Patent application number | Description | Published |
20100026952 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING SAME - A display device includes: a flexible first substrate; a flexible second substrate provided facing the first substrate; a display part; and a wiring substrate. The display part has a display component which is disposed between the first substrate and the second substrate. The display component produces at least one of an optical characteristic change and a light emission. The wiring substrate is connected to a connection pad provided on at least one of the first substrate and the second substrate. At least a portion of the wiring substrate is interposed between the first substrate and the second substrate outside the display part. | 02-04-2010 |
20120038848 | BACKLIGHT AND LIQUID CRYSTAL DISPLAY DEVICE - A backlight includes a case having plural apertures in a main face thereof and a light source disposed in the case. A total area of the plural apertures is not less than 8% and not more than 15% of an area of the main face. | 02-16-2012 |
20120057086 | LIQUID CRYSTAL COMPOSITION, LIQUID CRYSTAL PANEL USING THE SAME, AND LIQUID CRYSTAL SHUTTER GLASSES - According to one embodiment, a liquid crystal composition includes a liquid crystal material and a polymer. The liquid crystal material exhibits a blue phase. The polymer has a first repeating unit containing a fluorine atom and an acrylic group. | 03-08-2012 |
20120176423 | DISPLAY DEVICE AND LIGHT SOURCE DEVICE - According to one embodiment, a display device includes an optical switch panel, and a light source device. The optical switch panel includes pixels and a drive part controlling transmissivity of the pixels. The light source device is stacked with the panel and includes a light source to emit a source light, a light guiding unit, interference filters, and light controlling parts. The light guiding unit includes a light guide region guiding the source light, a reflecting part provided around the region to reflect the source light, and apertures provided around the region and causing semi-collimated light to be emitted. The interference filters cause lights in certain wavelength dands of the light emitted from the aperture to pass. The light controlling parts cause the lights through the filters to enter the pixels to form an image. | 07-12-2012 |
20120223301 | THIN FILM TRANSISTOR, MANUFACTURING METHOD OF SAME, AND DISPLAY DEVICE - According to one embodiment, a thin film transistor includes: a substrate; a semiconductor layer; first and second insulating films; and gate, source and drain electrodes. The semiconductor layer is provided on the substrate. The semiconductor layer is made of an oxide having indium. The semiconductor layer has first and second regions and other region. The first insulating film covers a top face of the other region. The second insulating film covers at least a pair of side surfaces of the semiconductor layer. The second insulating film is formed under a condition different from that for the first insulating film. The gate electrode is provided on the first and second insulating films or below the semiconductor layer. The source and drain electrodes are provided on the first and second regions, respectively. The drain and source electrodes sandwich the pair of the side surfaces of the semiconductor layer. | 09-06-2012 |
20120242562 | DISPLAY DEVICE - According to one embodiment, a display device includes an insulating layer, a display unit, and an organic EL layer. The display unit is provided on a major surface of the insulating layer and includes a plurality of gate lines, a plurality of signal lines, a plurality of power source lines and a plurality of pixel units arranged in a matrix configuration. The EL layer is provided on the display unit. Each pixel unit includes a drive transistor and a resistor. The drive transistor includes a drive gate electrode, a drive source electrode, and a drive drain electrode. The drive source electrode or the drive drain electrode is connected to one of the power source lines. An end of the resistor is connected to the drive gate electrode. An other end of the resistor is connected to one of the gate line, the signal line, and the power source line. | 09-27-2012 |
20130021556 | DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a display device includes a main substrate, and a light control layer. The main substrate includes a main base having a main surface, a wavelength selective transmission layer provided on the main surface, and a circuit layer provided on the wavelength selective transmission layer. The light control layer is stacked with the main substrate and has variable optical characteristics. The wavelength selective transmission layer includes lower and upper reflecting layers, and first and second spacer layers. The upper reflecting layer is provided on the lower reflecting layer. The first spacer layer is provided between the lower and upper reflecting layers. The second spacer layer is provided between the lower and upper reflecting layers, and has a different thickness from the first spacer layer. The circuit layer includes first and second pixel electrodes, and first and second switching elements. | 01-24-2013 |
20130070482 | DISPLAY DEVICE AND BACKLIGHT FOR DISPLAY DEVICE - According to one embodiment, a display device includes a light-guiding body, a light source, a wavelength selection transmission layer, and a light control layer. The light-guiding body has a first major surface, a second major surface opposite to the first major surface, and a side face connecting the first major surface and the second major surface. The wavelength selection transmission layer is provided on the second major surface. The first major surface has a plurality of concave portions having inclined faces inclined relative to the first major surface. A ratio of a total area of the plurality of the concave portions projected on the first major surface, relative to an area of the first major surface is 8% to 25%. The plurality of the concave portions is evenly provided in the first major surface. | 03-21-2013 |
20130075719 | THIN FILM TRANSISTOR, METHOD FOR MANUFACTURING SAME, AND DISPLAY DEVICE - According to one embodiment, a thin film transistor includes a substrate, a gate electrode, a first insulating film, an oxide semiconductor film, a second insulating film, a source electrode, and a drain electrode. The gate electrode is provided on a part of the substrate. The first insulating film covers the gate electrode. The oxide semiconductor film is provided on the gate electrode via the first insulating film. The second insulating film is provided on a part of the oxide semiconductor film. The source and drain electrodes are respectively connected to first and second portions of the oxide semiconductor film not covered with the second insulating film. The oxide semiconductor film includes an oxide semiconductor. Concentrations of hydrogen contained in the first and second insulating films are not less than 5×10 | 03-28-2013 |
20130076687 | TOUCH PANEL AND DISPLAY DEVICE - According to one embodiment, a touch panel includes first interconnections, second interconnections, sensor units and a control unit. The first interconnections are arranged along a first direction, and extend along a second direction intersecting with the first direction. The second interconnections are arranged along a third direction intersecting with the first direction, and extend along a fourth direction intersecting with the third direction. The sensor units are provided in intersection portions of the first and second interconnections, include first and second ferromagnetic layers, and an intermediate layer, allow a current to be passed, and have one end connected to the first interconnections and another end connected to the second interconnections. The control unit is connected to the first and second interconnections. An electric resistance of the sensor units changes in accordance with a stress applied. The control unit senses a change in the electric resistance. | 03-28-2013 |
20130077029 | INTERFERENCE FILTER AND DISPLAY DEVICE - According to one embodiment, an interference filter includes a base body, a lower semi-transmissive layer, and an upper semi-transmissive layer. The base body includes a major surface. The lower semi-transmissive layer is provided on the major surface. The upper semi-transmissive layer is provided on the lower semi-transmissive layer. The base body, the lower and upper semi-transmissive layers form a first region to selectively transmit blue light, a second region to selectively transmit green light, and a third region to selectively transmit red light, arranged in a plane parallel to the major surface. A distance between the lower semi-transmissive layer and the upper semi-transmissive layer in the second region is shorter than a distance between the lower semi-transmissive layer and the upper semi-transmissive layer in the first region, and shorter than a distance between the lower semi-transmissive layer and the upper semi-transmissive layer in the third region. | 03-28-2013 |
20130078752 | METHOD FOR MANUFACTURING DISPLAY DEVICE - According to one embodiment, a method is disclosed for manufacturing a display device. A film material layer is formed on a support substrate. A first heating process for the film material layer at a first temperature to form a film layer and a second heating process for a second region surrounding a first region at a second temperature higher than the first temperature are performed. The first region is provided in a central part of the film layer. A display layer is formed in the first region and a peripheral circuit section is formed at least in a part of the second region. A third heating process is performed for at least a part of the film layer at a third temperature higher than the second temperature. In addition, the film layer is peeled off from the support substrate. | 03-28-2013 |
20130271698 | BACKLIGHT AND LIQUID CRYSTAL DISPLAY DEVICE - A backlight includes a case having plural apertures in a main face thereof and a light source disposed in the case. A total area of the plural apertures is not less than 8% and not more than 15% of an area of the main face. | 10-17-2013 |
20130277646 | DISPLAY PANEL AND DISPLAY DEVICE - According to one embodiment, a display panel includes a substrate, a switching element, a pixel electrode, an organic light emitting layer, an opposite electrode, a detecting electrode, and an insulating layer. The substrate has a major surface. The switching element is provided on the major surface. The switching element includes a semiconductor layer. The pixel electrode is provided on the major surface. The pixel electrode is electrically connected to the switching element. The organic light emitting layer is provided on the pixel electrode. The opposite electrode is provided on the organic light emitting layer. The detecting electrode is provided between the substrate and at least a part of the pixel electrode. The detecting electrode includes at least one element included in the semiconductor layer. The insulating layer is provided between the pixel electrode and the detecting electrode. | 10-24-2013 |
20130277667 | DISPLAY DEVICE - According to one embodiment, a display device includes a light transmissive substrate, a light transmissive pixel electrode, a switching element, an organic light emitting layer, a light transmissive opposite electrode, a conductive light absorption layer and a conductive film. The light transmissive pixel electrode is provided on the substrate. The switching element is provided on the substrate and electrically connected to the pixel electrode. The organic light emitting layer is provided on the pixel electrode. The light transmissive opposite electrode is provided on the organic light emitting layer. The conductive light absorption layer is provided on the opposite electrode. The conductive film is provided on the light absorption layer. | 10-24-2013 |
20130302534 | METHOD FOR MANUFACTURING DISPLAY DEVICE - According to one embodiment, a method is disclosed for manufacturing a display device. A film material layer is formed on a support substrate. A first heating process for the film material layer at a first temperature to form a film layer and a second heating process for a second region surrounding a first region at a second temperature higher than the first temperature are performed. The first region is provided in a central part of the film layer. A display layer is formed in the first region and a peripheral circuit section is formed at least in a part of the second region. A third heating process is performed for at least a part of the film layer at a third temperature higher than the second temperature. In addition, the film layer is peeled off from the support substrate. | 11-14-2013 |
20130313545 | DISPLAY DEVICE - According to one embodiment, a display device includes a substrate, a thin film transistor, a passivation film, a hydrogen barrier film, a pixel electrode, an organic light emitting layer, an opposite electrode, and a sealing film. The thin film transistor is provided on a major surface of the substrate. The thin film transistor includes a gate electrode, a gate insulating film, a semiconductor film, a first conducting portion, and a second conducting portion. The passivation film is provided on the thin film transistor. The hydrogen barrier film is provided on the passivation film. The pixel electrode is electrically connected to one of the first conducting portion and the second conducting portion. The organic light emitting layer is provided on the pixel electrode. The opposite electrode is provided on the organic light emitting layer. The sealing film is provided on the hydrogen barrier film and the opposite electrode. | 11-28-2013 |
20130313547 | DISPLAY DEVICE - According to one embodiment, a display device includes a substrate, a thin film transistor, a pixel electrode, an organic light emitting layer, a common electrode, and a sealing unit. The thin film transistor is provided on the substrate. The thin film transistor includes a gate electrode, a gate insulating film, a semiconductor film, a first conducting portion, and a second conducting portion. The pixel electrode is electrically connected to one of the first conducting portion and the second conducting portion. The organic light emitting layer is provided on the pixel electrode. The common electrode is provided on the organic light emitting layer. The sealing unit is provided on the common electrode. The sealing unit includes a first sealing film and a second sealing film. A refractive index of the second sealing film is different from a refractive index of the first sealing film. | 11-28-2013 |
20140077204 | DISPLAY DEVICE - According to one embodiment, a display device includes a first insulating layer, a second insulating layer, a pixel electrode, a light emitting layer, an opposite electrode and a pixel circuit. The second insulating layer is provided on the first insulating layer. The pixel electrode is provided on the second insulating layer and light-transmissive. The light emitting layer is provided on the pixel electrode. The opposite electrode is provided on the light emitting layer. The circuit is provided between the first insulating layer and the second insulating layer, includes an interconnect supplied with a drive current, and is configured to supply the drive current to the pixel electrode. The circuit is connected to the pixel electrode. The interconnect has a first region overlaying the pixel electrode when projected onto a plane parallel to the first insulating layer. The interconnect has an opening in the first region. | 03-20-2014 |
20140084284 | THIN FILM TRANSISTOR AND DISPLAY DEVICE - According to one embodiment, a display device includes a thin film transistor. The thin film transistor includes a gate insulating film, a semiconductor layer, a gate electrode, first and second channel protection films, first and second conductive layers, and a passivation film. The semiconductor layer is provided on a major surface of the gate insulating film. The semiconductor layer includes first to seventh portions. The gate insulating film is disposed between the semiconductor layer and the gate electrode. The first channel protection film covers the third portion. The second channel protection film covers the fifth and fourth portions, and an upper surface of the first channel protection film. The first conductive layer covers the sixth portion. The second conductive layer covers the seventh portion. The passivation film covers the first and second portions, the first and second conductive layers, and the second channel protection film. | 03-27-2014 |
20140084310 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING SAME - According to an embodiment, a method for manufacturing a display device, includes steps of disposing a cathode of a first substrate unit to face an anode of a second substrate unit with an intermediate layer interposed, and bonding the cathode to the anode with the intermediate layer interposed. The first substrate unit includes a first substrate, a thin film transistor provided on the first substrate, and the cathode connected to the thin film transistor. The thin film transistor is an n-channel thin film transistor. The second substrate unit includes a second substrate and the anode provided on the second substrate. | 03-27-2014 |
20140147948 | THIN FILM TRANSISTOR, MANUFACTURING METHOD OF SAME, AND DISPLAY DEVICE - According to one embodiment, a thin film transistor includes: a substrate; a semiconductor layer; first and second insulating films; and gate, source and drain electrodes. The semiconductor layer is provided on the substrate. The semiconductor layer is made of an oxide having indium. The semiconductor layer has first and second regions and other region. The first insulating film covers a top face of the other region. The second insulating film covers at least a pair of side surfaces of the semiconductor layer. The second insulating film is formed under a condition different from that for the first insulating film. The gate electrode is provided on the first and second insulating films or below the semiconductor layer. The source and drain electrodes are provided on the first and second regions, respectively. The drain and source electrodes sandwich the pair of the side surfaces of the semiconductor layer. | 05-29-2014 |
20140198271 | LIQUID CRYSTAL OPTICAL DEVICE AND STEREOSCOPIC IMAGE DISPLAY DEVICE - According to one embodiment, a liquid crystal optical device includes first and second substrate units and a liquid crystal layer. The first substrate unit includes a first substrate having a first major surface, and a first electrode extending along a first direction. The second substrate unit includes a second substrate and a first opposing electrode. The liquid crystal layer is provided between the first substrate unit and the second substrate unit and includes a first portion provided on a side of the first substrate unit and a second portion provided on a side of the second substrate unit. The first portion has a vertical alignment. The second portion has a horizontal alignment. A long axis of liquid crystal molecules in the second portion aligns along a second direction perpendicular to the first direction. | 07-17-2014 |
20140246685 | METHOD FOR MANUFACTURING DISPLAY ELEMENT, DISPLAY ELEMENT, AND DISPLAY DEVICE - According to one embodiment, a method for manufacturing a display element is disclosed. The method can include forming a peeling layer, forming a resin layer, forming a barrier layer, forming an interconnect layer, forming a display layer, and removing. The peeling layer is formed on a major surface of a base body. The major surface has first, second, and third regions. The peeling layer includes first, second, and third peeling portions. The resin layer is formed on the peeling layer. The resin layer includes first and second resin portions. The barrier layer is formed on the first, second, and third peeling portions. The interconnect layer is formed on the barrier layer. The display layer is formed on the interconnect layer. The first peeling portion is removed from the first resin portion and the second peeling portion is removed from the second resin portion. | 09-04-2014 |
20140284593 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - According to one embodiment, a semiconductor device includes a substrate having an upper surface, a foundation insulating layer provided on the upper surface, and a thin film transistor. The thin film transistor includes a first gate electrode, first, second and third insulating layers, a semiconductor layer, and first and second conductive layers. The first gate electrode is provided on a portion of the foundation insulating layer. The first insulating layer covers the first gate electrode and the foundation insulating layer. The second insulating layer is provided on the first insulating layer, and has first, second and third portions. The semiconductor layer contacts the second insulating layer on the third portion, and has fourth, fifth portions and sixth portions. The first conductive layer contacts the fourth portion. The second conductive layer contacts the fifth portion. The third insulating layer covers a portion of the semiconductor layer. | 09-25-2014 |
20140284594 | DISPLAY DEVICE, THIN FILM TRANSISTOR, METHOD FOR MANUFACTURING DISPLAY DEVICE, AND METHOD FOR MANUFACTURING THIN FILM TRANSISTOR - According to one embodiment, a display device includes a substrate unit, a thin film transistor, a pixel electrode and a display layer. The substrate unit includes a substrate, a first insulating layer provided on the substrate, and a second insulating layer provided on the first insulating layer. The thin film transistor is provided on the substrate unit and includes a gate electrode provided on the second insulating layer, a semiconductor layer of an oxide separated from the gate electrode, a gate insulation layer provided between the gate electrode and the semiconductor layer, a first conductive portion, a second conductive portion, and a third insulating layer. The pixel electrode is connected to one selected from the first and second conductive portions. The display layer is configured to have a light emission or a change of optical characteristic occurring according to a charge supplied to the pixel electrode. | 09-25-2014 |
20140285914 | METHOD FOR MANUFACTURING DISPLAY DEVICE AND DISPLAY DEVICE - According to one embodiment, a method for manufacturing a display device is disclosed. The method can include bonding a display body to a filter body, irradiating light and separating. The display body includes a first support unit and a display unit. The first support unit includes a first substrate, a first metal layer, and a first resin layer. The display unit has a first region and a second region. The filter body includes a second support unit and a filter unit. The second support unit includes a second substrate, a second metal layer and a second resin layer. In the bonding, the display unit and the filter unit are disposed between the first and second substrates. The light is irradiated onto the first and second metal layers. The first substrate is separated from the first resin layer and the second substrate is separated from the second resin layer. | 09-25-2014 |
20150022765 | DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a display device includes a main substrate, and a light control layer. The main substrate includes a main base having a main surface, a wavelength selective transmission layer provided on the main surface, and a circuit layer provided on the wavelength selective transmission layer. The light control layer is stacked with the main substrate and has variable optical characteristics. The wavelength selective transmission layer includes lower and upper reflecting layers, and first and second spacer layers. The upper reflecting layer is provided on the lower reflecting layer. The first spacer layer is provided between the lower and upper reflecting layers. The second spacer layer is provided between the lower and upper reflecting layers, and has a different thickness from the first spacer layer. The circuit layer includes first and second pixel electrodes, and first and second switching elements. | 01-22-2015 |