Patent application number | Description | Published |
20090040354 | IMAGE-PICKUP APPARATUS AND CONTROL METHOD THEREOF - An image-pickup apparatus | 02-12-2009 |
20110019015 | IMAGE PROCESSING APPARATUS AND METHOD CONFIGURED TO CALCULATE DEFOCUS AMOUNT OF DESIGNATED AREA - An image processing apparatus includes a focus detector configured to detect a focus state of a focus detection area by detecting a shift amount between a pair of image signals of an object image, a memory configured to store an image photoelectrically converted and output from an image pickup device, the focus detection area, and the image signals, a setting unit configured to set a designated area in the image stored in the memory, a calculating unit configured to calculate a defocus amount of the designated area using the pair of image signals corresponding to the designated area among the image signals stored by the memory, and a display unit configured to display the defocus amount of the designated area. | 01-27-2011 |
20130093939 | FOCUS ADJUSTMENT APPARATUS AND METHOD FOR CONTROLLING THE SAME - A focus adjustment apparatus includes an object detection unit configured to detect feature information of an object, a plurality of signal generation units configured to accumulate charges to generate and output a pair of image signals respectively, and a focus detection unit configured to control charge storage of the plurality of signal generation units and detect a focus based on a phase difference between a pair of image signals output from a first signal generation unit corresponding to the feature information of the object detected by the object detection unit, wherein if reliability of detection by the object detection unit is a first level which is higher than a second level, the focus detection unit sets charge storage time of the first signal generation unit longer than that in a case of the second level. | 04-18-2013 |
20130242173 | FOCUSING APPARATUS AND METHOD OF CONTROLLING FOCUSING APPARATUS - A focusing apparatus includes an image pickup element that includes a plurality of unit cells including a first pixel and a second pixel corresponding to a same microlens, a detector configured to detect a phase difference of an image signal of a first pixel group and an image signal of a second pixel group that correspond to a focus detection region, a focus controller configured to perform a focus control based on a detection result of the detector, an exposure controller configured to control an exposure value based on an output from the image pickup element, the detector detects the phase difference of an image signal generated by sequentially switching a plurality of focus detection regions, and the exposure controller controls the exposure value so as to be fixed until the detector completes a detection of the phase difference in the plurality of focus detection regions. | 09-19-2013 |
20130330068 | IMAGING APPARATUS, LENS APPARATUS, AND IMAGING APPARATUS CONTROL METHOD - In a camera system having an interchangeable lens and a camera body, a lens controller and a camera controller conduct timely change between a first communication method for a video shooting mode and a second communication method for a still-image shooting mode, and reciprocally communicated via a contact unit. The camera controller acquires time information in advance by an initial communication with the lens controller, and upon changeover from the first communication method to the second communication method, it interrupts communication after request information for changeover of the communication methods is transmitted to the lens controller, and initiates communication in the second communication method after elapse of a transition time indicated by time information. Upon changeover from the second communication method to the first communication method, the camera controller initiates communication in the first communication method after elapse of a transition time indicated by the time information. | 12-12-2013 |
20140022434 | IMAGE PICKUP APPARATUS, INTERCHANGEABLE LENS, AND CAMERA SYSTEM - An image pickup apparatus on which an interchangeable lens is removably mounted, includes an image pickup element configured to perform a photoelectric conversion of an optical image formed via the interchangeable lens, and a controller configured to control a power supply to the interchangeable lens mounted on the image pickup apparatus. When the mounted interchangeable lens is a first type interchangeable lens and a power is turned off, the controller performs an aperture control so as to change a first aperture state set in the interchangeable lens to a second aperture state and then stops the power supply to the interchangeable lens. When the mounted interchangeable lens is a second type interchangeable lens and the power is turned off, the controller maintains the power supply differently from a case where the mounted interchangeable lens is the first type interchangeable lens. | 01-23-2014 |
20140071336 | IMAGING APPARATUS AND METHOD FOR CONTROLLING THE SAME, AND LENS UNIT - In an imaging apparatus including a reset instruction unit configured to instruct a lens unit to reset an optical member thereof, a first communication system is used for communication for acquiring individual information of the lens unit, and a second communication system different from the first communication system is used for communication for instructing the lens unit to reset an optical member by a reset instruction unit. | 03-13-2014 |
Patent application number | Description | Published |
20090068413 | Negative-working photosensitive resin composition and photosensitive resin plate using the same - A negative-working photosensitive resin composition is dis-closed, comprising (A) a film-forming polymer, (B) an unsaturated compound having a radical polymerizable ethylenic double bond, (C) a photopolymerization initiator, and (D) a thermal polymerization inhibitor, wherein the resin composition further contains (E) at least one member selected from compounds represented by following formula (I): | 03-12-2009 |
20090075200 | Negative-working photosensitive resin composition and photosensitive resin plate using the same - A negative-working photosensitive resin composition is disclosed, comprising (A) a film-forming polymer, (B) an unsaturated compound having a radical polymerizable ethylenic double bond, (C) a photopolymerization initiator, and (D) a thermal polymerization inhibitor, wherein the resin composition further contains (E) at least one member selected from compounds represented by following formula: | 03-19-2009 |
20100055612 | Nagative-working photosensitive resin composition and photosensitive resin plate using the same - A negative-working photosensitive resin composition is disclosed, comprising (A) a film-forming polymer, (B) an unsaturated compound having a radical polymerizable ethylenic double bond, (C) a photopolymerization initiator, and (D) a thermal polymerization inhibitor, wherein the resin composition further contains (E) at least one member selected from compounds represented by following formula: | 03-04-2010 |
20100068480 | Negative-working photosensitive resin composition and photosensitive resin plate using the same - A negative-working photosensitive resin composition is disclosed, comprising (A) a film-forming polymer, (B) an unsaturated compound having a radical polymerizable ethylenic double bond, (C) a photopolymerization initiator, and (D) a thermal polymerization inhibitor, wherein the resin composition further contains (E) at least one member selected from compounds represented by following formula (I): | 03-18-2010 |
Patent application number | Description | Published |
20100233632 | SILICON-CONTAINING FILM-FORMING COMPOSITION, SILICON-CONTAINING FILM, AND PATTERN FORMING METHOD - A silicon-containing film-forming composition includes a polysiloxane and organic solvent. The polysiloxane includes a first structural unit, a second structural unit, and a third structural unit. The first structural unit is derived from a tetraalkoxysilane. The second structural unit is derived from a compound shown by a formula (1), wherein R | 09-16-2010 |
20120183908 | RESIST PATTERN-FORMING METHOD - A resist pattern-forming method includes applying a resist underlayer film-forming composition to a substrate to form a resist underlayer film. The resist underlayer film-forming composition includes (A) a polysiloxane. A radiation-sensitive resin composition is applied to the resist underlayer film to form a resist film. The radiation-sensitive resin composition includes (a1) a polymer that changes in polarity and decreases in solubility in an organic solvent due to an acid. The resist film is exposed. The exposed resist film is developed using a developer that includes an organic solvent. | 07-19-2012 |
20130101942 | METHOD FOR FORMING RESIST PATTERN, AND COMPOSITION FOR FORMING RESIST UNDERLAYER FILM - A resist pattern-forming method capable of forming a resist pattern excellent in pattern collapse resistance in the case of development with the organic solvent in multilayer resist processes. The method has the steps of: (1) providing a resist underlayer film on a substrate using a composition for forming a resist underlayer film; (2) providing a resist film on the resist underlayer film using a photoresist composition; (3) exposing the resist film; and (4) developing the exposed resist film using a developer solution containing no less than 80% by mass of an organic solvent, in which the composition for forming a resist underlayer film contains (A) a component that includes a polysiloxane chain and that has a carboxyl group, a group that can generate a carboxyl group by an action of an acid, an acid anhydride group or a combination thereof. | 04-25-2013 |
20130130179 | POLYSILOXANE COMPOSITION AND PATTERN-FORMING METHOD - A polysiloxane composition includes a polysiloxane, and a first compound. The first compound includes a nitrogen-containing heterocyclic ring structure, and a polar group, an ester group or a combination thereof. A pattern-forming method includes coating the polysiloxane composition on a substrate to be processed to provide a silicon-containing film. A resist composition is coated on the silicon-containing film to provide a resist coating film. The resist coating film is selectively irradiated with a radioactive ray through a photomask to expose the resist coating film. The exposed resist coating film is developed to form a resist pattern. The silicon-containing film and the substrate to be processed are sequentially dry etched using the resist pattern as a mask. | 05-23-2013 |
20130233825 | COMPOSITION FOR FORMING RESIST UNDERLAYER FILM AND PATTERN-FORMING METHOD - A composition for forming a resist underlayer film includes a polysiloxane and a solvent. The solvent includes an organic solvent having a standard boiling point of no less than 150.0° C., and water. A content of the organic solvent is no less than 1% by mass and no greater than 50% by mass with respect to a total amount of the solvent. A content of water is no less than 1% by mass and no greater than 30% by mass with respect to the total amount of the solvent. | 09-12-2013 |
20140030660 | MULTILAYER RESIST PROCESS PATTERN-FORMING METHOD AND MULTILAYER RESIST PROCESS INORGANIC FILM-FORMING COMPOSITION - A multilayer resist process pattern-forming method includes providing an inorganic film over a substrate. A protective film is provided on the inorganic film. A resist pattern is provided on the protective film. A pattern is provided on the substrate by etching that utilizes the resist pattern as a mask. A multilayer resist process inorganic film-forming composition includes a compound, an organic solvent, and a crosslinking accelerator. The compound includes a metal compound that includes a hydrolyzable group, a hydrolysate of a metal compound that includes a hydrolyzable group, a hydrolysis-condensation product of a metal compound that includes a hydrolyzable group, or a combination thereof. The compound includes at least one metal element belonging to Group 6, Group 12, or Group 13 of the Periodic Table of the Elements. | 01-30-2014 |
20140134544 | RESIST PATTERN-FORMING METHOD - A resist pattern-forming method includes applying a resist underlayer film-forming composition to a substrate to form a resist underlayer film. The resist underlayer film-forming composition includes (A) a polysiloxane. A radiation-sensitive resin composition is applied to the resist underlayer film to form a resist film. The radiation-sensitive resin composition includes (a1) a polymer that changes in polarity and decreases in solubility in an organic solvent due to an acid. The resist film is exposed. The exposed resist film is developed using a developer that includes an organic solvent. | 05-15-2014 |
20150048046 | METHOD FOR FORMING PATTERN, AND POLYSILOXANE COMPOSITION - A pattern-forming method in which processibility of a silicon-containing film in etching with a fluorine gas and resistance against etching with an oxygen gas can be together improved in a multilayer resist process to form a finer pattern. Provided is a pattern-forming method that includes the steps of (1) providing a silicon-containing film on the upper face side of a substrate to be processed using a polysiloxane composition; (2) forming a resist pattern on the silicon-containing film; (3) dry-etching the silicon-containing film using the resist pattern as a mask to form a silicon-containing pattern; and (4) dry-etching the substrate to be processed using the silicon-containing pattern as a mask to form a pattern, in which the polysiloxane composition includes (A) a polysiloxane containing a fluorine atom, and (B) a crosslinking accelerator. | 02-19-2015 |
20150050600 | RESIST PATTERN-FORMING METHOD - A resist pattern-forming method includes applying a resist underlayer film-forming composition to a substrate to form a resist underlayer film. The resist underlayer film-forming composition includes (A) a polysiloxane. A radiation-sensitive resin composition is applied to the resist underlayer film to form a resist film. The radiation-sensitive resin composition includes (a1) a polymer that changes in polarity and decreases in solubility in an organic solvent due to an acid. The resist film is exposed. The exposed resist film is developed using a developer that includes an organic solvent. | 02-19-2015 |
20150160556 | RESIST PATTERN-FORMING METHOD - A resist pattern-forming method includes applying a resist underlayer film-forming composition to a substrate to form a resist underlayer film. The resist underlayer film-forming composition includes (A) a polysiloxane. A radiation-sensitive resin composition is applied to the resist underlayer film to form a resist film. The radiation-sensitive resin composition includes (a1) a polymer that changes in polarity and decreases in solubility in an organic solvent due to an acid. The resist film is exposed. The exposed resist film is developed using a developer that includes an organic solvent. | 06-11-2015 |
20150364332 | INORGANIC FILM-FORMING COMPOSITION FOR MULTILAYER RESIST PROCESSES, AND PATTERN-FORMING METHOD - An inorganic film-forming composition for multilayer resist processes includes a complex that includes: metal atoms; at least one bridging ligand; and a ligand which is other than the at least one bridging ligand and which is derived from a hydroxy acid ester, a β-diketone, a β-keto ester, a β-dicarboxylic acid ester or a combination thereof. The at least one bridging ligand includes a first bridging ligand derived from a compound represented by formula (1). An amount of the first bridging ligand is no less than 50 mol % with respect to a total of the bridging ligand. In the formula (1), R | 12-17-2015 |
Patent application number | Description | Published |
20110199886 | Optical Pickup Apparatus - An optical pickup apparatus includes: a circuit board; a laser diode mounted on one face of the circuit board; and a high-frequency superimposition integrated circuit arranged on the other face of the circuit board, the high-frequency superimposition integrated circuit including a high-frequency signal generation circuit, the circuit board having an area greater than or equal to an area occupied by a lead pin of the laser diode and a region smaller than or equal to twice a region where the laser diode is mounted, a high-frequency signal generated from the high-frequency signal generation circuit being superimposed on a driving signal to be supplied to the laser diode, in order to take a measure against noise caused by return light of the laser diode. | 08-18-2011 |
20120120532 | PRINTED WIRING BOARD - A printed wiring board includes: an anode pattern electrically connected to an anode of a laser diode; and a cathode pattern arranged to oppose the anode pattern and electrically connected to a cathode of the laser diode, the anode pattern and the cathode pattern being in shapes having such parts that a distance between the anode pattern and the cathode pattern opposed to each other is a first distance, and such parts that a distance between the anode pattern and the cathode pattern opposed to each other is a second distance shorter than the first distance, at least such parts that the distance between the anode pattern and the cathode pattern opposed to each other is the second distance being short-circuited by solder in a case where the laser diode is protected from an electrostatic discharge. | 05-17-2012 |
20120188672 | PRINTED WIRING BOARD - A printed wiring board includes: a first-electrostatic-discharge-protecting pattern having a first anode pattern electrically connect to an anode of a laser diode and a first cathode pattern arranged to oppose the first anode pattern and electrically connect to a cathode of the laser diode; and a second-electrostatic-discharge-protecting pattern having a second anode pattern electrically connect to the anode of the laser diode and a second cathode pattern arranged to oppose the second anode pattern and electrically connect to the cathode of the laser diode, wherein the first-electrostatic-discharge-protecting pattern has a first soldering area at which solder is melted by a soldering iron such that the first anode and cathode patterns are short-circuited or short-circuit-released, and the second-electrostatic-discharge-protecting pattern has a second soldering area at which the solder is melted by a reflow such that the second anode and cathode patterns are short-circuited or short-circuit-released. | 07-26-2012 |
20130021893 | Optical Pickup Apparatus - An optical-pickup apparatus configured to prevent noise caused by return light by superposing a high-frequency signal, generated from a high-frequency signal generation circuit, on a driving signal to be supplied to a laser diode, the optical-pickup apparatus includes: a high-frequency superimposition integrated circuit including the high-frequency signal generation circuit; first wiring connected between an anode of the laser diode and the high-frequency superimposition integrated circuit; and second wiring connected between a cathode of the laser diode and the high-frequency-superimposition integrated circuit, the laser diode and the high-frequency superimposition integrated circuit mounted on a circuit board, the first wiring and the second wiring arranged, for the most part, in a region where the laser diode is arranged, the second wiring configured to pass through between an anode terminal of the laser diode and an anode terminal of a monitor diode. | 01-24-2013 |
Patent application number | Description | Published |
20080218867 | Image display device and portable terminal device - An image display device includes a display panel, a lens, a backlight, and a light dispersing member. The display panel includes a plurality of display units including at least pixels for displaying an image for a first point of view and a second point of view, arrayed in a matrix shape. The lens distributes lights transmitted through pixels for the first and second points of view into mutually different directions. The backlight has a plurality of convexes or concaves which refract lights. The light dispersing member is disposed between the display panel and backlight. | 09-11-2008 |
20080278806 | IMAGE DISPLAY DEVICE AND PORTABLE TERMINAL DEVICE USING THE SAME - In a display panel, a plurality of pixel sections are arranged in the form of a matrix. Each of the pixel sections includes a pixel for displaying an image for the left eye and a pixel for displaying an image for the right eye. Lenticular lens having repeated convex surfaces is disposed in front of the display panel to deflect the light emitted from each pixel in the horizontal direction from the pixel for displaying the image for the left eye to the pixel for displaying the image for the right eye in each pixel section. Reflection plate reflects the exterior light toward the display panel and has surface projections on the surface. In this case, the focal distance f of the lens is different from the distance H between the surface of the reflection plate and the apex of the lens. | 11-13-2008 |
20100091367 | THREE-DIMENSIONAL IMAGE DISPLAY DEVICE, PORTABLE TERMINAL DEVICE, DISPLAY PANEL AND FLY EYE LENS - In a three-dimensional image display device for displaying color three-dimensional images, a fly eye lens, a display panel, and a light source are provided in this order from the observer side. A display panel has four pixels arrayed in a (2×2) matrix correlated with one lens element of the fly eye lens. In the event that j is a natural number, a pixel magnifying projection width e in a second direction is set in a range of the following expression according to mean interpupillary distance Y of the observers. | 04-15-2010 |
20100156773 | IMAGE DISPLAY DEVICE, PORTABLE TERMINAL DEVICE, DISPLAY PANEL AND IMAGE DISPLAY METHOD USING THE SAME - A three-dimensional image/two-dimensional image display device includes a plurality of display pixels, and a lenticular lens for three-dimensional display. Each display pixel is consisted of M×N number of sub-pixels to be viewed from N view points. A pitch a of sub-pixels arranged in the longitudinal direction of ridge projection of the lenticular lens and a pitch b of the sub-pixels arranged in a direction orthogonal to the longitudinal direction of the lenticular lens satisfy the following expression. The M×N number of sub-pixels included in each of said display pixels are formed within a square area. | 06-24-2010 |
20100177093 | IMAGE DISPLAY DEVICE, PORTABLE TERMINAL DEVICE, DISPLAY PANEL AND IMAGE DISPLAY METHOD USING THE SAME - A three-dimensional image/two-dimensional image display device includes a plurality of display pixels, and a lenticular lens for three-dimensional display. Each display pixel is consisted of M×N number of sub-pixels to be viewed from N view points. A pitch | 07-15-2010 |
20100328245 | INPUT AND OUTPUT DEVICE AND TERMINAL DEVICE - A lenticular lens is provided in front of a liquid crystal panel composed of a plurality of pixels. In this case, the lenticular lens is arranged so that one cylindrical lens corresponds to two pixels adjacent to each other. Then, light rays outgoing from two pixels are refracted by this one cylindrical lens and intersect with each other at a point positioned on the surface of a tablet, and then reach the right eye and the left eye of a user, respectively. | 12-30-2010 |
20110051236 | THREE-DIMENSIONAL IMAGE DISPLAY DEVICE, PORTABLE TERMINAL DEVICE, DISPLAY PANEL AND FLY EYE LENS - In a three-dimensional image display device for displaying color three-dimensional images, a fly eye lens, a display panel, and a light source are provided in this order from the observer side. A display panel has four pixels arrayed in a (2×2) matrix correlated with one lens element of the fly eye lens. In the event that j is a natural number, a pixel magnifying projection width e in a second direction is set in a range of the following expression according to mean interpupillary distance Y of the observers. | 03-03-2011 |
20110128621 | IMAGE DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A marker for lens is provided as aligning unit in a lenticular lens that is of optical unit, and a marker for display panel is provided as aligning unit in a transmissive liquid crystal display panel that is of the display panel. Fixing unit is provided in at least a part of an area that encloses an image display area of the lenticular lens. An image display device is formed in such a manner that alignment between the lenticular lens and the liquid crystal display panel is performed by the marker for lens and the marker for display panel and the lenticular lens is fixed to a surface of the liquid crystal display panel on the side of a viewer. | 06-02-2011 |
20110205623 | IMAGE DISPLAY DEVICE, PORTABLE TERMINAL, DISPLAY PANEL, AND LENS - In an image display device where a lenticular lens, a display panel, and a light source are provided in order from a viewer side, when cylindrical lenses of the lenticular lens are arrayed in a horizontal direction, in first-viewpoint pixels and second-viewpoint pixels of the display panel, openings whose sides which intersect with straight lines in the horizontal direction are not parallel to a vertical direction are formed. And, a shape of the openings of a pair of pixels mutually adjacent in the vertical direction is made line-symmetric with respect to edges of the pixels extending in the horizontal direction as an axis. | 08-25-2011 |
20120044567 | THREE-DIMENSIONAL IMAGE DISPLAY DEVICE, PORTABLE TERMINAL DEVICE, DISPLAY PANEL AND FLY EYE LENS - In a three-dimensional image display device for displaying color three-dimensional images, a fly eye lens, a display panel, and a light source are provided in this order from the observer side. A display panel has four pixels arrayed in a (2×2) matrix correlated with one lens element of the fly eye lens. In the event that j is a natural number, a pixel magnifying projection width e in a second direction is set in a range of the following expression according to mean interpupillary distance Y of the observers. | 02-23-2012 |
20130063799 | MAGNETIC FORCE DRIVE DEVICE, OPTICAL SCANNING DEVICE, AND IMAGE DISPLAY DEVICE - A magnetic force drive device ( | 03-14-2013 |
20130120247 | THREE DIMENSIONAL DISPLAY DEVICE AND THREE DIMENSIONAL DISPLAY METHOD - Provided is a three dimensional display device that includes: three dimensional image display unit ( | 05-16-2013 |
20130128328 | Optical scanning device and image display device - An optical scanning device includes movable mirror ( | 05-23-2013 |
20130128363 | IMAGE DISPLAY DEVICE WITH PIXEL SECTIONS ARRAYED IN A MATRIX - In an image display device where a lenticular lens, a display panel, and a light source are provided in order from a viewer side, when cylindrical lenses of the lenticular lens are arrayed in a horizontal direction, in first-viewpoint pixels and second-viewpoint pixels of the display panel, openings whose sides which intersect with straight lines in the horizontal direction are not parallel to a vertical direction are formed. And, a shape of the openings of a pair of pixels mutually adjacent in the vertical direction is made line-symmetric with respect to edges of the pixels extending in the horizontal direction as an axis. | 05-23-2013 |
20130229698 | OPTICAL SCANNING DEVICE - Optical scanning device | 09-05-2013 |
20130278984 | OPTICAL SCANNING DEVICE - Optical scanning device | 10-24-2013 |
20140043680 | IMAGE DISPLAY DEVICE WITH ALIGNING UNIT AND MANUFACTURING METHOD THEREOF - A marker for lens is provided as aligning unit in a lenticular lens of an optical unit, and a marker for display panel is provided as aligning unit in a transmissive liquid crystal display panel of the display panel. A fixing unit is provided in at least a part of an area that encloses an image display area of the lenticular lens. An image display device is formed in such a manner that alignment between the lenticular lens and the liquid crystal display panel is performed by the marker for lens and the marker for display panel and the lenticular lens is fixed to a surface of the liquid crystal display panel on the side of a viewer. | 02-13-2014 |
20140118809 | OPTICAL SCANNING DEVICE, IMAGE DISPLAY APPARATUS AND OPTICAL SCANNING METHOD - Provided is an optical scanning device capable of solving the problem of low driving efficiency. A pair of coupling parts | 05-01-2014 |
20150302549 | INFORMATION PROCESSING SYSTEM, CONTROL METHOD AND COMPUTER-READABLE MEDIUM - An information processing system, method and non-transitory computer-readable storage medium are disclosed. The information processing system may include a memory storing instructions; and at least one processor configured to process the instructions to detect an actual object, determine at least one of an orientation and a position of a first image within a projection surface, based on at least one of an orientation and a position of the actual object, and project the first image onto the projection surface in at least one of the determined position and determined orientation. | 10-22-2015 |
20150302784 | INFORMATION PROCESSING SYSTEM, CONTROL METHOD, AND COMPUTER-READABLE MEDIUM - An information processing system, method and non-transitory computer-readable storage medium are disclosed. The information processing system may include a memory storing instructions; and one or more processors configured to process the instructions to detect an actual object, project a first image, detect a user's operation on the actual object, and execute a task regarding the first image on the basis of the user's operation. | 10-22-2015 |
20150304615 | PROJECTION CONTROL APPARATUS AND PROJECTION CONTROL METHOD - A projection control apparatus, method and non-transitory computer-readable storage medium are disclosed. A projection control apparatus may include a memory storing instructions; and one or more processors configured to process the instructions to: cause a projection apparatus to project an image; detect a user operation; control the projection apparatus to change projection parameters upon detecting a first user operation; and control the one or more processors to change the image without changing the projection parameters upon detecting a second user operation. | 10-22-2015 |
Patent application number | Description | Published |
20110256392 | PROTECTIVE SHEET FOR BACK SURFACE OF SOLAR CELL MODULE - A protective sheet for the back surface of a solar cell module that is lightweight and has excellent water vapor barrier properties. The protective sheet for the back surface of a solar cell module is prepared by laminating a base sheet having excellent electrical insulation properties to at least one surface of an aluminum-iron alloy sheet. The iron content of the aluminum-iron alloy sheet is preferably not less than 0.7 mass % and not more than 5.0 mass %. Moreover, the protective sheet for the back surface of a solar cell module preferably has a fluororesin layer, and even more preferably has a heat-adhesive layer. | 10-20-2011 |
20120006401 | PROTECTIVE SHEET FOR SOLAR CELL MODULE, AND SOLAR CELL MODULE USING SAME - The invention relates to a solar cell module protective sheet which has two or more gas barrier films, each provided with a deposited layer formed of an inorganic oxide on at least one surface of a base film, in which a material constituting the solar cell module protective sheet is formed of a material transmitting light rays of a wavelength contributing to the generation of electric power, and the solar cell module protective sheet is used as a front sheet, a solar cell module using the solar cell module protective sheet, and the like. According to the invention, it is possible to provide a solar cell module protective sheet having high dampproofness and enabling stable long-term use of a solar cell when the solar cell module protective sheet is used as a front sheet or a back sheet of the solar cell module, and a solar cell module using the solar cell module protective sheet. | 01-12-2012 |
20120006407 | PROTECTIVE SHEET FOR SOLAR CELL MODULE AND SOLAR CELL MODULE INCLUDING THE SAME - The protective sheet for solar cell module of the present invention includes a substrate film and a heat bondable layer laminated on one side of the substrate film, wherein the heat bondable layer is formed from a resin material containing an olefin-based polymer that includes a (meth)acrylate unit having a glycidyl group, and serves as an adhesive layer to be used for bonding with a encapsulant that constitutes the solar cell module. | 01-12-2012 |
20120012165 | PROTECTIVE SHEET FOR SOLAR BATTERY MODULE, SOLAR BATTERY MODULE, AND METHOD FOR PRODUCING SOLAR BATTERY MODULE - Disclosed are a protective sheet for a solar battery module including a base material sheet and a heat-fusible sheet made of a heat-fusible resin having a melting point measured by differential scanning calorimetry (a DSC method) of 80° C. or higher and lower than 130° C., laminated on one surface of the base material sheet, and including an air-flow path on a surface of the heat-fusible sheet; and a solar battery module using the same. | 01-19-2012 |
20120024377 | PROTECTIVE SHEET FOR SOLAR CELL MODULE AND PRODUCTION METHOD THEREOF, AND SOLAR CELL MODULE - There is provided a protective sheet for solar cell module including a substrate film and a heat bondable layer laminated on one side of the substrate film, wherein the heat bondable layer is formed from a thermoplastic resin, exhibits a dimensional variation of not more than 0.3% before and after a heat treatment at 150° C. for 30 minutes and serves as an adhesive layer to be used for bonding with an encapsulant that constitutes the solar cell module. | 02-02-2012 |
20120094131 | PROTECTIVE SHEET FOR SOLAR CELL MODULE - Provided is a protective sheet for a solar cell module having a resin sheet, a vapor deposited layer containing an inorganic oxide provided on at least one side thereof, and a fluorine resin layer containing a silane coupling agent laminated on the vapor deposited layer. | 04-19-2012 |
20120111392 | BACK PROTECTIVE SHEET FOR SOLAR CELL MODULE, SOLAR CELL MODULE PROVIDED WITH SAME, AND PRODUCTION METHOD OF SOLAR CELL MODULE - A back protective sheet for a solar cell module in which a thermoplastic resin sheet containing heat-expandable particles is formed on at least one side of a base sheet, a solar cell module having this back protective sheet for a solar cell module, and a production method of this solar cell module. | 05-10-2012 |
20130192673 | PROTECTIVE SHEET FOR SOLAR CELL MODULE, AND SOLAR CELL MODULE - A protective sheet for a solar cell module that includes a cycloolefin resin layer laminated to one surface of a substrate film with a polyolefin resin layer disposed therebetween, wherein the polyolefin resin layer and the cycloolefin resin layer are formed by co-extrusion molding. | 08-01-2013 |
20130192674 | PROTECTIVE SHEET FOR SOLAR CELL MODULE AND SOLAR CELL MODULE - The present invention can provide a protective sheet for a solar cell module that is able to adequately ensure adhesive strength between a base film and a fluororesin layer over a long period of time, and a solar cell module provided therewith. | 08-01-2013 |
20130327399 | Protective Sheet for Solar Cell, Manufacturing Method Thereof, and Solar Cell Module - Protective sheet | 12-12-2013 |
20140060623 | SOLAR CELL PROTECTIVE SHEET, PRODUCING METHOD OF SAME, AND SOLAR CELL MODULE - A solar cell protective sheet has a substrate and a thermoplastic resin layer laminated on at least one surface of the substrate. The thermoplastic resin layer includes: a first layer laminated on the substrate and containing as a main component a copolymer of ethylene and at least one selected from the group consisting of (meth)acrylic acid, (meth)acrylic acid ester, glycidyl(meth)acrylate, vinyl acetate and maleic acid anhydride; a second layer laminated on the first layer and containing an olefin-based resin as a main component; and a third layer laminated on the second layer and containing as a main component a copolymer of ethylene and at least one selected from the group consisting of (meth)acrylic acid, (meth)acrylic acid ester, glycidyl(meth)acrylate, vinyl acetate and maleic acid anhydride. The solar cell protective sheet has excellent adhesiveness between the substrate and the thermoplastic resin layer and also has sufficient insulation property. | 03-06-2014 |
20140069495 | SOLAR CELL PROTECTIVE SHEET, PRODUCING METHOD OF SAME, AND SOLAR CELL MODULE - A solar cell protective sheet includes a substrate and a thermoplastic resin layer laminated on at least one surface of the substrate. The thermoplastic resin layer contains at least one pigment selected from the group consisting of titanium oxide, talc, magnesium oxide, cerium oxide, barium sulfate, calcium carbonate and carbon black. The solar cell protective sheet has excellent adhesiveness to an encapsulant of a solar cell module and can suppress the warping caused in the solar cell module. | 03-13-2014 |