally to the conveyance direction of the forming mold and passing through a geometric center of the forming surface. In another aspect, a forming mold position control region is provided in the continuous heating furnace, a temperature is directly or indirectly measured at multiple measurement points on the forming surface in the forming mold position control region, and the forming mold is conveyed so that a portion on the forming surface of greatest curvature is present in a high temperature portion that has been determined based on the measurement result. A virtual line A passing through a geometric center and a maximum temperature point among the multiple measurement points is specified, and then a portion containing the maximum temperature point as divided in two by a virtual line B running orthogonally to the virtual line A and passing through the geometric center is determined as the high temperature portion. | 07-07-2011 |
20120086138 | MANUFACTURING METHOD AND MANUFACTURING DEVICE OF FORMED ARTICLE, AND MANUFACTURING METHOD OF EYEGLASS LENS - An aspect of the present invention relates to a method of manufacturing a formed article forming an upper surface of a forming material comprised of a thermosoftening substance into a desired shape by heating the forming material in a state where the forming material is positioned on a forming surface of a forming mold to a temperature permitting deformation of the forming material to bring a lower surface of the forming material into tight contact with the forming surface. The heating is conducted by positioning the forming mold, on which the forming material has been positioned, beneath heat source(s) radiating radiant heat in a state where a plate-shaped member the outermost surface of which is comprised of a metal material is positioned above the upper surface of the forming material. Another aspect of the present invention relates to a method of manufacturing a formed article forming an upper surface of a forming material comprised of a thermosoftening substance into a desired shape by heating the forming material within a heating furnace in a state where the forming material is positioned on a forming surface of a forming mold to a temperature permitting deformation of the forming material to bring a lower surface of the forming material into tight contact with the forming surface. The forming is conducted while an exposed portion on the forming surface side of the forming mold on which the forming material has been positioned is covered with a covering member, and at least a portion of the covering member comprises a metal material layer. | 04-12-2012 |
Patent application number | Description | Published |
20100091087 | Information processing device, information processing method and storage medium storing computer program - There is provided an information processing device including a recipient information recording portion that records recipient party information, an image recording portion that records images of the recipient party taken on the recipient party side during a call, an image extraction portion that extracts an image at a predetermined point in time from the images recorded in the image recording portion, and a registration portion that, after the call is ended, associates the image extracted by the image extraction portion with the recipient party information and registers the associated image in the recipient party information recording portion. | 04-15-2010 |
20100272251 | ECHO REMOVING APPARATUS, ECHO REMOVING METHOD, AND COMMUNICATION APPARATUS - Disclosed herein is an echo removing apparatus including: a sound input terminal configured to input an external sound signal from external equipment; a first echo removing device configured to, after admitting as input signals the external sound signal coming from the external equipment and input through the sound input terminal and a receiver sound signal transmitted from a calling party, estimate a first pseudo echo component from the external sound signal in order to remove the first pseudo echo component from the receiver sound signal; and a second echo removing device configured to, after admitting as input signals the external sound signal coming from the external equipment and input through the sound input terminal and a transmitter sound signal input from a microphone, estimate a second pseudo echo component from the external sound signal in order to remove the second pseudo echo component from the transmitter sound signal. | 10-28-2010 |
20110285621 | INFORMATION PROCESSING SYSTEM AND INFORMATION PROCESSING APPARATUS - An information processing system including an information processing apparatus and a remote controller. The remote controller includes a cursor key operation unit capable of performing a focus shift operation to cause a user to shift a focus and an enter input operation to cause the user to select an object as an selection candidate on which the focus is disposed and a mouse operation unit capable of performing a cursor pointer movement operation to move a cursor pointer and an enter input operation to cause the user to select the object indicated by the cursor pointer. The information processing apparatus includes a judgment unit to judge the object selected and a first enter input restriction unit to invalidate the enter input operation of the mouse operation unit performed within a preset time period from when a latest focus shift operation of the cursor key operation unit is performed. | 11-24-2011 |
20110285920 | INFORMATION PROCESSING APPARATUS AND INFORMATION PROCESSING METHOD - An information processing apparatus includes an information processing apparatus main body and a remote controller capable of controlling the information processing apparatus main body. The information processing apparatus main body includes a connection unit capable of being connected with an electronic apparatus, a first storage unit to store model identification information, and a control unit to perform control so that display information of a model selection screen for causing a user to select a model of the electronic apparatus with the remote controller is supplied to the electronic apparatus, the model is determined, and model identification information corresponding to the model is transmitted to the remote controller. The remote controller includes a plurality of keys, a transmission unit, a second storage unit to store a list of control codes assigned to the plurality of keys, and an assignment unit to assign the control codes to the plurality of keys. | 11-24-2011 |
20110289453 | INFORMATION PROCESSING SYSTEM AND INFORMATION PROCESSING APPARATUS - A controller may include first and second input operating sections to input an instruction, and a control unit to control selection of an object on a screen display based on an instruction input at the first and second input operating sections. When an enter instruction is input at one of the first and second input operating sections following input of a movement instruction at the other of the first and second input operating sections, the control unit may control start of a function of an object at a position indicated based on the input of the movement instruction at the other of the input operating sections. | 11-24-2011 |
Patent application number | Description | Published |
20100233766 | Novel Microorganism and Method for Producing Dodecahydro-3a,6,6,9a-Tetramethylnaphtho[2,1-b]Furan Intermediate Using the Novel Microorganism - This invention relates to a novel microorganism that efficiently produces a dodecahydro-3a,6,6,9a-tetramethylnaphtho[2,1-b]furan intermediate using sclareol as a substrate. As a result of concentrated studies, a plurality of novel microorganisms having properties of interest that are not classified as conventional microorganisms were isolated and identified. The novel microorganism of the present invention belongs to Ascomycetes and has the ability of producing a dodecahydro-3a,6,6,9a-tetramethylnaphtho[2,1-b]furan intermediate using sclareol as a substrate. Such microorganism of Ascomycetes represents a new finding and it can be effective for producing dodecahydro-3a,6,6,9a-tetramethylnaphtho[2,1-b]furan and an intermediate thereof. | 09-16-2010 |
20120107917 | Novel Microorganism and Method for Producing Dodecahydro-3a,6,6,9a-Tetramethylnaphtho[2,1-b]Furan Intermediate Using the Novel Microorganism - This invention relates to a novel microorganism that efficiently produces a dodecahydro-3a,6,6,9a-tetramethylnaphtho[2,1-b]furan intermediate using sclareol as a substrate. As a result of concentrated studies, a plurality of novel microorganisms having properties of interest that are not classified as conventional microorganisms were isolated and identified. The novel microorganism of the present invention belongs to | 05-03-2012 |
Patent application number | Description | Published |
20100178756 | NITRIDE SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A nitride semiconductor device includes: a substrate having a principal surface; a first nitride semiconductor layer formed on the principal surface of the substrate and includes one or more convex portions whose side surfaces are vertical to the principal surface; and a second nitride semiconductor layer selectively grown on the side surfaces of the one or more convex portions of the first nitride semiconductor layer. | 07-15-2010 |
20110012169 | NITRIDE SEMICONDUCTOR LIGHT-EMITTING DEVICE - A nitride semiconductor light-emitting device includes a substrate ( | 01-20-2011 |
20110037101 | SEMICONDUCTOR DEVICE - A semiconductor device includes an undoped GaN layer ( | 02-17-2011 |
20110058586 | NITRIDE SEMICONDUCTOR LASER - A projection/recess structure is formed on a base substrate, and a layered structure of a nitride semiconductor laser is formed on the projection/recess structure. InGaN used for an active layer has an In intake efficiency and a growth rate that greatly vary with the plane direction. By use of this characteristic, an active layer structure low in In content and small in well layer thickness can be formed at a light-outgoing end facet by one-time crystal growth, and thus the transition wavelength of the active layer near the light-outgoing end facet can be shortened. As a result, since optical damage due to light absorption at the light-outgoing end facet can be greatly reduced, a nitride semiconductor laser capable of performing high light-output operation can be implemented. | 03-10-2011 |
20110073910 | NITRIDE SEMICONDUCTOR MATERIAL, SEMICONDUCTOR ELEMENT, AND MANUFACTURING METHOD THEREOF - The nitride semiconductor material according to the present invention includes a group III nitride semiconductor and a group IV nitride formed on the group III nitride semiconductor, where an interface between the group III nitride semiconductor and the group IV nitride has a regular atomic arrangement. Moreover, an arrangement of nitrogen atoms of the group IV nitride in the interface and an arrangement of group III atoms of the group III nitride semiconductor in the interface may be substantially identical. | 03-31-2011 |
20110211607 | NITRIDE SEMICONDUCTOR DEVICE - An object of the present invention is to provide a nitride semiconductor device which shifts a luminescence wavelength toward a longer wavelength side without decreasing luminescence efficiency, and the nitride semiconductor device according to an implementation of the present invention includes: a GaN layer having a (0001) plane and a plane other than the (0001) plane; and an InGaN layer which contacts the GaN layer and includes indium, and the InGaN layer has a higher indium composition ratio in a portion that contacts the plane other than the (0001) plane than in a portion that contacts the (0001) plane. | 09-01-2011 |
20120299059 | TRANSISTOR AND METHOD FOR MANUFACTURING SAME - The transistor includes an underlying layer | 11-29-2012 |
20130043492 | NITRIDE SEMICONDUCTOR TRANSISTOR - A nitride semiconductor transistor includes a heterojunction layer including a plurality of nitride semiconductor layers having different polarizations, and a gate electrode disposed on the heterojunction layer. An electron current reduction layer having a p-type conductivity is disposed between the heterojunction layer and the gate electrode to pass hole current therethrough and reduce electron current. | 02-21-2013 |
20130069107 | NITRIDE SEMICONDUCTOR LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING THE SAME - A nitride semiconductor light emitting device includes: an uneven substrate having an uneven structure in which recesses are formed; a first nitride semiconductor layer of a first conductive type formed on the uneven structure; a first light emitting layer formed on the first nitride semiconductor layer; and a second nitride semiconductor layer of a second conductive type formed on the light emitting layer, wherein each protrusion has a bottom made of a material or composition having a thermal expansion coefficient larger than the thermal expansion coefficient of the material or composition of the first nitride semiconductor layer. | 03-21-2013 |
20140376205 | PHOSPHOR AND LIGHT-EMITTING DEVICE USING THE SAME - A phosphor according to the present disclosure is obtained by adding a rare earth element to a host material having boron, nitrogen, and oxygen as main components, and a composition formula is represented by B(l)O(m)N(n):Z. Here, B, O, N, and Z indicate boron, oxygen, nitrogen, and the rare earth element, respectively. Moreover, each of l, m, and n indicates element content. | 12-25-2014 |
Patent application number | Description | Published |
20090040248 | INKJET RECORDING APPARATUS - An inkjet recording apparatus comprises a main body, a print head, and a cable. The main body includes an ink container for storing ink, an ink supply pump for supplying the ink, and an operation control section. The print head includes a nozzle for expelling the ink supplied from the main body as ink particles, charging electrodes for charging the ink particles, deflecting electrodes for deflecting the charged ink particles, and a gutter for collecting ink particles that have not been used for printing. The cable includes an ink supply path through which the ink is supplied from the main body to the print head, an ink collecting path through which the ink particles collected in the gutter are returned to the ink container, signal lines interconnecting the operation control section and the print head. An ink collecting pump for transferring the ink particles collected in the gutter to the ink container is disposed in the print head. | 02-12-2009 |
20090040283 | INKJET RECORDING APPARATUS - An inkjet recording apparatus comprises a main body, a print head, and a cable. The main body includes an ink container for storing ink, an ink supply pump for supplying the ink, and an operation control section. The print head includes a nozzle for expelling the ink supplied from the main body as ink particles, charging electrodes for charging the ink particles, deflecting electrodes for deflecting the charged ink particles, and a gutter for collecting ink particles that have not been used for printing. The cable includes an ink supply path through which the ink is supplied from the main body to the print head, an ink collecting path through which the ink particles collected in the gutter are returned to the ink container, signal lines interconnecting the operation control section and the print head. An ink collecting pump for transferring the ink particles collected in the gutter to the ink container is disposed in the print head. | 02-12-2009 |