Patent application number | Description | Published |
20090195144 | LIGHT EMITTING DEVICE AND ELECTRONIC APPARATUS - A light emitting device includes a substrate, a plurality of light emitting elements that is formed on the substrate, and a partition wall layer that is formed on the substrate so as to form a plurality of opening parts in the plan view. Each of the plurality of light emitting elements includes a pixel electrode, an opposing electrode, and a light emitting function layer interposed between the pixel electrode and the opposing electrode. One of the light emitting function layers is formed to be assigned to each of the plurality of opening parts, and a plurality of the pixel electrodes is formed to be fitted into each of the plurality of opening parts. One pixel of the light emitting device includes the light emitting element that includes at least one of the pixel electrodes fitted into one of the plurality of opening parts, and at least one of the pixel electrodes that is fitted into the one of the plurality of opening parts that is adjacent to each other. | 08-06-2009 |
20100096988 | ORGANIC ELECTROLUMINESCENT DEVICE, METHOD FOR PRODUCING ORGANIC ELECTROLUMINESCENT DEVICE, AND ELECTRONIC APPARATUS - An organic EL device includes a base layer including a substrate, a partitioning portion disposed on the base layer and defining first and second film-formation regions adjacent to each other, a first organic EL element disposed on the base layer at a position overlapping the first film-formation region in plan view, a second organic EL element disposed on the base layer at a position overlapping the second film-formation region in plan view, a first drive circuit section disposed in the base layer to control driving of the first organic EL element, and a second drive circuit section disposed in the base layer to control driving of the second organic EL element. At least part of the first drive circuit section and at least part of the second drive circuit section overlap the first film-formation region in plan view. | 04-22-2010 |
20120099181 | ELECTROPHORETIC DISPLAY DEVICE, METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC APPARATUS - An electrophoretic display device includes: a substrate; partition walls which partition a space on the substrate into a plurality of cells; an electrophoretic dispersion liquid with which the plurality of cells on the substrate is filled; a sealing film which is disposed so as to face the substrate with the partition walls interposed therebetween and seals the plurality of cells; and phase separation portions which are partially formed between upper surfaces of the partition walls and the sealing film and in which the electrophoretic dispersion liquid is subjected to phase separation. | 04-26-2012 |
20120249636 | NOZZLE DISCHARGE QUANTITY CORRECTION METHOD, DROPLET DISCHARGING METHOD, AND ORGANIC EL DEVICE MANUFACTURING METHOD - A nozzle discharge quantity correction method includes performing correction quantity calculation as the number of the nozzle array units in stages such that a total sum C of the weight of droplets in nozzle array units after correction and the weight of the droplets in other nozzle array units in which discharge is performed on the discharge region becomes a previously set predetermined quantity B based on the difference between the total sum A of the weight of all the droplets discharged to a discharge region when the weight of the droplets discharged from a nozzle are not corrected and the predetermined quantity B. | 10-04-2012 |
20140176631 | NOZZLE EJECTION AMOUNT CORRECTING METHOD, FUNCTIONAL LIQUID EJECTING METHOD, AND ORGANIC EL DEVICE MANUFACTURING METHOD - A nozzle ejection amount correcting method includes: a first signal correction for performing first signal correction by calculating correction amounts of the plurality of driving signals from a difference C between a predetermined amount B in a case of ejecting liquid droplets from the selected nozzles to the ejecting regions in the main scanning performed a plurality of times and the predetermined amount A that is set in advance; a second signal correction for performing second signal correction by calculating correction amounts of the plurality of driving signals before the correction corresponding to the main scanning in the later stage from a difference E between a predetermined amount D in a case of ejecting the liquid droplets to the ejecting regions and the predetermined amount A by using the plurality of driving signals, by which the first signal correction is performed, in the main scanning in the former stage. | 06-26-2014 |
Patent application number | Description | Published |
20100120231 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device according to the present invention includes the following step: a step (S | 05-13-2010 |
20100216268 | MANUFACTURING METHOD OF A SEMICONDUCTOR ELEMENT - A method of manufacturing a semiconductor element of good characteristics at a reduced manufacturing cost is provided. The manufacturing method of the semiconductor element includes a GaN-containing semiconductor layer forming step, an electrode layer forming step, a step of forming an Al film on the GaN-containing semiconductor layer, a step of forming a mask layer made of a material of which etching rate is smaller than that of a material of the Al film, a step of forming a ridge portion using the mask layer as a mask, a step of retreating a position of a side wall of the Al film with respect to a position of a side wall of the mask layer, a step of forming, on the side surface of the ridge portion and the top surface of the mask layer, a protective film made of a material of which etching rate is smaller than that of the material forming the Al film, and a step of removing the Al film and thereby removing the mask layer and a portion of the protective film formed on the top surface of the mask layer. | 08-26-2010 |
20110012160 | SEMICONDUCTOR LIGHT-EMITTING DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR LIGHT-EMITTING DEVICE - A semiconductor light-emitting device | 01-20-2011 |
20110042706 | AlxGa(1-x)As Substrate, Epitaxial Wafer for Infrared LEDs, Infrared LED, Method of Manufacturing AlxGa(1-x)As Substrate, Method of Manufacturing Epitaxial Wafer for Infrared LEDs, and Method of Manufacturing Infrared LEDs | 02-24-2011 |
20110049542 | AlxGa(1-x)As Substrate, Epitaxial Wafer for Infrared LEDs, Infrared LED, Method of Manufacturing AlxGa(1-x)As Substrate, Method of Manufacturing Epitaxial Wafer for Infrared LEDs, and Method of Manufacturing Infrared LEDs - The present invention makes available Al | 03-03-2011 |
20110062466 | AlxGa(1-x)As Substrate, Epitaxial Wafer for Infrared LEDs, Infrared LED, Method of Manufacturing AlxGa(1-x)As Substrate, Method of Manufacturing Epitaxial Wafer for Infrared LEDs, and Method of Manufacturing Infrared LEDs | 03-17-2011 |
20110129997 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device according to the present invention includes the following step: a step (S | 06-02-2011 |
20130017671 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device includes the steps of: preparing a substrate having a region that at least includes one main surface thereof and that is made of single-crystal silicon carbide; forming an active layer on the one main surface; grinding a region including the other main surface of the substrate opposite to the one main surface; removing a damaged layer formed in the step of grinding the region including the other main surface; and forming a backside electrode in contact with the main surface exposed by the removal of the damaged layer. The one main surface has an off angle of not less than 50° and not more than 65° relative to a {0001} plane. | 01-17-2013 |
20130143398 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a MOSFET includes the steps of: preparing a substrate made of silicon carbide; forming a drain electrode making ohmic contact with the substrate; and forming a backside pad electrode on and in contact with the drain electrode. The drain electrode formed in the step of forming the drain electrode is made of an alloy containing Ti and Si. Further, the backside pad electrode formed is maintained at a temperature of 300° C. or smaller until completion of the MOSFET. Accordingly, the manufacturing process can be efficient while achieving excellent adhesion between the electrodes. | 06-06-2013 |
20140004696 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE | 01-02-2014 |
20150287597 | METHOD FOR MANUFACTURING SILICON CARBIDE SEMICONDUCTOR DEVICE - In a state where a silicon carbide substrate having a first main surface and second main surface opposite to each other is fixed to a base material having a higher flexibility than the silicon carbide substrate, silicon carbide on a side of second main surface of silicon carbide substrate is removed, and an electrode is formed on the second main surface. The base material has an area which is smaller than or equal to an area of the first main surface of the silicon carbide substrate. In the step of fixing silicon carbide substrate to the base material, the base material is arranged at a position of covering a center of the first main surface so that the base material does not extend beyond an outer circumference of the first main surface. | 10-08-2015 |
20150371856 | METHOD OF MANUFACTURING SILICON CARBIDE SEMICONDUCTOR DEVICE - A silicon carbide substrate having a first main surface and a second main surface opposite to the first main surface is prepared. A surface electrode is formed in contact with the first main surface of the silicon carbide substrate. An adhesive tape is adhered to the surface electrode so as to cover the surface electrode. The silicon carbide substrate is heated at a first pressure lower than atmospheric pressure, with the adhesive tape being adhered to the surface electrode. After the silicon carbide substrate is heated, the second main surface of the silicon carbide substrate is ground. After the second main surface is ground, the second main surface of the silicon carbide substrate is processed at a second pressure lower than atmospheric pressure, with the adhesive tape being adhered to the surface electrode. | 12-24-2015 |
Patent application number | Description | Published |
20090044116 | GRAPHICAL USER INTERFACE DEVICE - The disclosure refers to a graphical user interface device. In one example, the device is configured to provide images for display on a plurality of split screen forming areas of a split screen display. The device displays to a user an operation window having operation areas, the number of operation areas being the same as the number of split screen forming areas of the split screen display. Each of the operation areas is associated with one of the split screen forming areas. | 02-12-2009 |
20100232357 | COMMUNICATION SYSTEM, COMMUNICATION DEVICE, AND COMMUNICATION METHOD - A communication system which communicates data through communication between a first communication device and a second communication device having common network identification information, wherein a first communication device includes a first communication unit which communicates data to and from other communication device having the common network identification information, a first attachment unit to which a storage device is detachably attached, an issuing unit which obtains network identification information of other communication device and issues network identification information not coinciding with the network identification information of this communication device, and a writing unit which writes the network identification information issued by the issuing unit to the storage device attached to the first attachment unit. | 09-16-2010 |
20110222518 | WIRELESS COMMUNICATION SYSTEM, WIRELESS COMMUNICATION DEVICE, PROJECTOR, AND WIRELESS COMMUNICATION METHOD - A wireless communication system performs ad-hoc mode communication, wherein a first terminal includes an identification information storing section, an IP address storing section, an SSID generating section generating a service set identifier, a beacon signal generating section generating a beacon signal including an SSID, and a priority information updating section updating priority information, and the second terminal includes an SSID acquiring section acquiring the SSID from the beacon signal, memory storing the SSID, an SSID selecting section selecting one SSID based on the priority information, an IP address acquiring section acquiring the IP address of the first terminal from the selected SSID, and a communicating section making a connection to the first terminal by using the acquired IP address. | 09-15-2011 |
20140218624 | GRAPHICAL USER INTERFACE DEVICE - In one embodiment, a graphical user interface device comprises an image display device configured to display an operation window including a first operation area which corresponds to a first area and a second operation area which corresponds to a second area. An allocation unit is configured to allocate the graphical user interface device to the first operation area, and to allocate one of a plurality of participant devices to the second operation area. A controller is configured to control a projector to display the combined image in which a first image, that corresponds to the image display device of the graphical user interface device, is displayed in the first area and in which a second image, that corresponds to a participant device allocated to the second operation area, is displayed in the second area. | 08-07-2014 |
20150110100 | WIRELESS COMMUNICATION SYSTEM, WIRELESS COMMUNICATION DEVICE, PROJECTOR, AND WIRELESS COMMUNICATION METHOD - A wireless communication system performs ad-hoc mode communication, wherein a first terminal includes an identification information storing section, an IP address storing section, an SSID generating section generating a service set identifier, a beacon signal generating section generating a beacon signal including an SSID, and a priority information updating section updating priority information, and the second terminal includes an SSID acquiring section acquiring the SSID from the beacon signal, memory storing the SSID, an SSID selecting section selecting one SSID based on the priority information, an IP address acquiring section acquiring the IP address of the first terminal from the selected SSID, and a communicating section making a connection to the first terminal by using the acquired IP address. | 04-23-2015 |
Patent application number | Description | Published |
20130314439 | DATA PROCESSING APPARATUS, DISPLAY APPARATUS, AND METHOD OF CONTROLLING THE DATA PROCESSING APPARATUS - A projector includes a coordinate acquiring unit configured to acquire a coordinate of a position pointed by a pointer, a sub-processor configured to render an image on the basis of the coordinate, and a main processor configured to output image data of the image rendered by the sub-processor. The projector performs, according to a predetermined condition, using the main processor, rendering in the same manner as the sub-processor on the basis of the acquired input coordinate, superimposes the rendered image on the rendered image output by the sub-processor to generate a superimposed image, and outputs the superimposed image. | 11-28-2013 |
20140071099 | DISPLAY DEVICE AND METHOD OF CONTROLLING DISPLAY DEVICE - A projector includes a projection unit that displays an image on a screen, a control unit that allows the projection unit to display a plurality of images based on image data input from a plurality of PCs, a location detection unit that detects an operation location by a pointing tool, an output control unit that selects the PC based on the operation location detected by the location detection unit and a display location of the image on the screen, and an output switching unit that outputs coordinates of the operation location to the PC selected by the output control unit. | 03-13-2014 |
20150199059 | DISPLAY APPARATUS, DISPLAY SYSTEM, AND DISPLAY METHOD - A client can return a display state of an object to the past. When a point body moves on a screen, a projector draws an object of a line representing a moving trajectory. The projector generates object data representing the object and transmits the generated object data to tablet terminals. The object data contains order information representing generation order of the object. The tablet terminals display the object represented by the transmitted object data on a touch panel. When performing an operation for returning the display, the tablet terminals return the display by object unit based on the order information contained in the object data. | 07-16-2015 |
Patent application number | Description | Published |
20110176209 | SCREEN FABRIC AND SCREEN - A screen fabric includes a stack of a plurality of layers. The plurality of layers include: a first layer that forms a surface layer on which a three-dimensional portion is to be formed; and a second layer that is different from the first layer. The first layer is made of a vinyl chloride resin, and the second layer has a lower hardness than the first layer. | 07-21-2011 |
20120154908 | REFLECTION TYPE SCREEN AND METHOD OF MANUFACTURING REFLECTION TYPE SCREEN - The invention relates to a reflection type screen capable of reducing contact resistance between a reflection surface and a rear surface of a screen base, and to a method of manufacturing this reflection type screen. A reflection type screen includes a sheet-shaped base (screen base) which is flexible and has a first surface (base front surface) reflecting projection light and a second surface (base rear surface) as the surface opposite to the first surface (base front surface). The second surface (base rear surface) has an uneven shape (uneven surface). The uneven shape (uneven surface) is uniformly formed. The uneven shape (uneven surface) has crimps. | 06-21-2012 |
20130100422 | REFLECTIVE SCREEN APPARATUS - A reflective screen apparatus according to an embodiment of the invention, which is advantageous in that a reflection surface is readily formed, projection light outputted from a projector is efficiently reflected, and the convenience of a user is improved, includes a reflective screen having a reflection surface (reflection area) that reflects projection light off reflection films as reflectors selectively formed on a screen substrate in accordance with the angle of incidence of the projection light and a pair of winders that support respective ends (upper and lower ends) of the reflective screen and rotate in forward and backward directions to wind and release the reflective screen, and the winders drive each other and operate in opposite ways to move the reflection surface between the winders. | 04-25-2013 |
20130120835 | SCREEN AND METHOD FOR MANUFACTURING SCREEN - A screen can advance light from a projector to the front efficiently with an appropriate angle distribution, and provides a high-luminance high contrast image inexpensively and easily. The screen includes a concave-convex screen base which reflects projected light and performs display. A metal reflection film is formed by transfer from a transfer foil. A protection film is formed on the surface of the metal reflection film. A method for manufacturing a screen includes heat transfer of the transfer foil to a screen material and base deformation in which concave and convex portions on the screen material are formed. | 05-16-2013 |
Patent application number | Description | Published |
20120260761 | OPERATION INPUT DEVICE - An operation input device has an operation body that is provided with a handle portion and tilts about a rotation center point in a case where a user tilts an operation axis line of the handle portion, a tip end portion that is disposed at an end of the operation body and pushed in a direction to move apart from the handle portion in a direction of the operation axis line, a housing portion that houses therein the operation body and the tip end portion, and an abutment portion that is provided with an abutment surface. The tip end portion moves while abutting on the abutment surface during the tilting operation. The abutment surface is of a shape corresponding to a tilting direction of the operation body so as to guide the tip end portion during the tilting operation. | 10-18-2012 |
20120260762 | OPERATION INPUT DEVICE - An operation input device includes: an operation body having a handle portion, the operation body tilting when the user tilts the operation axis line of the handle portion, and the operation body turning when the user turns the handle portion around the rotation axis line; a stopping portion that abuts on and stops the operation body so as to limit a tilting range of the operation body; a first concavo-convex portion disposed on the operation body; and a second concavo-convex portion. The second concavo-convex portion is disposed at a position corresponding to the first concavo-convex portion of the operation body when the stopping portion stops a tilting motion of the operation body. The first concavo-convex portion and the second concavo-convex portion are engaged with each other so as to restrict a turning motion of the operation body. | 10-18-2012 |
20120286977 | OPERATION INPUT DEVICE - An operation input device includes: an operation body having a handle portion, and tilting when the user tilts the operation axis line of the handle portion; a tip end portion disposed at an end of the operation body in an operation axis line direction, and pushed in a direction to move apart from the handle portion along the operation axis line direction; an abutment portion having an abutment surface, the tip end portion moving and abutting on the abutment surface during a tilting operation of the operation body; and multiple first protrusion portions. During the tilting operation of the operation body, the tip end portion abuts on the abutment surface and moves along a movement path. The first protrusion portion is disposed on a side of the movement path so as to guide the tip end portion in the predetermined tilting direction. | 11-15-2012 |
20120286978 | OPERATION INPUT DEVICE - An operation input device includes: an operation body having a handle portion, tilting when a user tilts an operation axis line of the handle portion, and moving parallel to an operation axis line direction when the user depresses the handle portion; a tip end portion disposed at an end of the body, and pushed in a depressing direction along the operation axis line direction; an abutment portion having an abutment surface, wherein the tip end portion moves with abutting on the abutment surface during a tilting operation of the body, and abuts on the abutment surface and stands still during a depressing operation of the body; and an engaging portion disposed in the abutment portion. The engaging portion engages with a part of the body during the depressing operation of the body so that the engaging portion restricts a tilting motion of the body. | 11-15-2012 |
20120287033 | OPERATION INPUT DEVICE - An operation input device includes: an operation body having a handle portion, tilting around a rotation center point when a user tilts the operation axis line of the handle portion, and tilting in a predetermined number of tilting directions; multiple detection portions, the number of the detection portions being less than the predetermined number of tilting directions, each detection portion outputting a first output value when the operation body tilts in a direction corresponding to the detection portion and outputting a second output value when the operation body tilts in a direction not corresponding to the detection portion; and a determination device that determines a tilting direction of the operation body based on information on the number of first output values and information on a part of the detection portions that have outputted the first output values. | 11-15-2012 |
20130194214 | INPUT DEVICE WITH TOUCH INPUT FUNCTION - An input device with touch input function has an input member which is operable to input at least one of shifting operation and pushing operation. The input member has a touch input device which is responsive to touch of a user. The input device has an operation sensor which detects the operation on the input member. The input member and the operation sensor provides an input unit which is supported by a support member in a manner that the input unit is movable among a lock position and an unlock position with respect to a base member on which the input unit is supported. The input device has a lock mechanism which locks the input member in inoperable condition at the lock position and which releases the input member in operable condition at the unlock position. | 08-01-2013 |