As a technical means for achieving the above-described technical task, according to one aspect of the present invention, this evaporation source comprises: a crucible configured to accommodate a deposition material; a cover unit configured to cover top of the crucible and including a plurality of injection holes; and a replaceable inner nozzle inserted into the inner side of the cover unit and having an inner injection hole configured to be connected to at least one injection hole among the injection holes, wherein the inner injection hole of the inner nozzle is configured to allow the at least one injection hole and an inner space of the crucible to be in communication with each other.
The driver IC may comprise a light emitting circuit connected between a first node and a second node, a first mode switching switch configured to selectively connect a first pad to the first node or the second node according to a switching mode, and a second mode switching switch configured to selectively connect a second pad to the first node or the second node according to the switching mode. The first pad may be electrically connected to one of an anode and a cathode of the light emitting element according to a switching mode, and the second pad may be connected to one of a first power line and a second power line according to the switching mode. The first power line may have a first power voltage greater than a second power voltage of the second power line.
G09G 3/32 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques pour la présentation d'un ensemble de plusieurs caractères, p. ex. d'une page, en composant l'ensemble par combinaison d'éléments individuels disposés en matrice utilisant des sources lumineuses commandées utilisant des panneaux électroluminescents semi-conducteurs, p. ex. utilisant des diodes électroluminescentes [LED]
This transparent display device may comprise: a plurality of transparent substrates, each including a plurality of pixels; a plurality of light-emitting elements disposed in the plurality of pixels on the plurality of transparent substrates; a plurality of conductive wires disposed in a first direction on the plurality of transparent substrates, and electrically connected to the plurality of light-emitting elements; and one or more interconnectors positioned on end areas of the plurality of conductive wires so as to electrically connect the end areas of the plurality of conductive wires in the first direction.
This transparent display device comprises: a transparent substrate having a pad area and a display area including a plurality of pixels; a plurality of terminals disposed on the pad area and electrically connected to a flexible printed circuit board; a plurality of light-emitting elements in the plurality of pixels; a plurality of conductive lines disposed on the display area and electrically connecting the plurality of terminals and the plurality of light-emitting elements; a plurality of connection pads electrically connecting the plurality of terminals and the plurality of conductive lines; a stopper positioned between the pad area and the display area; and a molding layer on the display area. The stopper may prevent molding liquid for forming the molding layer, from flowing to the pad area.
The present invention relates to a light-emitting diode film comprising: a substrate; an electrode layer formed on at least a portion of the substrate; a solder part formed on at least a portion of the electrode layer; a light-emitting diode positioned on the solder part and connected to the electrode layer; and a molding layer applied to the entire surfaces of the substrate, the electrode layer, and the light-emitting diode, wherein the other surface of the molding layer attached to the substrate is attached to a surface to be adhered of an aimed object to be installed, and the light-emitting diode film satisfies Equation 1 below. The light-emitting diode film of the present invention provides a light-emitting diode film which protects an LED and an electrode, has excellent attachment reliability, and has excellent reworkability after attachment. [Equation 1] 1*(B+C) ≤ A ≤ 5*(B+C), wherein A is the height of the molding layer measured from the substrate, B is the thickness of the solder part, and C is the thickness of the light-emitting diode.
H10H 20/857 - Interconnexions, p. ex. grilles de connexion, fils de connexion ou billes de soudure
C09J 7/20 - Adhésifs sous forme de films ou de pellicules caractérisés par leur support
H01L 25/075 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans une seule des sous-classes , , , , ou , p. ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans le groupe
The present invention relates to a hole inspection system and method and, more specifically, to a system and method for inspecting the shape and position of a through-hole formed in a substrate. According to an embodiment, the hole inspection system for a substrate having a hole comprises: a substrate support device which supports a substrate; a camera disposed above or below the substrate to obtain an image of the substrate; a coaxial light source disposed on the same side as the camera relative to the substrate; a wide area light source disposed on the other side to the camera and illuminating a wider area than the coaxial light source; and an inspection module which inspects a hole on the basis of the image of the substrate obtained by the camera.
G01B 11/08 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des diamètres
G01B 11/03 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la longueur, la largeur ou l'épaisseur en mesurant les coordonnées de points
G01B 11/02 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la longueur, la largeur ou l'épaisseur
The present invention relates to a hole inspection system and method and, more specifically, to a system and method for inspecting the shape and position of a through-hole formed in a substrate. According to an embodiment, the hole inspection system for a substrate having a hole comprises: a substrate support device which supports a substrate; a camera disposed above or below the substrate to obtain an image of the substrate; a light source disposed on the same side as the camera relative to the substrate; a reflective plate disposed on the other side to the camera; and an inspection module which inspects a hole on the basis of the image of the substrate obtained by the camera, wherein the image of the substrate may be generated on the basis of light that has passed through the inner diameter of the hole and been reflected by the reflective plate, light reflected from an area exterior to the outer diameter of the hole, and light reflected or scattered in the area between the outer diameter of the hole and the inner diameter of the hole.
G01B 11/08 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des diamètres
G01B 11/03 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la longueur, la largeur ou l'épaisseur en mesurant les coordonnées de points
G01B 11/02 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la longueur, la largeur ou l'épaisseur
An organic light-emitting display device may comprise: power wiring provided on a substrate; a bank disposed on the power wiring and disposed in a non-light-emitting area; first to third connection patterns disposed on the bank and arranged to extend from a light-emitting area to the non-light-emitting area; a power connection structure disposed on the power wiring; first to third cathode connection structures disposed on the first to third connection patterns; and a bridge electrode disposed on the first to the third connection patterns, electrically connected to the power wiring via the power connection structure, and electrically connected to the first to third connection patterns via the first to third cathode connection structures.
H10K 59/131 - Interconnexions, p. ex. lignes de câblage ou bornes
H10K 59/12 - Affichages à OLED à matrice active [AMOLED]
H10K 71/60 - Formation de régions ou de couches conductrices, p. ex. d’électrodes
H10K 71/16 - Dépôt d'une matière active organique en utilisant un dépôt physique en phase vapeur [PVD], p. ex. un dépôt sous vide ou une pulvérisation cathodique
H10K 71/20 - Modification de la forme de la couche active dans les dispositifs, p. ex. mise en forme
A system for manufacturing an organic light-emitting display device may comprise: first film formation equipment for forming a first multilayer on a substrate; first patterning equipment for patterning the first multilayer to form a first organic light-emitting diode including a first organic light-emitting layer and a first cathode electrode and form a first connection pattern including a first extension organic light-emitting layer, a first extension cathode electrode, and a first sub-pixel protection layer; and second film formation equipment for forming a second multilayer on the patterned first organic light-emitting diode and first connection pattern. The patterning of the first multilayer and the forming of the second multilayer may be continuously performed in a vacuum atmosphere in the first patterning equipment and the second film formation equipment.
H10K 59/131 - Interconnexions, p. ex. lignes de câblage ou bornes
H10K 59/12 - Affichages à OLED à matrice active [AMOLED]
H10K 71/60 - Formation de régions ou de couches conductrices, p. ex. d’électrodes
H10K 71/16 - Dépôt d'une matière active organique en utilisant un dépôt physique en phase vapeur [PVD], p. ex. un dépôt sous vide ou une pulvérisation cathodique
H10K 71/20 - Modification de la forme de la couche active dans les dispositifs, p. ex. mise en forme
This organic light-emitting display device may comprise a plurality of stereoscopic structures on a substrate and a plurality of pixels on the substrate. Each of the plurality of pixels may include a first sub-pixel, a second sub-pixel, and a third sub-pixel, each having a three-dimensional structure. The first sub-pixel may be disposed on a first side surface of the stereoscopic structure, and the second sub-pixel may be disposed on a second side surface of the stereoscopic structure. The second sub-pixel may be disposed to horizontally overlap the first sub-pixel, and the third sub-pixel may be disposed on the first sub-pixel and the second sub-pixel. The first sub-pixel may include a first organic light-emitting element, the second sub-pixel may include a second organic light-emitting element, and the third sub-pixel may include a third organic light-emitting element.
This organic light-emitting display device may include a plurality of pixels on a substrate. Each of the plurality of pixels may include a first sub-pixel, a second sub-pixel, and a third sub-pixel, which have a three-dimensional structure. The second sub-pixel may be arranged to horizontally overlap the first sub-pixel, and the third sub-pixel may be arranged to vertically overlap the first sub-pixel and the second sub-pixel. The first sub-pixel may include a first organic light-emitting element, the second sub-pixel may include a second organic light-emitting element, and the third sub-pixel may include a third organic light-emitting element.
This display device may comprise: multiple driving blocks on a display panel; a driving circuit for driving the multiple driving blocks; and a controller for controlling the driving circuit to drive the multiple driving blocks. The multiple driving blocks may each include multiple light emitting elements included in multiple subpixels, and a micro-IC commonly connected to the multiple light emitting elements and causing the multiple light emitting elements to emit light. The controller may, when a reference current is sensed in each of multiple micro-ICs, control the driving circuit to adjust the sensed reference current on the basis of a target current.
G09G 3/32 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques pour la présentation d'un ensemble de plusieurs caractères, p. ex. d'une page, en composant l'ensemble par combinaison d'éléments individuels disposés en matrice utilisant des sources lumineuses commandées utilisant des panneaux électroluminescents semi-conducteurs, p. ex. utilisant des diodes électroluminescentes [LED]
G09G 3/00 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques
Embodiments disclosed in the present document relate to a deposition system and, more specifically, to a deposition system including an optical module mounting unit. According to an embodiment, the deposition system comprises: a chamber configured to have a deposition source disposed therein; a substrate stage including a substrate holder configured to support a substrate and disposed inside the chamber; a mask holder configured to support a mask and disposed inside the chamber; an optical module disposed inside the chamber and configured to identify the alignment between the substrate and the mask; and an optical module mounting unit configured to move the optical module.
This organic light-emitting display device may comprise: a plurality of anode electrodes in a plurality of subpixels; a plurality of organic light-emitting layers on the plurality of anode electrodes; a plurality of cathode electrodes on the plurality of organic light-emitting layers; a plurality of first banks between the plurality of subpixels in a second direction crossing a first direction; a plurality of first power wires under the plurality of first banks in the first direction; and a plurality of connection structures arranged in a plurality of first recesses of some of the plurality of first banks. The organic light-emitting layers and the cathode electrodes are arranged to cross over some of the first banks, and the connection structures can electrically connect the cathode electrodes to the first power wires in the first recesses of some of the first banks.
This organic light-emitting display device may comprise: a plurality of anode electrodes in a plurality of subpixels; a plurality of organic light-emitting layers on the plurality of anode electrodes; a plurality of cathode electrodes on the plurality of organic light-emitting layers; a plurality of first banks between the plurality of subpixels in a second direction crossing a first direction; a plurality of first power wires under the plurality of first banks in the first direction; a plurality of connection structures arranged in a plurality of first recesses of some of the plurality of first banks; and a plurality of undercut structures under some of the first banks in contact with the plurality of first recesses. The organic light-emitting layers and the cathode electrodes are arranged to cross over some of the first banks, and the connection structures can electrically connect the cathode electrodes to the first power wires in the undercut structures.
This organic light-emitting display device may comprise: a power line; a plurality of subpixels; a plurality of organic light-emitting elements in the plurality of subpixels; and a plurality of connection structures connecting a plurality of cathode electrodes of the plurality of organic light-emitting elements to the power line in the vicinity of the plurality of subpixels. The plurality of subpixels may have different colors along a first direction and the same color along a second direction intersecting the first direction.
This organic light-emitting display device may comprise: multiple anode electrodes on multiple sub-pixels; multiple organic light-emitting layers on the multiple anode electrodes; multiple cathode electrodes on the multiple organic light-emitting layers; multiple inorganic insulating layers on the multiple cathode electrodes; multiple first protruding portions disposed between multiple sub-pixels in a first direction, the multiple first protruding portions having multiple first undercut structures on side portions thereof; multiple first waterproof structures on the multiple first protruding portions; and multiple second waterproof structures in the multiple first undercut structures of the multiple first protruding portions. The first waterproof structures may be configured by overlapping at least two inorganic insulating layers among the multiple inorganic insulating layers on the first protruding portions.
This display apparatus may comprise: a plurality of light-emitting elements provided in a plurality of sub-pixels and connected to a first power line; a reference current generation circuit connected to a third power line; and a plurality of light-emitting circuits provided in the plurality of sub-pixels and connected to the reference current generation circuit and the plurality of light-emitting elements. The reference current generation circuit and the plurality of light-emitting circuits can all be connected to a second power line, and the reference current generation circuit and the plurality of light-emitting circuits can be all be connected to a measurement line.
G09G 3/32 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques pour la présentation d'un ensemble de plusieurs caractères, p. ex. d'une page, en composant l'ensemble par combinaison d'éléments individuels disposés en matrice utilisant des sources lumineuses commandées utilisant des panneaux électroluminescents semi-conducteurs, p. ex. utilisant des diodes électroluminescentes [LED]
G09G 3/00 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques
This driving device can drive a light emitting element by using at least two clock signals having different clock speeds. Accordingly, input of data and adjustment of a light emitting time are controlled independently of each other, thereby reducing power consumption and improving luminance.
G09G 3/32 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques pour la présentation d'un ensemble de plusieurs caractères, p. ex. d'une page, en composant l'ensemble par combinaison d'éléments individuels disposés en matrice utilisant des sources lumineuses commandées utilisant des panneaux électroluminescents semi-conducteurs, p. ex. utilisant des diodes électroluminescentes [LED]
G09G 3/00 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques
This display device may include a reference current generating circuit and a plurality of light-emitting circuits. The reference current generating circuit may include a constant current source configured to generate a reference current. The plurality of light-emitting circuits are provided in a plurality of subpixels, and may be electrically connected to the reference current generating circuit. Each of the plurality of light-emitting circuits generates a light-emitting current by using the reference current to cause a light-emitting element to emit light, and adjusts a light-emitting time of the light-emitting element by using digital data and a program signal. The reference current and the light-emitting current may be constant currents.
G09G 3/32 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques pour la présentation d'un ensemble de plusieurs caractères, p. ex. d'une page, en composant l'ensemble par combinaison d'éléments individuels disposés en matrice utilisant des sources lumineuses commandées utilisant des panneaux électroluminescents semi-conducteurs, p. ex. utilisant des diodes électroluminescentes [LED]
The present invention relates to a substrate handling system in a deposition system and relates to a substrate handling system that includes a substrate conveying robot and a substrate support unit, having a structure corresponding thereto, for performing a deposition process by conveying a substrate into a deposition chamber. According to an embodiment of the present invention for solving the problem, the substrate handling system comprises: a conveying robot that conveys a substrate into a deposition chamber; and a substrate support unit that is provided in the deposition chamber, receives the substrate from the transfer robot, and supports same. The conveying robot may include a support body that includes a rod-shaped stem and a plurality of branches extending from both sides of the stem, the substrate support unit may include a main support portion that includes a base and a plurality of main support members extending side by side from the base, and the main support portion may receive the substrate by contacting an unused region of the substrate not supported by the support body of the conveying robot.
H01L 21/687 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants pour le maintien ou la préhension en utilisant des moyens mécaniques, p. ex. mandrins, pièces de serrage, pinces
H01L 21/677 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants pour le transport, p. ex. entre différents postes de travail
H01L 21/68 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants pour le positionnement, l'orientation ou l'alignement
C23C 14/04 - Revêtement de parties déterminées de la surface, p. ex. au moyen de masques
C23C 16/458 - Revêtement chimique par décomposition de composés gazeux, ne laissant pas de produits de réaction du matériau de la surface dans le revêtement, c.-à-d. procédés de dépôt chimique en phase vapeur [CVD] caractérisé par le procédé de revêtement caractérisé par le procédé utilisé pour supporter les substrats dans la chambre de réaction
C23C 16/04 - Revêtement de parties déterminées de la surface, p. ex. au moyen de masques
The organic light-emitting display device may include: a bank between sub-pixels on a substrate; an anode electrode in the sub-pixel; an organic light-emitting layer disposed on the anode electrode and the bank and including a hole injection layer; a cathode electrode disposed on the organic light-emitting layer and in contact with an end of the hole injection layer; and a blocking structure in an edge region of the bank. The organic light-emitting layer has a separation structure corresponding to the blocking structure, and the hole injection layer may be disconnected from the separation structure.
This organic light-emitting display device may comprise: a bank between sub-pixels on a substrate; an anode electrode in a sub-pixel; an organic light-emitting layer on the anode electrode and the bank; a cathode electrode on the organic light-emitting layer; and a protrusion disposed above the bank so as to be spaced apart from the organic light-emitting layer. The protrusion may comprise: a connection structure including an auxiliary electrode in contact with the cathode electrode; and a bridge electrode disposed on the connection structure for electrical connection to the auxiliary electrode.
This method for manufacturing an organic light-emitting display device can: form an anode in each of a plurality of sub-pixels, form a plurality of banks between the plurality of sub-pixels, and form a plurality of protrusion portions on the plurality of banks; form a first connection structure on a first side portion of a first protrusion portion adjacent to a red sub-pixel, and form a first organic light-emitting element in the red sub-pixel by using a first photolithography process; form a second connection structure on a second side portion of the first protrusion portion and a first side portion of a second protrusion portion adjacent to a green sub-pixel, and form a second organic light-emitting element in the green sub-pixel by using a second photolithography process; form a third connection structure on a second side portion of the second protrusion portion adjacent to a blue sub-pixel, and form a third organic light-emitting element in the blue sub-pixel by using a third photolithography process.
This organic light-emitting display device may comprise: banks between sub-pixels on a substrate; anode electrodes on the sub-pixels; an organic light-emitting layer on the anode electrodes and the banks; cathode electrodes on the organic light-emitting layer; and protrusions disposed above the banks so as to be spaced apart from the organic light-emitting layer. The protrusion can include an etch stop layer including one of ITO, Al2O3, Cu and CuOx on the uppermost side thereof.
This deposition equipment for manufacturing a plurality of sub-pixels having a side-by-side structure on a substrate may comprise an evaporation source device that is positioned beneath a substrate and emits a deposition material toward the substrate. The evaporation source device may include a point source or a linear source. The point source may be located at least four times further from the substrate than the linear source.
C23C 14/22 - Revêtement par évaporation sous vide, pulvérisation cathodique ou implantation d'ions du matériau composant le revêtement caractérisé par le procédé de revêtement
H10K 71/16 - Dépôt d'une matière active organique en utilisant un dépôt physique en phase vapeur [PVD], p. ex. un dépôt sous vide ou une pulvérisation cathodique
This organic light-emitting display device may comprise: a first three-dimensional structure on a substrate; a second three-dimensional structure on the substrate, which is spaced apart from the first three-dimensional structure by a separation area along a first direction; a first subpixel on one side of the first three-dimensional structure; a second subpixel on one side of the second three-dimensional structure; and a third subpixel on the separation area. The first subpixel may include a first organic light-emitting element, the second subpixel may include a second organic light-emitting element, and the third subpixel may include a third organic light-emitting element. The first three-dimensional structure and the second three-dimensional structure each have a structure that is separated into at least one pixel unit along a second direction, and the one side of the first three-dimensional structure and the one side of the second three-dimensional structure may each be inclined with respect to the substrate.
This organic light-emitting display device may comprise: a first stereoscopic structure on a substrate; a second stereoscopic structure separated on the substrate from the first stereoscopic structure by a separation area along a first direction; first sub-pixels on one side of the first stereoscopic structure; second sub-pixels on one side of the second stereoscopic structure; and third sub-pixels on the separation area. The first sub-pixels may include first organic light-emitting elements, the second sub-pixels may include second organic light-emitting elements, and the third sub-pixels may include third organic light-emitting elements. Each of the first stereoscopic structure and the second stereoscopic structure has a structure separated in units of at least one pixel along a second direction or a structure continuously extending along the second direction, and the one side of the first stereoscopic structure and the one side of the second stereoscopic structure may each be orthogonal to the substrate.
An organic light-emitting display device may comprise: a first three-dimensional structure on a substrate; a second three-dimensional structure disposed on the substrate and separated from the first three-dimensional structure along a first direction by a separation region; a first subpixel on one side of the first three-dimensional structure; a second subpixel on one side of the second three-dimensional structure; a third subpixel on the separation region; a first anode separation structure on the lower side of the first three-dimensional structure between a first organic light-emitting element and a third organic light-emitting element; and a second anode separation structure on the lower side of the second three-dimensional structure between a second organic light-emitting element and the third organic light-emitting element. The first subpixel may include the first organic light-emitting element, the second subpixel may include the second organic light-emitting element, and the third subpixel may include the third organic light-emitting element.
An embodiment relates to an organic light-emitting display device and a manufacturing method therefor. For example, the organic light-emitting display device according to the embodiment may comprise: a pixel compensation circuit (6) disposed on each display area (3) of a substrate (1); a planarization layer (11) disposed over the display area (3) and a non-display area (2) of the substrate (1); an anode electrode (23) disposed on the planarization layer (11) and electrically connected to the pixel compensation circuit (6); an auxiliary electrode (21) disposed on the planarization layer (11) in the non-display area (2) and connected to a lower power source or wiring (7); an organic light-emitting layer (24) disposed on the anode electrode (23); and a moisture-blocking electrode structure (30) disposed on the organic light-emitting layer (24) and a portion of the non-display area (2). The moisture-blocking electrode structure (30) may comprise a first moisture-blocking structure (13) disposed in the non-display area (2) and a second moisture-blocking structure (13b) disposed in the display area (3). The moisture-blocking electrode structure (30) may comprise a first cathode metal (31), a reaction membrane (32), and a second cathode metal (33), which are sequentially arranged.
H10K 59/121 - Affichages à OLED à matrice active [AMOLED] caractérisés par la géométrie ou la disposition des éléments de pixel
H10K 59/124 - Couches isolantes formées entre les éléments TFT et les éléments OLED
H10K 59/38 - Dispositifs spécialement adaptés à l'émission de lumière multicolore comprenant des filtres de couleur ou des supports changeant de couleur [CCM]
H10K 59/122 - Structures ou couches définissant le pixel, p. ex. bords
In an embodiment, a sub-pixel may comprise: an auxiliary electrode; a light guide body having a stereoscopic structure on the auxiliary electrode; and an organic light-emitting element on the light guide body. The organic light-emitting element may be arranged on a surface of the light guide body so that a light emission area of the organic light-emitting element may be expanded. Because each of the auxiliary electrode and the organic light-emitting element has a reflective function, light emitted from the organic light-emitting element may be repeatedly reflected by the auxiliary electrode and the organic light-emitting element and may be reflected by the light guide body. Thus, light extraction efficiency may be dramatically increased, thereby improving luminance.
H10K 59/124 - Couches isolantes formées entre les éléments TFT et les éléments OLED
H10K 59/38 - Dispositifs spécialement adaptés à l'émission de lumière multicolore comprenant des filtres de couleur ou des supports changeant de couleur [CCM]
H10K 59/122 - Structures ou couches définissant le pixel, p. ex. bords
H10K 50/17 - Couches d'injection des porteurs de charge
This organic light-emitting display device may comprise: a substrate; an auxiliary electrode in each of a plurality of sub-pixels; a three-dimensional structure on the auxiliary electrode; an organic light-emitting element surrounding the three-dimensional structure; an encapsulation layer surrounding the organic light-emitting element; and a resin layer on the encapsulation layer. The organic light-emitting element may comprise: an anode electrode surrounding the upper surface and side surface of the three-dimensional structure and connected to the auxiliary electrode through the side surface of the three-dimensional structure; an organic light-emitting layer on the anode electrode; and a cathode electrode on the organic light-emitting layer.
H10K 59/38 - Dispositifs spécialement adaptés à l'émission de lumière multicolore comprenant des filtres de couleur ou des supports changeant de couleur [CCM]
H10K 59/123 - Connexion des électrodes de pixel aux transistors à couches minces [TFT]
The present invention relates to a deposition system. The deposition system having a plurality of evaporation sources, according to an embodiment of the present invention, comprises: a substrate; and a plurality of point evaporation sources which spray the substrate with a deposition material, wherein the spraying directions of at least two of the plurality of point evaporation sources are different from each other.
C23C 14/22 - Revêtement par évaporation sous vide, pulvérisation cathodique ou implantation d'ions du matériau composant le revêtement caractérisé par le procédé de revêtement
H10K 71/16 - Dépôt d'une matière active organique en utilisant un dépôt physique en phase vapeur [PVD], p. ex. un dépôt sous vide ou une pulvérisation cathodique
34.
APPARATUS FOR MANUFACTURING ORGANIC LIGHT-EMITTING DISPLAY DEVICE
The apparatus for manufacturing an organic light-emitting display device comprises a first deposition chamber, a second deposition chamber and a third deposition chamber. The first deposition chamber comprises a first evaporation source for discharging, through a first nozzle arranged to be opposite to the spaced area between adjacent stripe patterns in a substrate including a plurality of stripe patterns, a third luminescent material for forming a third organic light-emitting device. The second deposition chamber comprises a second evaporation source for discharging, through a second nozzle arranged to be opposite to a first area of the stripe patterns, a first luminescent material for forming a first organic light-emitting device. The third deposition chamber comprises a third evaporation source for discharging, through a third nozzle arranged to be opposite to a second area of the stripe patterns, a second luminescent material for forming a second organic light-emitting device. The second nozzle and the third nozzle are inclined in opposite directions with respect to the moving direction of the substrate.
C23C 14/22 - Revêtement par évaporation sous vide, pulvérisation cathodique ou implantation d'ions du matériau composant le revêtement caractérisé par le procédé de revêtement
C23C 14/56 - Appareillage spécialement adapté au revêtement en continuDispositifs pour maintenir le vide, p. ex. fermeture étanche
H10K 50/13 - OLED ou diodes électroluminescentes polymères [PLED] caractérisées par les couches électroluminescentes [EL] spécialement adaptées à l'émission de lumière multicolore, p. ex. à l'émission de lumière blanche comprenant des couches EL empilées dans une unité EL
An organic light-emitting display device comprises: a substrate; a plurality of stripe patterns on the substrate; a first organic light-emitting element on a first sub-pixel; a second organic light-emitting element on a second sub-pixel; and a third organic light-emitting element on a third sub-pixel. The first organic light-emitting element is disposed on a first region of the stripe patterns, the second organic light-emitting element is disposed on a second region of the stripe patterns, and the third organic light-emitting element is disposed on a spacing region between adjacent stripe patterns.
H10K 59/124 - Couches isolantes formées entre les éléments TFT et les éléments OLED
H10K 59/123 - Connexion des électrodes de pixel aux transistors à couches minces [TFT]
H10K 50/11 - OLED ou diodes électroluminescentes polymères [PLED] caractérisées par les couches électroluminescentes [EL]
H10K 50/13 - OLED ou diodes électroluminescentes polymères [PLED] caractérisées par les couches électroluminescentes [EL] spécialement adaptées à l'émission de lumière multicolore, p. ex. à l'émission de lumière blanche comprenant des couches EL empilées dans une unité EL
The present invention relates to a device for a thread-embedding procedure, the device comprising: a thread-embedding procedure instrument comprising a needle tube made of a conductive material, a hub made of an insulant, a handle made of a conductive material, and a thread to be embedded, a part of which is inserted in the needle tube; two electrodes to be attached to an operator's skin and the skin of a person to be treated, respectively; and a power supply device for supplying power to the electrodes, wherein a procedure in which a procedure of inserting a thread to be embedded is combined with an electrical stimulation procedure can be simply and conveniently performed through one procedure instrument.
A61B 17/06 - AiguillesSupports ou empaquetages pour aiguilles ou matériaux de suture
A61F 2/00 - Filtres implantables dans les vaisseaux sanguinsProthèses, c.-à-d. éléments de substitution ou de remplacement pour des parties du corpsAppareils pour les assujettir au corpsDispositifs maintenant le passage ou évitant l'affaissement de structures corporelles tubulaires, p. ex. stents
A61N 1/36 - Application de courants électriques par électrodes de contact courants alternatifs ou intermittents pour stimuler, p. ex. stimulateurs cardiaques
A61N 1/32 - Application de courants électriques par électrodes de contact courants alternatifs ou intermittents
Disclosed is an automatic ramyeon (a kind of instant noodles) cooker for preventing burning and a fire by using a nonmetallic cooking container, wherein a fire and burning due to latent heat and a known heating element are prevented and electrical charges are reduced due to a decreased cooking time by supplying hot water of a predetermined temperature to a nonmetallic cooking container into which ramyeon is put and directly heating the nonmetallic cooking container through the induced current of a highly efficient induction heating device, and by using the nonmetallic cooking container, the container has a reduced cost, is moved easily by being lightweight, has no denting by being strong, and can prevent aluminum container endocrine disruptors from entering the body which are harmful to the human body, and it is possible to conveniently cook the best ramyeon with consistent and excellent taste under optimal cooking conditions in which the heating temperature and heating time are always constant.
Disclosed is a disposable cooking container for an induction range in which a magnetic metal plate is firmly attached to the bottom of the inside of the disposable cooking container without using an adhesive which is harmful to the human body such that the magnetic metal plate can be used as a cooking container for the induction range, and which enables food to be safely cooked and eaten since no adhesive component permeates into the food while cooking.
Disclosed is a memory device to be recognizable for an optical disc drive and a driving method of the same. The memory device includes an USB interface for interfacing with a host computer, a memory consisting of a file system, and a control unit allowing the memory to be recognized as the mass storage devices of pre-set numbers and the optical disc drives of pre-set numbers to the host computer. The control unit is consisted of a mass storage device module for implementing the mass storage device using the memory, and an optical disc drive emulation module for emulating the optical disc drive using the image files in the file system on the memory.
G06F 13/12 - Commande par programme pour dispositifs périphériques utilisant des matériels indépendants du processeur central, p. ex. canal ou processeur périphérique
The present invention relates to a heater used for heating a crucible that contains a substance to be vaporized in a vacuum thermal deposition apparatus, and more particularly, to a heater for vacuum thermal deposition which is capable of increasing the thermal efficiency of the heater and vaporizing substances having high vaporizing temperature. Specifically, the present invention is a cylindrically shaped heater composed of plates, characterized by having upper slits extending downward from the upper edge of the heater and lower slits extending upward from the lower edge, arranged in an alternate manner, and also having a power connection part for the connection to an electrical power supply. The present invention can increase the thermal ef¬ ficiency of the heater by maximizing the heat emitting surface area of the heater used in vacuum thermal deposition, consequently preventing vaporization of the heater itself by lowering the operation temperature of the heater, and can even vaporize substances having high vaporization temperature. The present invention also has an advantage of being capable of controlling the crucible temperature distribution by making the length of the upper slits and the length of the lower slits different.
Disclosed is a multiple nozzle evaporator in which a material to be evaporated in the evaporator can be deposited on a substrate with an improved efficiency of use of the material, thereby forming a large- area uniform thin film. The evaporator includes a cylindrical or rectangular post-shaped crucible 31 or 51 with an open top face; and a nozzle unit 32 having a body portion having a cylindrical or rectangular post- like shape with a height smaller than that of the crucible 31 or 51 and assembled to an upper portion of the crucible, and a plurality of evaporation tubes formed at an angle while penetrating through the body portion between top and bottom faces of the body portion. An evaporated material spouts toward peripheral areas of a substrate due to the inclined evaporation tubes, thereby improving the uniformity of a thin film to be deposited and the efficiency of use of the evaporated material, and preventing condensation of the evaporated material at a spouting portion.
H01L 21/205 - Dépôt de matériaux semi-conducteurs sur un substrat, p. ex. croissance épitaxiale en utilisant la réduction ou la décomposition d'un composé gazeux donnant un condensat solide, c.-à-d. un dépôt chimique
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