Patent application number | Description | Published |
20080205132 | Memory Element and Semiconductor Device, and Method for Manufacturing the Same - It is an object to solve inhibition of miniaturization of an element and complexity of a manufacturing process thereof. It is another object to provide a nonvolatile memory device and a semiconductor device having the memory device, in which data can be additionally written at a time besides the manufacturing time and in which forgery caused by rewriting of data can be prevented. It is further another object to provide an inexpensive nonvolatile memory device and semiconductor device. A memory element is manufactured in which a first conductive layer, a second conductive layer that is beside the first conductive layer, and conductive fine particles of each surface which is covered with an organic film are deposited over an insulating film. The conductive fine particles are deposited between the first conductive layer and the second conductive layer. | 08-28-2008 |
20080233669 | Method for Manufacturing Light-Emitting Device - A full-color light-emitting device is achieved with plural kinds of light-emitting elements in each of which a stacked layer of a first material layer formed selectively with a droplet discharge apparatus and a second material layer formed by vapor-deposition method using the conductive-surface plate on which a layer containing an organic compound is formed is provided between a pair of electrodes. The first material layer is a layer in which an organic compound and a metal oxide which is an inorganic compound are mixed. By adjusting the thickness of the first material layer of each light-emitting element, which is different depending on an emission color, a blue light emission component, a green light emission component, or a red light emission component among a plurality of components for white light emission can be selectively emphasized and taken out by light interference phenomenon. | 09-25-2008 |
20080260938 | Film Formation Apparatus, Film Formation Method, Manufacturing Apparatus, and Method for Manufacturing Light-Emitting Device - An object is to improve use efficiency of an evaporation material, to reduce manufacturing cost of a light-emitting device, and to reduce manufacturing time needed for a light-emitting device including a layer containing an organic compound. The pressure of a film formation chamber is reduced, a plate is rapidly heated by heat conduction or heat radiation by using a heat source, a material layer on a plate is vaporized in a short time to be evaporated to a substrate on which the material layer is to be formed (formation substrate), and then the material layer is formed on the formation substrate. The area of the plate that is heated rapidly is set to have the same size as the formation substrate and film formation on the formation substrate is completed by one application of heat. | 10-23-2008 |
20080268135 | MANUFACTURING METHOD OF LIGHT-EMITTING DEVICE - For a full-color flat panel display, demands for high definition, high aperture ratio and high reliability have been increasing. Therefore, increasing in the number of pixels and narrowing a pixel pitch have been major issues. According to the present invention, a layer including an organic compound is selectively formed with a light-exposure apparatus used in a photolithography technique without a resist mask. A material layer including a photopolymerization initiator, a material polymerized with the photopolymerization initiator, and an organic compound are formed on a plate, and then are exposed to light and selectively cured. A film-formation substrate is disposed so as to face the plate. The film-formation substrate or the material layer is heated so that the organic compound included in a region exposed to light or a region not exposed to light is evaporated to be selectively deposited on the surface of the film-formation substrate. | 10-30-2008 |
20080299496 | Manufacturing Apparatus and Manufacturing Method of Light-Emitting Device - Demands such as higher definition, higher opening aperture, and higher reliability on a full-color flat panel display have been increased. Such demands are big objects in advancing higher definition (increase in the number of pixels) of a light-emitting device and miniaturization of each display pixel pitch with reduction in size of the light-emitting device. An organic compound-containing layer is selectively deposited using a laser beam which passes through openings of a mask. An irradiated substrate provided with a light absorption layer and a material layer containing an organic compound and a deposition substrate provided with first electrodes are placed so as to face each other. The light absorption layer is heated by a laser beam which has passed through the openings of the mask, and the organic compound at a position overlapping with the heated region is vaporized, and accordingly the organic compound is selectively deposited over the deposition substrate. | 12-04-2008 |
20090050890 | CONTACT STRUCTURE - There is disclosed a contact structure for electrically connecting conducting lines formed on a first substrate of an electrooptical device such as a liquid crystal display with conducting lines formed on a second substrate via conducting spacers while assuring a uniform cell gap among different cells if the interlayer dielectric film thickness is nonuniform across the cell or among different cells. A first conducting film and a dielectric film are deposited on the first substrate. Openings are formed in the dielectric film. A second conducting film covers the dielectric film left and the openings. The conducting spacers electrically connect the second conducting film over the first substrate with a third conducting film on the second substrate. The cell gap depends only on the size of the spacers, which maintain the cell gap. | 02-26-2009 |
20090061569 | CONTACT STRUCTURE - There is disclosed a contact structure for electrically connecting conducting lines formed on a first substrate of an electrooptical device such as a liquid crystal display with conducting lines formed on a second substrate via conducting spacers while assuring a uniform cell gap among different cells if the interlayer dielectric film thickness is nonuniform across the cell or among different cells. A first conducting film and a dielectric film are deposited on the first substrate. Openings are formed in the dielectric film. A second conducting film covers the dielectric film left and the openings. The conducting spacers electrically connect the second conducting film over the first substrate with a third conducting film on the second substrate. The cell gap depends only on the size of the spacers, which maintain the cell gap. | 03-05-2009 |
20090075214 | MANUFACTURING METHOD OF LIGHT EMITTING DEVICE, AND EVAPORATION DONOR SUBSTRATE - An object is to provide a manufacturing method of a light emitting device, by which manufacturing costs in manufacturing a flat panel display can be reduced. A first substrate provided with a reflective layer having an opening over a first surface, and provided with a light absorption layer and an evaporation material over a second surface facing the first surface is used. Then, in a state where the second surface of the first substrate is disposed close to a first surface of a second substrate, light irradiation is performed from the first surface side of the first substrate. The irradiation light is absorbed by a portion of the light absorption layer overlapping with the opening in the reflective layer, thereby heating the evaporation material. The heated evaporation material is attached to the first surface of the second substrate. | 03-19-2009 |
20090104721 | Deposition Method and Method for Manufacturing Light Emitting Device - An object is to provide a deposition method by which a film having a desired shape can be formed with high productivity. Further, a method for manufacturing a light emitting device by which a light emitting device having high definition can be manufactured with high productivity is provided. Specifically, even in the case of using a large-sized substrate, a method for manufacturing a light emitting device having high definition is provided. By using a deposition target substrate and a shadow mask having a smaller area than the deposition target substrate, the deposition target substrate and the shadow mask are aligned with each other, and an evaporation material is deposited on at least part of the deposition target substrate through a plurality of deposition steps. As an evaporation source, a light absorption layer and a supporting substrate having the evaporation material is preferably used. | 04-23-2009 |
20100176719 | Display Device - To improve an image quality of an organic EL display by utilizing characteristics of a dual emission type organic light emitting element. A display device includes a first substrate over which a plurality of organic light emitting elements are provided and a second substrate over which an organic light emitting element is provided. The first and second substrates are facing each other. At least either the organic light emitting elements provided over the first substrate or the organic light emitting element provided over the second substrate emit/emits light toward both surfaces of the first or second substrate. Light emitting regions of the organic light emitting elements provided over the first substrate are overlapped with a light emitting region of the organic light emitting element provided over the second substrate as seen from the second substrate. | 07-15-2010 |
20110157216 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE - To provide a liquid crystal display device which can perform image display in both modes: a reflective mode where external light is used as an illumination light source; and a transmissive mode where a backlight is used. In one pixel, a region where incident light through a liquid crystal layer is reflected to perform display (reflective region) and a region through which light from the backlight passes to perform display (transmissive region) are provided, and image display can be performed in both modes: the reflective mode where external light is used as an illumination light source; and the transmissive mode where the backlight is used as an illumination light source. In addition, two transistors connected to respective pixel electrode layers are provided in one pixel, and the two transistors are separately operated, whereby display of the reflective region and display of the transmissive region can be controlled independently. | 06-30-2011 |
20110157252 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SEMICONDUCTOR DEVICE - An object is to provide a liquid crystal display device which can recognize image display even when the liquid crystal display device is used in a dim environment. In one pixel, a pixel electrode including both of a region where incident light through a liquid crystal layer is reflected and a transmissive region is provided, and image display can be performed in both modes: the reflective mode where external light is used as an illumination light source; and the transmissive mode where the backlight is used as an illumination light source. When there is external light with insufficient brightness, that is, in a dim environment, the backlight emits weak light and an image is displayed in the reflective mode, whereby image display can be performed. | 06-30-2011 |
20110157253 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE - An object is to provide a liquid crystal display device in which image display can be recognized even in an environment where light is dim around the liquid crystal display device. Another object is to provide a liquid crystal display device capable of image display in both modes of a reflective mode in which external light is used as a light source and a transmissive mode in which a backlight is used. One pixel is provided with a pixel electrode having both of a region where light incident through a liquid crystal layer is reflected and a region having a light-transmitting property, so that image display can be performed in both modes of a reflective mode in which external light is used as a light source and a transmissive mode in which a backlight is used. | 06-30-2011 |
20110157254 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE - It is an object to provide a liquid crystal display device which can recognize image display even in the dim surrounding environment of the liquid crystal display device. It is another object to provide a liquid crystal display device which can perform image display in both modes: a reflective mode in which external light is used as an illumination light source; and a transmissive mode in which a backlight is used. A plurality pairs of a pixel in which incident light through a liquid crystal layer is reflected and a light-transmitting pixel are provided; therefore, display image can be performed in both modes: the reflective mode in which external light is used as an illumination light source; and the transmissive mode in which a backlight is used. Further, each reflective pixel and light-transmitting pixel may be connected to an independent signal driver circuit. | 06-30-2011 |
20110205468 | LIQUID CRYSTAL DISPLAY DEVICE - A light-condensing means and a pixel electrode may be formed on the same surface side of a substrate, and a region transmitting visible light in the pixel electrode may be provided so as to overlap with an optical axis of the light-condensing means. An anisotropic light-condensing means having a condensing direction X and a non-condensing direction Y may be used, and the light-condensing means may be provided so that the non-condensing direction Y corresponds to a longitudinal direction of the region transmitting visible light in the pixel electrode. | 08-25-2011 |
20110279029 | Display Device - To improve an image quality of an organic EL display by utilizing characteristics of a dual emission type organic light emitting element. A display device includes a first substrate over which a plurality of organic light emitting elements are provided and a second substrate over which an organic light emitting element is provided. The first and second substrates are facing each other. At least either the organic light emitting elements provided over the first substrate or the organic light emitting element provided over the second substrate emit/emits light toward both surfaces of the first or second substrate. Light emitting regions of the organic light emitting elements provided over the first substrate are overlapped with a light emitting region of the organic light emitting element provided over the second substrate as seen from the second substrate. | 11-17-2011 |
20110285940 | LIQUID CRYSTAL DISPLAY DEVICE - By providing a pixel electrode layer in a center of a liquid crystal layer sandwiched between a first common electrode layer and a second common electrode layer, a structure in which the following two optical elements are stacked can be obtained: a first liquid crystal element including the first common electrode layer, the liquid crystal layer, and the pixel electrode layer; and a second liquid crystal element including the pixel electrode layer, the liquid crystal layer, and the second common electrode layer. | 11-24-2011 |
20110285943 | LIQUID CRYSTAL DISPLAY DEVICE - Reflection efficiency of reflected light is improved and white display is efficiently performed in a liquid crystal display device which performs display by reflecting incident external light. A liquid crystal display device with higher visibility and higher image quality is provided. White display is performed utilizing reflected light which is efficiently scattered with the use of a pixel electrode layer whose surface has depressions and projections, whereby reflection efficiency of the reflected light can be improved and white display can be efficiently performed. Further, a liquid crystal display device with higher visibility and higher image quality can be provided. | 11-24-2011 |
20120001953 | METHOD FOR DRIVING LIQUID CRYSTAL DISPLAY DEVICE - In a first subframe period, light sources of a first region and a third region emit lights at the same time; light sources of a second region and a fourth region emit no light at the same time, in which light emission of different colors is performed in the first region and the third region. In a second subframe period, light sources of the second region and the fourth region emit lights at the same time; light sources of the first region and the third region emit no light at the same time, in which light emission of different colors is performed in the second region and the fourth region. The first region and the third region are separated from each other with the second region interposed therebetween; and the second region and the fourth region are separated from each other with the third region interposed therebetween. | 01-05-2012 |
20120002133 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR DRIVING LIQUID CRYSTAL DISPLAY DEVICE - An object of the invention is to suppress degradation in image quality of a liquid crystal display device which performs display by field sequential method and to reduce power consumption of a backlight. The highest brightness of a first color light in a pixel region is detected. Gamma correction is performed so that transmittance of a pixel of the region displaying the highest brightness of the first color light is set to maximum and transmittance of other pixel of the region is decreased in accordance with lowering of the first color light intensity, and the region is irradiated with the highest brightness of the first color light. Similarly, a second color light is irradiated in another region concurrently with irradiation of the first color, whereby input of an image signal and lighting of the backlight are performed simultaneously in every region of the pixel portion. | 01-05-2012 |
20120099048 | LIGHT-EMITTING ELEMENT UNIT AND DISPLAY DEVICE - A light-emitting element unit which can improve color purity of light emitted from a color filter is provided. A display device with high color purity and high color reproducibility is provided. The light-emitting element unit includes a wiring board, a light-emitting element chip provided over the wiring board, a micro optical resonator provided over the wiring board and at the periphery of the light-emitting element chip, and a phosphor layer covering the light-emitting element chip and the micro optical resonator. The display device includes a display panel having a coloring layer and a backlight module having the light-emitting element unit. Examples of the display panel include: a liquid crystal panel; and a display panel including an opening portion provided over a first substrate, MEMS moving over the opening portion in the lateral direction, and a second substrate provided with a coloring layer in a portion corresponding to the opening portion. | 04-26-2012 |
20120099049 | Backlight and Display Device - A backlight of which power consumption can be reduced is provided. Further, by effective use of light emitted from the backlight, a display device with low power consumption is provided. The display device includes a light source device in which a plurality of light-emitting elements are arranged, a diffusion plate which is bonded to the light source device, a first polarizing plate which is bonded to the diffusion plate, a liquid crystal panel which is bonded to the first polarizing plate, and a second polarizing plate which is bonded to the liquid crystal panel. The light source device includes an organic resin having a projected spherical surface and a light-transmitting property covering each of the plurality of light-emitting elements and an organic resin having a planarized surface and a light-transmitting property covering the plurality of light-emitting elements and the organic resin having a projected spherical surface and a light-transmitting property. | 04-26-2012 |
20120127382 | LIQUID CRYSTAL SHUTTER GLASSES - Provided is liquid crystal shutter glasses in which light leakage at the time when a liquid crystal shutter is closed is suppressed. The liquid crystal shutter glasses includes a first substrate and a second substrate with a liquid crystal layer containing a liquid crystal material exhibiting a blue phase provided therebetween, a first electrode with a comb shape and a first common electrode with a comb shape which are provided between the first substrate and the liquid crystal layer, and a second electrode with a comb shape and a second common electrode with a comb shape which are provided between the second substrate and the liquid crystal layer. The first electrode overlaps with the second electrode. The first common electrode overlaps with the second common electrode. The first electrode is connected to the second electrode. | 05-24-2012 |
20120133648 | DRIVING METHOD OF DISPLAY DEVICE - An object is to reduce crosstalk between consecutive frame periods. The writing period of image signals to each pixel and the lighting period of light sources corresponding to the image signals in one frame period are rearranged so that the lighting period of the light sources corresponding to the image signals does not overlap with a previous frame period and the next frame period, and the image signals are written and the light sources corresponding to the image signals are on. Specifically, a display region is divided into a plurality of regions, and each of the plurality of regions is divided for rows in a first half and rows in a latter half. The image signals written to the rows in the latter half are written in the previous frame period, and the light sources corresponding to the image signals are on in the frame period. | 05-31-2012 |
20120133687 | Liquid Crystal Display Device and Driving Method of Liquid Crystal Display Device - In one frame period, a field period in which an image signal is input to pixels in odd-numbered rows and a field period in which an image signal is input to pixels in even-numbered rows are alternately provided. Hues of light transmitted to a pixel portion from a light supply portion are different between two sequential field periods. Further, in a plurality of field periods in one frame period, hues of light transmitted to the pixel portion from the light supply portion are different among a plurality of field periods in which image signals are input to the pixels in the odd-numbered rows, and/or those are different among a plurality of field periods in which image signals are input to the pixels in the even-numbered rows. | 05-31-2012 |
20120133878 | LIQUID CRYSTAL DISPLAY DEVICE - The intensity of the lateral electric field is enhanced and a reduction of the contrast ratio is suppressed. A liquid crystal display device is provided in which a first substrate and a second substrate with a liquid crystal layer exhibiting a blue phase provided therebetween; a transistor, a first pixel electrode, and a first common electrode which are provided over the first substrate; and a second pixel electrode and a second common electrode which are provided on the second substrate are provided. The first pixel electrode is electrically connected to the transistor and the second pixel electrode. | 05-31-2012 |
20120147305 | LIGHTING DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - A light source includes: a first electrode using a reflective material; an EL layer; and a second electrode using a light-transmitting conductive film, in which light emitted from the EL layer is extracted from the second electrode; a selective reflection structure is provided on a light extraction side of the second electrode without an air layer interposed therebetween; and the selective reflection structure has a function of transmitting light of a particular polarization component and reflecting light of the other component. | 06-14-2012 |
20120176570 | DISPLAY DEVICE - A display device having a light-emitting element and a see-through capability, with which a variety of display modes can be exhibited depending on a use application or situation. In such a display device having a see-through capability, between a first display portion having pixels including dual-emission type light-emitting elements and a second display portion having a light-scattering liquid crystal layer, a shutter-shaped light-blocking unit is provided so that a variety of display modes can be exhibited depending on use applications or situations by selecting modes of the first display portion, the second display portion, and the shutter-shaped light-blocking unit. | 07-12-2012 |
20120206503 | DISPLAY DEVICE - A display device capable of displaying both a 3D image and a 2D image is provided. The display device includes a plurality of optical filter regions where light-blocking panels for producing binocular disparity are arranged in matrix. The light-blocking panel can select whether to transmit light emitted from a display panel in each of the plurality of optical filter regions. Thus, in the display device, some regions where binocular disparity is produced can be provided. Consequently, the display device can display both a 3D image and a 2D image. | 08-16-2012 |
20120208637 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE INCLUDING THE SAME - Provided is a display device which can perform, with a simpler structure, switching between naked-eye 3D image display by a parallax barrier method and 2D image display without a decrease in resolution. In order to reduce manufacturing cost by reducing the number of polarizing plates, a light-shuttering portion including a polymer-dispersed liquid crystal which does not need a polarizing plate is used as a parallax barrier. Further, a light source portion serving as a backlight is formed using a light source including an EL element which forms a planar light source and does not need a diffusion plate. Furthermore, as the light source portion serving as the backlight, a plurality of EL elements are provided so that the plurality of EL elements are selectively controlled and thus selective light emission is performed. | 08-16-2012 |
20120218325 | DISPLAY DEVICE - To extend the range of distance (between a display screen and the eye of a viewer) with which the viewer can see 3D images with the naked eye and to reduce power consumption. A parallax barrier in a shutter panel is controlled to be arranged optimally in accordance with the distance between the viewer and a display panel. Specifically, an optimal parallax barrier is formed as appropriate by selectively switching a light-transmitting state and a light-shielding state of a plurality of optical shutter regions and a display element unit of pixels depending on a retention state. The retention state is realized in such a manner that at least one of electrodes between which a liquid crystal layer is sandwiched is connected to a transistor including a semiconductor layer containing an oxide semiconductor and the transistor is turned off. | 08-30-2012 |
20120267666 | DISPLAY DEVICE AND ELECTRONIC APPARATUS - It is an object to propose a display device in which reflection of external light on a reflective polarizing plate is prevented and also extraction efficiency of light from a light-emitting layer is improved. If the display device has a light-emitting layer provided over a reflective electrode, a transparent electrode provided over the light-emitting layer, a transparent substrate provided over the transparent electrode, a reflective polarizing plate provided over the transparent substrate, a quarter wave plate provided over the reflective polarizing plate, and a polarizing plate provided over the quarter wave plate, reflection of an outside image can be suppressed, and light emitted in the light-emitting layer can be extracted efficiently. | 10-25-2012 |
20120274542 | DISPLAY DEVICE - An object is to provide a display device on which 3D images can be perceived from a large area. A parallax barrier panel includes a first substrate provided with a plurality of light-blocking layers and a plurality of light-transmitting layers, and a second substrate. The light-blocking layers and the light-transmitting layers are alternately provided in contact with one surface of the first substrate and are interposed between the first substrate and the second substrate. The refraction index of each of the light-transmitting layers is different from the refraction index of the first substrate or the refraction index of the second substrate. The parallax barrier panel is stacked with a display panel including a plurality of pairs of a pixel for the right eye and a pixel for the left eye. | 11-01-2012 |
20120285379 | Manufacturing Apparatus and Manufacturing Method of Light-Emitting Device - Demands such as higher definition, higher opening aperture, and higher reliability on a full-color flat panel display have been increased. Such demands are big objects in advancing higher definition (increase in the number of pixels) of a light-emitting device and miniaturization of each display pixel pitch with reduction in size of the light-emitting device. An organic compound-containing layer is selectively deposited using a laser beam which passes through openings of a mask. An irradiated substrate provided with a light absorption layer and a material layer containing an organic compound and a deposition substrate provided with first electrodes are placed so as to face each other. The light absorption layer is heated by a laser beam which has passed through the openings of the mask, and the organic compound at a position overlapping with the heated region is vaporized, and accordingly the organic compound is selectively deposited over the deposition substrate. | 11-15-2012 |
20130010534 | Memory Element and Semiconductor Device and Method for Manufacturing the Same - It is an object to solve inhibition of miniaturization of an element and complexity of a manufacturing process thereof. It is another object to provide a nonvolatile memory device and a semiconductor device having the memory device, in which data can be additionally written at a time besides the manufacturing time and in which forgery caused by rewriting of data can be prevented. It is further another object to provide an inexpensive nonvolatile memory device and semiconductor device. A memory element is manufactured in which a first conductive layer, a second conductive layer that is beside the first conductive layer, and conductive fine particles of each surface which is covered with an organic film are deposited over an insulating film. The conductive fine particles are deposited between the first conductive layer and the second conductive layer. | 01-10-2013 |
20130074763 | Film Formation Apparatus, Film Formation Method, Manufacturing Apparatus, and Method for Manufacturing Light-Emitting Device - An object is to improve use efficiency of an evaporation material, to reduce manufacturing cost of a light-emitting device, and to reduce manufacturing time needed for a light-emitting device including a layer containing an organic compound. The pressure of a film formation chamber is reduced, a plate is rapidly heated by heat conduction or heat radiation by using a heat source, a material layer on a plate is vaporized in a short time to be evaporated to a substrate on which the material layer is to be formed (formation substrate), and then the material layer is formed on the formation substrate. The area of the plate that is heated rapidly is set to have the same size as the formation substrate and film formation on the formation substrate is completed by one application of heat. | 03-28-2013 |
20130112955 | Light-Emitting Module and Light-Emitting Device - Provided is a light-emitting module from which light with uniform brightness can be extracted. Further, provided is a beautiful light-emitting module in which Newton's rings are not observed. The light-emitting module includes a first substrate, a light-emitting element formed on one surface side of the first substrate, a second substrate, a conductive spacer maintaining the gap between the first substrate and the second substrate, and a space in which the light-emitting element is sealed between the first substrate and the second substrate. Further, the pressure in the space is lower than or equal to the atmospheric pressure. Furthermore, the conductive spacer is electrically connected to the second electrode in a position overlapping with a partition provided over the first substrate so as to reduce a voltage drop occurring in the second electrode. | 05-09-2013 |
20130120692 | LIQUID CRYSTAL ELEMENT AND METHOD FOR MANUFACTURING THE SAME - A liquid crystal element with a high contrast ratio and a method for manufacturing thereof is provided. A liquid crystal element includes a structure body containing a liquid crystal through which diffracted light of the same or substantially the same wavelength is emitted in a blue phase, i.e., a structure body containing a liquid crystal which shows platelet texture which is not varied. | 05-16-2013 |
20130178004 | Method for Manufacturing Light-Emitting Device - A full-color light-emitting device is achieved with plural kinds of light-emitting elements in each of which a stacked layer of a first material layer formed selectively with a droplet discharge apparatus and a second material layer formed by vapor-deposition method using the conductive-surface plate on which a layer containing an organic compound is formed is provided between a pair of electrodes. The first material layer is a layer in which an organic compound and a metal oxide which is an inorganic compound are mixed. By adjusting the thickness of the first material layer of each light-emitting element, which is different depending on an emission color, a blue light emission component, a green light emission component, or a red light emission component among a plurality of components for white light emission can be selectively emphasized and taken out by light interference phenomenon. | 07-11-2013 |
20130217201 | Memory Element and Semiconductor Device, and Method for Manufacturing the Same - It is an object to solve inhibition of miniaturization of an element and complexity of a manufacturing process thereof. It is another object to provide a nonvolatile memory device and a semiconductor device having the memory device, in which data can be additionally written at a time besides the manufacturing time and in which forgery caused by rewriting of data can be prevented. It is further another object to provide an inexpensive nonvolatile memory device and semiconductor device. A memory element is manufactured in which a first conductive layer, a second conductive layer that is beside the first conductive layer, and conductive fine particles of each surface which is covered with an organic film are deposited over an insulating film. The conductive fine particles are deposited between the first conductive layer and the second conductive layer. | 08-22-2013 |
20130240933 | Light-Emitting Element, Light-Emitting Device, Display Device, Electronic Device, and Lighting Device - An object is to provide a light-emitting element which uses a plurality of kinds of light-emitting dopants and has high emission efficiency. In one embodiment of the present invention, a light-emitting device, a light-emitting module, a light-emitting display device, an electronic device, and a lighting device each having reduced power consumption by using the above light-emitting element are provided. Attention is paid to Förster mechanism, which is one of mechanisms of intermolecular energy transfer. Efficient energy transfer by Förster mechanism is achieved by making an emission wavelength of a molecule which donates energy overlap with a local maximum peak on the longest wavelength side of a graph obtained by multiplying an absorption spectrum of a molecule which receives energy by a wavelength raised to the fourth power. | 09-19-2013 |
20130264549 | Display Device and Electronic Device - One object of the invention is to provide a display device that can display an image which causes a viewer less strain associated with viewing and gives a viewer a sense of great depth and an electronic device for enjoying the image. The present inventors have focused on a sense of depth obtained by monocular viewing and have conceived a display device in which pixels each include a light-emitting module capable of emitting light having a spectral line half-width of less than or equal to 60 nm in a response time of less than or equal to 100 μs and are provided at a resolution of higher than or equal to 80 ppi; the NTSC ratio is higher than or equal to 80%; and the contrast ratio is higher than or equal to 500. | 10-10-2013 |
20130265320 | Display Device and Electronic Device - A dark portion in an image seen by a viewer is expressed more precisely, whereby the image given a greater sense of depth is displayed. A display device in which pixels each include a light-emitting module capable of emitting light having a spectral line half-width of less than or equal to 60 nm in a response time of less than or equal to 100 μs and are provided at a resolution of higher than or equal to 80 ppi; the NTSC ratio is higher than or equal to 80%; and the contrast ratio is higher than or equal to 500, is provided with a circuit converting an image signal having a given grayscale into an image signal capable of representing an image on the low luminance side by high-level grayscale. | 10-10-2013 |
20130299791 | Display Device and Method for Manufacturing the Same - A structure of an EL display device which has an increased display area is provided. Further, a structure of an EL display device which has a high definition display is provided. An auxiliary electrode is formed over a first partition and side surfaces of the auxiliary electrode are covered with a second partition. A top surface of the auxiliary electrode is in contact with the conductive film which is one electrode of a light-emitting element and has a light-transmitting property, which enables a large-area display. Further, even the distance between the adjacent light-emitting elements is shortened, the auxiliary electrode can be provided between the adjacent light-emitting elements, which enables a high definition display. | 11-14-2013 |
20130300313 | DISPLAY DEVICE AND ELECTRONIC DEVICE - A display device has an NTSC ratio of higher than or equal to 80% and a contrast ratio of higher than or equal to 500 and includes a display portion. In the display portion, pixels are provided at a resolution of greater than or equal to 80 ppi, and the pixels each includes a light-emitting module capable of emitting light with a spectral line half-width of less than or equal to 60 nm in a response time of shorter than or equal to 100 μs. Further, transient characteristics of the emission intensity of the light-emitting module have a projecting portion higher than other portions in a portion rising in response to an input signal. | 11-14-2013 |
20130301124 | DISPLAY DEVICE AND ELECTRONIC DEVICE - A display device has an NTSC ratio of higher than or equal to 80% and a contrast ratio of higher than or equal to 500 and includes a display portion. In the display portion, a pixel is provided at a resolution of greater than or equal to 80 ppi, and the pixel includes a light-emitting module capable of emitting light with a spectral line half-width of less than or equal to 60 nm. Further, the light emission of the light-emitting module is raised to a desired luminance with a gradient of greater than or equal to 0 in response to an input signal within a response time of longer than or equal to 1 μs and shorter than 1 ms. | 11-14-2013 |
20130309933 | Light Emitting Element, Light Emitting Device, Manufacturing Method of Light Emitting Device, and Sheet-Like Sealing Material - A method to improve light extraction efficiency of a light emitting element such as an electroluminescent element is disclosed. Over a substrate, a first electrode, a light emitting layer, and a second electrode are sequentially stacked. The first electrode is a reflective electrode. The second electrode is an electrode which transmits visible light, and light emitted from the light emitting layer is extracted from the second electrode. In contact with a surface of the second electrode, many fine particles are provided. The fine particles have a refractive index which is equal to or higher than that of the second electrode. Light which passes through the second electrode is scattered and refracted by the fine particles. Accordingly, the amount of light which is totally reflected at an interface between the second electrode and a gas is reduced, and light extraction efficiency is improved. | 11-21-2013 |
20140002425 | METHOD OF DRIVING DISPLAY DEVICE, AND DISPLAY DEVICE | 01-02-2014 |
20140008668 | LIGHT-EMITTING DEVICE AND METHOD FOR FABRICATING THE SAME - To provide a method for fabricating a light-emitting device using flexible glass which is capable of withstanding a process temperature higher than or equal to 500° C., and the light-emitting device. A second substrate is attached to a support substrate using an adsorption layer. The second substrate is bonded to a backplane substrate provided with a transistor and a light-emitting element. The backplane substrate includes a separation layer and a buffer layer. A first substrate is separated from the backplane substrate by separation between the separation layer and the buffer layer. A flexible third substrate is bonded, using a second adhesive layer, to a surface of the buffer layer exposed by the separation. The support substrate is separated from the second substrate by separation between the second substrate and the adsorption layer. | 01-09-2014 |
20140014960 | Display Device and Method for Manufacturing Display Device - The thickness of a display device including a touch sensor is reduced. Alternatively, the thickness of a display device having high display quality is reduced. Alternatively, a method for manufacturing a display device with high mass productivity is provided. Alternatively, a display device having high reliability is provided. Stacked substrates in each of which a sufficiently thin substrate and a relatively thick support substrate are stacked are used as substrates. One surface of the thin substrate of one of the stacked substrates is provided with a layer including a touch sensor, and one surface of the thin substrate of the other stacked substrate is provided with a layer including a display element. After the two stacked substrates are attacked to each other so that the touch sensor and the display element face each other, the support substrate and the thin substrate of each stacked substrate are separated from each other. | 01-16-2014 |
20140015819 | Method for Driving Display Device and Display Device - Power consumption is sufficiently reduced even when a moving image is displayed at an increased driving frequency. A liquid crystal display device includes a signal generation circuit which outputs a polarity inversion signal that is generated in accordance with a count value obtained by counting cycles of a vertical synchronization signal and a source driver which switches a polarity of video signals input to a pixel in accordance with the polarity inversion signal. The polarity of the video signals is kept the same for m (m is greater than or equal to 2) or more frame periods by the polarity inversion signal. | 01-16-2014 |
20140015868 | Liquid Crystal Display Device and Method for Driving Liquid Crystal Display Device - A liquid crystal display device capable of consuming less power and a method for driving the liquid crystal display device are provided. The liquid crystal display device includes a pixel portion, a light supply portion sequentially supplying lights of a plurality of hues to the pixel portion, a counter counting the number of frame periods, a signal generator determining timing of inverting the polarity of an image signal every plural consecutive frame periods by using data on the number of frame periods counted by the counter, and a controller inverting the polarity of the image signal in accordance with the timing. A plurality of pixels are provided in the pixel portion. The image signal whose polarity is inverted every plural frame periods is input to the plurality of pixels. | 01-16-2014 |
20140016056 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR DRIVING THE SAME - A liquid crystal display device whose power consumption is reduced while image quality is prevented from being degraded is provided. Further, a method for driving a liquid crystal display device whose power consumption is reduced while image quality is prevented from being degraded is provided. The liquid crystal display device includes a transistor whose leakage current in an off state is reduced and a liquid crystal element. The capacitance of a pixel satisfies the formula (1) and the formula (2). | 01-16-2014 |
20140028645 | Liquid Crystal Display Device - A liquid crystal display device includes a plurality of pixels each including a transistor and a liquid crystal element, and a driver circuit that inputs at least a video signal and a reset signal to the plurality of pixels. The driver circuit makes the polarity of the video signal inverted every m frames (m is a natural number of 2 or more) and inputs the inverted video signal to the pixel, and inputs the reset signal to the pixel while not inputting the video signal. | 01-30-2014 |
20140043315 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR DRIVING THE SAME - Power consumed in a liquid crystal display device owing to inversion driving is reduced. A control circuit generates a polarity control signal whose potential level is switched at intervals of two or more frame periods. A data line driver circuit processes an image signal to generate a data signal. The data signal has a polarity corresponding to the potential level of the polarity control signal. The control circuit stops output of the image signal to the data line driver circuit when determining that there is no motion in data of the image signal. The control circuit controls a scan line driver circuit and the data line driver circuit, thereby performing, in response to a change in the potential level of the polarity control signal, rewriting of a display portion at least in one frame period during a period in which the output of the image signal is stopped. | 02-13-2014 |
20140045283 | Method for Manufacturing Light-Emitting Device - To provide a method for manufacturing a lightweight light-emitting device having a light-emitting region on a curved surface. The light-emitting region is provided on a curved surface in such a manner that a light-emitting element is formed on a flexible substrate supported in a plate-like shape and the flexible substrate deforms or returns. | 02-13-2014 |
20140054582 | DISPLAY DEVICE - An inorganic insulating film containing nitrogen, which has high adhesion to a sealant and an excellent effect of blocking hydrogen, water, and the like, is used as a layer in contact with the sealant. Further, the sealant is provided on the outer side than a side surface of an end portion of the organic insulating film provided over the transistor or the inorganic insulating film containing nitrogen is provided to cover an area from a region which is on the outer side than the edge of the organic insulating film to the side surface and the top surface of the end portion of the organic insulating film. Accordingly, the entry of hydrogen, water, and the like existing outside the display device into the oxide semiconductor included in the transistor can be suppressed, so that the display device can have high reliability. | 02-27-2014 |
20140063364 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - To provide a thinned display device with a touch sensor and to provide a highly reliable display device. A sensor layer including an electrode of a touch sensor is formed in advance over a support substrate which is different from a substrate which forms a display device so that the sensor layer can be separated, the sensor layer is separated from the support substrate, and the separated sensor layer is attached to one surface of a substrate the other surface of which is provided with a component such as a color filter, with a bonding layer interposed therebetween. | 03-06-2014 |
20140063432 | DISPLAY DEVICE AND ELECTRONIC DEVICE - A display device having high reliability is provided. A frame of a display device is narrowed. A display device such as a liquid crystal display device includes a first substrate, a second substrate overlapping with the first substrate, a liquid crystal layer between the first substrate and the second substrate, a first sealant surrounding the liquid crystal layer between the first substrate and the second substrate, and a second sealant surrounding the first sealant, closing a gap between the first substrate and the second substrate, and extending to at least a side surface of the second substrate. | 03-06-2014 |
20140063719 | DISPLAY DEVICE AND ELECTRONIC DEVICE - A display device includes a display panel mounted on a curved surface, and driver circuits including circuit elements which are mounted on a plurality of plane surfaces provided on the back of the curved surface in a stepwise shape along the curved surface. | 03-06-2014 |
20140065430 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device in which reliability of a display element is improved is provided. Alternatively, a display device in which reliability of a transistor is improved is provided. Alternatively, a display device in which an increase in an area of a periphery region is suppressed is provided. A display device includes a display region including a display element between a first flexible substrate and a second flexible substrate in which the display region is surrounded by a first continuous sealant, the first sealant is surrounded by a second continuous sealant, and the second sealant is provided between the first substrate and the second substrate and on at least one of a side surface of the first substrate and a side surface of the second substrate. | 03-06-2014 |
20140104507 | LIQUID CRYSTAL DISPLAY DEVICE AND TOUCH PANEL - A semiconductor layer of a transistor is formed of an oxide semiconductor film including a crystal part. An organic resin film covering the transistor is formed. By treatment such as drying treatment on the organic resin film in a cell process, variations in the threshold voltage of the oxide semiconductor transistor due to moisture can be suppressed. A common electrode faces a pixel electrode. The common electrode and the pixel electrode are formed over the organic resin film with an insulating film provided therebetween. Therefore, a capacitor can be provided to a liquid crystal element if a pixel does not include a wiring for a storage capacitor. An antistatic electrode is provided on the outer side of a color filter substrate and the capacitance between the antistatic electrode and the common electrode is utilized, so that the liquid crystal display device can be used as a touch panel. | 04-17-2014 |
20140104508 | LIQUID CRYSTAL DISPLAY DEVICE AND TOUCH PANEL - To provide a highly reliable liquid crystal display device including flexible substrates and a crystalline oxide semiconductor film for a backplane. The device includes a flexible first substrate, a flexible second substrate facing the first substrate, and a liquid crystal layer sealed between the substrates with a sealing member. The first substrate is provided with a layer including a transistor, an organic resin film over the transistor, a pixel electrode and a common electrode over the organic resin film, which partly overlap with each other with an insulating film provided therebetween, and an alignment film thereover. The transistor includes a crystalline oxide semiconductor film as a semiconductor layer where a channel is formed. Drying treatment is performed on the layer before the liquid crystal layer is sealed between the substrates, and steps from the drying treatment to sealing of the liquid crystal layer are performed without exposure to the air. | 04-17-2014 |
20140106503 | Method for Manufacturing Semiconductor Device and Manufacturing Apparatus of Semiconductor Device - A semiconductor device including an oxide semiconductor and an organic resin film is manufactured in the following manner. Heat treatment is performed on a first substrate provided with an organic resin film over a transistor including an oxide semiconductor in a reduced pressure atmosphere; handling of the first substrate is performed in an atmosphere containing moisture as little as possible in an inert gas (e.g., nitrogen) atmosphere with a dew point of lower than or equal to −60° C., preferably with a dew point of lower than or equal to −75° C. without exposing the first substrate after the heat treatment to the air; and then, the first substrate is bonded to a second substrate that serves as an opposite substrate. | 04-17-2014 |
20140111558 | DISPLAY DEVICE AND PROGRAM - Provided are a display device and the driving method of the display device with which eye fatigue of a user in long-term use of the display device is reduced. The display device includes a display unit, a detection unit, and a control unit. The detection unit detects a condition of a user's eye to obtain detected information and transmits the detected information to the control unit. The control unit extracts fatigue information on the user from the detected information and drives the display unit such that a luminance of light with a wavelength shorter than or equal to a predetermined wavelength among light emitted from the display unit is changed on the basis of the fatigue information. | 04-24-2014 |
20140132870 | LIQUID CRYSTAL DISPLAY DEVICE - A novel liquid crystal display device without a decrease in display quality. The liquid crystal display device includes a pixel for displaying a still image at a frame frequency of less than or equal to 1 Hz, and a liquid crystal layer in the pixel has a dielectric constant anisotropy of greater than or equal to 2 and less than or equal to 5. With the above structure, a change in voltage applied to a pixel can be kept within an acceptable range of a deviation in gray level for displaying the same still image. Thus, flickers due to a low refresh rate can be reduced, which leads to an increase in display quality. | 05-15-2014 |
20140159097 | Light-Emitting Element, Light-Emitting Device, Display Device, Electronic Device, and Lighting Device - An object is to provide a light-emitting element which uses a plurality of kinds of light-emitting dopants and has high emission efficiency. In one embodiment of the present invention, a light-emitting device, a light-emitting module, a light-emitting display device, an electronic device, and a lighting device each having reduced power consumption by using the above light-emitting element are provided. Attention is paid to Förster mechanism, which is one of mechanisms of intermolecular energy transfer. Efficient energy transfer by Förster mechanism is achieved by making an emission wavelength of a molecule which donates energy overlap with a local maximum peak on the longest wavelength side of a graph obtained by multiplying an absorption spectrum of a molecule which receives energy by a wavelength raised to the fourth power. | 06-12-2014 |
20140232971 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE - An active matrix liquid crystal display device including a counter substrate and an element substrate firmly attached with each other with a sealant, and a liquid crystal layer between the counter substrate and the element substrate is provided. The counter substrate is provided with at least a resin layer. An outer end portion of the resin layer is not exposed to the outside atmosphere. The resin layer and the sealant at least partly overlap with each other when seen from a cross section of the liquid crystal display device. A moisture impermeable layer is formed between the resin layer and the sealant. | 08-21-2014 |
20140284642 | Light-Emitting Module and Light-Emitting Device - A light-emitting module which efficiently extracts light emitted from a light-emitting element is provided. Alternatively, a light-emitting module having lower power consumption or improved reliability is provided. A light-emitting module includes a window material having a light-transmitting property, a light-emitting element that emits light transmitted from a light-transmitting layer to the window material, and an optical bonding layer between the window material and the light-transmitting layer. The optical bonding layer includes a thick part overlapping the light-emitting element and a thin part surrounding the thick part. The light-transmitting layer, the optical bonding layer, and the window material are provided in decreasing order of refractive index. | 09-25-2014 |
20140291648 | Light-Emitting Device - Provided is a light-emitting device with a high aperture ratio. The light-emitting device includes a first substrate; a first insulating film over the first substrate; a first partition over the first insulating film; a second insulating film which covers the first insulating film and the first partition and which has a concave surface; a first electrode which is over the second insulating film and which has an edge portion at a position overlapping with the first partition; a second partition which is over the first partition and which overlaps with the edge portion of the first electrode; a layer containing a light-emitting organic compound over the first electrode and the second partition; a second electrode over the layer containing a light-emitting organic compound; and a second substrate which is over the second electrode and which overlaps with the first substrate. | 10-02-2014 |
20140306241 | Light-Emitting Device - In a light-emitting device where reflective electrodes are regularly arranged, occurrence of interference fringes due to reflection of light reflected by the reflective electrode is inhibited. A surface of the reflective electrode of a light-emitting element is provided with a plurality of depressions. The shapes of the plurality of depressions are different from each other and do not have rotational symmetry. Irregularity of the surface shape of the reflective electrode is increased, which inhibits interference of light reflected by the reflective electrode. To form the plurality of depressions in the surface of the reflective electrode, for example, a surface of an insulating layer that is a base of the reflective electrode is made uneven. Reflecting the surface shape of the insulating layer, the reflective electrode has an uneven surface. | 10-16-2014 |
20140306260 | LIGHT-EMITTING DEVICE - A light-emitting device or a display device that is less likely to be broken is provided. Provided is a light-emitting device including an element layer and a substrate over the element layer. At least a part of the substrate is bent to the element layer side. The substrate has a light-transmitting property and a refractive index that is higher than that of the air. The element layer includes a light-emitting element that emits light toward the substrate side. Alternatively, provided is a light-emitting device including an element layer and a substrate covering a top surface and at least one side surface of the element layer. The substrate has a light-transmitting property and a refractive index that is higher than that of the air. The element layer includes a light-emitting element that emits light toward the substrate side. | 10-16-2014 |
20140319550 | DISPLAY DEVICE - Display of a display device is made less likely to appear divided when a plurality of display panels are used as one screen. Provided is a display device including two display units and a foldable housing that includes a joint portion between the two display units and supports the two display units. Each display unit includes a display panel including a display region and a non-display region and a support having a first surface overlapped with the display region and a second surface that meets the first surface and is overlapped with the non-display region. The two display units are placed in the housing in an opened state such that the first surfaces of the supports face the same direction and the second surfaces of the supports face each other. | 10-30-2014 |
20140321074 | DISPLAY DEVICE - A novel foldable and highly portable display device is provided. Further, a novel display device capable of displaying information or the like on a seamless large screen is provided. The display device includes a flexible display panel, a first housing provided with a storage portion that includes a space in which pulled one end of the display panel is stored, a folding mechanism connected to the first housing, and a second housing connected to the folding mechanism. The other end of the display panel is connected to the second housing so that the display panel can be drawn in accordance with an opening operation of the folding mechanism and stored in accordance with a closing operation of the folding mechanism. | 10-30-2014 |
20140332150 | Separation Method and Separation Apparatus - A method and an apparatus for manufacturing an object which involve a separation technique are provided. A first substrate provided with an object is attached to a second substrate and is then suction-fixed by using a suction chuck (also referred to as a suction stage or a vacuum chuck) including portions with different suction capabilities or by using its functional equivalent, and the second substrate is separated from the first substrate. Accordingly, the object is separated from the first substrate and transferred to the second substrate. An apparatus for achieving this is also provided. A substrate fixture surface of the suction chuck or its functional equivalent includes a plurality of portions provided with suction micro-holes and a portion provided with no holes. Owing to the plurality of portions provided with suction micro-holes, a plurality of objects can be transferred from the first substrate to the second substrate. | 11-13-2014 |
20140347555 | Light-Emitting Device and Camera - A small light-emitting device is provided. A light-emitting device which is less likely to produce a shadow is provided. A structure including a switching circuit for supplying a pulsed constant current and a light-emitting panel supplied with the pulsed constant current has been conceived. | 11-27-2014 |
20150016126 | LIGHT-EMITTING DEVICE - A light-emitting device includes a strip-like high flexibility region and a strip-like low flexibility region arranged alternately in a direction. The high flexibility region includes a flexible light-emitting panel. The low flexibility region includes the light-emitting panel and a support panel having a lower flexibility than that of the light-emitting panel and overlapping with the light-emitting panel. It is preferable that the light-emitting panel include an external connection electrode and that a length in the direction of a low flexibility region A that overlaps with the external connection electrode be longer than a length in the direction of a low flexibility region B that is closest to the region A. | 01-15-2015 |
20150029699 | Backlight and Display Device - A backlight of which power consumption can be reduced is provided. Further, by effective use of light emitted from the backlight, a display device with low power consumption is provided. The display device includes a light source device in which a plurality of light-emitting elements are arranged, a diffusion plate which is bonded to the light source device, a first polarizing plate which is bonded to the diffusion plate, a liquid crystal panel which is bonded to the first polarizing plate, and a second polarizing plate which is bonded to the liquid crystal panel. The light source device includes an organic resin having a projected spherical surface and a light-transmitting property covering each of the plurality of light-emitting elements and an organic resin having a planarized surface and a light-transmitting property covering the plurality of light-emitting elements and the organic resin having a projected spherical surface and a light-transmitting property. | 01-29-2015 |
20150034939 | Display Device and Method for Manufacturing the Same - A structure of an EL display device which has an increased display area is provided. Further, a structure of an EL display device which has a high definition display is provided. An auxiliary electrode is formed over a first partition and side surfaces of the auxiliary electrode are covered with a second partition. A top surface of the auxiliary electrode is in contact with the conductive film which is one electrode of a light-emitting element and has a light-transmitting property, which enables a large-area display. Further, even the distance between the adjacent light-emitting elements is shortened, the auxiliary electrode can be provided between the adjacent light-emitting elements, which enables a high definition display. | 02-05-2015 |
20150035777 | DISPLAY DEVICE - A display device with low power consumption is provided. Furthermore, a display device in which an image is displayed in a region that can be used in a folded state is provided. The conceived display device includes a display portion that can be opened and folded, a sensing portion that senses a folded state of the display portion, and an image processing portion that generates, when the display portion is in the folded state, an image in which a black image is displayed in part of the display portion. | 02-05-2015 |
20150055118 | LIGHT-EMITTING DEVICE AND CAMERA - A light-emitting device that can switch between two modes: single light emission and intermittent light emission is provided. The light-emitting device includes a driver circuit that can supply a control pulse signal, a constant current power supply that is supplied with the control pulse signal and can supply a constant current pulse, and a light-emitting panel that is supplied with the constant current pulse. The driver circuit includes a start switch circuit that can supply a start signal, a pulse-interval modulation circuit that can supply a pulse-interval modulation signal, and a microcomputer that is supplied with the start signal and the pulse-interval modulation signal and can supply the control pulse signal. | 02-26-2015 |
20150059986 | DEVICE FOR FORMING SEPARATION STARTING POINT, STACK MANUFACTURING APPARATUS, AND METHOD FOR FORMING SEPARATION STARTING POINT - A device for forming a separation starting point that allows separation of a surface layer of a processed member to form a remaining portion is provided. A manufacturing device of a stack including a support and a remaining portion of a processed member whose surface layer is separated is provided. The device for forming the separation starting point includes a stage that supports the processed member, a cutter that faces the stage, a head portion that supports the cutter, an arm portion that supports the head portion, and a moving mechanism that relatively moves the cutter to the stage. | 03-05-2015 |
20150059987 | PROCESSING APPARATUS AND PROCESSING METHOD OF STACK - A processing apparatus of a stack is provided. The stack includes two substrates attached to each other with a gap provided between their end portions. The processing apparatus includes a fixing mechanism that fixes part of the stack, a plurality of adsorption jigs that fix an outer peripheral edge of one of the substrates of the stack, and a wedge-shaped jig that is inserted into a corner of the stack. The plurality of adsorption jigs include a mechanism that allows the adsorption jigs to move separately in a vertical direction and a horizontal direction. The processing apparatus further includes a sensor sensing a position of the gap between the end portion in the stack. A tip of the wedge-shaped jig moves along a chamfer formed on an end surface of the stack. The wedge-shaped jig is inserted into the gap between the end portions in the stack. | 03-05-2015 |
20150060933 | SUPPORT SUPPLY APPARATUS AND METHOD FOR SUPPLYING SUPPORT - An apparatus for supplying a support having a clean surface is provided. Alternatively, an apparatus for manufacturing a stack including a support and a remaining portion of a processed member whose one surface layer is separated is provided. A positioning portion, a slit formation portion, and a peeling portion are included. The positioning portion is provided with a first transfer mechanism of a stacked film including a support and a separator and a table for fixing the stacked film. The slit formation portion is provided with a cutter that can form a slit which does not pass through the separator. The peeling portion is provided with a second transfer mechanism and a peeling mechanism extending the separator and then peeling the separator. In addition, a pretreatment portion activating a support surface is included. | 03-05-2015 |
20150062525 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A novel foldable display device or an electronic device using the same, a portable information processor or a portable communication information device, is provided. A foldable display device of which a display panel can be folded n times (n≧1, and n is a natural number) at a curvature radius of greater than or equal to 1 mm, and less than or equal to 100 mm is obtained. The display device can be miniaturized by being foldable. In addition, in the state where the flexible display panel is opened, display which is unbroken and continuous over a plurality of housings is possible. The plurality of housings can store a circuit, an electronic component, a battery and the like inside as appropriate, and the thickness of each housing can be small. | 03-05-2015 |
20150062927 | LIGHT-EMITTING DEVICE - A light-emitting device can be folded in such a manner that a flexible light-emitting panel is supported by a plurality of housings which are provided spaced from each other and the light-emitting panel is bent so that surfaces of adjacent housings are in contact with each other. Furthermore, in the light-emitting device, in which part or the whole of the housings have magnetism, the two adjacent housings can be fixed to each other by a magnetic force when the light-emitting device is used in a folded state. | 03-05-2015 |
20150068683 | BONDING APPARATUS AND STACK BODY MANUFACTURING APPARATUS - A yield in the step of bonding two members together is improved. A bonding apparatus includes a stage capable of supporting a first member having a sheet-like shape, a fixing mechanism capable of fixing one end portion of a second member having a sheet-like shape so that the second member overlaps with the first member, and a pressurizing mechanism capable of moving from a side of the one end portion of the second member to a side of the other end portion and spreading a bonding layer under pressure between the first member and the second member. The first member and the second member are bonded to each other. | 03-12-2015 |
20150069374 | Light-Emitting Module and Light-Emitting Device - Provided is a light-emitting module from which light with uniform brightness can be extracted. Further, provided is a beautiful light-emitting module in which Newton's rings are not observed. The light-emitting module includes a first substrate, a light-emitting element formed on one surface side of the first substrate, a second substrate, a conductive spacer maintaining the gap between the first substrate and the second substrate, and a space in which the light-emitting element is sealed between the first substrate and the second substrate. Further, the pressure in the space is lower than or equal to the atmospheric pressure. Furthermore, the conductive spacer is electrically connected to the second electrode in a position overlapping with a partition provided over the first substrate so as to reduce a voltage drop occurring in the second electrode. | 03-12-2015 |
20150073212 | Endoscope Apparatus - An endoscope apparatus with which the inside of an inspection object can be observed in detail is provided. In addition, the structure of the endoscope apparatus is simplified. The endoscope apparatus includes a tubular insertion portion having an end portion, and the end portion is provided with a light-emitting device and an optical device. The optical device is provided on an end surface in the end portion, and the light-emitting device is provided along a side surface of the end portion. | 03-12-2015 |
20150075720 | MANUFACTURING APPARATUS OF STACK - The stack manufacturing apparatus includes a first supporting body supply unit which is configured to intermittently unroll a roll sheet-shaped first supporting body and includes one of a pair of tension applying devices capable of applying tension to the unrolled first supporting body; a first adhesive layer formation unit configured to form a first adhesive layer over the first supporting body while the first supporting body supply unit suspends unrolling of the first supporting body; a first bonding unit configured to bond the first supporting body and a sheet-shaped member using the first adhesive layer; and a control unit which is configured to hold an end portion of the first supporting body and includes the other of the pair of tension applying devices. | 03-19-2015 |
20150076475 | Light-Emitting Device, Information Processing Device, and Imaging Device - Provided is a light-emitting device and an information processing device which include a light-emitting element mounted on a housing and an optical component detachable from the housing. The optical component is capable of condensing light emitted from the light-emitting element. This structure allows a user to select the emission of diffused light and condensed light by attaching or detaching the optical component. | 03-19-2015 |