Abstract: An organic EL display unit is an organic EL display unit which includes a first substrate; an organic EL element which is located on the first substrate, which includes a first electrode, an organic layer containing at least an organic light emitting layer, and a second electrode, and which is configured to emit excitation light; a second substrate; and an optical conversion layer which is located on the second substrate and which is configured to emit light to the outside through a display surface, the light being obtained by conversion of a color tone of the excitation light, the display surface is flat and rectangular, and the second substrate is divided into a plurality of sections along a long side direction of the display surface.

Abstract: Provided is a touch panel having a panel substrate that has overall flexibility and that has a panel part, whereupon electrode pads are disposed, and a protrusion part, whereupon terminals are disposed, formed integrally with each other, obtaining a configuration whereby the connection section between the panel part and the protrusion part is not easily damaged. A touch panel (2) is provided with: a substrate (11) that has overall flexibility and that has a touch panel substrate part (11a) and a connection part (11b) formed integrally with each other; a plurality of electrode pads (21a, 22a) that are disposed upon the touch panel substrate part (11a); and lead-out wiring lines (24) that externally output, from the connection part (11b), signals generated by the electrode pads (21a, 22a). To improve strength, a protective layer (14) is disposed on the operation screen side of the connection section between the touch panel substrate part (11a) and the connection part (11b).

Abstract: A film formation substrate (200) is arranged such that (i) a base end, in a y-axis direction, of a film-thickness-gradually-diminishing part (23sR) of a first film (23R) overlaps a first film formation region (24R), and (ii) a film-thickness-gradually-diminishing part (23sB) of a second film (23B) is disposed on an outside, in the y-axis direction, of a second film formation region (24B) and overlaps the film-thickness-gradually-diminishing part (23sR) of the first film (23R) so as to compensate for a gradually diminished thickness of the film-thickness-gradually-diminishing part (23sR).

Abstract: A motion vector detecting unit 12 detects a motion vector V1 of an input image X(n), and an interpolating vector generating unit 13 generates an interpolating vector V2 in accordance with the motion vector V1. In a two-dimensional display mode, the input image X(n) is output as an original image, and an image generating unit 16 generates an interpolated image X(n+0.5) in accordance with the interpolating vector V2. In a three-dimensional display mode, the input image X(n) is output as a left-eye image L(n), and the image generating unit 16 generates a right-eye image R(n+0.5) in accordance with a sum of the interpolating vector V2 and a parallax vector V3 input from the outside. The image generating unit is shared in a frame rate conversion process and a three-dimensional conversion process, and the right-eye image is generated at the same location as the interpolated image in time axis. In this way, image quality is increased when a moving image is displayed with a small amount of circuit.

Abstract: A backlight device (lighting device) (12) according to the present invention includes a chassis (14) having an opened section (14b), optical members (15) disposed to cover the opened section (14b) in the chassis (14), LEDs (light source) (17) disposed outside of the chassis (14), and lens members (light guide members) (20) disposed in such a structure as to penetrate the chassis (14), the lens members guiding the light from the LEDs (17) into the chassis (14). An LED housing chassis (light source housing member) (19) that stores therein the LEDs (17) is attached to the chassis (14).

Abstract: In a case where specific data (enable write data) is written in an enable/disenable register (11) of a register group (10) included in a slave device (3) via serial data communication, it is possible to write data in at least part of the register group (10) other than the enable/disenable register (11) of the register group (10), in response to an enabling signal supplied from a function block (12).

Abstract: The present invention provides a display panel with a flat plate in which a member partially provided with a light blocking part is disposed in front of a display panel, and a curable resin therebetween is sufficiently cured even in an area behind the light blocking part. The display panel with a flat plate of the present invention includes: a flat plate provided with a light passing part and a light blocking part; a display panel; and an adhesive layer between the flat plate and the display panel, the adhesive layer being a cured resin layer obtainable by polymerization involving at least one reactive component selected from the group consisting of a (meth)acrylate oligomer, a bicyclic ring-containing (meth)acrylate monomer, and a hydroxyl group-containing (meth)acrylate monomer, a peroxide component, and a primer as reaction materials.

Abstract: In a handover control method of a mobile station device, it is determined that whether or not the mobile station device is within the CSG cell. In addition, it is determined that whether or not the CSG cell is an HPLMN, in case that it is determined that the mobile station device is within the CSG cell. In addition, a neighboring cell measurement is executed and handover is performed, in case that it is determined that the CSG cell is the HPLMN, and in case that the mobile station device is set to measure the neighboring cell. In addition, the neighboring cell is not measured, in case that it is determined that the CSG cell is not the HPLMN, and even in case that the mobile station device is set to measure the neighboring cell.

Abstract: A film formation substrate (200) is a film formation substrate having a plurality of vapor deposition regions (24R and 24G) (i) which are arranged along a predetermined direction and (ii) in which respective vapor-deposited films (23R and 23G) are provided. The vapor-deposited film (24R) has inclined side surfaces 23s which are inclined with respect to a direction normal to the film formation substrate (200). A width, in the predetermined direction, of the vapor-deposited film (23R) is larger than the sum of (i) a width, in the predetermined direction, of the vapor deposition region (24R) and (ii) a width, in the predetermined direction, of a region (29) between the vapor deposition region (24R) and the vapor deposition region (24G).

Abstract: A washing treatment apparatus and a washing treatment method are provided. A washing treatment apparatus washes in a washing container an object to be washed including a tubular portion, and a main body portion to which one end portion of the tubular portion is connected. The washing treatment apparatus includes a washing solution supply unit which pressurizes and supplies a washing solution to the washing container, a penetration hole portion which is provided on the washing container and includes a penetration hole into which the tubular portion can be inserted, an outlet hole portion which is provided on the washing container and includes an outlet hole through which the washing solution supplied into the washing container flows out to adjust pressure of the washing solution in the washing container to predetermined pressure.

Abstract: A light guide plate (2) in the planar illumination device (1) in one example of the present invention has: first connecting surfaces (21) that respectively connect adjacent light-output surfaces; and second connecting surfaces (11) that respectively connect adjacent opposite surfaces.

Abstract: This display device has a demultiplexer (501) formed on a liquid crystal panel, the demultiplexer including three switching elements SW1 to SW3 for time-division drive, which are connected to video signal lines SL1 to SL3. Here, the number of switching control signal lines for transmitting switching control signals GS1 to GS6 to be provided to switching elements coupled to the video signal lines is six, which is twice the number of time divisions, and switching control signals (e.g., GS1 and GS4) with the same timing are individually transmitted by two switching control signal lines, so that the number of switching elements to be coupled to the switching control signal lines as loads can be halved, resulting in reduced waveform rounding of the control signals.

Abstract: In a display device (10) that includes an upper substrate (first substrate) (2), a lower substrate (second substrate) (3), and a polar liquid (16) and an oil (insulating fluid) (17) that are movable toward an effective display area (P1) or a non-effective display area (P2) in a display space (S) between the upper substrate (2) and the lower substrate (3), the contact angle ?0 of the polar liquid (16) in the oil (17) is 150 degrees or more and 180 degrees or less to a water-repellent film (surface film) (15).

Abstract: A luminescent material includes transition metal complex comprising a ligand in which an electron density of a p orbital of a highest occupied molecular orbital level is higher than 0.239 and lower than 0.711 when the electron density is calculated according to quantum chemical calculation (Gaussian09/DFT/RB3LYP/6-31G), the p orbital being in the outermost shell of an element coordinated to the metal.

Abstract: A luminescent material includes a transition metal complex which comprises any one of Ir, Os, and Pt as a central metal; and at least one of a carbene ligand and a silylene ligand. The carbene ligand includes a boron atom in a skeleton thereof. The carbene ligand is neutral or monoanionic. The carbene ligand is monodentate, bidentate, or tridentate. The silylene ligand includes a boron atom in a skeleton thereof. The silylene ligand is neutral or monoanionic. The silylene ligand is monodentate, bidentate, or tridentate.

Abstract: A television set (100) includes a determination section (330) and a notification section (340). The determination section (330) determines, as program information to be notified to a user, a plurality of pieces of program information each of which matches a search condition set beforehand, from among a plurality of pieces of program information. The notification section (340) notifies the user of the television set (100) of the plurality of pieces of program information thus determined by the determination section (330).

Abstract: A light emitting device includes an excitation light source element that emits excitation light; a substrate that faces the excitation light source element; a fluorescent layer located on the substrate, the fluorescent layer being excited by the excitation light to emit fluorescence; an optical reflection body disposed on a side surface of the fluorescent layer, the side surface extending in a direction parallel to a stacking direction of the substrate and the fluorescent layer; and a low-refractive-index material layer disposed between the fluorescent layer and the substrate, the low-refractive-index material layer having a refractive index lower than that of the substrate.

Abstract: Provided is an illumination appliance (1) that illuminates in a direction opposite a direction towards a mounting face (C) thereof, with radiation light of light sources (5) installed on a main-body housing (2) mounted on the mounting face (C), wherein the illumination appliance (1) is equipped with a light-guiding plate (11) that surrounds the outer circumference of the main-body housing (2) and protrudes out in the diameter direction thereof, has a light incident face (11a), and guides light in the diameter direction. Light radiated from the light sources (5) enters the light-guiding plate (11) from the light incident face (11a) thereof, and light radiated from the light-guiding plate (11) illuminates the mounting face (C).

Abstract: A User Equipment (UE) for sending feedback information is described. The UE includes a processor and instructions stored in memory that is in electronic communication with the processor. The UE determines a primary cell (PCell) configuration. The UE also determines a secondary cell (SCell) configuration. The SCell configuration is different from the PCell configuration. The UE further determines a feedback parameter Mc based on the PCell configuration and the SCell configuration. Mc indicates a number of subframes that require Physical Downlink Shared Channel (PDSCH) Hybrid Automatic Repeat Request Acknowledgement/Negative Acknowledgement (HARQ-ACK) association for a cell c in a given uplink subframe. The UE also determines SCell HARQ-ACK information. The UE additionally sends the SCell HARQ-ACK information based on the feedback parameter.

Abstract: In a display region of an active matrix substrate, an interlayer insulating film made of a photosensitive organic insulating film, an insulating film different from the interlayer insulating film, and a plurality of pixel electrodes formed on a surface of the interlayer insulating film are provided. In a non-display region of the active matrix substrate, a lead line extended from the display region is formed. In a formation region for a sealing member, the interlayer insulating film is removed, the insulating film is provided to cover part of the lead line, and the sealing member is formed directly on a surface of the insulating film.