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公开(公告)号:US10319933B2
公开(公告)日:2019-06-11
申请号:US15100345
申请日:2016-04-08
Inventor: Zhe Liu
Abstract: The invention discloses an OLED device including: a flexible substrate; a first anode and a second anode on the flexible substrate and being spaced from each other to form a channel therebetween; a flexible electrically-conductive assembly in the channel and connecting the first anode with the second anode; a first organic light emitting layer on the first anode and a second organic light emitting layer on the second anode; and a cathode on the first and the second organic light emitting layers. The invention can improve the flexibility of the anode of the OLED device, reduce an actual continuous length of the anode on a bending direction, reduce the probability of crack generation in the process of the OLED device being bent by external force, and therefore can increase bendable and wearable abilities of a flexible OLED display device formed by such OLED device.
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公开(公告)号:US10319876B2
公开(公告)日:2019-06-11
申请号:US15327133
申请日:2017-01-05
Abstract: The present disclosure proposes a micro LED and a method of forming the same. After a body of layers to structure a PN junction is formed sequentially on the outer wall of a buffer layer column, a first electrode is formed on the outer side of the body of layers that structured the PN junction. A second electrode is formed on the inner side of the body of layers that structured the PN junction after the buffer layer column is removed. The first electrode and second electrode are insulating to each other in areas outside of the body of layers structuring the PN junction. The micro LED formed is of a tube structure. The tube-structured micro LED can effectively lower the impedance imposed by the body of layers structuring the PN junction between the first and second electrodes, and thus enhance conductivity and illumination efficiency of the micro LED.
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公开(公告)号:US10319800B2
公开(公告)日:2019-06-11
申请号:US15308576
申请日:2016-08-12
Inventor: Haibo Peng
Abstract: An OLED display screen belonging to an OLED display screen technical field includes a first substrate, a second substrate, an OLED light-emitting layer and a metallic signal line. The first substrate and the second substrate are disposed opposite. The OLED light-emitting layer and the metallic signal line are both disposed between the first substrate and the second substrate. A light block layer is disposed between the first substrate and the second substrate. All or a section of the light block layer is disposed between the metallic signal line and the first substrate. The light block layer is applied to prevent incidence of natural light and/or reflective light generated by the metallic signal line. The disclosure can shelter the metallic signal line by the light block layer to absorb reflective light of the metallic signal line, a polarizer can be omitted. The structure is simple and illuminous efficiency is improved.
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公开(公告)号:US10318055B2
公开(公告)日:2019-06-11
申请号:US15535642
申请日:2017-03-29
Inventor: Jian Ye
Abstract: A touch control panel includes a substrate including a touch control region and a trace region. The substrate includes metal bridges on the touch control region and first traces on the trace region. The substrate is provided with an insulating layer covering the metal bridges and the first traces and has first via holes located on a position of the touch control region. Second via holes are located at positions corresponding to the first traces. The insulating layer is formed thereon with a metal layer including inductive electrodes on the touch control region and driving electrodes. The inductive electrodes and driving electrode are connected to second traces and the third traces. The second and third traces are connected to the first traces through the second via holes and inductive electrodes are electrically connected to the metal bridges through the first via holes.
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公开(公告)号:US10317760B2
公开(公告)日:2019-06-11
申请号:US16113256
申请日:2018-08-27
Inventor: Chun-hung Huang , Zhenzhou Xing
IPC: G02F1/1362 , G09G3/36 , G02F1/133 , G02F1/1343
Abstract: A liquid crystal panel and a liquid crystal device (LCD) are provided. The liquid crystal panel includes a first side, a second side opposite to the first side, and a third side. The liquid crystal panel further includes at least one gate on array (GOA) circuit. The GOA circuit includes a plurality of GOA units, and each of the GOA units includes a signal buffer configured to buffer received gate driving signals and to provide the buffered gate driving signals to the corresponding gate lines. Dimensions of the signal buffer of each of the GOA units are in an increasing order in a direction from the first side toward the second side, or numbers of the signal buffers of each of the GOA units are in an increasing order in the direction from the first side toward the second side.
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Patent Agency Ranking
公开(公告)号:US10317692B2
公开(公告)日:2019-06-11
申请号:US15204884
申请日:2016-07-07
Inventor: Guowei Zha
IPC: G02F1/29 , G02B27/26 , G02B27/22 , G09G3/00 , G09G3/3208 , H04N13/302
Abstract: The present application discloses a stereoscopic display for naked eyes includes a two-dimensional display panel, a stereoscopic module for the naked eyes and a light converting module. The stereoscopic module for the naked eyes is deposited between the two-dimensional display panel and the light converting module. The two-dimensional display panel is used to output a two-dimensional image based on the linearly polarized light; the stereoscopic module for the naked eyes is used to output a three-dimensional image based on the linearly polarized light. The light converting module is used to convert the linearly polarized light to a circularly polarized light and output a three-dimensional image based on the circularly polarized light.
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公开(公告)号:US20190164515A1
公开(公告)日:2019-05-30
申请号:US15741776
申请日:2017-12-28
Inventor: Qiang GONG
Abstract: A GOA circuit and an embedded touch display panel are provided. By providing an abnormity protection module in the nth-level GOA unit, the level of the scanning signal of the nth-level GOA unit is pulled up when the embedded touch display panel is powered off abnormally. The risk of abnormal display resulted from the residual of charges in pixels due to the abnormal power-off of the GOA circuit is reduced.
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公开(公告)号:US10306788B2
公开(公告)日:2019-05-28
申请号:US15569116
申请日:2017-10-16
Inventor: Wei Bi , Chih Ming Hsu , Juanjuan Wang
Abstract: The present disclosure provides a flexible bottom shell, where the flexible bottom shell includes a first half shell, a second half shell, and a bendable part connected the first half shell and the second half shell, where the bendable part includes a plurality of connection plates, the plurality of the connection plates are successively bonded and are successively hinged together. Hinge pieces include a fixed plate, a fixed axle, and a pin axle. The fixed axle and the pin axle are perpendicular to a surface of the fixed plate. The fixed axle is connected to the fixed plate, and the pin axle is connected to the adjacent connection plates.
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公开(公告)号:US10302822B1
公开(公告)日:2019-05-28
申请号:US15945312
申请日:2018-04-04
Inventor: Zefang Deng
IPC: H01L51/52 , G02B3/04 , G02F1/1335
Abstract: The present disclosure provides a display and a display panel thereof. The display panel includes a display assembly, a microlens structure disposed on the display assembly. The microlens structure includes a substrate and a microlens array. The microlens array is disposed on the surface of the substrate away from the display assembly. The microlens array includes a plurality of microlenses arranged in an array, and shapes of the microlens are formed by rotating a plurality of continuous curves around an axis. By setting the shape of the microlens to be a shape formed by rotating a plurality of continuous curves around an axis, the parallel light emitted by the display assembly can be converged to two focal points, the depth of field displayed by the light field 3D can be increased, the 3D display effect can be improved.
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公开(公告)号:US20190157592A1
公开(公告)日:2019-05-23
申请号:US16254711
申请日:2019-01-23
Abstract: A method for manufacturing an organic thin film transistor includes steps of: forming a graphene layer on a surface of a metal substrate; covering a surface of the graphene layer with an organic solution and heating the graphene layer to form organic semiconductor nano lines on the surface of the graphene layer; and transferring the organic semiconductor nano lines to a target substrate. The graphene layer is formed on the surface of the metal substrate in mass production. The organic semiconductor nano lines (monocrystalline semiconductor) are grown in mass production by the graphene layer. The semiconductor layer having organic thin film transistors is formed after transferring the organic semiconductor nano lines on the target substrate. A large amount of the organic semiconductor nano lines can be formed simultaneously on the surface of the metal substrate with a large area.
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