Abstract: A liquid crystal display device includes: LEDs; a liquid crystal panel; a flexible board connected to the liquid crystal panel; a driver mounted on the flexible board; a frame that has a frame section that has a frame-like shape and that holds the liquid crystal panel, and a side wall that extends from the edge of the frame section to the side opposite of a display surface side; and a source driver holder that holds the flexible board to the frame, and that has a first holding section that is disposed along the frame section and of which a portion is attached to the frame section and a second holding section that extends from the edge of the first holding section to the side opposite of the side of the display surface side.

Abstract: Provided is a terminal that performs communication with a base station, in which, in a case where a physical downlink control channel is monitored in a first enhanced physical downlink control channel-physical resource block set, a demodulation reference signal is used that is based on a scrambling sequence which is initialized by a prescribed parameter, and in which, in a case where the physical downlink control channel is monitored in a second enhanced physical downlink control channel-physical resource block set, a demodulation reference signal is used that is based on a scrambling sequence which is initialized by a parameter that is set individually for each terminal.

Abstract: A lens barrel (12) of a camera module (1) is provided with an electrode terminal which is connected to a focus adjusting device (11) and to an electrode terminal (32) of a holder (13). The electrode terminal (32) of the holder (13) faces the electrode terminal of the lens barrel (12) which electrode terminal changes in position in accordance with movement of the lens barrel (12) which movement is caused with the use of a lens barrel moving mechanism.

Abstract: The present invention provides a liquid crystal alignment agent capable of preventing a decrease in voltage holding ratio (VHR), a liquid crystal display containing such a liquid crystal alignment agent, and a method for manufacturing such a liquid crystal display. Aspects of the present invention include a liquid crystal alignment agent containing at least one polymer selected from a polyamic acid and an imide polymer thereof and at least one difunctional monomer having an anthracene or phenanthrene structure, a liquid crystal display including an alignment film formed on at least one of an active substrate and a counter substrate using the above liquid crystal alignment agent, and a method for manufacturing a liquid crystal display including the steps of forming an active substrate and forming a counter substrate, at least one of which includes forming an alignment film on the active substrate or the counter substrate using the above liquid crystal alignment agent.

Abstract: A display module of the present invention includes first through third source drivers (6-1 through 6-3) (i) which are provided for respective regions into which a display region is divided and (ii) each of which includes an analysis circuit and receives a video signal for a corresponding one of the regions but receives no video signal for the regions other than the corresponding one of the regions. The third source driver (6-3) supplies, to the first and second source drivers (6-1 and 6-2), gamma (?) setting information (19) for generating a source signal to be outputted from each of the first and second source drivers (6-1 and 6-2). The first and second source drivers (6-1 and 6-2) output respective analysis results (5a and 5b) from the respective analysis circuits. The third source driver (6-3) outputs a PWM signal (14) for controlling the light irradiation section.

Abstract: In a wireless communication system, a terminal device and a base station device communicate using frequency bands selected from among a plurality of frequency bands. The base station device selects a frequency band used for a downlink and a frequency band used for an uplink as frequency bands used for communication with the terminal device from among the plurality of frequency bands, selects an association between the frequency band used for the downlink and the frequency band used for the uplink among the selected frequency bands, and transmits information indicating the selected frequency bands and information indicating the association containing identification information of the association using a signal specific to the terminal device.

Abstract: The instant invention relates to pharmaceutical compositions containing c-Met kinase inhibitors. Also disclosed are processes for making said pharmaceutical compositions.

Abstract: A multi-display device includes an image-display-light emitting backlight which includes a light emitting element arranged in each of a plurality of areas to emit light to form planar light; and a light emission controller configured or programmed to generate emission luminance data, for each of the areas, to drive the light emitting element. The light emission controller includes a luminance correcting controller configured or programmed to correct the emission luminance data on the basis of installation directions of image display devices and connection information that is information on connection positions thereof.

Abstract: A semiconductor device (100A) has an oxide semiconductor layer (11). The oxide semiconductor layer (11) has a channel region (11c), and a source region (11s) and drain region (11d) positioned on respective sides of the channel region (11c). The source region (11s) has a low-resistance source region (11sx) that has a lower resistance than the channel region (11c), and the drain region (11d) has a low-resistance drain region (11dx) that has a lower resistance than the channel region (11c). The carrier concentrations of the low-resistance source region (11sx) and the low-resistance drain region (11dx) become progressively lower from a connecting portion between a source electrode (17) and the low-resistance source region (11sx) and a connecting portion between a drain electrode (18) and the low-resistance drain region (11dx) towards the channel region (11c).

Abstract: A light receiving element includes a p-type semiconductor layer, an n-type semiconductor layer, and a first and a second superlattice semiconductor layers, and the first and the second superlattice semiconductor layers each have a superlattice structure in which a barrier layer and a quantum dot layer are alternately and repeatedly stacked. A band structure of the superlattice structure of the first superlattice semiconductor layer is a type I structure, and that of the second superlattice semiconductor layer is a type II structure. The superlattice structures of the first and the second superlattice semiconductor layers each form a superlattice miniband, and a conduction band first superlattice miniband of the superlattice structure of the second superlattice semiconductor layer is lower in lower and energy than a conduction band first superlattice miniband of the superlattice structure of the first superlattice semiconductor layer.

Abstract: Included are a first glass substrate (20) and a second glass substrate (30) facing each other, the peripheries of the substrates (20, 30) being superposed with each other, a display medium layer (25) between the substrates (20, 30) in a display area (D), a sealing member (26) for bonding the substrates (20, 30) together in a frame region (F) between the substrates (20, 30) and enclosing a display medium layer (25) between the substrates (20, 30), a flexible resin substrate layer (7) extending outward from between the frame region (F) of the first substrate (20) and the sealing member (26), and driving electronic components (41, 42) mounted on the resin substrate layer (7).

Abstract: A wiring fault detection method according to an embodiment of the present invention is capable of determining that, in a case where a temperature rise value of a faulty portion exceeds a temperature rise threshold within a preset threshold of the number of frames, a corresponding pixel has a fault. A wiring fault detection apparatus according to the present invention includes a temperature measurement imaging unit that measure a temperature of a semiconductor substrate and forms an image thereof.

Abstract: A vapor deposition device includes a vapor deposition source (60) having a plurality of vapor deposition source openings (61) that discharge vapor deposition particles (91), a limiting unit (80) having a plurality of limiting openings (82), and a vapor deposition mask (70) in which a plurality of mask openings (71) are formed only in a plurality of vapor deposition regions (72) where the vapor deposition particles that have passed through a plurality of limiting openings reach. The plurality of vapor deposition regions are arranged along a second direction that is orthogonal to the normal line direction of the substrate (10) and the movement direction of the substrate, with non-vapor deposition regions (73) where the vapor deposition particles do not reach being sandwiched therebetween.

Abstract: A light-emitting apparatus package of the present invention includes (i) an electrically insulated ceramic substrate, (ii) a first concave section formed in the direction of thickness of the ceramic substrate so as to form a light exit aperture in a surface of the ceramic substrate, (iii) a second concave section formed within the first concave section in the further direction of thickness of the ceramic substrate so that one or more light-emitting devices are provided therein, (iv) a wiring pattern for supplying electricity, which is provided in the first concave section, and (v) a metalized layer having light-reflectivity, which is (a) provided between the light-emitting device and the surface of the second concave section of the substrate, and (b) electrically insulated from the wiring pattern.

Abstract: The present invention allows light leaked to outside of a light guide plate (50) from a surface area L to pass through a diffusion sheet (70) by covering both the bottom of an optical sheet (75) and the surface area L of the light guide plate (50) located between an LED FPC (25) and the optical sheet (75) with the diffusion sheet (70). This irradiates a liquid crystal display panel (30) with light after the light leaked to outside from the surface area L is diffused by the diffusion sheet (70), so unevenness in the brightness of backlight emitted from a backlight device (240) can be reduced. Thus, the brightness of images displayed on a screen can be made uniform regardless of distance to an LED (60).

Abstract: The subject invention relates to novel P2X3 receptor antagonists that play a critical role in treating disease states associated with pain, in particular peripheral pain, inflammatory pain, or tissue injury pain that can be treated using a P2X3 receptor subunit modulator.

Abstract: Interleukin-10 (IL-10) conjugated via a linker to one or more polyethylene glycol (PEG) molecules at a single amino acid residue of the IL-10, and a method for preparing the same, are provided. The method produces a stable mono-pegylated IL-10, which retains IL-10 activity, where pegylation is selective for the N-terminus on one subunit of IL-10 with little or no formation of monomeric IL-10. The method also provides a substantially homogenous population of mono-PEG-IL-10.

Abstract: The present invention includes compounds useful as intermediates in the preparation of macrolactams, methods for preparing the intermediates, and methods for preparing macrolactams from the intermediates. One use of the methods and intermediates described herein is in the production of macrolactam compounds able to inhibit HCV NS3 protease activity. HCV NS3 inhibitory compounds have therapeutic and research applications.

Abstract: A wireless communication system includes a first base station device, a second base station device, and a mobile station device configured to communicate with the first and second base station devices. The first base station device includes a request notifying unit configured to notify the mobile station device of a request for carrier aggregation. The mobile station device includes: a cell search unit configured to, upon receiving the request, perform cell search and thereby search the second base station device available for carrier aggregation; and a base station notifying unit configured to notify the first base station device of information indicating the second base station device detected by the cell search unit performing the cell search.

Abstract: A display device is provided with: a display panel; a housing which has a first case member that is provided with a supporting portion for supporting the display panel and is formed of a metal material and a second case member that is provided with a facing part facing the supporting portion and is formed of a metal material; a position fixing protrusion that is formed on the facing part so as to protrude toward the supporting part and so as to position the display panel with respect to the case; and an opening which is formed in the supporting portion and through which the position fixing protrusion is inserted.