Abstract: An exhaust apparatus using a gas curtain instead of a mechanical opening/closing structure is provided. The exhaust apparatus includes: a first region; a second region connected to the first region; a third region connected to the first region; and a first gas line connected to the second region, wherein when gas is supplied to the first gas line, the first region does not communicate with the second region but communicates with the third region.

Abstract: Provided is a semiconductor manufacturing system having an increased process window for stably and flexibly performing a deposition process. The semiconductor manufacturing system includes a gas supply device functioning as a first electrode and including a plurality of injection holes, a reactor wall connected to the gas supply device, and a substrate accommodating device functioning as a second electrode, the substrate accommodating device and the reactor wall being configured to be sealed together via face sealing. A reaction gas supplied from the gas supply device toward the substrate accommodating device is discharged to the outside through a gas discharge path between the gas supply device and the reactor wall. The first electrode includes a protruded electrode adjacent to an edge of the gas supply device.

Abstract: An organic light-emitting display device includes a display unit having a plurality of pixel units. The display device also includes a timing controller for calculating a black bias pixel ratio (BBPR) of the display unit based on image signals provided by an external source and for generating a control signal based on the BBPR. The BBPR is the ratio of a number of pixel units in a black state to a total number of pixel units. A power supply unit provides a driving voltage to the display unit based on the control signal from the timing controller, wherein the power supply unit provides a first driving voltage to the display unit when the BBPR is less than a reference value and provides a second driving voltage, which is higher than the first driving voltage, otherwise.

Abstract: Provided is a method of depositing a thin film on a pattern structure of a semiconductor substrate, the method including (a) supplying a source gas; (b) supplying a reactive gas; and (c) supplying plasma, wherein the steps (a), (b), and (c) are sequentially repeated on the semiconductor substrate within a reaction space until a desired thickness is obtained, and a frequency of the plasma is a high frequency of 60 MHz or greater.

Abstract: The present invention relates to a tandem organic light-emitting element, more particularly to a tandem organic light-emitting element which may decrease a driving voltage in a driving region of a charge generation layer by sequentially laminating an electronics layer, which is doped with a metal dopant, and an electronics layer, which is doped with an organic dopant, on one side of the charge generation layer, thereby having increased power efficiency and life span.

Abstract: Provided is a substrate-processing device capable of preventing a top lid from sagging downward by the own weight of the substrate-processing device and/or a vacuum suction force generated by a vacuum pump and/or thermal shock at high temperature process, in a chamber including a plurality of reactors. Also, provided is a rotating shaft for transferring a substrate between the plurality of reactors.

Abstract: A deposition apparatus includes: a substrate support having a main surface on which a substrate is placed; a body disposed on the main surface and including a hollow portion having an exposed upper portion; a plasma electrode unit provided at a inner circumferential surface of the body to separate the hollow portion into an upper space and a lower space; and a gas supply unit supplying process gas to the plasma electrode unit, wherein a gas exhaust channel extending from the lower space to an exhaust outlet provided at a top of the body is formed in the body.

Abstract: A display device array substrate comprising first and second substrates that comprise a display area and a dummy area around the periphery of the display area, and that face each other; a color filter disposed on the first substrate; and a liquid crystal layer disposed on the color filter. The color filter comprises at least one or more first color filters and adjacent second color filters, and the first color filters and the second color filters overlap each other in the display area and do not overlap each other in the dummy area.

Abstract: An apparatus for recognizing a driving lane of a vehicle includes a first lane attribute information extractor configured to extract front lane attribute information from a front image of the vehicle. A second lane attribute information extractor is configured to extract current position lane attribute information depending on a current position and a progress direction of the vehicle. A driving lane determiner is configured to determine a current driving lane of the vehicle depending on the front lane attribute information and the current position lane attribute information.

Abstract: Provided is a deposition apparatus including a connection channel connecting a gas inflow channel and a gas outflow channel so as to increase cleaning efficiency by providing a portion of cleaning gas to the dead space of the gas inflow channel and controlling a flow of a cleaning gas.

Abstract: A substrate processing apparatus having improved uniformity and speed of reaction is provided. A substrate processing apparatus includes a body portion comprising a discharge path, a gas supply unit connected to the body portion, a first partition extending from the body portion, a second partition extending from the body portion and arranged between the gas supply unit and the first partition, and a substrate support unit configured to have surface-sealing with the first partition, wherein a first region between the first partition and the second partition and a second region between the gas supply unit and the second partition are connected to the discharge path.

Abstract: The present invention relates to a tandem type organic light emitting device and, more specifically, to a tandem type organic light emitting device which exhibits low operation voltage, high power efficiency and an excellent color rendering index (CRI). To this end, the present invention provides a tandem type organic light emitting device, the device comprising: a base substrate; a first electrode formed on the base substrate; a second electrode formed to oppose the first electrode; and first to third organic light emitting layers formed in sequence from the first electrode, between the first electrode and the second electrode. The first organic light emitting layer comprises a first light emitting layer for emitting blue light, the second organic light emitting layer comprises a second light emitting layer for emitting yellow light, and the third organic light emitting layer comprises a third light emitting layer for emitting red light.

Abstract: A substrate processing apparatus includes a partition comprising at least one through-hole, a conduit arranged in the partition through the through-hole, a gas supply unit connected to the conduit, and a low dielectric material provided between a side wall of the through-hole and the conduit.

Abstract: A liquid crystal display device includes: a first substrate on which a display area and a non-display area surrounding the display area are defined; a plurality of gate lines disposed in the display area and extending in a first direction; a plurality of data lines disposed in the display area and extending in a second direction, the data lines intersecting the gate lines; and a black matrix extending in the first line to cover the gate lines or in the second direction to cover the data lines, where a width of the black matrix at a location adjacent to a boundary line between the display area and the non-display area is larger than a width of the black matrix at a location adjacent to a center of the display area.

Abstract: A substrate processing apparatus having an improved film processing uniformity is provided. The substrate processing apparatus includes a partition configured to provide a gas supply channel and a gas supply unit connected to the gas supply channel. A gas flow channel communicating with the gas supply channel is formed in the gas supply unit. A first through-hole is formed to penetrate through at least a part of the partition. A second through-hole is formed to penetrate through at least a part of the gas supply unit. The first through-hole communicates with the gas flow channel via the second through-hole. The second through-hole is arranged between a center and an edge of the gas flow channel, and is arranged spaced apart from the edge.

Abstract: Disclosed is a method of depositing a thin film, which includes supplying a purge gas and a source gas into a plurality of reactors for a first period, stopping supplying of the source gas, and supplying the purge gas and a reaction gas into the plurality of reactors for a second period, and supplying the reaction gas and plasma into the plurality of reactors for a third period.

Abstract: An exhaust apparatus using a gas curtain instead of a mechanical opening/closing structure is provided. The exhaust apparatus includes: a first region; a second region connected to the first region; a third region connected to the first region; and a first gas line connected to the second region, wherein when gas is supplied to the first gas line, the first region does not communicate with the second region but communicates with the third region.

Abstract: The present invention relates to a method for manufacturing a light extraction substrate for an organic light emitting element, a light extraction substrate for an organic light emitting element, and an organic light emitting element that includes the same and, more specifically, to a method for manufacturing a light extraction substrate for an organic light emitting element, a light extraction substrate for an organic light emitting element, and an organic light emitting element that includes the same, which can enhance the light extraction efficiency of an organic light emitting element and, in particular, can reduce the process cost.

Abstract: An array substrate for a display device includes a first substrate which includes a display region and a non-display region enclosing a periphery of the display region, a second substrate facing the first substrate which includes the display region and the non-display region enclosing a periphery of the display region, a color filter disposed on the first substrate, a liquid crystal layer disposed on the color filter and a black matrix disposed on the first substrate in the non-display region and at least a part of the display region, where the black matrix has a thickness ranging from about 2.5 micrometers to about 6.0 micrometers.

Abstract: The present invention relates to a method for manufacturing a light extraction substrate for an organic light emitting element, a light extraction substrate for an organic light emitting element, and an organic light emitting element that includes the same and, more specifically, to a method for manufacturing a light extraction substrate for an organic light emitting element, a light extraction substrate for an organic light emitting element, and an organic light emitting element that includes the same, which can enhance the light extraction efficiency of an organic light emitting element and, in particular, can reduce the process cost.