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Небесная энциклопедия

Космические корабли и станции, автоматические КА и методы их проектирования, бортовые комплексы управления, системы и средства жизнеобеспечения, особенности технологии производства ракетно-космических систем

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Мониторинг СМИ

Мониторинг СМИ и социальных сетей. Сканирование интернета, новостных сайтов, специализированных контентных площадок на базе мессенджеров. Гибкие настройки фильтров и первоначальных источников.

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Поддерживает ввод нескольких поисковых фраз (по одной на строку). При поиске обеспечивает поддержку морфологии русского и английского языка
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Применить Всего найдено 361. Отображено 136.
13-07-2017 дата публикации

Developer For Lithography

Номер: US20170199464A1
Автор: Chen-Yu Liu, Ching-Yu Chang, Chin-Hsiang Lin, LIU CHEN-YU, CHANG CHING-YU, LIN CHIN-HSIANG, Liu Chen-Yu, Chang Ching-Yu, Lin Chin-Hsiang
Принадлежит:

A method for lithography patterning includes forming a material layer over a substrate; exposing a portion of the material layer to a radiation; and removing the exposed portion of the material layer in a developer, resulting in a patterned material layer. The developer comprises water, an organic solvent, and a basic solute. In an embodiment, the basic solute is less than 30% of the developer by weight.

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Номер записи: 1
28-03-2017 дата публикации

Capacitive touch panel

Номер: US0009606675B2
Автор: Chen-Yu Liu, Kwan-Sin Ho, LIU CHEN-YU, HO KWAN-SIN, Liu Chen-Yu, Ho Kwan-Sin
Принадлежит: TPK Touch Solutions Inc., LIU CHEN-YU, HO KWAN-SIN, TPK TOUCH SOLUTIONS INC, Liu Chen-Yu, Ho Kwan-Sin

An integrally-formed capacitive touch panel is disclosed including: a singular lens substrate, a mask layer, and a sensing circuit integrally coupled with said singular lens substrate. Said singular lens substrate, said mask layer, and said sensing circuit are integrally formed.

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Номер записи: 2
14-02-2017 дата публикации

Cleaning composition and methods thereof

Номер: US9570285B2
Автор: LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит: TAIWAN SEMICONDUCTOR MFG CO LTD, Taiwan Semiconductor Manufacturing Company, Ltd.

Provided is a cleaning solution and its applications. The cleaning solution comprises a mixture of a basic chemical compound and a solvent solution. In some embodiments, the basic chemical compound is tetramethylammonium hydroxide (TMAH) and the solvent solution includes a solution of water and at least one of propylene glycol ethyl ether (PGEE), propylene glycol monomethylether (PGME), and propylene glycol monomethylether acetate (PGMEA). The cleaning solution is effective in removing silicon-containing material off a surface of a system or a surface of a semiconductor substrate. In some embodiments, the system comprises a pipeline for delivering the silicon-containing material in semiconductor spin-coating processes. In some embodiments, the system comprises a drain for collecting waste fluid in semiconductor spin-coating processes. In some embodiments, the silicon-containing material has a first pH value, the cleaning solution has a second pH value, and the silicon-containing material ...

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Номер записи: 3
10-01-2017 дата публикации

Touch panel

Номер: US0009543365B2
Автор: Chen-Yu Liu, Li-Wei Kung, Hsi-Chien Lin, LIU CHEN-YU, KUNG LI-WEI, LIN HSI-CHIEN, Liu Chen-Yu, Kung Li-Wei, Lin Hsi-Chien
Принадлежит: TPK Touch Solutions Inc, TPK TOUCH SOLUTIONS INC, TPK Touch Solutions Inc.

The present invention provides a touch panel, including a lower substrate, an organic light-emitting component, disposed on the lower substrate, a nano silver sensing layer, disposed on the organic light emitting component, and an upper substrate, disposed on the nano silver sensing layer.

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Номер записи: 4
13-10-2016 дата публикации

TOUCH SENSITIVE DEVICE AND FABRICATION METHOD THEREOF

Номер: US20160299626A1
Автор: Chen-Yu Liu, LIU CHEN-YU, Liu Chen-Yu
Принадлежит:

The present invention relates to a touch sensitive device comprising a substrate, a mask layer, at least one touch sensing assembly partially masked by the mask layer, and an insulator formed between the mask layer and the touch sensing assembly for insulating the mask layer and the touch sensing assembly; wherein the mask layer, the touch sensing assembly, and the insulator are integrally formed on the substrate.

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Номер записи: 5
22-09-2016 дата публикации

Priming Material for Substrate Coating

Номер: US20160276151A1
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит:

A coating technique and a priming material are provided. In an exemplary embodiment, the coating technique includes receiving a substrate and identifying a material of the substrate upon which a layer is to be formed. A priming material is dispensed on the material of the substrate, and a film-forming material is applied to the priming material. The priming material includes a molecule containing a first group based on an attribute of the substrate material and a second group based on an attribute of the film-forming material. Suitable attributes of the substrate material and the film-forming material include water affinity and degree of polarity and the first and second groups may be selected to have a water affinity or degree of polarity that corresponds to that of the substrate material and the film-forming material, respectively.

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Номер записи: 6
27-07-2017 дата публикации

ORGANIC LIGHT EMITTING DIODE (OLED) TOUCH DISPLAY DEVICE

Номер: US20170213874A1
Автор: Chen-Yu Liu, Li-Wei Kung, Hsi-Chien Lin, LIU CHEN-YU, KUNG LI-WEI, LIN HSI-CHIEN, Liu Chen-Yu, Kung Li-Wei, Lin Hsi-Chien
Принадлежит:

An OLED touch display device includes an OLED display and a laminated package component. The laminated package component covers the OLED display and includes a quarter-wave plate, a liquid crystal polarizer and a touch sensor unit. The touch sensor unit is a single-layer electrode structure.

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Номер записи: 7
04-04-2017 дата публикации

Developer for lithography

Номер: US0009612536B2
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит: Taiwan Semiconductor Manufacturing Company, Ltd., TAIWAN SEMICONDUCTOR MFG CO LTD

A method for lithography patterning includes forming a material layer over a substrate; exposing a portion of the material layer to a radiation; and removing the exposed portion of the material layer in a developer, resulting in a patterned material layer. The developer comprises an organic solvent and a basic solute, wherein the organic solvent is more than 50% of the developer by weight. In an embodiment, the developer further comprises water that is less than 50% of the developer by weight.

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Номер записи: 8
04-10-2016 дата публикации

Method for manufacturing semiconductor device

Номер: US0009460909B2
Автор: Ching-Yu Chang, Chen-Yu Liu, CHANG CHING-YU, LIU CHEN-YU, Chang Ching-Yu, Liu Chen-Yu
Принадлежит: Taiwan Semiconductor Manufacturing Company, Ltd., TAIWAN SEMICONDUCTOR MFG CO LTD

A system and method for anti-reflective layers is provided. In an embodiment the anti-reflective layer comprises a floating component in order to form a floating region along a top surface of the anti-reflective layer after the anti-reflective layer has dispersed. The floating component may be a floating cross-linking agent, a floating polymer resin, or a floating catalyst. The floating cross-linking agent, the floating polymer resin, or the floating catalyst may comprise a fluorine atom. The anti-reflective layers are removed using a fluid.

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Номер записи: 9
31-08-2017 дата публикации

TOUCH PANEL STACKUP

Номер: US20170249034A1
Автор: Chen-Yu Liu, Cheng-Ping Liu, LIU CHEN-YU, LIU CHENG-PING, Liu Chen-Yu, Liu Cheng-Ping
Принадлежит:

A touch panel stackup comprises a substrate having a substantially transparent first region and a substantially opaque second region, a sensing electrode detecting a tactile signal, a conductive circuit electrically coupled with the sensing electrode, and a masking element configured on the second region of the substrate, wherein the sensing electrode, the conductive circuit, and the masking element are integrally formed on the substrate.

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Номер записи: 10
03-01-2017 дата публикации

Touch display comprising a polarizer with integrated nano-silver touch electrodes and method for manufacturing the same

Номер: US0009535524B2
Автор: Chen-Yu Liu, Li-Wei Kung, Hsi-Chien Lin, Hong-Siang Shao, LIU CHEN-YU, KUNG LI-WEI, LIN HSI-CHIEN, SHAO HONG-SIANG, Liu Chen-Yu, Kung Li-Wei, Lin Hsi-Chien, Shao Hong-Siang
Принадлежит: TPK Touch Solutions Inc., TPK TOUCH SOLUTIONS INC

A touch display is disclosed including a display module, a polarizer disposed on the display module, and a plurality of touch electrodes at least partly coated on the polarizer, wherein the touch electrodes are formed by nano-silver. Since the touch electrodes formed by nano-silver is employed in the display, a multifunctional touch display is provided. A method for making the touch display is also disclosed.

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Номер записи: 11
04-10-2016 дата публикации

Electrode pattern structure of a capacitive touch panel and method of manufacturing the same

Номер: US0009459735B2
Автор: Chen-Yu Liu, Lu-Hsing Lee, LIU CHEN-YU, LEE LU-HSING, Liu Chen-Yu, Lee Lu-Hsing
Принадлежит: TPK TOUCH SOLUTIONS INC., LIU CHEN-YU, LEE LU-HSING, TPK TOUCH SOLUTIONS INC, Liu Chen-Yu, Lee Lu-Hsing

An electrode pattern structure of a capacitive touch panel is provided. The electrode pattern structure of a capacitive touch panel of the present invention, in one embodiment, comprises a substrate, at least one first electrode disposed on said substrate, an insulator disposed on said at least one first electrode, at least one second electrode disposed on said insulator and overlapped with said at least one first electrode at least one intersection, and at least one protective block located on said at least one second electrode and positioned at said at least one intersection.

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Номер записи: 12
27-03-2018 дата публикации

Developer for lithography

Номер: US9927707B2
Автор: LIU CHEN-YU, CHANG CHING-YU, LIN CHIN-HSIANG, Liu Chen-Yu, Chang Ching-Yu, Lin Chin-Hsiang
Принадлежит: TAIWAN SEMICONDUCTOR MFG CO LTD, Taiwan Semiconductor Manufacturing Company, Ltd., TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.

A method for lithography patterning includes forming a material layer over a substrate; exposing a portion of the material layer to a radiation; and removing the exposed portion of the material layer in a developer, resulting in a patterned material layer. The developer comprises water, an organic solvent, and a basic solute. In an embodiment, the basic solute is less than 30% of the developer by weight.

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Номер записи: 13
11-07-2017 дата публикации

Silicon-based middle layer composition

Номер: US0009704711B2
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит: Taiwan Semiconductor Manufacturing Company, Ltd., TAIWAN SEMICONDUCTOR MFG CO LTD

A method of making a semiconductor device is provided. The method includes forming a first material layer that includes a silicon-based component having an alkyl group on a substrate, forming a photoresist layer directly on the material layer, and exposing the photoresist layer to a radiation source.

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Номер записи: 14
09-03-2017 дата публикации

Conformal Middle Layer For A Lithography Process

Номер: US20170069496A1
Автор: Chen-Yu Liu, Ching-Yu Chang, Ming-Hui Weng, LIU CHEN-YU, CHANG CHING-YU, WENG MING-HUI, Liu Chen-Yu, Chang Ching-Yu, Weng Ming-Hui
Принадлежит:

A method includes performing a first polymerization process on a monomer solution to form a partially processed resin solution, the partially processed resin solution comprising a solvent and a silicon-based resin, spin coating the partially processed resin solution on a substrate, and performing a second polymerization process on the partially processed resin solution to shrink the partially processed resin solution to form a conformal silicon-based resin layer. 1. A method comprising:performing a first polymerization process on a monomer solution to form a partially processed resin solution, the partially processed resin solution comprising a solvent and a silicon-based resin;spin coating the partially processed resin solution on a substrate; andperforming a second polymerization process on the partially processed resin solution to shrink the partially processed resin solution to form a conformal silicon-based resin layer.2. The method of claim 1 , wherein the monomer solution includes first-type monomers that each have four cross-linkable sides; anda percentage of the first-type monomers over total monomers in the monomer solution is greater than 50 percent.3. The method of claim 1 , wherein variation of thickness of the silicon-based resin layer does not exceed about 15 percent.4. The method of claim 1 , wherein the silicon-based resin layer comprises a siloxane material.5. The method of claim 1 , wherein a molecular weight of polymers within the partially processed resin solution is less than 2000.6. The method of claim 5 , wherein the molecular weight of the polymers within the silicon-based resin layer is greater than 3000 after the second polymerization process.7. The method of claim 1 , wherein the solvent has a boiling point that is greater than 150 degrees Celsius.8. The method of claim 1 , wherein the solvent comprises an organic solvent and water.9. The method of claim 8 , wherein a ratio of water to organic solvent in volume is less than 30 percent.10. ...

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Номер записи: 15
12-09-2017 дата публикации

Touch panel and a manufacturing method thereof

Номер: US0009760164B2
Автор: Chen-Yu Liu, Li-Wei Kung, Hsi-Chien Lin, LIU CHEN-YU, KUNG LI-WEI, LIN HSI-CHIEN, Liu Chen-Yu, Kung Li-Wei, Lin Hsi-Chien
Принадлежит: TPK Touch Solutions Inc., TPK TOUCH SOLUTIONS INC

Present invention discloses a touch panel and a manufacturing method thereof, the touch panel comprises: a substrate; a silver nano-wire electrode layer provided on the substrate comprising a connecting area and a non-connecting area; a first protective layer provided on silver nano-wire electrode layer having a first hole corresponding to connecting area; a second protective layer provided on first protective layer having a second hole corresponding to position of first hole; and a connecting wire provided on second protective layer connected to silver nano-wire electrode layer in connecting area through second hole and first hole. With the touch panel, the problem that etching solution can't seep when a single protective layer is too thick and the problem that a silver nano-wire layer is easily oxidized and the adhesion of the silver nano-wire layer is poor when a single protective layer is too thin can be avoided.

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Номер записи: 16
09-05-2017 дата публикации

Touch display device and manufacturing method thereof

Номер: US0009647040B2
Автор: Chen-Yu Liu, LIU CHEN-YU, Liu Chen-Yu
Принадлежит: TPK TOUCH SOLUTIONS INC., LIU CHEN-YU, TPK TOUCH SOLUTIONS INC, Liu Chen-Yu

The present invention discloses a touch display device and a manufacturing method thereof, the display device comprising: an OLED display layer disposed on a lower substrate; an upper substrate; an air layer formed between the upper substrate and the lower substrate; and a touch module, disposed above the OLED display layer, wherein the touch module comprises: a first sensing circuit layer and a second sensing circuit layer, further wherein the first sensing circuit layer and the second sensing circuit layer are spaced and the distance between them is more than 2 μm. The display device can reduce interference in detection circuit caused by coupling capacitance formed between the sensing circuit layers thereby improving accuracy of touch detection.

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Номер записи: 17
13-06-2017 дата публикации

Photoacid generator bound to floating additive polymer

Номер: US0009678422B2
Автор: Ching-Yu Chang, Chen-Yu Liu, CHANG CHING-YU, LIU CHEN-YU, Chang Ching-Yu, Liu Chen-Yu
Принадлежит: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD., TAIWAN SEMICONDUCTOR MFG CO LTD, Taiwan Semiconductor Manufacturing Company, Ltd.

Methods and materials for making a semiconductor device are described. The method includes providing a substrate, forming a middle layer comprising a floating additive polymer (FAP) at an upper surface of the middle layer, the FAP chemically bound to a photoacid generator (PAG) and including a fluorine-containing material over the substrate, forming a photoresist layer over the middle layer, exposing the photoresist layer and the middle layer to an exposure energy to produce acid bound to the middle layer in the exposed areas of the middle layer, and developing the photoresist layer.

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Номер записи: 18
10-01-2017 дата публикации

Photoresist and method of manufacture

Номер: US0009543147B2
Автор: Chen-Yu Liu, Ching-Yu Chang, Chien-Chih Chen, Yen-Hao Chen, LIU CHEN-YU, CHANG CHING-YU, CHEN CHIEN-CHIH, CHEN YEN-HAO, Liu Chen-Yu, Chang Ching-Yu, Chen Chien-Chih, Chen Yen-Hao
Принадлежит: Taiwan Semiconductor Manufacturing Company, Ltd., TAIWAN SEMICONDUCTOR MFG CO LTD

A system and method for anti-reflective layers is provided. In an embodiment the anti-reflective layer comprises a floating additive in order to form a floating additive region along a top surface of the anti-reflective layer after the anti-reflective layer has dispersed. The floating additive may comprise an additive group which will decompose along with a fluorine unit bonded to the additive group which will decompose. Additionally, adhesion between the middle layer and the photoresist may be increased by applying an adhesion promotion layer using either a deposition process or phase separation, or a cross-linking may be performed between the middle layer and the photoresist.

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Номер записи: 19
14-02-2017 дата публикации

Capacitive touch panel

Номер: US9569039B2
Автор: LIU CHEN-YU, HO KWAN-SIN, Liu Chen-Yu, Ho Kwan-Sin
Принадлежит: TPK TOUCH SOLUTIONS INC, TPK TOUCH SOLUTIONS INC.

An integrally-formed capacitive touch panel is disclosed including: a singular lens substrate, a mask layer, and a sensing circuit integrally coupled with said singular lens substrate. Said singular lens substrate, said mask layer, and said sensing circuit are integrally formed.

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Номер записи: 20
27-04-2017 дата публикации

TOUCH DISPLAY AND METHOD FOR MANUFACTURING THE SAME

Номер: US20170115787A1
Автор: Chen-Yu Liu, Li-Wei Kung, JR., Hsi-Chien Lin, Hong-Siang Shao, LIU CHEN-YU, KUNG JR LI-WEI, LIN HSI-CHIEN, SHAO HONG-SIANG, Liu Chen-Yu, Kung, JR. Li-Wei, Lin Hsi-Chien, Shao Hong-Siang
Принадлежит:

A touch display is disclosed including a display module, a polarizer disposed on the display module, and a plurality of touch electrodes at least partly coated on the polarizer, wherein the touch electrodes are formed by nano-silver. Since the touch electrodes formed by nano-silver is employed in the display, a multifunctional touch display is provided. A method for making the touch display is also disclosed. 1. A touch display , comprising:a display module; the polarizer comprises a first protective layer, a polarizer substrate, and a second protective layer, and', 'the polarizer substrate is sandwiched between the first protective layer and the second protective layer; and, 'a polarizer disposed on the display module, whereina plurality of nano-silver touch electrodes totally or partially integrated with the polarizer, wherein at least one of the plurality of nano-silver touch electrodes is disposed between the first protective layer and the polarizer substrate or between the second protective layer and the polarizer substrate.2. The touch display according to claim 1 , wherein:the plurality of nano-silver touch electrodes comprises a plurality of first touch electrodes arranged in parallel along a first direction and a plurality of second touch electrodes arranged in parallel along a second direction different than the first direction,the plurality of first touch electrodes are disposed on the first protective layer,the plurality of second touch electrodes are disposed on the second protective layer, andthe plurality of first touch electrodes and the plurality of second touch electrodes are electrically insulated from each other via the polarizer substrate.3. The touch display according to claim 3 , wherein the plurality of first touch electrodes are disposed between the first protective layer and the polarizer substrate.4. The touch display according to claim 3 , wherein the plurality of second touch electrodes are disposed between the second protective layer ...

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Номер записи: 21
09-05-2017 дата публикации

Organic light emitting diode (OLED) touch display device

Номер: US0009647041B2
Автор: Chen-Yu Liu, Li-Wei Kung, Hsi-Chien Lin, LIU CHEN-YU, KUNG LI-WEI, LIN HSI-CHIEN, Liu Chen-Yu, Kung Li-Wei, Lin Hsi-Chien
Принадлежит: TPK Touch Solutions Inc., TPK TOUCH SOLUTIONS INC

An OLED touch display device includes an OLED display and a laminated package component. The laminated package component covers the OLED display and includes a quarter-wave plate, a liquid crystal polarizer and a touch sensor unit. The touch sensor unit is a single-layer electrode structure.

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Номер записи: 22
19-09-2017 дата публикации

Advanced cross-linkable layer over a substrate

Номер: US9768022B2
Автор: WENG MING-HUEI, LIU CHEN-YU, CHANG CHING-YU, Weng Ming-Huei, Liu Chen-Yu, Chang Ching-Yu
Принадлежит: TAIWAN SEMICONDUCTOR MFG CO LTD, Taiwan Semiconductor Manufacturing Co., Ltd., Taiwan Semiconductor Manufacturing Company, Ltd.

A lithography method is provided in accordance with some embodiments. The lithography method includes providing a substrate, forming a crosslinked layer over the substrate, wherein the crosslinked layer is in contact with the substrate, forming a patterned layer over the crosslinked layer, forming a pattern in the crosslinked layer and further in the substrate by using the patterned layer as a mask, treating the crosslinked layer by using a radiation source to transition the crosslinked layer to a de-crosslinked layer with a reduced molecular weight, and removing the de-crosslinked layer by using a solution that is not subject to cause damage on the substrate.

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Номер записи: 23
13-02-2018 дата публикации

Extreme ultraviolet lithography with reduced exposure dose and negative tone development

Номер: US0009891528B2
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN YU, CHANG CHING YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD., TAIWAN SEMICONDUCTOR MFG CO LTD, Taiwan Semiconductor Manufacturing Co., Ltd.

A method of lithography patterning includes forming a resist layer over a substrate and providing a radiation with a first exposure dose to define an opening to be formed in the resist layer. The opening is to have a target critical dimension CD1 after developed by a negativ-tone development (NTD) process. The method further includes exposing the resist layer to the radiation with a second exposure dose less than the first exposure dose and developing the resist layer in a negative-tone development process to remove unexposed portions of the resist layer, resulting in an opening between resist patterns. A critical dimension CD2 of the opening is greater than CD1 by a delta. The method further includes forming an interfacial layer on sidewalls of the resist patterns. The interfacial layer has a thickness that is substantially equal to half of the delta.

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Номер записи: 24
29-09-2016 дата публикации

SILICON-BASED MIDDLE LAYER COMPOSITION

Номер: US20160284537A1
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит:

A method of making a semiconductor device is provided. The method includes forming a first material layer that includes a silicon-based component having an alkyl group on a substrate, forming a photoresist layer directly on the material layer, and exposing the photoresist layer to a radiation source.

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Номер записи: 25
22-11-2016 дата публикации

Photoresist layer and method

Номер: US0009502231B2
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит: Taiwan Semiconductor Manufacturing Company, Ltd., TAIWAN SEMICONDUCTOR MFG CO LTD

A system and method for middle layers is provided. In an embodiment the middle layer comprises a floating component in order to form a floating region along a top surface of the middle layer after the middle layer has dispersed. The floating component may be a polymer with a floating group incorporated into the polymer. The floating group may comprise a fluorine atom.

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Номер записи: 26
20-10-2016 дата публикации

CLEANING COMPOSITION AND METHODS THEREOF

Номер: US20160307746A1
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит:

Provided is a cleaning solution and its applications. The cleaning solution comprises a mixture of a basic chemical compound and a solvent solution. In some embodiments, the basic chemical compound is tetramethylammonium hydroxide (TMAH) and the solvent solution includes a solution of water and at least one of propylene glycol ethyl ether (PGEE), propylene glycol monomethylether (PGME), and propylene glycol monomethylether acetate (PGMEA). The cleaning solution is effective in removing silicon-containing material off a surface of a system or a surface of a semiconductor substrate. In some embodiments, the system comprises a pipeline for delivering the silicon-containing material in semiconductor spin-coating processes. In some embodiments, the system comprises a drain for collecting waste fluid in semiconductor spin-coating processes. In some embodiments, the silicon-containing material has a first pH value, the cleaning solution has a second pH value, and the silicon-containing material ...

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Номер записи: 27
02-05-2017 дата публикации

Organic light-emitting diode display and fabrication method thereof

Номер: US0009640590B2
Автор: Chen-Yu Liu, Hung-Chieh Lu, Hsi-Chien Lin, LIU CHEN-YU, LU HUNG-CHIEH, LIN HSI-CHIEN, Liu Chen-Yu, Lu Hung-Chieh, Lin Hsi-Chien
Принадлежит: TPK Touch Solutions Inc., TPK TOUCH SOLUTIONS INC

An organic light-emitting diode (OLED) display and fabrication method thereof are provided. The OLED display includes an organic light-emitting layer comprising a plurality of primary color regions and a plurality of mixed color regions, wherein the primary color regions and the mixed color regions have the same light emitting direction. A color shift prevention layer is disposed above or under the organic light-emitting layer, the color shift prevention layer comprising a plurality of opaque patterns disposed on the light emitting direction of the corresponding mixed color regions. The color shift prevention layer incorporated in the OLED display is able to block the mixed light emitted from the mixed color regions of the organic light-emitting layer. Therefore, the color shift problem can be solved.

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Номер записи: 28
26-09-2017 дата публикации

Wireless detection and control device, and lighting device having the same

Номер: US0009775222B1
Автор: Po-Yen Chen, Ta-Sheng Hung, Chen-Yu Liu, CHEN PO-YEN, HUNG TA-SHENG, LIU CHEN-YU, Chen Po-Yen, Hung Ta-Sheng, Liu Chen-Yu
Принадлежит: HEP TECH CO., LTD., HEP TECH CO LTD

A wireless detection and control device is provided, which is applicable a lighting device, and may include a first connection interface, a processing module, a detection module and a control module. The first connection interface may be detachably coupled to the power conversion module of the lighting device. The processing module may be coupled to the first connection interface. The detection module may include two second connection interfaces, and be detachably coupled to the processing module via one of the second connection interfaces; the detection module may detect the change of the surrounding environment to generate a detection signal. The control module may be detachably coupled to the processing module. The detection module may transmit the detection signal to the power conversion module, or transmit the detection signal to the control module for the control module to generate a control signal accordingly so as to control a controlled device.

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Номер записи: 29
14-02-2017 дата публикации

Capacitive touch panel

Номер: US9569040B2
Автор: LIU CHEN-YU, HO KWAN-SIN, Liu Chen-Yu, Ho Kwan-Sin
Принадлежит: TPK TOUCH SOLUTIONS INC, TPK TOUCH SOLUTIONS INC.

An integrally-formed capacitive touch panel is disclosed including: a singular lens substrate, a mask layer, and a sensing circuit integrally coupled with said singular lens substrate. Said singular lens substrate, said mask layer, and said sensing circuit are integrally formed.

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Номер записи: 30
02-01-2018 дата публикации

Touch panel and manufacturing method thereof

Номер: US0009857922B2
Автор: Chen-Yu Liu, Lu-Hsing Lee, LIU CHEN-YU, LEE LU-HSING, Liu Chen-Yu, Lee Lu-Hsing
Принадлежит: TPK Touch Solutions Inc., TPK TOUCH SOLUTIONS INC

A touch panel is partitioned into a sensing region and a circuit region and the circuit region is positioned around the edges of the sensing region. The touch panel comprises an electrode layer, a first wire layer, a second wire layer and an insulating layer. The electrode layer is disposed in the sensing region. The first wire layer is disposed in the circuit region and electrically connects to the electrode layer. The second wire layer electrically connects to the first wire layer in the circuit region. The insulating layer has a portion being disposed between the first wire layer and the second wire layer in the circuit, and has a plurality of first through holes wherein the first wire layer electrically connects to the second wire layer through the first through holes. The present disclosure also provides a method of manufacturing a touch panel.

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Номер записи: 31
15-08-2017 дата публикации

Touch panel and method for forming a touch structure

Номер: US0009733749B2
Автор: Chen-Yu Liu, Lu-Hsing Lee, LIU CHEN-YU, LEE LU-HSING, Liu Chen-Yu, Lee Lu-Hsing
Принадлежит: TPK Touch Solutions Inc., TPK TOUCH SOLUTIONS INC

A manufacturing process for forming a touch structure utilizes a first anti-etching optical layer to define the electrodes pattern and utilizes a second anti-etching optical layer to define the traces pattern. The first anti-etching optical layer and the second anti-etching optical layer do not need to be removed. The refractive index of the first anti-etching optical layer and the refractive index of the second anti-etching optical layer can be adjusted to reduce the display difference between the etched region and the non-etched region.

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Номер записи: 32
10-01-2017 дата публикации

Touch module and manufacturing method thereof

Номер: US0009542054B2
Автор: Chen-Yu Liu, Lu-Hsing Lee, Cheng-Chieh Chang, Huai-San Ku, LIU CHEN-YU, LEE LU-HSING, CHANG CHENG-CHIEH, KU HUAI-SAN, Liu Chen-Yu, Lee Lu-Hsing, Chang Cheng-Chieh, Ku Huai-San
Принадлежит: TPK Touch Solutions Inc., TPK TOUCH SOLUTIONS INC

A touch module and a manufacturing method thereof are disclosed. The touch module includes a substrate, at least two first touch electrodes, at least two second touch electrodes, at least one conductive residual material, at least one electrode channel, and at least one bridge. The substrate has a first surface and a second surface. The first surface and the second surface are opposite to each other. The conductive residual material is formed on the second surface of the substrate. All of the first touch electrodes, the second touch electrodes, and the electrode channel are embedded in the substrate. The electrode channel is configured to electrically connect the second touch electrodes to each other. The bridge is disposed on the first surface of the substrate, and configured to electrically connect the first touch electrodes to each other. The first touch electrodes are isolated from the second touch electrodes.

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Номер записи: 33
02-03-2017 дата публикации

Developer for Lithography

Номер: US20170059993A1
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит:

A method for lithography patterning includes forming a material layer over a substrate; exposing a portion of the material layer to a radiation; and removing the exposed portion of the material layer in a developer, resulting in a patterned material layer. The developer comprises an organic solvent and a basic solute, wherein the organic solvent is more than 50% of the developer by weight. In an embodiment, the developer further comprises water that is less than 50% of the developer by weight. 1. A method for lithography patterning , comprising:forming a material layer over a substrate;exposing a portion of the material layer to a radiation; andremoving the exposed portion of the material layer in a positive tone developer, resulting in a patterned material layer, wherein the positive tone developer comprises an organic solvent and a basic solute, and wherein the organic solvent is more than 50% of the positive tone developer by weight.2. The method of claim 1 , wherein the positive tone developer further comprises water that is less than 50% of the positive tone developer by weight.3. The method of claim 1 , wherein the basic solute is less than 30% of the positive tone developer by weight.4. The method of claim 1 , wherein the organic solvent includes one of: an OH functional group claim 1 , an NH functional group claim 1 , an NHfunctional group claim 1 , an SH functional group claim 1 , an OMe functional group claim 1 , and an OEt functional group.5. The method of claim 1 , wherein the organic solvent has a molecular weight (Mw) less than 300.6. The method of claim 1 , wherein the organic solvent is one of: ethylene glycol claim 1 , diethylene glycol claim 1 , and propylene glycol.7. The method of claim 1 , wherein the basic solute is: an ionic base claim 1 , a non-ionic base claim 1 , or a combination thereof.8. The method of claim 1 , wherein the basic solute is an ionic base containing OHions.9. The method of claim 1 , wherein the basic solute is an ionic base ...

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Номер записи: 34
15-08-2017 дата публикации

Touch-sensing circuit structure for a capacitive touch panel

Номер: US0009733766B2
Автор: Chen-Yu Liu, Ching-Yi Wang, LIU CHEN-YU, WANG CHING-YI, Liu Chen-Yu, Wang Ching-Yi
Принадлежит: TPK Touch Solutions (Xiamen) Inc., LIU CHEN-YU, WANG CHING-YI, TPK TOUCH SOLUTIONS (XIAMEN) INC, Liu Chen-Yu, Wang Ching-Yi

A circuit structure for capacitive touch panel is disclosed herein. The circuit structure for capacitive touch panel includes a plurality of metal leads and a plurality of electrode sensing blocks. Those electrode sensing blocks are isolated to each other and electrically connected to the metal leads. The electrode sensing blocks will output a plurality of capacitive signals in accordance with a plurality of touch positions. According to the electrode pattern structure described above, the impedance of the electrode structure can be decreased and the efficiency of the signal transmission can be improved and the sensibility of the touch panel can be increased.

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Номер записи: 35
27-04-2017 дата публикации

TOUCH PANEL

Номер: US20170115764A1
Автор: Chen-Yu Liu, Li-Wei Kung, JR., Hsi-Chien Lin, LIU CHEN-YU, KUNG JR LI-WEI, LIN HSI-CHIEN, Liu Chen-Yu, Kung, JR. Li-Wei, Lin Hsi-Chien
Принадлежит:

The present invention provides a touch panel, including a lower substrate, an organic light-emitting component, disposed on the lower substrate, a nano silver sensing layer, disposed on the organic light emitting component, and an upper substrate, disposed on the nano silver sensing layer. 1. A touch panel , comprising:a lower substrate;an organic light-emitting component disposed on the lower substrate;a nano silver sensing layer disposed on the organic light emitting component; andan upper substrate disposed on the nano silver sensing layer.2. The touch panel of claim 1 , wherein the nano silver sensing layer comprises:a third insulating layer disposed on the organic light emitting component, wherein the third insulating layer has a lower surface facing the organic light emitting component and an upper surface facing away from the organic light emitting component;a first nano silver electrode layer disposed on the lower surface of the third insulating layer; anda second nano silver electrode layer disposed on the upper surface of the third insulating layer.3. The touch panel of claim 2 , wherein the third insulating layer is composed of flexible materials claim 2 , and the flexible materials are selected from the group consisting of epoxy claim 2 , modified epoxy claim 2 , polyester claim 2 , acrylic claim 2 , fluorocarbon polymers claim 2 , polyphenylene oxide claim 2 , polyimide claim 2 , phenolic resins claim 2 , polysulfones claim 2 , silicone-polymer resin claim 2 , BT resin claim 2 , cyanate poly polyethylene claim 2 , polycarbonate resin claim 2 , acrylonitrile-butadiene-styrene copolymer claim 2 , polyethylene terephthalate claim 2 , polyethylene terephthalate claim 2 , polybutylene terephthalate claim 2 , liquid crystal polymers claim 2 , polyamides claim 2 , nylon 6 claim 2 , copolymerized formaldehyde claim 2 , polyphenylene sulfide and cyclic olefin copolymer.4. The touch panel of claim 2 , further comprising a transparent adhesion layer disposed ...

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Номер записи: 36
01-11-2016 дата публикации

Method for assembling a touch control display apparatus and the touch control display apparatus

Номер: US0009483088B2
Автор: Shih-Ming Yang, Wen-Yuan Liao, Chen-Yu Liu, Yu-Yi Chen, Chun-Ming Wu, Jen-Hao Liu, YANG SHIH-MING, LIAO WEN-YUAN, LIU CHEN-YU, CHEN YU-YI, WU CHUN-MING, LIU JEN-HAO, Yang Shih-Ming, Liao Wen-Yuan, Liu Chen-Yu, Chen Yu-Yi, Wu Chun-Ming, Liu Jen-Hao
Принадлежит: Wistron Corporation, WISTRON CORP

A method for assembling a touch control display apparatus includes: mounting a frame member to an assembly surface of a touch control panel; fixing a display panel to one of the frame member and the assembly surface of the touch control panel such that a display surface of the display panel faces the touch control panel; mounting at least one electronic component on a section of the frame member that is not covered by the display panel; and coupling a bottom case to the frame member for enclosing the display panel and the at least one electronic component.

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Номер записи: 37
16-05-2017 дата публикации

Touch panel stackup

Номер: US0009652089B2
Автор: Chen-Yu Liu, Cheng-Ping Liu, LIU CHEN-YU, LIU CHENG-PING, Liu Chen-Yu, Liu Cheng-Ping
Принадлежит: TPK TOUCH SOLUTIONS INC., LIU CHEN-YU, LIU CHENG-PING, TPK TOUCH SOLUTIONS INC, Liu Chen-Yu, Liu Cheng-Ping

A touch panel stackup comprises a substrate having a substantially transparent first region and a substantially opaque second region, a sensing electrode detecting a tactile signal, a conductive circuit electrically coupled with the sensing electrode, and a masking element configured on the second region of the substrate, wherein the sensing electrode, the conductive circuit, and the masking element are integrally formed on the substrate.

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Номер записи: 38
28-02-2017 дата публикации

Cleaning composition and method for semiconductor device fabrication

Номер: US0009580672B2
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит: Taiwan Semiconductor Manufacturing Company, Ltd., TAIWAN SEMICONDUCTOR MFG CO LTD, TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.

Provided is a cleaning composition and its applications. The cleaning composition comprises a mixture of a halogen-containing compound and an organic solvent. In some embodiments, the halogen-containing compound is TetraButylAmmonium Fluoride (TBAF) and the organic solvent is either propylene glycol monomethylether acetate (PGMEA) or a mixture of PGMEA and propylene glycol monomethylether (PGME). The cleaning composition is effective in removing silicon-containing material off of a surface of an apparatus. In some embodiments, the apparatus comprises a pipeline for delivering the silicon-containing material in semiconductor spin-coating processes. In some embodiments, the apparatus comprises a drain for collecting waste fluid in semiconductor spin-coating processes. In some embodiments, the apparatus comprises a patterned substrate.

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Номер записи: 39
26-12-2017 дата публикации

Materials and methods for improved photoresist performance

Номер: US0009851636B2
Автор: Chen-Yu Liu, Ching-Yu Chang, LIU CHEN-YU, CHANG CHING-YU, Liu Chen-Yu, Chang Ching-Yu
Принадлежит: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD., LIU CHEN-YU, CHANG CHING-YU, TAIWAN SEMICONDUCTOR MFG CO LTD, Liu Chen-Yu, Chang Ching-Yu

A photosensitive material and methods of making a pattern on a substrate are disclosed. The photosensitive material includes a polymer that turns soluble to a developer solution after a chemically amplified reaction, and at least one chemical complex having a single diffusion length. The material includes at least one photo-acid generator (PAG) linked to at least one photo decomposable base (PDB) or quencher.

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Номер записи: 40
19-01-2012 дата публикации

CIRCUIT STRUCTURE FOR A CAPACITIVE TOUCH PANEL

Номер: US20120012450A1
Автор: Liu Chen-Yu, Wang Ching-Yi
Принадлежит:

A circuit structure for capacitive touch panel is disclosed herein. The circuit structure for capacitive touch panel includes a plurality of metal leads and a plurality of electrode sensing blocks. Those electrode sensing blocks are isolated to each other and electrically connected to the metal leads. The electrode sensing blocks will output a plurality of capacitive signals in accordance with a plurality of touch positions. According to the electrode pattern structure described above, the impedance of the electrode structure can be decreased and the efficiency of the signal transmission can be improved and the sensibility of the touch panel can be increased. 1. A circuit structure for capacitive touch panel , comprising: at least one metal lead; and', 'a plurality of electrode sensing blocks, and said electrode sensing blocks are electrically isolated to each other respectively and electrically connected to said metal leads, and output a capacitive signal in accordance with at least one touch position., 'at least one sensing electrode group, and said sensing electrode group includes2. The circuit structure of claim 1 , further comprising a plurality of intervals claim 1 , and each of said intervals is disposed between two of said electrode sensing blocks and includes an equal distance.3. The circuit structure of claim 2 , wherein the area in each of said electrode sensing block is the same and said circuit structure outputs said capacitive signal in accordance with the area of said electrode sensing block covered by said touch position.4. The circuit structure of claim 2 , wherein the area of each of said electrode sensing block is different and said circuit structure outputs said capacitive signal in accordance with the area of said electrode sensing block covered by said touch position.5. The circuit structure of claim 1 , further comprising a plurality of intervals claim 1 , and each of said intervals is disposed between two of said electrode sensing blocks and ...

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Номер записи: 41
19-01-2012 дата публикации

PRESSURE SENSITIVE TOUCH CONTROL DEVICE

Номер: US20120013573A1
Автор: Liu Chen-Yu, Wang Ching-Yi
Принадлежит: TPK TOUCH SOLUTIONS INC.

A pressure detectable touch device includes a first substrate, a conductive layer formed on the first substrate, a second substrate, a first electrode pattern, a second electrode pattern, and a microprocessor. When a user touches a touch operation surface of the touch device in such an extent that the conductive layer and the first electrode pattern are not put into physical contact with each other, the touch device is set in a capacitive touch position detection mode. When the user forcibly depresses the touch operation surface of the touch device or carries out a hand writing input operation on the touch operation surface of the touch device, the conductive layer is caused to physically engage the first electrode pattern, setting the touch device in a resistive touch position detection mode. 2. The pressure detectable touch device as claimed in claim 1 , wherein the first electrode pattern and the second electrode pattern each comprises a plurality of strip-like electrodes that are parallel to and spaced from each other.3. The pressure detectable touch device as claimed in claim 2 , wherein the strip-like electrodes of the first electrode pattern are connected to the microprocessor via a first scanning circuit and wherein the strip-like electrodes of the second electrode pattern are connected to the microprocessor via a second scanning circuit.4. The pressure detectable touch device as claimed in claim 2 , wherein the microprocessor supplies the driving voltage to the conductive layer through a driving voltage supply circuit.5. A pressure detectable touch device claim 2 , comprising:a first substrate, which comprises a conductive layer bonding surface and a touch operation surface;a conductive layer, which is formed on the conductive layer bonding surface of the first substrate;a second substrate, which comprises an electrode pattern bonding surface;a first electrode pattern, which is set below the conductive layer and provides a first predetermined distance from ...

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Номер записи: 42
12-04-2012 дата публикации

INTEGRATED TOUCH CONTROL DEVICE

Номер: US20120086668A1
Автор: Liu Chen-Yu, Wang Ching-Yi
Принадлежит:

A touch device integrated with capacitive and resistive sensing operation includes a first substrate on which a first electrode pattern is formed and a second substrate on which a second electrode pattern is formed. The first and second electrode patterns are respectively connected to a microprocessor via a first scanning circuit and a second scanning circuit. When a user slightly touches a touch operation surface of the touch device, the touch device is set in a capacitive touch position detection mode. When the user forcibly depresses the touch operation surface of the touch device or carries out a hand writing input operation on the touch operation surface of the touch device, the touch device is set in a resistive touch position detection mode. 1. A touch detecting device comprising:a first substrate, comprising a first electrode bonding surface and a touch operation surface;a first electrode pattern, formed on the first electrode bonding surface of the first substrate;a second substrate comprising a second electrode bonding surface, wherein the second substrate is arranged at a location opposing the first substrate, further wherein the second electrode bonding surface faces the first electrode bonding surfacea second electrode pattern, formed on the second electrode bonding surface of the second substrate, wherein the second electrode pattern opposes the first electrode pattern; anda microprocessor electrically connected to the first electrode pattern and the second electrode pattern;wherein the touch device is set in a capacitive touch position detection mode when the touching object slightly touches the touch operation surface and the touch device is set in a resistive touch position detection mode when the touching object forcibly depresses the touch operation surface.2. The touch device as claimed in claim 1 , wherein each of the first electrode pattern and the second electrode pattern comprise a plurality of strip-like electrodes that are parallel to and ...

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Номер записи: 43
03-05-2012 дата публикации

STRUCTURAL AND MECHANISTIC BASIS FOR NOVEL COMPOUND BIOSYNTHESIS USING THE 4-ELECTRON HEXOSE OXIDASE

Номер: US20120108498A1
Автор: Li Tsung-Lin, Li Yi-Shan, Liu Yu-Chen, Lyu Syue-Yi
Принадлежит: Academia Sinica

A novel pharmaceutical composition comprising a compound of formula (I) is disclosed. The novel compound can include a pharmaceutically acceptable carrier. The invention further comprises methods for making compounds of formula (I) using Dbv29, and to the use of compound of formula (I) to treat bacterial infections. 2. The compound of claim 1 , wherein Ris C-Calkyl;3. The compound of claim 1 , wherein Ris one of the following: (CH)CH(CH); CH(CH); CH(CH); CH(CH)or CH(CH).4. The compound of claim 1 , wherein Ris one of the following: phenyl claim 1 , benzyl claim 1 , C-Calkyl or C-Calkyne.5. The compound of claim 1 , wherein Ris one of the following: (CH)CH claim 1 , (CH)CHor CHHC≡CH.6. The compound of claim 1 , wherein Ris one of the following: benzyl claim 1 , (CH)CH claim 1 , (CH)CH claim 1 , admantyl claim 1 , admantyl-CH claim 1 , CH—HC≡CH or (CH)N.7. The compound of claim 1 , wherein Ris (CH)CH(CH)and Ris CH—NH—CH—CH.9. The pharmaceutical composition of claim 8 , wherein Ris C-Calkyl.10. The pharmaceutical composition of claim 8 , wherein Ris one of the following: (CH)CH(CH); CH(CH); CH(CH); CH(CH)or CH(CH).11. The pharmaceutical composition of claim 8 , wherein Ris one of the following: phenyl claim 8 , benzyl claim 8 , C-Calkyl or C-Calkyne.12. The pharmaceutical composition of claim 8 , wherein Ris one of the following: (CH)CH claim 8 , (CH)CHor CHHC≡CH.13. The pharmaceutical composition of claim 8 , wherein Ris one of the following: benzyl claim 8 , (CH)CH claim 8 , (CH)CH claim 8 , admantyl claim 8 , admantyl-CH claim 8 , CH—HC≡CH and (CH)N.14. The pharmaceutical composition of claim 8 , wherein Ris (CH)CH(CH)and Ris CH—NH—CH—CH.15. A method of making compound of formula (I) claim 8 , comprising the steps of:(a) binding teicoplanin to Dbv29; and(b) incubating the mixture (a).16. The method according to claim 15 , wherein the incubation temperature is about 30° C. to about 40° C. claim 15 , and preferably about 37° C.17. The method according to claim 15 , ...

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Номер записи: 44
10-05-2012 дата публикации

TOUCH PANEL DEVICE

Номер: US20120113021A1
Автор: Lee Lu-Hsing, Liu Chen-Yu
Принадлежит: TPK Touch Solutions, Inc.

A touch panel stackup comprises a substrate, a first conductive element having a first refractive index and forming a plurality of patterns with on or more gaps on the substrate having an address for sensing tactile signals in a first direction and a second direction, a second conductive element having a second refractive index coupled with said plurality of patterns an insulator disposed among said one or more gaps, the second refractive index being substantially the same as said first refractive index. 1. A touch panel stackup , comprising:a substrate;a first electrode having a first refractive index and forming a plurality of first patterns on the substrate for sensing tactile signals in a first direction;a second electrode having a second refractive index and forming a plurality of second patterns on the substrate for sensing tactile signals in a second direction;a first electrical wire electrically coupled with said plurality of first patterns;a second electrical wire electrically coupled with said plurality of second patterns; andan insulator placed among the first electrical wire and second electrical wire to insulate said first electrical wire from said second electrical wire, said insulator having a third refractive index substantially identical to said first and second refractive index.2. The touch panel stackup of claim 1 , wherein the refractive index of said first electrode is identical with the refractive index of said second electrode.3. The touch panel stackup of claim 1 , wherein the refractive index of said first electrical wire is identical with the refractive index of said second electrical wire.4. The touch panel stackup of claim 1 , wherein said first electrical wire and said second electrical wire are substantially opaque.5. The touch panel stackup of claim 1 , wherein said first electrical wire and said second electrical wire are substantially transparent.6. The touch panel stackup of claim 1 , wherein said insulator is substantially ...

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Номер записи: 45
24-05-2012 дата публикации

CAPACITIVE TOUCH CIRCUIT PATTERN AND MANUFACTURING METHOD THEREOF

Номер: US20120127099A1
Автор: Liu Chen-Yu, Wang Ching-Yi
Принадлежит: TPK TOUCH SOLUTIONS (XIAMEN) INC.

The present disclosure relates to a touch circuit pattern and a manufacturing method thereof. A capacitive touch circuit pattern in the present disclosure comprises a substrate, wherein at least two adjacent transparent first-axis electrode blocks, a transparent first-axis conductive wire, and at least two adjacent transparent second-axis electrode blocks are formed on the substrate. The first-axis conductive wire is formed between the two adjacent first-axis electrode blocks to connect the two adjacent first-axis electrode blocks and the two adjacent second-axis electrode blocks, respectively, at two sides of the first-axis conductive wire. The capacitive touch circuit pattern further comprises of a metal second-axis conductive wire, which stretches across the first-axis conductive wire and connects the two adjacent second-axis electrode blocks. 1. (canceled)2. A method of manufacturing a capacitive touch circuit pattern , comprising:forming two adjacent first-axis electrode blocks, a first-axis conductive wire, and two adjacent second-axis electrode blocks on surface of a substrate through a first processing; wherein the first-axis conductive wire is disposed between the two adjacent first-axis electrode blocks to connect the two adjacent first-axis electrode blocks, and the two adjacent second-axis electrode blocks are disposed respectively at two sides of the first-axis conductive wire:forming an insulation layer on the surface of the substrate to cover the first-axis conductive wire through a second processing;forming a metal second-axis conductive wire on the insulation layer to connect the two adjacent second-axis electrode blocks through a third processing to electrically insulate the first-axis conductive wire from the second-axis conductive wire to form a touch circuit pattern.3. (canceled)4. (canceled)5. The method of manufacturing a capacitive touch circuit pattern as claimed in claim 2 , wherein the insulation layer covers the two adjacent first-axis ...

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Номер записи: 46
28-06-2012 дата публикации

CAPACITIVE TOUCH PANEL

Номер: US20120162130A1
Автор: Ho Kwan-Sin, Liu Chen-Yu
Принадлежит:

An integrally-formed capacitive touch panel is disclosed including: a singular lens substrate, a mask layer, and a sensing circuit integrally coupled with said singular lens substrate. Said singular lens substrate, said mask layer, and said sensing circuit are integrally formed. 1. An integrally-formed capacitive touch panel , comprising: a singular lens substrate having a first surface for receiving touch input and a second surface; a mask layer; and a sensing circuit , wherein said sensing circuit is formed on said second surface of said singular lens substrate and said mask layer is formed on said first surface of said singular lens substrate.2. The integrally-formed capacitive touch panel of claim 1 , wherein said sensing circuit further comprises: a first sensing circuit; an insulation layer; and a second sensing circuit claim 1 , wherein said singular lens substrate claim 1 , said mask layer claim 1 , said first sensing circuit claim 1 , said insulation layer claim 1 , and said second sensing circuit are integrally formed claim 1 , and wherein said integrally-formed capacitive touch panel is capable of directly coupling with a display panel.3. The integrally-formed capacitive touch panel of claim 1 , wherein said mask layer is formed on the periphery of said first surface of said singular lens substrate.4. The integrally-formed capacitive touch panel of claim 1 , further comprising: a smooth layer between said singular lens substrate and said sensing circuit.5. The integrally-formed capacitive touch panel of claim 1 , further comprising: a shielding layer formed on the periphery of said second surface of said singular lens substrate for preventing noise signals.6. The integrally-formed capacitive touch panel of claim 1 , further comprising: an overcoat integrally formed on a surface of said sensing circuit; and an adhesive layer disposed on said overcoat.7. An integrally formed slim-type capacitive touch panel claim 1 , comprising: a singular substrate having ...

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Номер записи: 47
05-07-2012 дата публикации

DISPLAY PANEL

Номер: US20120171425A1
Автор: Chen Maw-Song, Hsu Wen-Yi, Liu Yu-Chen, Tseng Chih-Hsiao
Принадлежит: AU OPTRONICS CORPORATION

A display panel has a display region and a peripheral region that surrounds the display region. The display panel includes a first substrate, a second substrate, a display medium, and a sealant. The first substrate has a first trench in the peripheral region, and the first trench has at least one sidewall. The second substrate is located opposite to the first substrate. The display medium is located between the first substrate and the second substrate. The sealant is located in the peripheral region between the first substrate and the second substrate. Specifically, the sealant is located in the first trench, and a distance between a sidewall of the sealant and the sidewall of the first trench ranges from about 0 um to about 700 um. 1. A display panel having a display region and a peripheral region surrounding the display region , the display panel comprising:a first substrate having a first trench in the peripheral region, the first trench having at least one sidewall;a second substrate located opposite to the first substrate;a display medium located between the first substrate and the second substrate; anda sealant located in the peripheral region between the first substrate and the second substrate and located in the first trench, wherein a distance between a sidewall of the sealant and the at least one sidewall of the first trench ranges from about 0 um to about 700 um.2. The display panel as claimed in claim 1 , wherein the at least one side wall of the first trench and a bottom of the first trench have an included angle therebetween claim 1 , and the included angle ranges from about 100 degrees to about 170 degrees.3. The display panel as claimed in claim 1 , wherein the at least one sidewall of the first trench comprises a first sidewall and a second sidewall claim 1 , a distance between the sidewall of the sealant and the first sidewall ranges from about 0 um to about 700 um claim 1 , and a distance between the other sidewall of the sealant and the second ...

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Номер записи: 48
23-08-2012 дата публикации

CAPACITIVE TOUCH PANEL

Номер: US20120212448A1
Автор: Lee Ming-Shian, Liu Yu-Chen
Принадлежит:

A capacitive touch panel including a substrate, first sensing series, second sensing series, and a first insulation layer is provided. Each first sensing series is disposed on the substrate and includes first sensing electrodes and first auxiliary electrodes. Each first auxiliary electrodes has a first connection terminal connected with one of the first sensing electrodes and a first open terminal away form the correspondingly first sensing electrode. Each second sensing series is disposed on the substrate and the first sensing series and includes second sensing electrodes. The first sensing series and the second sensing series are electrically insulated with each other. An edge of each second sensing electrode is conformed to an edge of the adjacent first sensing series. 1. A capacitive touch panel , comprising:a substrate;a plurality of first sensing series disposed on the substrate, each of the first sensing series extending in a first direction and comprising a plurality of first sensing electrodes and a plurality of first auxiliary electrodes, the first sensing electrodes being serially connected in the first direction, each of the first auxiliary electrodes having a first connection terminal and a first open terminal opposite to the first connection terminal, the first connection terminal being connected with one of the first sensing electrodes and the first open terminal being away from the corresponding first sensing electrode; anda plurality of second sensing series disposed on the first sensing series and the substrate, each of the second sensing series extending in a second direction so as to interlace with the first sensing series and comprising a plurality of second sensing electrodes serially connected in the second direction, the first sensing series and the second sensing series being electrically insulated with each other, and an edge of each of the second sensing electrodes being conformed to an edge of the adjacent first sensing series.2. The ...

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Номер записи: 49
06-09-2012 дата публикации

Touch Sensitive Device And Fabrication Method Thereof

Номер: US20120223725A1
Автор: Chen-Yu Liu
Принадлежит: Individual

The present invention relates to a touch sensitive device comprising a substrate, a mask layer, at least one touch sensing assembly partially masked by the mask layer, and an insulator formed between the mask layer and the touch sensing assembly for insulating the mask layer and the touch sensing assembly; wherein the mask layer, the touch sensing assembly, and the insulator are integrally formed on the substrate.

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Номер записи: 50
27-09-2012 дата публикации

FLEXIBLE DISPLAY PANEL AND ELECTRO-OPTICAL APPARATUS

Номер: US20120242947A1
Автор: Chwu Jong-Wen, Lin Chao-Cheng, Liu Yu-Chen, Wu Che-Yao, Yang Wei-Chieh
Принадлежит: AU OPTRONICS CORPORATION

A first etching stop layer and an active layer are formed on an inner surface of a first glass substrate, and a second etching stop layer and a cover layer are formed on an inner surface of a second glass substrate. A display media is formed between the first glass substrate and the second glass substrate. A first passivation layer is formed on an outer surface of the second glass substrate. A first etching process is performed to expose the first etching stop layer. A first flexible substrate is formed on the exposed first etching stop layer, and a second passivation layer is formed on the first flexible substrate. The first passivation layer is removed. A second etching process is performed to expose the second etching stop layer. A second flexible substrate is formed on the exposed second etching stop layer, and the second passivation layer is removed. 1. A flexible display panel , comprising:a first flexible substrate, having a first etching stop layer and an active layer disposed thereon, wherein the material of the first etching stop layer comprises polyamide or silicon-rich dielectric material;a second flexible substrate, having a second etching stop layer and a cover layer disposed thereon, wherein the material of the second etching stop layer comprises polyamide or silicon-rich dielectric material; anda display media, disposed between the first flexible substrate and the second flexible substrate.2. The flexible display panel of claim 1 , wherein at least one of the first flexible substrate and the second flexible substrate comprise plastic substrates claim 1 , metal substrates claim 1 , glass having curvatures claim 1 , or combinations of at least two of the above substrates.3. The flexible display panel of claim 1 , wherein at least one of the first flexible substrate and the second flexible substrate have functions of polarization claim 1 , phase difference claim 1 , brightness enhancement claim 1 , light delay claim 1 , or at least two of the above ...

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Номер записи: 51
20-12-2012 дата публикации

Touch sensitive display and manufacturing method thereof

Номер: US20120319961A1
Автор: Chen-Yu Liu
Принадлежит: Individual

The present invention relates to a touch sensitive display, which comprises a merged layer made of sensing electrodes and organic light-emitting electrodes. The touch sensitive display further comprises a first touch sensing layer and an organic light-emitting assembly, wherein the first touch sensing layer has a plurality of first sensing electrodes, which are formed onto a surface of an upper substrate. This organic light-emitting assembly is disposed on an upper surface of a lower substrate, and the merged layer is formed on the surface of the organic light-emitting assembly. The sensing electrodes that comprised in this merged layer are second sensing electrodes, while the organic light-emitting electrodes are counter electrodes which originally belong to the organic light-emitting assembly. In addition, the present invention also provides a manufacturing method of a touch sensitive display. Thereby, the present invention could reduce the manufacturing procedure and efficiently increase the yield rate of production.

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Номер записи: 52
20-12-2012 дата публикации

TOUCH SENSING LAYER AND MANUFACTURING METHOD THEREOF

Номер: US20120319964A1
Автор: CHANG Cheng-Chieh, Lee Lu-Hsing, Lin Ching-Shan, Liu Chen-Yu
Принадлежит:

The present invention relates to a touch sensing layer which comprises at least one first-axis sensing electrode, second-axis sensing electrode, insulating element and conductive bridge. Each first-axis sensing electrode comprises a plurality of first electrode patterns with discontinuity-in-series, and each second-axis sensing electrode is configured to interlace with each first-axis sensing electrode and comprises a plurality of second electrode patterns with continuity-in-series. Each insulating element is continuously formed on the corresponding second-axis sensing electrode, and each conductive bridge is also continuously formed above the corresponding first-axis sensing electrode and crosses the insulating element to connect those first electrode patterns with discontinuity-in-series. 1. A touch sensing layer , comprising:a first-axis sensing electrode comprising a plurality of first electrode patterns with discontinuity-in-series;a second-axis sensing electrode interlaced with the first-axis sensing electrode and comprising a plurality of second electrode patterns with continuity-in-series;an insulating element, continuously formed on the corresponding second-axis sensing electrode; anda conductive bridge, discontinuously configured corresponding to the intersection of the first-axis sensing electrode and the second-axis sensing electrode and crossing the insulating element to connect two first electrode patterns with discontinuity-in-series.2. The touch sensing layer according to claim 1 , wherein the insulating element and the conductive bridge are formed by a printing process.3. The touch sensing layer according to claim 2 , wherein the printing process forming the insulating element being at least one chosen from contact printing process and non-contact printing process.4. The touch sensing layer according to claim 2 , wherein the printing process forming the conductive bridge being at least one chosen from contact printing process and non-contact ...

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Номер записи: 53
31-01-2013 дата публикации

TOUCH DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF

Номер: US20130026501A1
Автор: Liu Chen-Yu
Принадлежит:

The present invention discloses a touch display device and a manufacturing method thereof, the display device comprising: an OLED display layer disposed on a lower substrate; an upper substrate; an air layer formed between the upper substrate and the lower substrate; and a touch module, disposed above the OLED display layer, wherein the touch module comprises: a first sensing circuit layer and a second sensing circuit layer, further wherein the first sensing circuit layer and the second sensing circuit layer are spaced and the distance between them is more than 2 um. The display device can reduce interference in detection circuit caused by coupling capacitance formed between the sensing circuit layers thereby improving accuracy of touch detection. 1. A touch display device , comprising:an OLED display layer disposed on a lower substrate;an upper substrate;an air layer formed between the upper substrate and the lower substrate; anda touch module, disposed above the OLED display layer, wherein the touch module comprises: a first sensing circuit layer and a second sensing circuit layer, further wherein the first sensing circuit layer and the second sensing circuit layer are spaced and the distance between them is more than 2 um.2. The touch display device as claimed in claim 1 , wherein the air layer is between the first sensing circuit layer and the second sensing circuit layer claim 1 , and the upper substrate comprises a first surface away from the OLED display layer claim 1 , and a second surface on which the first sensing circuit layer is disposed claim 1 , wherein the second surface is claim 1 , close to the OLED display layer claim 1 , further wherein the second sensing circuit layer is disposed above the OLED display layer.3. The touch display device as claimed in wherein the touch display device further comprises a protection layer claim 2 , wherein the protection layer covers the OLED display layer and the second sensing circuit layer is disposed on the ...

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Номер записи: 54
31-01-2013 дата публикации

TOUCH SENSITIVE DISPLAY

Номер: US20130027325A1
Автор: Liu Chen-Yu
Принадлежит:

A touch sensitive display includes: an upper substrate, a lower substrate, an organic light-emitting component, and a touch sensing component. The lower substrate is disposed below the upper substrate and the organic light-emitting component is disposed above the lower substrate. The touch sensing component designed by a single layer structure is disposed under or above the upper substrate. Therefore, the present invention can achieve the purpose of lightening the touch sensitive display and simplifying manufacturing process of the touch sensitive display. 1. A touch sensitive display , comprising:an upper substrate;a lower substrate disposed below the upper substrate;an organic light-emitting component disposed above the lower substrate; anda touch sensing component disposed under the upper substrate, wherein the touch sensing component is a single layer structure.2. The touch sensitive display according to claim 1 , wherein the touch sensing component comprises a plurality of sensing electrodes juxtaposed separately claim 1 , further wherein at least one terminal of each of the plurality of sensing electrode is electrically connected to a wire.3. The touch sensitive display according to claim 1 , further comprising:a shielding layer disposed under the touch sensing component.4. The touch sensitive display according to claim 1 , further comprising:a polarizing layer, wherein the polarizing layer is disposed either above the upper substrate, or disposed between the upper substrate and the touch sensing component, or disposed under the touch sensing component.5. The touch sensitive display according to claim 1 , wherein the organic light-emitting component further comprises:a pixel electrode layer disposed above the lower substrate;an intermediate layer disposed above the pixel electrode layer; anda counter electrode layer disposed above the intermediate layer.6. The touch sensitive display according to claim 5 , wherein the organic light-emitting component further ...

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Номер записи: 55
09-05-2013 дата публикации

NETWORK ACCESS DEVICE WITH FLEXIBLE PRECISE LOW-POWER REMOTE WAKE-UP MECHANISM APPLICABLE IN VARIOUS APPLICATION LAYER HANDSHAKE PROTOCOLS

Номер: US20130117586A1
Автор: LI Ting-Ying, Liu Yu-Chen, SHEN Jia-Ching, YEN Kuang-Yu
Принадлежит: Realtek Semiconductor Corp.

A network access device is disclosed, having a transceiving circuit, a demodulation circuit, and a control circuit. The transceiving circuit is used to receive network signals. The demodulation circuit is coupled with the transceiving circuit and used to generate data frames according to the network signals. The control circuit is coupled with the demodulation circuit and used to wake up one or more components of an electronic device when at least two fields of the data frame match predetermined values, or when the data frames are received in a predetermined order. 1. A network access device , comprising:a demodulation circuit for generating a first data frame according to network signals received by a transceiving circuit; anda control circuit, coupled with the demodulation circuit, for waking up at least one component of an electronic device when the first data frame matches a first wake-up criterion;wherein the first data frame matches the first wake-up criterion when at least two of a source MAC address field, a destination MAC address field, an ether type field, a source IP address field, a destination IP address field, a source port field, a destination port field, an IP header field, an TCP header field, a frame control field, a source address field, and a destination address field of the first data frame respectively equal to predetermined values or locate in predetermined ranges.2. The network access device of claim 1 , wherein the demodulation circuit generates a second data frame; and the control circuit wakes up at least one component of the electronic device when the first data frame and the second data frame match the first wake-up criterion.3. The network access device of claim 1 , wherein the demodulation circuit generates a second data frame; the control circuit wakes up at least one component of the electronic device when the first data frame matches the first wake-up criterion and the second data frame matches the second wake-up criterion; and the ...

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Номер записи: 56
06-06-2013 дата публикации

Capacitive Touch Panel

Номер: US20130141385A1
Автор: Ho Kwan-Sin, Liu Chen-Yu
Принадлежит:

An integrally-formed capacitive touch panel is disclosed including: a singular lens substrate, a mask layer, and a sensing circuit integrally coupled with said singular lens substrate. Said singular lens substrate, said mask layer, and said sensing circuit are integrally formed. 1. An integrally-formed capacitive touch panel , comprising: a singular lens substrate having a top surface for receiving physical tactile input and a bottom surface ; a mask layer; and a sensing circuit integrally coupled with said bottom surface of said singular lens substrate , wherein said sensing circuit and said mask layer are integrally formed on said bottom surface of said singular lens substrate , and said sensing circuit is a single layer circuit.2. The integrally-formed capacitive touch panel of claim 1 , wherein said sensing circuit is coupled with said mask layer.3. The integrally-formed capacitive touch panel of claim 1 , wherein said mask layer is formed on the periphery of said bottom surface of said singular lens substrate.4. The integrally-formed capacitive touch panel of claim 3 , wherein said mask layer is made of black resist.5. The integrally-formed capacitive touch panel of claim 1 , further comprising: a shielding layer formed on the periphery of said singular lens substrate claim 1 , wherein said shielding layer is positioned between said singular lens substrate and said mask layer.6. The integrally-formed capacitive touch panel of claim 5 , wherein the width of said shielding layer is substantially equal to the width of the mask layer.7. The integrally-formed capacitive touch panel of claim 1 , wherein said sensing circuit comprises a conductive electrode and a metal trace.8. The integrally-formed capacitive touch panel of claim 7 , wherein said mask layer covers areas covered by said metal trace..9. The integrally-formed capacitive touch panel of claim 8 , wherein said metal trace is formed on a surface of said mask layer.10. The integrally-formed capacitive touch ...

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Номер записи: 57
06-06-2013 дата публикации

Capacitive Touch Panel

Номер: US20130141386A1
Автор: Ho Kwan-Sin, Liu Chen-Yu
Принадлежит:

An integrally-formed capacitive touch panel is disclosed including: a singular lens substrate, a mask layer, and a sensing circuit integrally coupled with said singular lens substrate. Said singular lens substrate, said mask layer, and said sensing circuit are integrally formed. 1. An integrally-formed capacitive touch panel , comprising: a singular lens substrate having a top surface for receiving physical tactile input and a bottom surface; a mask layer; and a sensing circuit integrally coupled with said bottom surface of said singular lens substrate; and wherein said sensing circuit and said mask layer are integrally formed on said bottom surface of said singular lens substrate; said sensing circuit is a single layer circuit; and there is no other supporting layer laminated or bonded to said singular lens substrate of said integrally-formed capacitive touch panel.2. The integrally-formed capacitive touch panel of claim 1 , wherein said sensing circuit is coupled with said mask layer.3. The integrally-formed capacitive touch panel of claim 1 , wherein said mask layer is formed on the periphery of said bottom surface of said singular lens substrate.4. The integrally-formed capacitive touch panel of claim 3 , wherein said mask layer is made of black resist.5. The integrally-formed capacitive touch panel of claim 1 , further comprising: a shielding layer formed on the periphery of said singular lens substrate claim 1 , wherein said shielding layer is positioned between said singular lens substrate and said mask layer.6. The integrally-formed capacitive touch panel of claim 5 , wherein the width of said shielding layer is substantially equal to the width of the mask layer.7. The integrally-formed capacitive touch panel of claim 1 , wherein said sensing circuit comprises a conductive electrode and a metal trace.8. The integrally-formed capacitive touch panel of claim 7 , wherein said mask layer covers areas covered by said metal trace.9. The integrally-formed ...

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Номер записи: 58
03-10-2013 дата публикации

Touch sensitive ips liquid crystal display

Номер: US20130257778A1
Автор: Chen-Yu Liu
Принадлежит: TPK Touch Solutions Inc

A touch sensitive in-plane switching (IPS) liquid crystal display (LCD) includes a liquid crystal layer, an active-matrix transistor layer with an electrode pair, a color filter substrate, and a sensing electrode layer. The sensing electrode layer may be disposed above or below the color filter substrate, and the sensing electrode layer may include two parts that are disposed above and below the color filter layer respectively.

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Номер записи: 59
03-10-2013 дата публикации

TOUCH SENSITIVE IPS LIQUID CRYSTAL DISPLAY

Номер: US20130257805A1
Автор: Liu Chen-Yu
Принадлежит: TPK TOUCH SOLUTIONS INC.

A touch sensitive in-plane switching (IPS) liquid crystal display (LCD) includes a liquid crystal layer, an active-matrix transistor layer with an electrode pair, a color filter substrate, and a sensing electrode layer. The sensing electrode layer may be disposed above or below the color filter substrate, and the sensing electrode layer may include two parts that are disposed above and below the color filter layer respectively. 1. A touch sensitive in-lane switching (IPS) liquid crystal display (LCD) , comprising:a liquid crystal layer;an active-matrix transistor substrate disposed below the liquid crystal layer;an electrode pair at or set on the active-matrix transistor substrate, the electrode pair comprising a pixel electrode and a common electrode, wherein a laterally horizontal electric field is generated between the pixel electrode and the common electrode for controlling orientation of liquid crystals of the liquid crystal layer;a color filter substrate disposed above the liquid crystal layer;a first sensing electrode layer disposed between the color filter substrate and the liquid crystal layer; anda second sensing electrode layer disposed above the color filter substrate.2. The display of claim 1 , wherein:the first sensing electrode layer comprises a first-axis electrode layer that comprises a plurality of first sensing electrodes, wherein a first connecting sensing conductive line is connected between the neighboring first sensing electrodes along a first axis; andthe second sensing electrode layer comprises a second-axis electrode layer that comprises a plurality of second sensing electrodes, wherein a second connecting conductive line is connected between the neighboring second sensing electrodes along a second axis.3. The display of claim 1 , wherein:the first sensing electrode layer comprises a plurality of elongated first sensing electrodes that are parallelly spaced apart from each other along a first axis; andthe second sensing electrode layer ...

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Номер записи: 60
31-10-2013 дата публикации

Structural and mechanistic basis for novel compound biosynthesis using 4-electron hexose oxidase

Номер: US20130288955A1
Автор: Syue-Yi Lyu, Tsung-Lin Li, Yi-Shan Li, Yu-Chen Liu
Принадлежит: Academia Sinica

A novel pharmaceutical composition comprising a compound of formula (I) is disclosed. The novel compound can include a pharmaceutically acceptable carrier. The invention further comprises methods for making compounds of formula (I) using Dbv29, and to the use of compound of formula (I) to treat bacterial infections.

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Номер записи: 61
05-12-2013 дата публикации

TOUCH PANEL AND TOUCH DISPLAY DEVICE

Номер: US20130321316A1
Автор: Liu Yu-Chen, Shie Wun-Yi, Wu Yi-Chun
Принадлежит:

A touch panel includes a first substrate, a first axis signal receiving electrode, a second axis signal receiving electrode, and a signal transmitting electrode. The first axis signal receiving electrode is disposed on a first inner surface of the first substrate, and the first axis signal receiving electrode includes a plurality of first sensing electrodes extending along a first direction. The second axis signal receiving electrode is disposed on a side of the first inner surface, and the second axis signal receiving electrode includes a plurality of second sensing electrodes extending along a second direction. The signal transmitting electrode is disposed on the side of the first inner surface. The signal transmitting electrode is used to transmit a touch driving signal. The touch driving signal is received by the first axis signal receiving electrode and the second axis signal receiving electrode. 1. A touch panel , comprising:a first substrate, having a first inner surface and a first outer surface;a first axis signal receiving electrode, disposed on the first inner surface, wherein the first axis signal receiving electrode comprises a plurality of first sensing electrodes extending along a first direction;a second axis signal receiving electrode, disposed on a side of the first inner surface, wherein the second axis signal receiving electrode comprises a plurality of second sensing electrodes extending along a second direction, and the first axis signal receiving electrode is insulated from the second axis signal receiving electrode;a signal transmitting electrode, disposed on the side of the first inner surface, wherein the signal transmitting electrode is used to transmit a touch driving signal, and the touch driving signal is received by the first axis signal receiving electrode and the second axis signal receiving electrode.2. The touch panel of claim 1 , further comprising:a first insulation layer, disposed between the first axis signal receiving ...

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Номер записи: 62
26-12-2013 дата публикации

TOUCH PANEL DEVICE

Номер: US20130341167A1
Автор: Hu Chung-Hui, Liu Yu-Chen, Shie Wun-Yi, Wu Yi-Chun
Принадлежит:

A touch panel device includes a transparent substrate, at least one decorative layer, a plurality of light transmission conductive traces, and a reflection layer. The transparent substrate has a border region. A light transmission sensing electrode layer is formed on a surface of the transparent substrate corresponding to the border region. The decorative layer is formed on the border region. The plurality of light transmission conductive traces is alternately formed on the decorative layer and electrically connected to the light transmission sensing electrode layer, for transmitting signals generated by the light transmission sensing electrode layer. The reflection layer is disposed on a side of the plurality of light transmission conductive traces for reflecting light passing through the decorative layer and the plurality of light transmission conductive traces. 1. A touch panel device comprising:a transparent substrate having a border region;at least one decorative layer formed on the border region;a light transmission sensing electrode layer formed on a side of the transparent substrate with the decorative layer;a plurality of light transmission conductive traces alternately formed on the decorative layer and electrically connected to the light transmission sensing electrode layer, for transmitting signals generated by the light transmission sensing electrode layer; anda reflection layer disposed on a side of the plurality of light transmission conductive traces for reflecting light passing through the decorative layer and the plurality of light transmission conductive traces.2. The touch panel device of claim 1 , wherein the decorative layer is a photo-resist layer claim 1 , and a thickness of the decorative layer falls within a range between 0.5 μm and 2 μm.3. The touch panel device of claim 2 , wherein the thickness of the decorative layer falls within a range between 1 μm and 1.5 μm.4. The touch panel device of claim 1 , wherein the decorative layer is an ...

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Номер записи: 63
09-01-2014 дата публикации

MATERIALS AND METHODS FOR IMPROVED PHOTORESIST PERFORMANCE

Номер: US20140011133A1
Автор: Chang Ching-Yu, Liu Chen-Yu
Принадлежит: Taiwan Semiconductor Manufacturing Company, Ltd.

A photosensitive material and methods of making a pattern on a substrate are disclosed. The photosensitive material includes a polymer that turns soluble to a developer solution after a chemically amplified reaction, and at least one chemical complex having a single diffusion length. The material includes at least one photo-acid generator (PAG) linked to at least one photo decomposable base (PDB) or quencher. 1. A photosensitive material , comprising:a polymer that turns soluble to a developer solution after a chemically amplified reaction; andat least one chemical complex comprising at least one photo-acid generator (PAG) linked to at least one photo decomposable base (PDB) or quencher,wherein the complex has a single diffusion length.2. The photosensitive material of claim 1 , wherein the PAG is linked to the PDB or quencher through dipole-dipole interactions claim 1 , hydrogen bonding claim 1 , metallic bonding claim 1 , or covalent bonding.3. The photosensitive material of claim 2 , wherein a linking compound links the PAG to the PDB through covalent bonding claim 2 , and the linking compound is selected from the group consisting of a halogen atom claim 2 , a substituted or unsubstituted alkyl claim 2 , a substituted or unsubstituted aryl claim 2 , a substituted or unsubstituted heteroaryl claim 2 , and a substituted or unsubstituted heterocycloalkyl.4. The photosensitive material of claim 1 , wherein the PDB comprises a nitrogen-containing compound.6. The photosensitive material of claim 4 , wherein the nitrogen-containing compound comprises two or more nitrogen atoms.7. The photosensitive material of claim 6 , wherein the nitrogen containing compound is selected from the group consisting of a substituted or unsubstituted guanidine claim 6 , a substituted or unsubstituted aminopyridine claim 6 , a substituted or unsubstituted aminoalkylpyridine claim 6 , a substituted or unsubstituted aminopyrrolidine claim 6 , a substituted or unsubstituted indazole claim 6 , ...

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Номер записи: 64
02-01-2020 дата публикации

PATIENT INTERFACE HAVING ADAPTIVE SYSTEM, RESPIRATORY MASK AND CUSHION MODULE ADAPTED WITH ADAPTIVE SYSTEM

Номер: US20200001034A1
Автор: CHEN Chun-Hung, CHIEN Chih-Tsan, Huang Chia-Wei, LEE Pi-Kai, Lin Shin-Lan, Liu Yu-Chen
Принадлежит:

The present invention discloses a patient interface having an adaptive system, a respiratory mask and a cushion module adapted with the adaptive system. The adaptive system includes a forehead pressure diffusing portion, a cheek buffering portion and a connecting portion. The forehead pressure diffusing portion is disposed in a frame module. The cheek buffering portion is disposed in a cushion module. The connecting portion is positioned between the forehead pressure diffusing portion and the cheek buffering portion. The connecting portion is configured to transmit pressure between the forehead pressure diffusing portion and the cheek buffering portion. Thus, when a user wears a mask or other devices with the adaptive system, a force received by the face of the user could be automatically and appropriately distributed, further improving comfort of the wearer. 1. A patient interface , comprising:a cushion module;an elbow module;a frame module positioned between the cushion module and the elbow module;a headgear removably attached to the frame module; and a forehead pressure diffusing portion disposed in the frame module;', 'a cheek buffering portion disposed in the cushion module; and', 'a connecting portion positioned between the forehead pressure diffusing portion and the cheek buffering portion, wherein the connecting portion is configured to transmit pressure between the forehead pressure diffusing portion and the cheek buffering portion., "an adaptive system, adapted to fit the contours of patient's face when the cushion module, the elbow module, and the headgear are assembled, the adaptive system comprising:"}2. The patient interface according to claim 1 , wherein the forehead pressure diffusing portion comprises a headgear connecting portion claim 1 , and two side wings deformable by a pressure applied on the headgear.3. The patient interface according to claim 1 , wherein a forehead pad is absent between the forehead pressure diffusing portion and the patient ...

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Номер записи: 65
04-01-2018 дата публикации

Method of manufacturing pixel structure of liquid crystal display panel

Номер: US20180004048A1
Автор: Liu Yu-Chen, Lu Ya-Ju, Wu Kuo-Wei
Принадлежит:

A method of manufacturing a pixel structure of a liquid crystal display panel includes providing a substrate, forming a pixel electrode and a switch device that is electrically connected to the pixel electrode on the substrate, forming an insulating layer that covers the switch device and the pixel electrode on the substrate, forming a common electrode layer on the insulating layer, forming a patterned photoresist layer that includes a plurality of discontinuous patterns on the common electrode layer, performing a first etching process to remove a portion of the common electrode layer so as to forma patterned common electrode, performing a second etching process to remove part of a surface of the insulating layer so as to form a plurality of trenches, wherein the patterned common electrode does not cover the plurality of trenches, and removing the patterned photoresist layer. 1. A method of manufacturing a pixel structure of a liquid crystal display panel , comprising following steps:providing a substrate;forming a switch device and a pixel electrode on the substrate, wherein the switch device is electrically connected to the pixel electrode;forming an insulating layer on the substrate, wherein the insulating layer covers the switch device and the pixel electrode;forming a common electrode layer on the insulating layer;forming a patterned photoresist layer on the common electrode layer, wherein the patterned photoresist layer comprises a plurality of discontinuous patterns;performing a first etching process to remove a portion of the common electrode layer by taking the patterned photoresist layer as an etching mask so as to form a patterned common electrode;performing a second etching process to remove part of a surface of the insulating layer by taking the patterned photoresist layer as an etching mask so as to form a plurality of trenches in the insulating layer, wherein the patterned common electrode does not cover the plurality of trenches; andremoving the ...

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Номер записи: 66
04-01-2018 дата публикации

Touch display apparatus

Номер: US20180004341A1
Автор: Cheng-Yen Yeh, Hsing-Ying LEE, Yu-Chen Liu, Yu-Cheng Lin
Принадлежит: Hannstar Display Corp

A touch display apparatus including a display panel and multiple touch electrodes disposed on the display panel is provided. The display panel has a plurality of pixel regions. Each of the pixel regions is arranged with a first pixel pitch P px along a first direction. Each of the pixel regions is arranged with a second pixel pitch P py along a second direction. Each touch electrode has a plurality of touch patterns. Each of the touch patterns is arranged with a first touch pitch P tx along the first direction. Each of the touch patterns includes a plurality of bent segments connected to each other. Each of the bent segments is arranged with a second touch pitch P ty along the second direction. The first pixel pitch P px , the second pixel pitch P py , the first touch pitch P tx and the second touch pitch P ty satisfy at least one of the following equations (1) and (2): 30  % ≤  P tx - P px  P px ≤ 50  % , equation   ( 1 ) 3 ≤ P ty P py ≤ 12 equation   ( 2 )

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Номер записи: 67
07-01-2016 дата публикации

Photoresist and Method of Manufacture

Номер: US20160005595A1
Автор: Chang Ching-Yu, Liu Chen-Yu
Принадлежит:

A system and method for anti-reflective layers is provided. In an embodiment the anti-reflective layer comprises a floating additive in order to form a floating additive region along a top surface of the anti-reflective layer after the anti-reflective layer has dispersed. The floating additive may comprise an additive group which will decompose along with a fluorine unit bonded to the additive group which will decompose. Additionally, adhesion between the middle layer and the photoresist may be increased by applying an adhesion promotion layer using either a deposition process or phase separation, or a cross-linking may be performed between the middle layer and the photoresist. 1. A method of manufacturing a semiconductor device , the method comprising: a group to be decomposed; and', 'a fluorine group bonded to the group to be decomposed; and, 'dispensing an anti-reflective material over a substrate to form an anti-reflective coating layer, the anti-reflective material having a first concentration of a floating additive, wherein the floating additive further comprisesforming a floating region adjacent to a top surface of the anti-reflective coating, the floating region having a second concentration of the floating additive greater than the first concentration.2. The method of claim 1 , wherein the group to be decomposed further comprises an acid labile group.3. The method of claim 1 , wherein the floating region further comprises a catalyst.4. The method of claim 3 , wherein the catalyst is a thermal acid generator.5. The method of claim 4 , further comprising baking the floating region claim 4 , wherein the baking the floating region initiates a reaction between the thermal acid generator and the floating additive which cleaves the group to be decomposed.6. The method of claim 1 , wherein the fluorine group is a substituted fluorine.7. The method of claim 1 , further comprising applying a middle layer to the floating region.8. A method of manufacturing a ...

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Номер записи: 68
14-01-2016 дата публикации

Photoresist Layer and Method

Номер: US20160013041A1
Автор: Chen-Yu Liu, Ching-Yu Chang
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

A system and method for middle layers is provided. In an embodiment the middle layer comprises a floating component in order to form a floating region along a top surface of the middle layer after the middle layer has dispersed. The floating component may be a polymer with a floating group incorporated into the polymer. The floating group may comprise a fluorine atom.

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Номер записи: 69
09-01-2020 дата публикации

METHOD FOR FORMING SEMICONDUCTOR STRUCTURE

Номер: US20200013618A1
Автор: Chang Ching-Yu, Lin Chin-Hsiang, Liu Chen-Yu, Weng Ming-Hui, ZI An-Ren
Принадлежит: Taiwan Semiconductor Manufacturing Co., Ltd.

A method for forming a semiconductor device structure is provided. The method includes forming a material layer over a substrate and forming a resist layer over the material layer. The resist layer includes an inorganic material and an auxiliary. The inorganic material includes a plurality of metallic cores and a plurality of first linkers bonded to the metallic cores. The method includes exposing a portion of the resist layer. The resist layer includes an exposed region and an unexposed region. In the exposed region, the auxiliary reacts with the first linkers. The method also includes removing the unexposed region of the resist layer by using a developer to form a patterned resist layer. The developer includes a ketone-based solvent having a formula (a) or the ester-based solvent having a formula (b). 2. The method for forming the semiconductor structure as claimed in claim 1 , wherein Ris CH claim 1 , and Ris linear or branched C-Calkyl claim 1 , or linear or branched C-Calkoxy.3. The method for forming the semiconductor structure as claimed in claim 1 , wherein Ris CH claim 1 , and Ris linear or branched Calkyl.4. The method for forming the semiconductor structure as claimed in claim 1 , wherein Ris CH claim 1 , and Ris linear or branched C-Calkyl.5. The method for forming the semiconductor structure as claimed in claim 1 , wherein Ris CH claim 1 , and Ris linear or branched C-Calkyl.6. The method for forming the semiconductor structure as claimed in claim 1 , wherein Ris CH claim 1 , and Ris linear Calkyl.7. The method for forming the semiconductor structure as claimed in claim 1 , wherein Ris CHO claim 1 , and Ris linear or branched C-Calkyl.8. The method for forming the semiconductor structure as claimed in claim 1 , wherein the auxiliary comprises a plurality of second linkers claim 1 , and the second linkers react with the first linkers during the exposure process to form a plurality of chemical bonds between the auxiliary and the inorganic material.9. The ...

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Номер записи: 70
16-01-2020 дата публикации

Priming Material for Substrate Coating

Номер: US20200017693A1
Автор: Chang Ching-Yu, Liu Chen-Yu
Принадлежит:

A coating technique and a priming material are provided. In an exemplary embodiment, the coating technique includes receiving a substrate and identifying a material of the substrate upon which a layer is to be formed. A priming material is dispensed on the material of the substrate, and a film-forming material is applied to the priming material. The priming material includes a molecule containing a first group based on an attribute of the substrate material and a second group based on an attribute of the film-forming material. Suitable attributes of the substrate material and the film-forming material include water affinity and degree of polarity and the first and second groups may be selected to have a water affinity or degree of polarity that corresponds to that of the substrate material and the film-forming material, respectively. 1. A method , comprising:receiving a semiconductor substrate on a chuck;prior to dispensing a liquid priming material on a top surface of the semiconductor substrate, heating the semiconductor substrate from a bottom surface of the semiconductor substrate;dispensing, with a liquid supply nozzle, the liquid priming material on a central portion of the top surface of the semiconductor substrate while continuing to heat the semiconductor substrate from the bottom surface of the semiconductor substrate;prior to drying the liquid priming material, applying a film-forming material to the liquid priming material on the central portion of the top surface of the semiconductor substrate;rotating the semiconductor substrate to disperse the film-forming material from the central portion of the top surface of the semiconductor substrate; andafter the rotating, evaporating the liquid priming material and the film-forming material to leave a component of the film-forming material that physically contacts the top surface of the semiconductor substrate.2. The method of claim 1 , further comprising blowing a gas onto the liquid priming material while the ...

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Номер записи: 71
17-04-2014 дата публикации

Touch panel and a manufacturing method thereof

Номер: US20140104511A1
Автор: Chen-Yu Liu, Hsi-Chien Lin, Li-Wei Kung
Принадлежит: TPK Touch Solutions Inc

Present invention discloses a touch panel and a manufacturing method thereof, the touch panel comprises: a substrate; a silver nano-wire electrode layer provided on the substrate comprising a connecting area and a non-connecting area; a first protective layer provided on silver nano-wire electrode layer having a first hole corresponding to connecting area; a second protective layer provided on first protective layer having a second hole corresponding to position of first hole; and a connecting wire provided on second protective layer connected to silver nano-wire electrode layer in connecting area through second hole and first hole. With the touch panel, the problem that etching solution can't seep when a single protective layer is too thick and the problem that a silver nano-wire layer is easily oxidized and the adhesion of the silver nano-wire layer is poor when a single protective layer is too thin can be avoided.

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Номер записи: 72
10-02-2022 дата публикации

System and method of nucleic acid amplification for point of collection

Номер: US20220042085A1
Автор: Liu Chen-Yu, TSAI HUI-JU
Принадлежит: Genalyze LLC

A system for nucleic acid amplification is to synthesize amplified target nucleic acids or determine the presence of target nucleic acid. The mobile device of the system may be implemented with software for analyzing the reaction or optionally delivering the information of a sample to a cloud. Therefore, the system can provide corresponding genetic information of organism, cancer cells or viruses of interest. The information may include gene expression levels of interest, DNA identity of samples as well as treatment suggestion and professional lists for consulting. The system could also optionally be used with a mobile device to amplify the target nucleic acid for the downstream sequencing or measurement. 1. A system for processing a sample , the system comprising:at least one heat source;at least one reaction chamber on a test platform;nucleic acid amplification reaction reagents reacting with said sample through nucleic acid amplification reactions to produce amplified nucleic acid;a mobile device having a detection module and installed software; andmeans to shuttle said reaction chamber to a position;wherein said position corresponds to either the proximity of said at least one heat source or a measurement position for said nucleic acid amplification reactions;wherein said measurement position is suitable for said detection module to perform measurement or collect amplified nucleic acid for measurement;wherein said measurement is either to take an image of said nucleic acid amplification reactions or to sequence said amplified nucleic acid;wherein said mobile device is configured in a manner to quantify and/or sequence said amplified nucleic acid;wherein said at least one heat source has thermal communication with said at least one reaction chamber;wherein said means shuttles said at least one reaction chamber to control the temperature and duration of said nucleic acid amplification reaction, or to a suitable position for quantifying and/or sequencing said ...

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Номер записи: 73
29-01-2015 дата публикации

TOUCH PANEL

Номер: US20150029420A1
Автор: HUNG CHI-YUAN, Liu Yu-Chen, Wang Sheng-Cheng, Wu Yi-Chun
Принадлежит: WINTEK CORPORATION

A touch panel including a substrate, first sensing series and optical matching stacked structures is provided. Each first sensing series includes first sensing pads and bridge structures, and two adjacent first sensing pads are connected along the first direction through one of the bridge structure. Each optical matching stacked structure includes a first optical matching pattern and a second optical matching pattern disposed between the first optical matching pattern and the bridge structure, and the optical matching stacked structures are disposed on a surface of the bridge structures that faces to a user so as to reduce a reflectivity of light along a direction of view in areas where the bridge structures are located.

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Номер записи: 74
01-05-2014 дата публикации

COLOR FILTER SUBSTRATE HAVING TOUCH-SENSING FUNCTION

Номер: US20140118419A1
Автор: Liu Yu-Chen, Shie Wun-Yi, Wu Yi-Chun
Принадлежит: WINTEK CORPORATION

The present invention provides a color filter substrate with a touch-sensing function including a substrate, a black matrix, a plurality of color filters, and a patterned common electrode layer. The substrate has a plurality of pixel regions arranged as a matrix, and each pixel region includes a plurality of sub-pixel regions. The black matrix is disposed on the substrate, and has a plurality of openings exposing the substrate and corresponding to each sub-pixel region respectively. Each color filter covers the substrate exposed by each opening. The patterned common electrode layer is disposed on the black matrix and the color filters, and the patterned common electrode layer includes a plurality of integrated units respectively configured for touch sensing and transferring a common signal. 1. A color filter substrate with touch-sensing function , comprising:a substrate having a plurality of pixel regions arranged as a matrix, wherein each pixel region comprises a plurality of sub-pixel regions;a black matrix disposed on the substrate, wherein the black matrix comprises a plurality of openings exposing the substrate, and each opening corresponds to each sub-pixel region respectively;a plurality of color filters, each of color filter covering the substrate exposed by each opening respectively; anda patterned common electrode layer disposed on the black matrix and the color filters, wherein the patterned common electrode layer comprises a plurality of integrated units respectively configured for touch sensing and for transmitting a common signal.2. The color filter substrate with touch-sensing function according to claim 1 , wherein each integrated unit comprises a signal transmitting electrode for transmitting the common signal and a touch-sensing signal and a signal receiving electrode for sensing variation of the touch-sensing signal claim 1 , and each signal receiving electrode partially surrounds each signal transmitting electrode.3. The color filter substrate ...

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Номер записи: 75
19-02-2015 дата публикации

METHOD FOR ASSEMBLING A TOUCH CONTROL DISPLAY APPARATUS AND THE TOUCH CONTROL DISPLAY APPARATUS

Номер: US20150049029A1
Автор: Chen Yu-Yi, LIAO Wen-Yuan, Liu Chen-Yu, Liu Jen-Hao, Wu Chun-Ming, YANG SHIH-MING
Принадлежит: WISTRON CORPORATION

A method for assembling a touch control display apparatus includes: mounting a frame member to an assembly surface of a touch control panel; fixing a display panel to one of the frame member and the assembly surface of the touch control panel such that a display surface of the display panel faces the touch control panel; mounting at least one electronic component on a section of the frame member that is not covered by the display panel; and coupling a bottom case to the frame member for enclosing the display panel and the at least one electronic component. 1. A method for assembling a touch control display apparatus , comprising the steps of:{'b': '1', '(S) mounting a frame member to an assembly surface of a touch control panel;'}{'b': '2', '(S) fixing a display panel to one of the frame member and the assembly surface of the touch control panel such that a display surface of the display panel faces the touch control panel;'}{'b': '3', '(S) mounting at least one electronic component on a section of the frame member that is not covered by the display panel; and'}{'b': '4', '(S) coupling a bottom case to the frame member for enclosing the display panel and the at least one electronic component.'}243. The method of claim 1 , further comprising claim 1 , before step (S) claim 1 , a step (S′) of mounting a pivot axle on a section of the frame member.31. The method of claim 1 , an adhesive material being provided between the frame member and the assembly surface of the touch control panel claim 1 , wherein claim 1 , in step (S) claim 1 , the frame member is adhered to the assembly surface of the touch control panel via the adhesive material.42. The method of claim 1 , at least one adhesive buffering strip being mounted on at least one lateral side of the display surface of the display panel claim 1 , wherein claim 1 , in step (S) claim 1 , the display panel is fixed to the one of the frame member and the assembly surface of the touch control panel via the adhesive ...

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Номер записи: 76
26-02-2015 дата публикации

TOUCH PANEL DEVICE

Номер: US20150054750A9
Автор: Lee Lu-Hsing, Liu Chen-Yu
Принадлежит: TPK Touch Solutions, Inc.

A touch panel stackup comprises a substrate, a first conductive element having a first refractive index and forming a plurality of patterns with on or more gaps on the substrate having an address for sensing tactile signals in a first direction and a second direction, a second conductive element having a second refractive index coupled with said plurality of patterns an insulator disposed among said one or more gaps, the second refractive index being substantially the same as said first refractive index. 1. A touch panel stackup , comprising:a substrate;a first electrode having a first refractive index and forming a plurality of first patterns on the substrate for sensing tactile signals in a first direction;a second electrode having a second refractive index and forming a plurality of second patterns on the substrate for sensing tactile signals in a second direction;a first electrical wire electrically coupled with said plurality of first patterns;a second electrical wire electrically coupled with said plurality of second patterns; andan insulator placed among the first electrical wire and second electrical wire to insulate said first electrical wire from said second electrical wire, said insulator having a third refractive index substantially identical to said first and second refractive index.2. The touch panel stackup of claim 1 , wherein the refractive index of said first electrode is identical with the refractive index of said second electrode.3. The touch panel stackup of claim 1 , wherein the refractive index of said first electrical wire is identical with the refractive index of said second electrical wire.4. The touch panel stackup of claim 1 , wherein said first electrical wire and said second electrical wire are substantially opaque.5. The touch panel stackup of claim 1 , wherein said first electrical wire and said second electrical wire are substantially transparent.6. The touch panel stackup of claim 1 , wherein said insulator is substantially ...

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Номер записи: 77
04-03-2021 дата публикации

EUV Photoresist With Low-Activation-Energy Ligands or High-Developer-Solubility Ligands

Номер: US20210063876A1
Автор: Chang Ching-Yu, Liu Chen-Yu, ZI An-Ren
Принадлежит:

A photoresist includes a core group that contains metal, and one or more first ligands or one or more second ligands attached to the core group. The first ligands each have a following structure: 2. The photoresist of claim 1 , wherein the photoresist is an extreme ultraviolet (EUV) lithography photoresist.3. The photoresist of claim 1 , wherein: the core group contains Caesium (Cs) claim 1 , Barium (Ba) claim 1 , Lanthanum (La) claim 1 , Cerium (Ce) claim 1 , Indium (In) claim 1 , Tin (Sn) claim 1 , Silver (Ag) claim 1 , or Antimony (Sb).4. The photoresist of claim 1 , wherein the core group contains 1˜18 metal ions.5. The photoresist of claim 1 , wherein the linker includes: C═O claim 1 , —S— claim 1 , —P— claim 1 , —P(O)— claim 1 , —C(═O)SH claim 1 , —C(═O)OH claim 1 , —OC(═O)— claim 1 , —O— claim 1 , —N— claim 1 , —NH— claim 1 , —NH— claim 1 , —C(═O)NH claim 1 , —SOH claim 1 , —SOSH claim 1 , —SO— claim 1 , or —SO.6. The photoresist of claim 1 , wherein the core group has at least one first ligand and at least one second ligand attached thereto.7. The photoresist of claim 6 , wherein:the core group includes a plurality of metal ions;a first subset of the metal ions each has a first ligand attached thereto; anda second subset of the metal ions each has a second ligand attached thereto.11. The photoresist of claim 10 , wherein: the core group contains Caesium (Cs) claim 10 , Barium (Ba) claim 10 , Lanthanum (La) claim 10 , Cerium (Ce) claim 10 , Indium (In) claim 10 , Tin (Sn) claim 10 , Silver (Ag) claim 10 , or Antimony (Sb).12. The photoresist of claim 10 , wherein:the core group contains a plurality of metal ions;the first ligand is attached to a first one of the metal ions; andthe second ligand is attached to a second one of the metal ions.14. The method of claim 13 , further comprising: constructing the photoresist material using a solvent that is selected from the group consisting of: PGMEA (Propylene glycol methyl ether acetate) claim 13 , PGME (propylene ...

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Номер записи: 78
12-03-2015 дата публикации

ORGANIC LIGHT-EMITTING DIODE DISPLAY AND METHOD OF MANUFACTURING THE SAME

Номер: US20150069364A1
Автор: LIN Hsi-Chien, Liu Chen-Yu, Lu Hung-Chieh
Принадлежит:

An organic light-emitting diode display and method of manufacturing the same are provided in the present invention. The organic light-emitting diode display includes an anode layer and a cathode layer opposite to and spaced apart from each other, an organic light-emitting layer disposed between the anode layer and the cathode layer, wherein the organic light-emitting layer includes primary color regions and mixed color regions, and a color deviation protective layer disposed between the anode layer and the organic light-emitting layer or between the organic light-emitting layer and the cathode layer, and the color deviation protective layer is provided with insulating patterns corresponding to the mixed color regions to prevent light generation from the mixed color regions. The manufacturing method features the step of disposing a color deviation protective layer to prevent light generation from the mixed color regions of the organic light-emitting layer and solve conventional color deviation issue. 1. An organic light-emitting diode display , comprising:an anode layer;a cathode layer opposite to and spaced apart from said anode layer;an organic light-emitting layer disposed between said anode layer and said cathode layer, wherein said organic light-emitting layer comprises primary color regions and mixed color regions; andan color deviation protective layer disposed between said anode layer and said organic light-emitting layer or between said organic light-emitting layer and said cathode layer, and said color deviation protective layer is provided with insulating patterns corresponding to said mixed color regions, wherein said insulating patterns are used to prevent the light generation from said corresponding mixed color regions.2. The organic light-emitting diode display according to claim 1 , wherein said organic light-emitting diode display further comprises:an upper substrate and a lower substrate, wherein said cathode layer and said anode layer are disposed ...

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Номер записи: 79
12-03-2015 дата публикации

ORGANIC LIGHT-EMITTING DIODE DISPLAY AND FABRICATION METHOD THEREOF

Номер: US20150069365A1
Автор: LIN Hsi-Chien, Liu Chen-Yu, Lu Hung-Chieh
Принадлежит:

An organic light-emitting diode (OLED) display and fabrication method thereof are provided. The OLED display includes an organic light-emitting layer comprising a plurality of primary color regions and a plurality of mixed color regions, wherein the primary color regions and the mixed color regions have the same light emitting direction. A color shift prevention layer is disposed above or under the organic light-emitting layer, the color shift prevention layer comprising a plurality of opaque patterns disposed on the light emitting direction of the corresponding mixed color regions. The color shift prevention layer incorporated in the OLED display is able to block the mixed light emitted from the mixed color regions of the organic light-emitting layer. Therefore, the color shift problem can be solved. 1. An organic light-emitting diode (OLED) display , comprising:an organic light-emitting layer comprising a plurality of primary color regions and a plurality of mixed color regions; anda color shift prevention layer disposed above or under the organic light-emitting layer and having a plurality of opaque patterns, wherein the opaque patterns are disposed on a light emitting direction of the corresponding mixed color regions.2. The OLED display according to further comprising:an upper substrate and a lower substrate; anda cathode layer and an anode layer, wherein the cathode layer and the anode layer are disposed between the upper substrate and the lower substrate and are spaced apart from each other, wherein the organic light-emitting layer is disposed between the cathode layer and the anode layer.3. The OLED display according to wherein the anode layer is a light reflective layer and the cathode layer is a light transmissive layer claim 2 , and the light emitting direction is towards the upper substrate.4. The OLED display according to wherein the color shift prevention layer is disposed between the upper substrate and the organic light-emitting layer.5. The OLED ...

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Номер записи: 80
12-03-2015 дата публикации

TOUCH DISPLAY AND METHOD FOR MANUFACTURING THE SAME

Номер: US20150070605A1
Автор: Kung Li-Wei, LIN Hsi-Chien, Liu Chen-Yu, Shao Hong-Siang
Принадлежит:

A touch display is disclosed including a display module, a polarizer disposed on the display module, and a plurality of touch electrodes at least partly coated on the polarizer, wherein the touch electrodes are formed by nano-silver. Since the touch electrodes formed by nano-silver is employed in the display, a multifunctional touch display is provided. A method for making the touch display is also disclosed. 1. A touch display , comprising:a display module;a polarizer disposed on the display module; anda plurality of nano-silver touch electrodes totally or partially integrated with the polarizer.2. The touch display according to claim 1 , wherein the polarizer comprises a first protective layer claim 1 , a polarizer substrate claim 1 , and a second protective layer claim 1 , the polarizer substrate is sandwiched between the first protective layer and the second protective layer.3. The touch display according to claim 2 , wherein the plurality of nano-silver touch electrodes comprises a plurality of first touch electrodes paralleled arranged along a first direction and a plurality of second touch electrodes paralleled arranged along a second direction; the plurality of first touch electrodes are disposed on the first protective layer; the plurality of second touch electrodes are disposed on the second protective layer; the plurality of first touch electrodes and the plurality of second touch electrodes are electrically insulated from each other via the polarizer substrate; the first direction is unparallel to the second direction.4. The touch display according to claim 2 , wherein the plurality of nano-silver touch electrodes comprises a plurality of first touch electrodes paralleled arranged along a first direction and a plurality of second touch electrodes paralleled arranged along a second direction; the plurality of first touch electrodes are disposed on one side of the first protective layer; the plurality of second touch electrodes are disposed on the other ...

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Номер записи: 81
28-02-2019 дата публикации

TOUCH PANEL AND MANUFACTURING METHOD THEREOF

Номер: US20190064968A1
Автор: Jian Bo-Ren, Liu Chen-Yu, LIU CHENG-PING
Принадлежит:

A touch panel includes a substrate, a touch sensing electrode, a peripheral conductive trace, a protective layer, and a conductive layer. The substrate has a display area and a peripheral area. The touch sensing electrode is disposed in the display area. The peripheral conductive trace is disposed in the peripheral area. The touch sensing electrode is electrically connected to the peripheral conductive trace. The touch sensing electrode and the peripheral conductive trace at least include metal nanowires. The protective layer is disposed on the touch sensing electrode, and the conductive layer is disposed on the peripheral conductive trace. 1. A manufacturing method of a touch panel , comprising:providing a substrate, the substrate having a display area and a peripheral area;providing a touch sensing electrode disposed in the display area and a peripheral conductive trace disposed in the peripheral area, wherein the touch sensing electrode is electrically connected to the peripheral conductive trace, and wherein the touch sensing electrode and the peripheral conductive trace are formed by patterning a transparent conductive layer at least comprising metal nanowires;providing a protective layer disposed on the touch sensing electrode; andproviding a conductive layer disposed on the peripheral conductive trace, wherein the conductive layer is formed by electro-plating, electroless plating, or a combination thereof.2. The manufacturing method of the touch panel according to claim 1 , wherein providing the touch sensing electrode disposed in the display area and the peripheral conductive trace disposed in the peripheral area comprises:providing a film layer, wherein the metal nanowires are embedded into the film layer to form a conductive network, the film layer and the metal nanowires integrally form the transparent conductive layer; andpatterning the transparent conductive layer to form a non-conductive area in the display area and the peripheral area to define the ...

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Номер записи: 82
14-03-2019 дата публикации

Display panel and method for manufacturing the same

Номер: US20190079338A1
Автор: Yu-Chen Liu
Принадлежит: INT Tech Co Ltd

A display panel includes a display device, an optical absorbing layer, an anti-reflection structure and a cover layer. The display device includes a plurality of pixels. The optical absorbing layer is over the display device and configured to absorb a light within a wavelength range. The anti-reflection structure is over the pixels of the display device, wherein the anti-reflection structure includes a photo-sensitive alignment layer, a liquid crystal circular polarizer and a linear polarizer. The photo-sensitive alignment layer is over the optical absorbing layer, wherein the photo-sensitive alignment layer is sensitive to and curable by the light within the wavelength range. The liquid crystal circular polarizer is over the photo-sensitive alignment layer, wherein the liquid crystal circular polarizer includes a plurality of liquid crystal molecules aligned by the photo-sensitive alignment layer. The linear polarizer is over the liquid crystal circular polarizer. The cover layer is over the anti-reflection structure.

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Номер записи: 83
12-06-2014 дата публикации

ELECTROSPINNING APPARATUS WITH A SIDEWAY MOTION DEVICE AND A METHOD OF USING THE SAME

Номер: US20140162521A1
Автор: Chen Chien-Chung, Ke Cherng-You, Liu Chen-Yu, OU KENG-LIANG, Yang Jen-Chang
Принадлежит: TAIPEI MEDICAL UNIVERSITY

The invention provides an electrospinning apparatus, which comprises one or more spinneret, a rotating collector disposed from the spinneret and configured to collect the fibers, and a sideway motion device disposed on or connected to the spinneret or the rotating collector and configured to propel or move the spinneret or the rotating collector, wherein the sideway motion device is controlled by a controlling unit for providing an angular speed (θ) of the sideway motion with a formula: θ=tanx/H wherein x is a parallel motion speed of the device and H is a vertical height between the spinneret and the rotating collector and wherein the angular speed (θ) is in a range of about 1.0×10to about 1.0 (°/sec). Also provided is the 2-D or 3-D membranes produced therefrom and a method of using the apparatus of the invention. 1. An electrospinning apparatus , which comprises one or more spinneret , a rotating collector disposed from the spinneret and configured to collect the fibers , and a sideway motion device disposed on or connected to the spinneret or the rotating collector and configured to propel or move the spinneret or the rotating collector , wherein the sideway motion device is controlled by a controlling unit for providing an angular speed (θ) of the sideway motion with a formula: θ=tanx/H wherein x is a parallel motion speed of the device and H is a vertical height between the spinneret and the rotating collector and wherein the angular speed (θ) is in a range of about 1.0×10to about 1.0 (°/sec).2. The electrospinning apparatus of claim 1 , wherein the spinneret is a coaxial spinneret.3. The electrospinning apparatus of claim 1 , wherein the sideway motion device is disposed on the spinneret.4. The electrospinning apparatus of claim 1 , wherein the sideway motion device is connected to the spinneret.5. The electrospinning apparatus of claim 1 , wherein the controlling unit is set in a computer.6. The electrospinning apparatus of claim 1 , wherein the angular ...

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Номер записи: 84
12-03-2020 дата публикации

TURNING AIR MATTRESS, TURNING AIR CELL, AND CONTROL METHOD FOR AIR MATTRESS

Номер: US20200078241A1
Автор: CHANG Ming-Lung, CHENG Wen-Ching, CHOU FANG-JU, HSIEH MING-HENG, LEE Pi-Kai, Liu Yu-Chen
Принадлежит:

The present invention discloses a turning air mattress, a turning air cell, and a control method for a turning air mattress. With structural arrangements of an upper portion and a lower portion of the turning air cell as well as inflation and deflation control, the turning air cell having an upper portion that is wider and a lower portion that is narrower can further assist a patient in body turning, enabling the patient to easily achieve a sufficient body turning angle, further reducing the risk of likeliness to pressure sores caused by the structure of the air mattress pressing against the body of the patient. 1. A turning air mattress , comprising at least one turning air cell , the turning air cell comprising:an upper portion; anda lower portion, located on a side opposite to the upper portion, a width of the lower portion being smaller than a width of the upper portion;wherein, the turning air cell has a left air chamber and a right air chamber.2. The turning air mattress according to claim 1 , wherein a ratio of the width of the lower portion to the width of the upper portion is between 33% and 75%.3. The turning air mattress according to claim 1 , further comprising:a movement preventing unit, provided on any one of left and right sides of the turning air cell, the movement preventing unit comprising a leaning portion that can be leaned against by the turning air cell.4. The turning air mattress according to claim 3 , wherein each of the left air chamber and the right air chamber has a first ventilation hole claim 3 , and the movement preventing unit has a second ventilation hole claim 3 , and a diameter of the second ventilation hole is smaller than a diameter of the first ventilation hole.5. The turning air mattress according to claim 3 , wherein the movement preventing unit has a first air chamber and a second air chamber claim 3 , the second air chamber is enveloped in the first air chamber claim 3 , and the first air chamber is in communication with the ...

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Номер записи: 85
24-03-2016 дата публикации

FLEXIBLE DISPLAY PANEL AND ELECTRO-OPTICAL APPARATUS

Номер: US20160087020A1
Автор: Chwu Jong-Wen, Lin Chao-Cheng, Liu Yu-Chen, Wu Che-Yao, Yang Wei-Chieh
Принадлежит:

A first etching stop layer and an active layer are formed on an inner surface of a first glass substrate, and a second etching stop layer and a cover layer are formed on an inner surface of a second glass substrate. A display media is formed between the first glass substrate and the second glass substrate. A first passivation layer is formed on an outer surface of the second glass substrate. A first etching process is performed to expose the first etching stop layer. A first flexible substrate is formed on the exposed first etching stop layer, and a second passivation layer is formed on the first flexible substrate. The first passivsation layer is removed. A second etching process is performed to expose the second etching stop layer. A second flexible substrate is formed on the exposed second etching stop layer, and the second passivation layer is removed. 1. A flexible display panel , comprising:a first flexible substrate, having a first etching stop layer and an active layer disposed thereon, wherein the material of the first etching stop layer comprises polyamide or silicon-rich dielectric material, the active layer comprises a plurality of scan lines, a plurality of data lines, a plurality of thin film transistors, and a plurality of pixel electrodes, wherein the thin film transistors are electrically connected to the corresponding scan lines and data lines, the pixel electrodes are electrically connected to the corresponding thin film transistors, and the first etching stop layer is disposed underneath the active layer and disposed between the active layer and the first flexible substrate;a second flexible substrate, having a second etching stop layer and a cover layer disposed thereon, wherein the material of the second etching stop layer comprises polyamide or silicon-rich dielectric material, the second etching stop layer is in contact with the second flexible substrate, and the cover layer at least comprises a color filter layer, the second etching stop ...

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Номер записи: 86
31-03-2016 дата публикации

Cleaning composition and method for semiconductor device fabrication

Номер: US20160090565A1
Автор: Chen-Yu Liu, Ching-Yu Chang
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

Provided is a cleaning composition and its applications. The cleaning composition comprises a mixture of a halogen-containing compound and an organic solvent. In some embodiments, the halogen-containing compound is TetraButylAmmonium Fluoride (TBAF) and the organic solvent is either propylene glycol monomethylether acetate (PGMEA) or a mixture of PGMEA and propylene glycol monomethylether (PGME). The cleaning composition is effective in removing silicon-containing material off of a surface of an apparatus. In some embodiments, the apparatus comprises a pipeline for delivering the silicon-containing material in semiconductor spin-coating processes. In some embodiments, the apparatus comprises a drain for collecting waste fluid in semiconductor spin-coating processes. In some embodiments, the apparatus comprises a patterned substrate.

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Номер записи: 87
12-03-2020 дата публикации

Series resonant converter

Номер: US20200083817A1
Автор: CHEN CHEN, De-Jia Lu, Guan-Wei Lin, Huang-Jen Chiu, Kai-De Chen, Katherine Ann Kim, Yu-Chen Liu
Принадлежит: Individual

A series resonant converter includes a switching circuit, a resonant tank, a transformer and a rectifier circuit. The switch circuit has a power supply connected to the primary side upper bridge switch and the primary side lower bridge switch, which are configured to control the input voltage and the input current of the power supply. The resonant tank is coupled to the switch circuit and includes a resonant inductor, a resonant capacitor, and a magnetizing inductor connected in series. The transformer is coupled to the resonant tank and includes a core, a primary winding, and at least four groups of secondary windings. The core has a center column, the primary winding is wound on the center column, and at least four secondary windings are wound on the center column. The number of equivalent windings added by the at least four groups of secondary windings is 1.

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Номер записи: 88
31-03-2016 дата публикации

Photoacid Generator Bound to Floating Additive Polymer

Номер: US20160093493A1
Автор: Chen-Yu Liu, Ching-Yu Chang
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

Methods and materials for making a semiconductor device are described. The method includes providing a substrate, forming a middle layer comprising a floating additive polymer (FAP) at an upper surface of the middle layer, the FAP chemically bound to a photoacid generator (PAG) and including a fluorine-containing material over the substrate, forming a photoresist layer over the middle layer, exposing the photoresist layer and the middle layer to an exposure energy to produce acid bound to the middle layer in the exposed areas of the middle layer, and developing the photoresist layer.

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Номер записи: 89
19-03-2020 дата публикации

Respiratory mask

Номер: US20200086071A1
Автор: Chia-Wei Huang, Chih-Tsan CHIEN, Chun-Hung Chen, Pi-Kai Lee, Sheng-Wei Lin, Shu-Chi Lin, Yu-Chen Liu
Принадлежит: Individual

Herein disclosed is a respiratory mask comprising a nose cushion assembly. The nose cushion assembly comprises a base body and a buffering piece. The base body is defined as having a base intake portion and a base connection portion. The base body comprises an air routing piece disposed at the inside of the base body and having a partitioning wall and a wall connection piece. The inside of the partitioning wall encloses an air intake zone. The wall connection piece is disposed outside the partitioning wall and connects with the base intake portion. Between the partitioning wall and the base intake portion there is defined an air outtake zone. The air intake zone is approximately at the center of the base intake portion. The buffering piece connects with the base connection portion and encloses a nose containing room, which in turn connects with the inside of the base body.

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Номер записи: 90
19-03-2020 дата публикации

Multi-function exercise treadmill

Номер: US20200086168A1
Автор: Liu Yu-Chen
Принадлежит:

A multi-function exercise treadmill includes a tread belt driven by an electric motor; an underlying frame including two front uprights, an intermediate upright with the electric motor secured thereto, two side rails with the tread belt rotatably disposed therebetween, two cross rails each interconnecting the front uprights and secured to the intermediate upright, a rack disposed on the intermediate upright and including a plurality of cavities configured to place a plurality of dumbbells therein, and a plurality of pairs of bars disposed on the intermediate upright; a massaging strap driven by the electric motor; and a plurality of rally ropes each having one end secured to the cross rail. 1. A multi-function exercise treadmill , comprising:an electric motor;a tread belt driven by the electric motor;an underlying frame including two front uprights, an intermediate upright with the electric motor secured thereto, two side rails with the tread belt rotatably disposed therebetween, a rack disposed on the intermediate upright, the rack including a plurality of S-shaped cavities configured to place a plurality of dumbbells therein, and a plurality of pairs of bars disposed on the intermediate upright;a massaging strap driven by the electric motor; anda plurality of rally ropes each having one end secured to the underlying frame.2. The multi-function exercise treadmill of claim 1 , wherein the underlying frame further comprises a plurality of cross rails each with one end of the rally rope secured thereto claim 1 , each cross rail having two ends secured to the front uprights respectively.3. The multi-function exercise treadmill of claim 2 , wherein the cross rails are bent bars claim 2 , further comprising two fastening plates for securing two ends of the cross rail to the front uprights respectively.4. The multi-function exercise treadmill of claim 3 , wherein each fastening plate includes a threaded hole so that a threaded fastener is configured to drive through the ...

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Номер записи: 91
09-04-2015 дата публикации

TOUCH PANEL

Номер: US20150097175A1
Автор: Kung Li-Wei, LIN Hsi-Chien, Liu Chen-Yu
Принадлежит:

The present invention provides a touch panel, including a lower substrate, an organic light-emitting component, disposed on the lower substrate, a nano silver sensing layer, disposed on the organic light emitting component, and an upper substrate, disposed on the nano silver sensing layer. 1. A touch panel , comprising:a lower substrate;an organic light-emitting component, disposed on the lower substrate;a nano silver sensing layer, disposed on the organic light emitting component; andan upper substrate, disposed on the nano silver sensing layer.2. The touch panel of claim 1 , wherein the nano silver sensing layer comprises:a first insulating layer, disposed on the organic light emitting component;a first nano silver electrode layer, disposed on the surface of the first insulating layer;a second insulating layer, disposed on the first nano silver electrode layer; anda second nano silver electrode layer, disposed on the surface of the second insulating layer.3. The touch panel of claim 2 , wherein the first insulating layer and the second insulating layer are composed of flexible materials claim 2 , and the flexible materials are selected from the group consisting of epoxy claim 2 , modified epoxy claim 2 , polyester claim 2 , acrylic claim 2 , fluorocarbon polymers claim 2 , polyphenylene oxide claim 2 , polyimide claim 2 , phenolic resins claim 2 , polysulfones claim 2 , silicone-polymer resin claim 2 , BT resin claim 2 , cyanate poly polyethylene claim 2 , polycarbonate resin claim 2 , acrylonitrile-butadiene-styrene copolymer claim 2 , polyethylene terephthalate claim 2 , polyethylene terephthalate claim 2 , polybutylene terephthalate claim 2 , liquid crystal polymers claim 2 , polyamides claim 2 , nylon 6 claim 2 , copolymerized formaldehyde claim 2 , polyphenylene sulfide and cyclic olefin copolymer.4. The touch panel of claim 2 , further comprising a transparent adhesion layer disposed between the organic light emitting component and the first insulating layer ...

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Номер записи: 92
09-04-2015 дата публикации

NETWORK SERVICE EXTENSION METHOD AND DEVICE

Номер: US20150098359A1
Автор: CHEN Chung-Chia, Liu Yu-Chen, YEN Kuang-Yu
Принадлежит:

The present invention discloses a network service extension method and device capable of extending the range of a network service. An embodiment of said method comprises the following steps: establishing a link between a substantial network unit of a wireless network relay device and a wireless network serving device; configuring a virtual wireless network serving unit according to the link setting of the wireless network serving device, so as to make the link settings of the virtual wireless network serving unit and the wireless network serving device the same; establishing a link between the virtual wireless network serving unit and a wireless network demand device; and establishing the connection between the wireless network serving device and the wireless network demand device via the virtual wireless network serving unit and the substantial network unit. 1. A network service extension method capable of extending the range of a network service , comprising the following steps:establishing a link between a substantial network unit of a wireless network relay device and a wireless network serving device;configuring a virtual wireless network serving unit according to the link setting of the wireless network serving device, so that the link settings of the virtual wireless network serving unit and the wireless network serving device are the same;establishing a link between the virtual wireless network serving unit and a wireless network demand device; andestablishing a connection between the wireless network serving device and the wireless network demand device via the virtual wireless network serving unit and the substantial network unit.2. The network service extension method of claim 1 , wherein the step of establishing the link between the virtual wireless network serving unit and the wireless network demand device includes:having the virtual wireless network serving unit send a beacon, so that the wireless network demand device is operable to detect the ...

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Номер записи: 93
16-04-2015 дата публикации

DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME

Номер: US20150103270A1
Автор: LIANG PING-CHUN, Liu Yu-Chen, TUNG LI-TING
Принадлежит:

Display device includes a display panel. The display panel includes a first substrate, a sealant, and, a second substrate fastended to the first substrate via the sealant. At least one of the first substrate and the second substrate is a non-planar substrate including at least two portions correspondingly extending in different planes. 1. A display device , comprising: a first substrate;', 'a sealant; and', 'a second substrate fastended to the first substrate via the sealant;, 'a display panel comprisingwherein at least one of the first substrate and the second substrate is a non-planar substrate comprising at least two portions correspondingly extending in different planes.2. The display device of claim 1 , wheren a curvature of the non-planar substrate is constant or continuously variational.3. The display device of claim 2 , wherein the continuously variable curvatures of the non-planar substrate is linear or non-linear.4. The display device of claim 1 , wherein the display panel is a liquid crystal display panel claim 1 , the first substrate is a color filter substrate comprising a plurality of color filters arranged as a matrix claim 1 , the second substrate is a thin film transistor substrate comprising a plurality of thin film transistors corresponding to the color filters claim 1 , and the display panel further comprises a liquid crystal layer sealed between the first substrate and the second substrate.5. The display device of claim 4 , wherein further comprising:a back cover fastended to a bottom of the display device via a adhesive; anda backlight module accommodated between a receiving space defined between the display panel and the back cover.6. The display device of claim 5 , wherein the back cover is selected from a group consisting of a glass board claim 5 , a plastic board claim 5 , and a metal board.7. The display device of claim 5 , wherein the back cover is made of a material selected from a group consisting of polyethylene naphthalate claim 5 , ...

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Номер записи: 94
03-07-2014 дата публикации

TOUCH PANEL AND MANUFACTURING METHOD THEREOF

Номер: US20140182894A1
Автор: Lee Lu-Hsing, Liu Chen-Yu
Принадлежит: TPK TOUCH SOLUTIONS INC.

A touch panel is partitioned into a sensing region and a circuit region and the circuit region is positioned around the edges of the sensing region. The touch panel comprises an electrode layer, a first wire layer, a second wire layer and an insulating layer. The electrode layer is disposed in the sensing region. The first wire layer is disposed in the circuit region and electrically connects to the electrode layer. The second wire layer electrically connects to the first wire layer in the circuit region. The insulating layer has a portion being disposed between the first wire layer and the second wire layer in the circuit, and has a plurality of first through holes wherein the first wire layer electrically connects to the second wire layer through the first through holes. The present disclosure also provides a method of manufacturing a touch panel. 1. A touch panel having a sensing region and a circuit region located on the edge of the sensing region , comprising:an electrode layer disposed in the sensing region;a first wire layer disposed in the circuit region and electrically connected to the electrode layer;a second wire layer electrically connected to the first wire layer in the circuit region; andan insulating layer having a portion being disposed between the first wire layer and the second wire layer in the circuit region, and having a plurality of first through holes wherein the first wire layer electrically connects to the second wire layer through the first through holes.2. The touch panel according to claim 1 , wherein the first wire layer include a plurality of first wires claim 1 , and the second wire layer include a plurality of second wires corresponding to the first wires.3. The touch panel according to claim 1 , wherein the first wire layer and the electrode layer are disposed on a substrate claim 1 , the portion of the insulating layer in the sensing region is disposed on the electrode layer claim 1 , and the portion of the insulating in the ...

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Номер записи: 95
26-03-2020 дата публикации

NEAR-EYE DISPLAY SYSTEM AND DISPLAY METHOD THEREOF

Номер: US20200096769A1
Автор: CHANG Ting-Chi, Chou Han-Szu, Lin Chia-Ming, Liu Yu-Chen
Принадлежит: COMPAL ELECTRONICS, INC.

A near-eye display system is provided. The near-eye display system includes a display, an image capturing device, a storage device and a processor. The image capturing device is configured to obtain an image of a field of view in which a user watches the display. The storage device is configured to record programs or commands. The processor loads and executes the programs or commands recorded in the storage device to: calculate an in-view brightness distribution according to the image; establish a luminosity invert mask according to the in-view brightness distribution; and control the display to display according to the luminosity invert mask. In addition, a display method for the near-eye display system is also provided. 1. A near-eye display system , comprising:a display;an image capturing device, configured to obtain an image of a field of view range in which a user watches the display;a storage device, configured to record programs or commands; and calculate an in-view brightness distribution according to the image;', 'establish a luminosity invert mask according to the in-view brightness distribution, wherein the luminosity invert mask is a mask value distribution corresponding to brightness, transmittance or transparency;', 'adjust a brightness, a transmittance or a transparency of an image to be displayed according to the mask value distribution; and', 'control the display to display the adjusted image to be displayed., 'a processor, coupled to the display, the image capturing device and the storage device, and loading and executing the programs or commands recorded in the storage device to2. The near-eye display system as claimed in claim 1 , wherein the luminosity invert mask is negatively related to the in-view brightness distribution.3. The near-eye display system as claimed in claim 2 , wherein the storage device is configured to record the image to be displayed claim 2 , and the processor controls the display to display according to the luminosity ...

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Номер записи: 96
08-04-2021 дата публикации

Adhesion layer for multi-layer photoresist

Номер: US20210103218A1
Автор: Chen-Yu Liu, Chin-Hsiang Lin, Ching-Yu Chang, Tzu-Yang Lin, Ya-Ching Chang
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

A method is provided including forming a first layer over a substrate and forming an adhesion layer over the first layer. The adhesion layer has a composition including an epoxy group. A photoresist layer is formed directly on the adhesion layer. A portion of the photoresist layer is exposed to a radiation source. The composition of the adhesion layer and the exposed portion of the photoresist layer cross-link using the epoxy group. Thee photoresist layer is then developed (e.g., by a negative tone developer) to form a photoresist pattern feature, which may overlie the formed cross-linked region.

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Номер записи: 97
26-03-2020 дата публикации

ADHESION LAYER FOR MULTI-LAYER PHOTORESIST

Номер: US20200098558A1
Автор: Chang Ching-Yu, CHANG Ya-Ching, Lin Chin-Hsiang, LIN TZU-YANG, Liu Chen-Yu
Принадлежит:

A method is provided including forming a first layer over a substrate and forming an adhesion layer over the first layer. The adhesion layer has a composition including an epoxy group. A photoresist layer is formed directly on the adhesion layer. A portion of the photoresist layer is exposed to a radiation source. The composition of the adhesion layer and the exposed portion of the photoresist layer cross-link using the epoxy group. Thee photoresist layer is then developed (e.g., by a negative tone developer) to form a photoresist pattern feature, which may overlie the formed cross-linked region. 1. A method comprising:forming a first layer over a substrate;forming an adhesion layer over the first layer, wherein the adhesion layer has a composition including an epoxy group;forming a photoresist layer directly on the adhesion layer;exposing a portion of the photoresist layer to a radiation source;cross-linking the composition of the adhesion layer and the exposed portion of the photoresist layer, wherein the epoxy group provides the cross-linking; anddeveloping the photoresist layer to form a photoresist pattern feature.2. The method of claim 1 , wherein the forming the adhesion layer includes spin-coating the composition.3. The method of claim 1 , wherein the composition of the adhesion layer is a silicon based polymer with the epoxy group.4. The method of claim 3 , wherein the composition is a siloxane polymer with the epoxy group.5. The method of claim 1 , wherein the cross-linking creates a cross-linked region of the photoresist layer claim 1 , wherein the cross-linked region between a portion of the exposed photoresist and the adhesion layer.6. The method of claim 1 , wherein the radiation source is an extreme ultra-violet (EUV) wavelength radiation source.7. The method of claim 1 , wherein the developing the photoresist layer includes providing a negative-tone developer.8. The method of claim 1 , wherein the forming the first layer over the substrate includes ...

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Номер записи: 98
23-04-2015 дата публикации

Anti-Reflective Layer and Method

Номер: US20150111384A1
Автор: Chen-Yu Liu, Ching-Yu Chang
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

A system and method for anti-reflective layers is provided. In an embodiment the anti-reflective layer comprises a floating component in order to form a floating region along a top surface of the anti-reflective layer after the anti-reflective layer has dispersed. The floating component may be a floating cross-linking agent, a floating polymer resin, or a floating catalyst. The floating cross-linking agent, the floating polymer resin, or the floating catalyst may comprise a fluorine atom. The anti-reflective layers are removed using a fluid.

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Номер записи: 99
02-04-2020 дата публикации

PHOTORESIST COMPOSITION AND METHOD OF FORMING PHOTORESIST PATTERN

Номер: US20200105522A1
Автор: Chang Ching-Yu, Lin Chin-Hsiang, Liu Chen-Yu
Принадлежит:

A method of forming a photoresist pattern includes forming an upper layer including a floating additive polymer over a photoresist layer formed on a substrate. The photoresist layer is selectively exposed to actinic radiation. The photoresist layer is developed to form a pattern in the photoresist layer, and the upper layer is removed. The floating additive polymer is a siloxane polymer. 1. A method of forming a photoresist pattern , comprising:forming an upper layer including a siloxane polymer over a photoresist layer formed on a substrate;selectively exposing the photoresist layer to actinic radiation;developing the photoresist layer to form a pattern in the photoresist layer; andremoving the upper layer.3. The method according to claim 1 , further comprising heating the photoresist layer before forming the upper layer.4. The method according to claim 1 , wherein the photoresist layer includes metal oxide nanoparticles.5. The method according to claim 1 , further comprising heating the photoresist layer and upper layer after selectively exposing the photoresist layer.6. The method according to claim 1 , wherein the upper layer contains at least 5 wt. % of the siloxane polymer based on the total weight of the upper layer.7. The method according to claim 1 , wherein the concentration of Si in the siloxane polymer ranges from 15 wt. % to 42 wt. % based on the weight of the siloxane polymer.8. The method according to claim 1 , further comprising performing a de-scum operation after developing the photoresist layer.9. The method according to claim 1 , wherein the photoresist pattern is formed without forming an additional silicon-containing layer under the photoresist layer.10. A method of forming a photoresist pattern claim 1 , comprising:disposing a mixture of a floating additive polymer and a photoresist over a substrate;rotating the substrate with the mixture disposed thereon, wherein the floating additive polymer separates from the photoresist rising to an upper ...

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Номер записи: 100
02-04-2020 дата публикации

Display panel

Номер: US20200105846A1
Автор: Huei-Siou CHEN, Li-Chen Wei, Yu-Chen Liu
Принадлежит: INT Tech Co Ltd

A display panel includes a display device, a light-guiding structure and an anti-reflection structure. The light-guiding structure is disposed between the pixels to guide light beams emitted from the pixels toward a display surface. The anti-reflection structure is over the pixels of the display device, wherein the anti-reflection structure includes a photo-sensitive alignment layer, a liquid crystal circular polarizer and a linear polarizer. The photo-sensitive alignment layer is over the optical absorbing layer, wherein the photo-sensitive alignment layer is sensitive to and curable by the light within the wavelength range. The liquid crystal circular polarizer is over the photo-sensitive alignment layer, wherein the liquid crystal circular polarizer includes a plurality of liquid crystal molecules aligned by the photo-sensitive alignment layer. The linear polarizer is over the liquid crystal circular polarizer.

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Номер записи: 101
14-05-2015 дата публикации

ORGANIC LIGHT EMITTING DIODE (OLED) TOUCH DISPLAY DEVICE

Номер: US20150130736A1
Автор: Kung Li-Wei, LIN Hsi-Chien, Liu Chen-Yu
Принадлежит:

An OLED touch display device includes an OLED display and a laminated package component covering the OLED display and including a quarter-wave plate, a liquid crystal polarizer, a first touch sensor layer and a second touch sensor layer. The first touch sensor layer and the second touch sensor layer are configured to cooperatively detect touch events. 1. An organic light emitting diode (OLED) touch display device , comprising:an OLED display; anda laminated package component covering said OLED display, the laminated package component including:a quarter-wave plate,a liquid crystal polarizer,a first touch sensor layer, anda second touch sensor layer,said first touch sensor layer and said second touch sensor layer being configured to cooperatively detect touch events.2. The OLED touch display device as claimed in claim 1 , wherein said first touch sensor layer is disposed on a top surface of said quarter-wave plate claim 1 , said liquid crystal polarizer being disposed on a top surface of said first touch sensor layer claim 1 , said second touch sensor layer being disposed on a top surface of said liquid crystal polarizer.3. The OLED touch display device as claimed in claim 1 , wherein said laminated package component further includes a cover glass claim 1 , said first touch sensor layer being disposed on a top surface of said quarter-wave plate claim 1 , said liquid crystal polarizer being disposed on a top surface of said first touch sensor layer claim 1 , said second touch sensor layer being disposed on a bottom surface of said cover glass claim 1 , said cover glass along with said second touch sensor layer being laminated on said liquid crystal polarizer with said second touch sensor layer facing downwardly toward said liquid crystal polarizer.4. The OLED touch display device as claimed in claim 1 , wherein said first touch sensor layer being disposed on a top surface of said quarter-wave plate claim 1 , said second touch sensor layer being disposed on a bottom ...

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Номер записи: 102
14-05-2015 дата публикации

SUBSTRATE STRUCTURE AND PANEL STRUCTURE

Номер: US20150132531A1
Автор: Chen Yan-Liang, Liu Yu-Chen, Tseng Chih-Hsiao
Принадлежит:

A substrate structure including an upper surface, a lower surface and a plurality of side surfaces is provided. The lower surface is opposite to the upper surface. The side surfaces connect to the upper surface and the lower surface. Each side surface has a perpendicular surface, a first corner surface and a second corner surface. The perpendicular surface is perpendicular to the upper surface and the lower surface. The first corner surface is located between the perpendicular surface and the upper surface. The second corner surface is located between the perpendicular surface and the lower surface. The roughness of the first corner surface and the second corner surface are smaller than or equal to that of the perpendicular surface. 1. A panel structure , comprising:a first substrate having an upper surface and a plurality of first side surfaces, wherein each of the first side surfaces has a first perpendicular surface perpendicular to the upper surface and a first corner surface located between the first perpendicular surface and the upper surface, and the first corner surface comprises at least two first sub-corner surfaces;a second substrate having a lower surface and a plurality of second side surfaces, wherein the lower surface corresponds to the upper surface, each of the second side surfaces has a second perpendicular surface perpendicular to the lower surface and a second corner surface located between the second perpendicular surface and the lower surface, and the second corner surface comprises at least two second sub-corner surfaces; anda sealant disposed between the first substrate and the second substrate, wherein a distance between the first perpendicular surface and the sealant is between 0 mm and 1 mm, and a distance between the second perpendicular surface and the sealant is between 0 mm and 1 mm.2. The panel structure as claimed in claim 1 , wherein the distance between the first perpendicular surface and the sealant is greater than 0 mm claim 1 , ...

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Номер записи: 103
10-05-2018 дата публикации

Ultraviolet mosquito-killing lamp with electric shock protection function

Номер: US20180125054A1
Автор: Yu-Chen Liu
Принадлежит: Handle Tech (sz) Co Ltd

The invention relates to an ultraviolet mosquito-killing lamp with an electric shock protection function. The ultraviolet mosquito-killing lamp includes a shell, a power line, and an ultraviolet lamp circuit, a high-voltage switching circuit, a high-voltage net and a switch gear which are located in the shell, wherein the ultraviolet lamp circuit is connected with the high-voltage switching circuit, and the high-voltage switching circuit is connected with the high-voltage net; the switch gear is a double-pole switch, and the double-pole switch is electrically connected with the power line. When the ultraviolet mosquito-killing lamp is powered off, both the live wire and the neutral wire are cut off, and thus the electric shock risk caused by the possibility that the live wire is not cut off when a single-pole switch is turned off is avoided.

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Номер записи: 104
10-05-2018 дата публикации

Multifunction infrared induction water sprinkler

Номер: US20180125057A1
Автор: Liu Yu-Chen
Принадлежит:

A multifunctional infrared induction water sprinkler includes a water inlet pipe (), an infrared induction control device () connected with the water inlet pipe (), and a water outlet device (), wherein the water outlet device () is connected with the infrared induction control device () through a universal joint (); the infrared induction control device () includes an infrared pyroelectric probe, a pre-amplifier, a central processing unit, an electromagnetic valve actuator and an electromagnetic valve which are connected in sequence, and further includes an irrigating/repelling selection controller, a sprinkling duration regulator and a sprinkling interval regulator which are connected with the central processing unit. The multifunctional infrared induction water sprinkler can effectively repel animals to protect gardens, lawns and nursery gardens against damage and can also automatically spray water to irrigate gardens, lawns, nursery gardens and the like, and water resources can be saved. 11020103020303020301. A multifunction infrared induction water sprinkler , characterized by comprising a water inlet pipe () , an infrared induction control device () connected with the water inlet pipe () , and a water outlet device () , wherein the infrared induction control device () controls the water outlet device () to spray water , and the water outlet device () is connected with the infrared induction control device () through a universal joint ().220. The multifunction infrared induction water sprinkler according to claim 1 , characterized in that the infrared induction control device () comprises an infrared pyroelectric probe claim 1 , a pre-amplifier claim 1 , a central processing unit claim 1 , an electromagnetic valve actuator and an electromagnetic valve which are connected in sequence claim 1 , and further comprises an infrared induction distance adjuster which is connected with the pre-amplifier.3. The multifunction infrared induction water sprinkler according ...

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Номер записи: 105
10-05-2018 дата публикации

Multifunctional animal repeller

Номер: US20180125058A1
Автор: Liu Yu-Chen
Принадлежит:

The invention relates to a multifunctional animal repeller including a central processing unit, and a sound output circuit, a light output circuit, an ultrasonic output circuit, a red light blinking output circuit, a various animal deterrence sound programmer, an ultrasonic frequency selection controller, a multifunctional light selector, an animal repelling mode controller, an operating time selection button, an infrared induction distance adjuster, a photosensitive detector, a camera, a pre-amplification circuit, a mass memory, a Wifi module, a camera effect monitor and a multi-power supply system which are all connected with the central processing unit. The multifunction animal repeller can repel different animals through physical phenomena such as sounds, ultrasonic waves and flashing light based on a humane animal repelling design and can protect animals against injuries, and thus the natural environment is protected. 1. A multifunctional animal repeller , characterized by comprising a central processing unit , and a sound output circuit , a light output circuit , an ultrasonic output circuit , a red light blinking output circuit , a various animal deterrence sound programmer , an ultrasonic frequency selection controller , a multifunctional light selector , an animal repelling mode controller , an operating time selection button , an infrared induction distance adjuster , a photosensitive detector , a camera , a pre-amplification circuit , a mass memory , a Wifi module , a camera effect monitor and a multi-power supply system which are all connected with the central processing unit.2. The multifunctional animal repeller according to claim 1 , characterized in that at night claim 1 , a flashing lamp automatically flashes to repel animals claim 1 , and if certain animals still approach claim 1 , powerful ultrasonic waves or flashing light or natural enemy sounds are started instantly when the animals are detected through infrared rays or images about activities ...

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Номер записи: 106
10-05-2018 дата публикации

Novel mouse repeller

Номер: US20180125059A1
Автор: Yu-Chen Liu
Принадлежит: Handle Tech (sz) Co Ltd

The invention relates to a novel mouse repeller including a cavity defined by a shell and a base, and a power rectification and supply part, an ultrasonic output module and a negative ion generator which are located in the cavity, wherein the power rectification and supply part supplies power to the ultrasonic output module and the negative ion generator, the ultrasonic output module includes an ultrasonic transducer protruding out of the shell, and the negative iron generator includes a discharge electrode plate which is a detachable and cleanable electrode plate. The novel mouse repeller is of an integrated structure and has a remarkable mouse repelling effect; meanwhile, the adopted detachable and cleanable electrode plate is high in power and can be reused after being detached and cleaned, so that a powerful negative ion emitting effect is maintained, and the use cost is obviously reduced.

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Номер записи: 107
04-05-2017 дата публикации

SIGNAL CONVERSION DEVICE AND LIGHTING DEVICE INCLUDING THE SAME

Номер: US20170127500A1
Автор: Chen Po-Yen, HUNG Ta-Sheng, Liu Chen-Yu
Принадлежит:

A signal conversion device is provided, which may include a connection interface, a processing module, and a signal conversion module. The connection interface may be detachably coupled to the power conversion module of a lighting device, and may receive a wired control signal via the power conversion module. The processing module may be coupled to the connection interface. The signal conversion module may be coupled to the processing module and the connection interface, and may include an industrial communication protocol standard interface; the signal conversion module may convert the wired control signal into an industrial communication protocol standard signal so as to control at least one controlled device. 1. A signal conversion device applicable to a lighting device , comprising:a connection interface, detachably coupled to a power conversion module of the lighting device, and receiving a wired control signal via the power conversion module;a processing module, coupled to the connection interface; anda signal conversion device, coupled to the processing module and the connection interface, wherein the signal conversion device comprises an industrial communication protocol standard interface; the signal conversion module converts the wired control signal into an industrial communication protocol standard signal via the industrial communication protocol standard interface.2. The signal conversion device of claim 1 , further comprises a wireless communication module claim 1 , wherein the wireless communication module is coupled to the processing module claim 1 , and receives a wireless control signal.3. The signal conversion device of claim 2 , wherein the signal conversion module converts the wireless control signal into the industrial communication protocol standard signal via the industrial communication protocol standard interface.4. The signal conversion device of claim 3 , wherein the signal conversion module transmits the industrial communication protocol ...

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Номер записи: 108
10-05-2018 дата публикации

Intelligent pet door

Номер: US20180128043A1
Автор: Liu Yu-Chen
Принадлежит:

An intelligent pet door includes a door frame and a movable door located in the door frame, wherein an inductive magnet is fixed to the movable door, and a PCBA is fixed to the door frame and comprises a magnetic inductive switch, an MCU, a voice playing module, a loudspeaker, keys and a data sending and receiving module; when the movable door is opened, the magnetic inductive switch is inductively triggered by the magnet and outputs a trigger signal to the MCU, the MCU outputs a control signal to the voice playing module after recognizing the trigger signal, and the voice playing module promotes the loudspeaker to play corresponding music. The intelligent pet door can intelligently remind the owner by automatically sensing the in-out condition of a pet and playing sounds and can sense the activity condition and the health condition of the pet through the IOT technique. 1. An intelligent pet door , comprising a door frame and a movable door located in the door frame; characterized in that a magnet is fixed to the movable door , a PCBA is fixed to the door frame and comprises a magnetic inductive switch , an MCU , a voice playing module , a loudspeaker , keys and a data sending and receiving module; when the movable door is opened , the magnetic inductive switch is inductively triggered by the magnet and outputs a trigger signal to the MCU , the MCU outputs a control signal to the voice playing module after recognizing the trigger signal , the voice playing module promotes the loudspeaker to play corresponding music , and the activity condition and the health condition of a pet are sensed through the TOT technique.2. The intelligent pet door according to claim 1 , characterized in that the PCBA further comprises the data sending and receiving module which is used for sending corresponding signals to a terminal such as a mobile phone claim 1 , and a cloud server.3. The intelligent pet door according to claim 2 , characterized in that the data sending and receiving ...

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Номер записи: 109
10-05-2018 дата публикации

Automatic goods consumption judgment system and method

Номер: US20180132079A1
Автор: Liu Yu-Chen
Принадлежит:

An automatic goods consumption judgment system includes a container tray system, a sensor measurement system, a supporting system, a mobile terminal device, a data transmission unit, a control and data processing system, and a cloud computer. Using the Internet of Things and cloud services, the consumption tendency and consumption state of goods are automatically measured in real time through the system, data are uploaded to a cloud server, and the cloud server sends analyzed and processed data to the terminal device used by users; customers are reminded of the consumption tendency and consumption state of goods according to the analysis and judgment obtained through cloud service computation, the consumption speed of goods and the fact whether required goods need to be prepared in advance or not are determined according to the analysis and judgment. 1. An automatic goods consumption judgment system , characterized by comprising:a container tray system used for storing a container for solid or liquid goods;a sensor measurement system used for measuring the weight or size of goods;a supporting system, wherein the supporting system is used for supporting measured goods, and the situation that a sensor system fails due to the fact that sensors of the measurement system are under the heavy load of goods for a long time is avoided through the supporting system;a mobile terminal device;a data transmission unit, wherein the data transmission unit is used for wireless/wired transmission of data, and thus the automatic goods consumption judgment system can be connected with the mobile terminal device of users conveniently;a control and data processing system and a cloud computer, wherein the control and data processing system and the cloud computer are used for acquiring data by controlling the sensor measurement system and the supporting system, and transmitting data to the data transmission unit, and a transmitting device transmits data to a mobile phone or a network, so ...

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Номер записи: 110
23-04-2020 дата публикации

Negative Tone Developer for Extreme Ultraviolet Lithography

Номер: US20200124971A1
Автор: Chang Ching-Yu, Lai Wei-Han, Lin Chin-Hsiang, LIN TZU-YANG, Liu Chen-Yu, Weng Ming-Hui
Принадлежит:

The present disclosure provides NTD developers and corresponding lithography techniques that can overcome resolution, line edge roughness (LER), and sensitivity (RLS) tradeoff barriers particular to extreme ultraviolet (EUV) technologies, thereby achieving high patterning fidelity for advanced technology nodes. An exemplary lithography method includes forming a negative tone resist layer over a workpiece; exposing the negative tone resist layer to EUV radiation; and removing an unexposed portion of the negative tone resist layer in a negative tone developer, thereby forming a patterned negative tone resist layer. The negative tone developer includes an organic solvent having a log P value greater than 1.82. The organic solvent is an ester acetate derivative represented by RCOOR. Rand Rare hydrocarbon chains having four or less carbon atoms. In some implementations, R, R, or both Rand Rare propyl functional groups, such as n-propyl, isopropyl, or 2-methylpropyl. 2. The lithography developing composition of claim 1 , wherein Ris n-propyl and Ris isopropyl.3. The lithography developing composition of claim 1 , wherein Ris isopropyl and Ris n-propyl.4. The lithography developing composition of claim 1 , wherein Ris ethyl and Ris 2-methylpropyl.5. The lithography developing composition of claim 1 , further configured for removing a resist layer that includes hydroxybenzyl.6. The lithography developing composition of claim 1 , further configured to remove an unexposed portion of a resist layer without removing an exposed portion of the resist layer claim 1 , wherein the exposed portion of the resist layer is exposed to extreme ultraviolet (EUV) radiation.7. The lithography developing composition of claim 1 , further configured to remove an unexposed portion of a resist layer without removing an exposed portion of the resist layer claim 1 , wherein the exposed portion of the resist layer is exposed to an electron beam (e-beam).8. The lithography developing composition of ...

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Номер записи: 111
18-05-2017 дата публикации

RING MAGNETIC ENCODER, MANUFACTURING DEVICE FOR RING MAGNETIC ENCODER, ROTARY SHAFT OFFSET DETECTING METHOD, AND HUMAN-MACHINE INTERFACE DEVICE THEREOF

Номер: US20170138761A1
Автор: CHANG Jen-Yuan, Liu Yu-Chen
Принадлежит:

A ring magnetic encoder includes a ring magnetic object and a ring code configured on the outside of the ring magnetic object. The ring magnetic object is divided into a first ring part and a second ring part. The ring code further includes a plurality of sector IDs, upper offset codes and lower offset codes. The sector IDs are configured on the outside of the ring magnetic object in fixed intervals. The upper offset codes and the lower offset codes are configured in the intervals respectively. The upper offset codes are configured on the first ring part, and the lower offset codes are configured on the second ring part. According to the upper offset codes and the lower offset codes, the offset of the rotary shaft during rotating can be detected for precisely positioning. 1. A ring magnetic encoder , comprising:a ring magnetic object, comprising a first ring part and a second ring part; anda ring code, configured on the outside of the ring magnetic object, the ring code comprising:a plurality of sector IDs, configured on the ring magnetic object in fixed intervals;a plurality of upper offset codes, respectively configured in the intervals between the sector IDs, the upper offset codes configured on the first ring part of the ring magnetic object; anda plurality of lower offset codes, configured in the intervals among the sector IDs and staggered with the upper offset codes, the lower offset codes configured on the second ring part of the ring magnetic object.2. The ring magnetic coder of claim 1 , wherein the sector IDs claim 1 , the upper offset codes and lower offset codes comprise a plurality of N-poles and S-poles respectively in a specific sequence.3. A manufacturing device for a ring magnetic encoder claim 1 , for generating a code graphic on the outside of a ring magnetic object to generate the ring magnetic encoder claim 1 , the manufacturing device for the ring magnetic encoder comprising:a rotating plate, for loading and rotating the ring magnetic object; ...

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Номер записи: 112
24-05-2018 дата публикации

Electric mousetrap with intelligent detection and safety protection functions

Номер: US20180139949A1
Автор: Liu Yu-Chen
Принадлежит:

The invention relates to an electric mousetrap with intelligent detection and safety protection functions, which includes a cavity structure defined by an upper shell and a base and provided with a hole, wherein a power supply module, an intelligent control circuit board, an indication module and a high-voltage generator module are mounted on the upper shell; three mutually-independent electrode plates are arranged on the base and all electrically connected with the intelligent control circuit board, and the intelligent control circuit board receives signals transmitted from the electrode plates and controls the indication module and the high-voltage generator module to act correspondingly after processing the signals. The electric mousetrap can intelligently detect the activity condition of a mouse in the mousetrap and electrically shock the mouse, is safe in use and has a good power saving effect. 1. An electric mousetrap with intelligent detection and safety protection functions , comprising a cavity structure defined by an upper shell and a base and provided with a hole; characterized in that a power supply module , an intelligent control circuit board , an indication module and a high-voltage generator module are mounted on the upper shell , three mutually-independent electrode plates , namely the front electrode plate , the middle electrode plate and the rear electrode plate , are sequentially arranged on the base and all electrically connected with the intelligent control circuit board , and the intelligent control circuit board receives signals transmitted from the electrode plates and controls the indication module and the high-voltage generator module to act correspondingly after processing the signals.2. The electric mousetrap according to claim 1 , characterized in that the electrode plates are in contact connection with the intelligent control circuit board through electrode slices claim 1 , foreign matter between the electrode plates or the humidity of ...

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Номер записи: 113
30-04-2020 дата публикации

Extreme Ultraviolet Photoresist and Method

Номер: US20200133124A1
Автор: Chang Ching-Yu, CHANG Ya-Ching, Lin Chin-Hsiang, Liu Chen-Yu, Wu Cheng-Han
Принадлежит:

The present disclosure provides a method for lithography patterning in accordance with some embodiments. The method includes forming a photoresist layer over a substrate. The photoresist layer includes at least an acid labile group (ALG) and a thermo-base generator (TBG). The method further includes exposing a portion of the photoresist layer to a radiation and performing a baking process after the exposing of the portion of the photoresist layer. The TBG releases a base during the performing of the baking process, resulting in a chemical reaction between the ALG and the base. The method further includes removing an unexposed portion of the photoresist layer, resulting in a patterned photoresist layer. 1. A method , comprising:forming a photoresist layer over a substrate, wherein the photoresist layer includes at least an acid labile group (ALG) and a thermo-base generator (TBG);exposing a portion of the photoresist layer to a radiation;performing a baking process after the exposing of the portion of the photoresist layer, wherein the TBG releases a base during the performing of the baking process, resulting in a chemical reaction between the ALG and the base; andremoving an unexposed portion of the photoresist layer, resulting in a patterned photoresist layer.2. The method of claim 1 , wherein a polarity of the photoresist layer is adjusted after the chemical reaction between the ALG and the base.3. The method of claim 2 , wherein the adjusted polarity reduces a solubility of the photoresist layer in a negative tone developer.4. The method of claim 1 , wherein the photoresist layer further includes a polymer backbone claim 1 , wherein the ALG is bonded to the polymer backbone.5. The method of claim 4 , wherein the photoresist layer further includes a sensitizer bonded to the polymer backbone.6. The method of claim 1 , wherein the ALG includes a t-butoxycardbonyl (tBOC) structure.7. The method of claim 1 , wherein the TBG includes a chemical structure selected from ...

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Номер записи: 114
26-05-2016 дата публикации

MONITORING SYSTEM

Номер: US20160148473A1
Автор: CHIEN Hung-Wen, LIN Yi-Lung, LIN Yu-Te, Liu Yu-Chen, WANG CHIH-YUNG
Принадлежит:

A monitoring system includes at least one light sensor, at least one fastener and at least one controller. The light sensor is configured to detect light emitted by an operation lamp. The fastener wraps around the operation lamp, and it includes a light-shielding body. The light-shielding body has an accommodation groove and an inner surface. The inner surface is adjacent to the operation lamp. The accommodation groove is concavely formed at the inner surface. The light sensor is accommodated in the accommodation groove. The controller is electrically connected with the light sensor for determining a status of the machine according to the light detected by the light sensor. 1. A monitoring system for monitoring at least one machine , wherein each of the at least one machine has an operation lamp , the operation lamp is for emitting light at least when the machine is under operation , the monitoring system comprising:at least one light sensor configured to detecting the light emitted by the operation lamp;at least one fastener wrapping around the operation lamp, the fastener comprising a light-shielding body, wherein the light-shielding body has an accommodation groove and an inner surface, the inner surface is adjacent to the operation lamp, the accommodation groove is concavely formed at the inner surface, and the light sensor is accommodated in the accommodation groove; andat least one controller electrically connected with the light sensor for determining a status of the machine according to the light detected by the light sensor.2. The monitoring system according to claim 1 , further comprising:at least one flexible structure disposed between the fastener and the lamp.3. The monitoring system according to claim 1 , wherein the light sensor comprises:a photoresistor for changing resistance in view of the brightness of the operation lamp of the machine; anda variable resistor serially connected with the photoresistor.4. The monitoring system according to claim 1 , ...

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Номер записи: 115
24-05-2018 дата публикации

REFLECTIVE LIQUID CRYSTAL DISPLAY PANEL

Номер: US20180145089A1
Автор: Liu Yu-Chen, Su Chen-Hao, Yeh Cheng-Yen, Yu Ming-Chang
Принадлежит: HANNSTAR DISPLAY CORPORATION

A reflective LCD panel includes a plurality of pixel units, each of which includes: first and second substrates, first and second scan lines, first and second data lines, a liquid crystal layer, and first, second, third, and fourth pixel structures. The first and second scan lines and the first and second data lines are disposed on the first substrate. Each of the first, second, third, and fourth pixel structures is electrically connected to one of the first and second scan lines and one of the first and second data lines, respectively. The first, second, third, and fourth pixel structures respectively include: an active component and a reflective pixel electrode electrically connected to the active component, and a reflective area ratio of the first, second, third, and fourth pixel structures is 1:2:4:8 or 2:1:4:8. Here, 16 gray scales may be displayed for achieving better visual effects. 1. A reflective liquid crystal display (LCD) panel comprising a plurality of pixel units , each pixel unit comprising:a first substrate;a first scan line, a second scan line, a first data line, and a second data line, disposed on the first substrate;a first pixel structure, a second pixel structure, a third pixel structure, and a fourth pixel structure, respectively electrically connected to one of the first scan line and the second scan line and one of the first data line and the second data line, wherein the first pixel structure, the second pixel structure, the third pixel structure, and the fourth pixel structure respectively comprise:an active component; anda reflective pixel electrode electrically connected to the active component,wherein a reflective area ratio of the first pixel structure, the second pixel structure, the third pixel structure, and the fourth pixel structure being 1:2:4:8 or 2:1:4:8;a second substrate disposed opposite to the first substrate; anda liquid crystal layer disposed between the first substrate and the second substrate.2. The reflective LCD panel ...

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Номер записи: 116
02-06-2016 дата публикации

Method for Manufacturing Semiconductor Device

Номер: US20160155626A1
Автор: Chang Ching-Yu, Liu Chen-Yu
Принадлежит:

A system and method for anti-reflective layers is provided. In an embodiment the anti-reflective layer comprises a floating component in order to form a floating region along a top surface of the anti-reflective layer after the anti-reflective layer has dispersed. The floating component may be a floating cross-linking agent, a floating polymer resin, or a floating catalyst. The floating cross-linking agent, the floating polymer resin, or the floating catalyst may comprise a fluorine atom. The anti-reflective layers are removed using a fluid. 1. A method of manufacturing a semiconductor device , the method comprising:dispensing an anti-reflective material between a first fin and a second fin of a substrate to form an anti-reflective coating, the anti-reflective material having a first concentration of a floating component;forming a floating region adjacent to a top surface of the anti-reflective coating and over the first fin and the second fin, the floating region being at least 10 {acute over (Å)} thick and having a second concentration of the floating component greater than the first concentration, wherein after the forming the floating region a second component has a constant concentration throughout the anti-reflective coating;forming a middle layer over the floating region; andapplying a fluid to the anti-reflective coating to chemically react with and remove the anti-reflective material and the floating region.2. The method of claim 1 , wherein the fluid is an inorganic acid.3. The method of claim 1 , wherein the fluid is an organic acid.4. The method of claim 1 , wherein the fluid is an inorganic base.5. The method of claim 1 , wherein the fluid is an organic base.6. The method of claim 1 , wherein the forming the middle layer comprises forming a hard mask material.7. The method of claim 1 , wherein the forming the middle layer comprises forming the middle layer with a thickness of between about 100 {acute over (Å)} and about 800 {acute over (Å)}.8. A method ...

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Номер записи: 117
15-09-2022 дата публикации

UNDERLAYER COMPOSITION AND METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE

Номер: US20220291586A1
Автор: Chang Ching-Yu, Liu Chen-Yu, Weng Ming-Hui
Принадлежит:

A method for manufacturing a semiconductor device includes forming a resist underlayer over a substrate. The resist underlayer includes an underlayer composition, including: a polymer with pendant photoacid generator (PAG) groups, pendant thermal acid generator (TAG) groups, a combination of pendant PAG and pendant TAG groups, pendant photobase generator (PBG) groups, pendant thermal base generator (TBG) groups, or a combination of pendant PBG and pendant TBG groups. A photoresist layer including a photoresist composition is formed over the resist underlayer. The photoresist layer is selectively exposed to actinic radiation. The selectively exposed photoresist layer is developed to form a pattern in the photoresist layer. 1. A method for manufacturing a semiconductor device , comprising:forming a resist underlayer over a substrate,wherein the resist underlayer includes an underlayer composition, comprising: a polymer with pendant photoacid generator (PAG) groups, pendant thermal acid generator (TAG) groups, a combination of pendant PAG and pendant TAG groups, pendant photobase generator (PBG) groups, pendant thermal base generator (TBG) groups, or a combination of pendant PBG and pendant TBG groups;forming a photoresist layer comprising a photoresist composition over the resist underlayer;selectively exposing the photoresist layer to actinic radiation; anddeveloping the selectively exposed photoresist layer to form a pattern in the photoresist layer.2. The method according to claim 1 , further comprising heating the resist underlayer before forming the photoresist layer.3. The method according to claim 1 , wherein the actinic radiation has a wavelength of less than 250 nm.4. The method according to claim 1 , wherein the polymer is formed from one or more monomers selected from the group consisting of acrylates claim 1 , acrylic acids claim 1 , siloxanes claim 1 , hydroxystyrenes claim 1 , methacrylates claim 1 , vinyl esters claim 1 , maleic esters claim 1 , ...

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Номер записи: 118
31-05-2018 дата публикации

Lithography Process With Enhanced Etch Selectivity

Номер: US20180149976A1
Автор: Chang Ching-Yu, Lin Chin-Hsiang, Liu Chen-Yu
Принадлежит:

The present disclosure provides a method for lithography patterning. The method includes coating a bottom layer on a substrate, wherein the bottom layer includes a carbon-rich material; forming a middle layer on the bottom layer, wherein the middle layer has a composition such that its silicon concentration is enhanced to be greater than 42% in weight; coating a photosensitive layer on the middle layer; performing an exposing process to the photosensitive layer; and developing the photosensitive layer to form a patterned photosensitive layer. 1. A method for lithography patterning , comprising:coating a bottom layer on a substrate, wherein the bottom layer includes a carbon-rich material;forming a middle layer on the bottom layer, wherein the middle layer has a composition such that its silicon concentration is enhanced to be greater than 42% in weight;coating a photosensitive layer on the middle layer;performing an exposing process to the photosensitive layer; anddeveloping the photosensitive layer to form a patterned photosensitive layer.2. The method of claim 1 , wherein the forming of the middle layer includes:spin-on coating a middle material solution on the bottom layer; andperforming a baking process to the middle material solution to form the middle layer with enhanced silicon concentration.3. The method of claim 2 , wherein the middle material solution includes linear polymer chains and a cross-linking additive mixed in a solvent.4. The method of claim 3 , wherein the linear polymer chains include silicon hydroxides with a molecular weight ranging between 2000 Dalton and 3000 Dalton.6. The method of claim 5 , wherein:the linear polymer chains have a molecular weight ranging between 2000 Dalton and 3000 Dalton; andthe cross-linking additive includes a chemical structure with a molecular weight less than 130 and pKa less than 7.7. The method of claim 3 , further comprising preparing the middle material solution before the spin-on coating of the middle ...

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Номер записи: 119
18-06-2015 дата публикации

ORGANIC LIGHT EMITTING DIODE (OLED) TOUCH DISPLAY DEVICE

Номер: US20150169094A1
Автор: Kung Li-Wei, LIN Hsi-Chien, Liu Chen-Yu
Принадлежит:

An OLED touch display device includes an OLED display and a laminated package component. The laminated package component covers the OLED display and includes a quarter-wave plate, a liquid crystal polarizer and a touch sensor unit. The touch sensor unit is a single-layer electrode structure. 1. An OLED touch display device comprising:an OLED display; anda laminated package component covering said OLED display and including a quarter-wave plate, a liquid crystal polarizer and a touch sensor unit, wherein said touch sensor unit is a single-layer electrode structure.2. The OLED touch display device as claimed in claim 1 , wherein said touch sensor unit is disposed on a top surface of said quarter-wave plate claim 1 , said liquid crystal polarizer being disposed on a top surface of said touch sensor unit claim 1 , said touch sensor unit including a plurality of first electrode rows that extend along a first direction and a plurality of independent second electrodes each of which is disposed between two corresponding adjacent ones of said first electrode rows claim 1 , each of said first electrode rows including a plurality of wires and a plurality of first electrodes that are series-connected in the first direction by said wires claim 1 , said touch sensor unit further including a plurality of bridge units each of which is formed on said liquid crystal polarizer claim 1 , crosses a corresponding one of said wires of each of said first electrode rows claim 1 , and connects two corresponding adjacent ones of said second electrodes to constitute a plurality of second electrode rows that extend along a second direction crossing the first direction.3. The OLED touch display device as claimed in claim 2 , wherein each of said bridge units includes two conductive pillars extending through said liquid crystal polarizer and a wire disposed on a top surface of said liquid crystal polarizer and interconnecting first ends of said conductive pillars claim 2 , said conductive pillars ...

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Номер записи: 120
24-06-2021 дата публикации

Quick-Release Structure Capable of Storing Rotating Handle

Номер: US20210191446A1
Автор: Liu Yu-Chen
Принадлежит:

A quick-release structure includes a shaft and a driving assembly. Two ends of the shaft have a receiving hole and a connecting hole, respectively. The driving assembly includes a rotating handle and a connecting rod. One end of the rotating handle is provided with an end cap. The connecting rod includes a pivoting end and a driving section. The rotating handle is pivotally connected to the pivoting end of the connecting rod so that the rotating handle can be pivoted relative to one side of the connecting rod. When in use, the driving section is engaged in the connecting hole, and the rotating handle can be turned to drive the shaft to rotate; when not in use, the driving assembly is inserted into the receiving hole, and the end cap is pressed against an outer end of the receiving hole to be positioned. 1. A quick-release structure , comprising a shaft and a driving assembly , an outer circumferential surface of one end of the shaft having a first threaded section , another end of the shaft having a round shaft head , an outer end of the first threaded section being formed with a receiving hole that is recessed inwardly; the driving assembly including a rotating handle and a connecting rod , the rotating handle being pivotally connected to the connecting rod , the rotating handle being in the form of a rod , one end of the rotating handle being provided with an end cap , another end of the rotating handle having a connecting end , a first O-ring being sleeved on the rotating handle; the connecting rod being in the form of a rod , the connecting rod including a pivoting end and a driving section that are arranged in sequence from one end thereof; a second O-ring being provided between the pivoting end and the driving section; the connecting end of the rotating handle being pivotally connected to the pivoting end of the connecting rod so that the rotating handle can be pivoted relative to one side of the connecting rod; the driving section having a shape corresponding ...

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Номер записи: 121
14-06-2018 дата публикации

RESIST MATERIAL AND METHOD FOR FORMING SEMICONDUCTOR STRUCTURE USING RESIST LAYER

Номер: US20180164684A1
Автор: Chang Ching-Yu, CHANG Ya-Ching, Lin Chin-Hsiang, Liu Chen-Yu, Wu Cheng-Han
Принадлежит: Taiwan Semiconductor Manufacturing Co., Ltd.

A resist material and methods for forming a semiconductor structure including using the resist material are provided. The method for forming a semiconductor structure includes forming a resist layer over a substrate and exposing a portion of the resist layer to form an exposed portion of the resist layer by performing an exposure process. The method for forming a semiconductor structure further includes developing the resist layer in a developer. In addition, the resist layer is made of a resist material including a photosensitive polymer and a contrast promoter, and a protected functional group of the photosensitive polymer is deprotected to form a deprotected functional group during the exposure process, and a functional group of the contrast promoter bonds to the deprotected functional group of the photosensitive polymer. 1. A method for forming a semiconductor structure , comprising:forming a resist layer over a substrate;exposing a portion of the resist layer to form an exposed portion of the resist layer by performing an exposure process; anddeveloping the resist layer in a developer,wherein the resist layer is made of a resist material comprising a photosensitive polymer and a contrast promoter, and a protected functional group of the photosensitive polymer is deprotected to form a deprotected functional group during the exposure process, and a functional group of the contrast promoter bonds to the deprotected functional group of the photosensitive polymer.2. The method for forming a semiconductor structure as claimed in claim 1 , wherein an unexposed portion of the resist layer dissolves in the developer.3. The method for forming a semiconductor structure as claimed in claim 1 , wherein the functional group of the contrast promoter bonds to the deprotected functional group of the photosensitive polymer through a hydrogen bond or a chemical bond.4. The method for forming a semiconductor structure as claimed in claim 1 , wherein a dissolution rate of the ...

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Номер записи: 122
29-09-2022 дата публикации

RESIST DISPENSING SYSTEM AND METHOD OF USE

Номер: US20220308452A1
Автор: Chang Ching-Yu, CHANG Ya-Ching, Lin Chin-Hsiang, Liu Chen-Yu
Принадлежит:

In a method, a resist material is dispensed through a tube of a nozzle of a resist pump system on a wafer. The tube extends from a top to a bottom of the nozzle and has upper, lower, and middle segments. When not dispensing, the resist material is retracted from the lower and the middle segments, and maintained in the upper segment of the tube. When retracting, a first solvent is flown through a tip of the nozzle at the bottom of the nozzle to fill the lower segment of the tube with the first solvent and to produce a gap in the middle segment of the tube between the resist material and the first solvent. The middle segment includes resist material residues on an inner surface wall of the tube and vapor of the first solvent. The vapor of the first solvent prevents the resist material residues from drying. 1. A method , comprising:flowing a resist material through a nozzle of a pump system on a wafer, wherein the nozzle comprises a tube extending from a top to a bottom of the nozzle and having an upper segment, a lower segment, and a middle segment between the upper segment and the lower segment, and wherein the resist material is dispensed through the tube;retracting the resist material in the tube when not dispensing the resist material on the wafer, wherein the resist material in the tube is retracted from the lower segment and from the middle segment of the tube, and wherein the resist material is maintained in the upper segment of the tube;when retracting the resist material in the tube, flowing a first solvent through a tip of the nozzle at the bottom of the nozzle to fill the lower segment of the tube with the first solvent; andproducing a gap in the middle segment of the tube between the resist material and the first solvent, wherein the middle segment includes vapor of the first solvent and resist material residues on an inner surface wall of the tube,wherein the vapor of the first solvent in the middle segment of the tube prevents the resist material ...

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Номер записи: 123
21-05-2020 дата публикации

LITHOGRAPHY METHOD FOR POSITIVE TONE DEVELOPMENT

Номер: US20200159110A1
Автор: Chang Ching-Yu, Lin Chin-Hsiang, Liu Chen-Yu, Weng Ming-Hui, Wu Cheng-Han
Принадлежит: Taiwan Semiconductor Manufacturing Co., Ltd.

A lithography method includes forming a resist layer over a substrate. The resist layer is exposed to radiation. The exposed resist layer is developed using a developer that removes an exposed portion of the exposed resist layer, thereby forming a patterned resist layer. The patterned resist layer is rinsed using a basic aqueous rinse solution. 1. A lithography method comprising:forming a resist layer over a substrate;exposing the resist layer to radiation;developing the exposed resist layer using a developer, thereby forming a patterned resist layer; andrinsing the patterned resist layer using a basic aqueous rinse solution.2. The lithography method of claim 1 , wherein a pH value of the basic aqueous rinse solution is lower than a pH value of the developer.3. The lithography method of claim 2 , wherein the pH value of the basic aqueous rinse solution is in a range of about 8 to about 12.4. The lithography method of claim 1 , wherein the basic aqueous rinse solution comprises a base comprising ammonia claim 1 , methylamine claim 1 , dimethylamine claim 1 , trimethylamine claim 1 , pyridine claim 1 , lmidazole claim 1 , pyrrole claim 1 , 4-methylimidazole claim 1 , pyrazole claim 1 , pyrazoline claim 1 , pyrazolidine claim 1 , methylethylamine claim 1 , oxazole claim 1 , thiazole claim 1 , or combinations thereof.5. The lithography method of claim 4 , wherein a base concentration of the basic aqueous rinse solution is in a range of about 0.2 ppm to about 300 ppm.6. The lithography method of claim 1 , wherein the basic aqueous rinse solution is free of TMAH.7. The lithography method of claim 1 , wherein the developer comprises TMAH and a base comprising ammonia claim 1 , methylamine claim 1 , dimethylamine claim 1 , trimethylamine claim 1 , pyridine claim 1 , lmidazole claim 1 , pyrrole claim 1 , 4-methylimidazole claim 1 , pyrazole claim 1 , pyrazoline claim 1 , pyrazolidine claim 1 , methylethylamine claim 1 , oxazole claim 1 , thiazole claim 1 , or combinations ...

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Номер записи: 124
21-05-2020 дата публикации

SWITCH CIRCUIT

Номер: US20200161854A1
Автор: Liu Yu-Chen, TSAI Hsien-Yi
Принадлежит:

A switch circuit includes a first switch, a current protection component, a current detection circuit, and a controller. The first switch conducts a primary side coil. The current protection component generates a detection voltage. The current detection circuit outputs a protection voltage. When the detection voltage is not greater than a first threshold, the current detection circuit generates a first voltage corresponding to the detection voltage as the protection voltage. When the detection voltage is greater than the first threshold, the current detection circuit generates a second voltage corresponding to the detection voltage as the protection voltage, where the first voltage is different from the second voltage. The controller is suitable for making the first switch selectively conducting and not conducting. When the protection voltage is greater than a second threshold, the controller does not increase a proportion of a conduction time to a non-conduction time of the first switch. 1. A switch circuit , suitable for a power device , wherein the power device comprises a primary side coil , and the switch circuit comprises:a first switch, configured to conduct and not conduct the primary side coil;a current protection component, generating, when the first switch conducts the primary side coil, a detection voltage corresponding to a current passing through the first switch;a current detection circuit, connected in parallel to the current protection component and outputting a protection voltage, wherein when the detection voltage is not greater than a first threshold, the current detection circuit generates a first voltage corresponding to the detection voltage as the protection voltage, and when the detection voltage is greater than the first threshold, the current detection circuit generates a second voltage corresponding to the detection voltage as the protection voltage, wherein the first voltage is different from the second voltage; anda controller, ...

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Номер записи: 125
01-07-2021 дата публикации

LIQUID STORAGE FOR FACILITY CHEMICAL SUPPLY SYSTEM

Номер: US20210202284A1
Автор: Chang Yu-Cheng, HSU CHEN YI, LI Shang-Sheng, LIN TZU-YANG, Liu Chen-Yu, Tseng Kuo-Shu, Wu Cheng-Han
Принадлежит:

A lithography includes a storage tank that stores process chemical fluid, an anti-collision frame, and an integrated sensor assembly. The storage tank includes a dispensing port positioned at a lowest part of the storage tank in a gravity direction. The anti-collision frame is coupled to the storage tank. An integrated sensor assembly is disposed on at least one of the anti-collision frame and the storage tank to measure a variation in fluid quality in response to fluid quality measurement of fluid. 1. A liquid supply system , comprising:a storage tank for storing a process chemical fluid, the storage tank including a dispensing port positioned at a lowest part of the storage tank in a gravity direction;an anti-collision frame coupled to the storage tank; andan integrated sensor assembly disposed on at least one of the anti-collision frame and the storage tank to measure a variation in fluid quality in response to a fluid quality measurement of fluid.2. The liquid supply system of claim 1 , wherein the storage tank includes a frustoconical base3. The liquid supply system of claim 1 , further comprising a feedback controller coupled to the integrated sensor assembly and one or more adjustable fluidic elements controlling supply and dispense of the process chemical fluid associated with the liquid supply system.4. The liquid supply system of claim 3 , wherein the feedback controller is configured to adjust one or more parameters of the process chemical fluid and the adjustable fluidic element based on a variation in output of the integrated sensor assembly generated by the fluid.5. The liquid supply system of claim 3 , wherein the feedback controller is configured to determine whether a variation in fluid quality measurement of the fluid is within an acceptable range.6. The liquid supply system of claim 3 , wherein the feedback controller claim 3 , in response to the variation in fluid quality measurement that is not within the acceptable range claim 3 , automatically ...

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Номер записи: 126
21-06-2018 дата публикации

Patterning Process with Silicon Mask Layer

Номер: US20180174828A1
Автор: Chang Ching-Yu, Lin Chin-Hsiang, Liu Chen-Yu
Принадлежит:

A lithography method is provided in accordance with some embodiments. The lithography method includes forming an under layer on a substrate; forming a silicon-containing middle layer on the under layer, wherein the silicon-containing middle layer has a thermal base generator (TBG) composite; forming a photosensitive layer on the silicon-containing middle layer; performing an exposing process to the photosensitive layer; and developing the photosensitive layer, thereby forming a patterned photosensitive layer. 1. A lithography method , comprising:forming an under layer on a substrate;forming a silicon-containing middle layer on the under layer, wherein the silicon-containing middle layer has a thermal base generator (TBG) composite that is capable of releasing a base;forming a photosensitive layer on the silicon-containing middle layer;performing an exposing process to the photosensitive layer; anddeveloping the photosensitive layer, thereby forming a patterned photosensitive layer.2. The method of claim 1 , further comprising:performing a thermal treatment to the silicon-containing middle layer, wherein during the thermal treatment the TB G composite evaporates from the silicon-containing middle layer after releasing the base from the TBG composite.3. The method of claim 2 , wherein the thermal treatment is a baking process comprising a first baking step that heats the silicon-containing middle layer at a first temperature and a second baking step that heats the silicon-containing middle layer at a second temperature higher than the first temperature claim 2 , and wherein the first temperature is higher than a triggering temperature for the TBG composite to release the base and the second temperature is higher than a boiling temperature of the TBG composite.4. The method of claim 2 , wherein a molecular weight of polymers in the silicon-containing middle layer is smaller than 5 claim 2 ,000 g/mol before the thermal treatment and greater than 10 claim 2 ,000 g/mol ...

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Номер записи: 127
21-06-2018 дата публикации

Hardmask composition and methods thereof

Номер: US20180174831A1
Автор: Chen-Yu Liu, Chin-Hsiang Lin, Ching-Yu Chang
Принадлежит: Taiwan Semiconductor Manufacturing Co TSMC Ltd

Provided is a material composition and method for that includes forming a silicon-based resin over a substrate. In various embodiments, the silicon-based resin includes a nitrobenzyl functional group. In some embodiments, a baking process is performed to cross-link the silicon-based resin. Thereafter, the cross-linked silicon-based resin is patterned and an underlying layer is etched using the patterned cross-linked silicon-based resin as an etch mask. In various examples, the cross-linked silicon-based resin is exposed to a radiation source, thereby de-cross-linking the silicon-based resin. In some embodiments, the de-cross-linked silicon-based resin is removed using an organic solution.

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Номер записи: 128
28-06-2018 дата публикации

Nucleic Acid Analogue-Guided Chemical Nuclease System, Methods and Compositions

Номер: US20180179502A1
Автор: Liu Chen-Yu
Принадлежит: Genalyze LLC

Nucleic acid analogue-guided chemical nuclease systems, methods and compositions, which can manipulate the genome DNA sequence in a sequence-specific manner. The core components that together make up the architecture of the system are: nucleic acid analogues (e.g. Peptide nucleic acids) and bleomycin or its derivatives. Generally speaking, these components are structured such that nucleic acid analogues which recognize specific DNA sequences are conjugated ( covalently) to bleomycin or its derivatives which can cleave the target DNA. This architecture allows the method to sequence-specifically insert or remove DNA sequence from the target DNAs. 1. A method of cleaving a target site of cellular DNA , the method comprising the steps of introducing an artificial chimeric molecule into a cell , wherein said artificial chimeric molecule comprises: a) a nucleic acid analogue , wherein said nucleic acid analogue has been designed to specifically bind to said target site of cellular DNA; and b) a nuclease domain , wherein said nuclease domain contains bleomycin or its derivatives , whereby said artificial chimeric molecule binds to said target site of cellular DNA and said target site of cellular DNA is cleaved by said nuclease domain.2. The method of claim 1 , wherein the nucleic acid analogue is peptide nucleic acid or gamma peptide nucleic acid.3. The method of claim 1 , wherein the bleomycin or its derivatives is selected from the group consisting of bleomycin A2 claim 1 , bleomycin B2 claim 1 , bleomycin A6 claim 1 , bleomycin A5 claim 1 , phleomycin claim 1 , chloridenated and their deglycosylated derivatives.4. A method of can be used in killing a microorganism comprising contacting said organism with said artificial chimeric molecule claim 1 , wherein said artificial chimeric molecule binds specifically to a target polynucleotide sequence of said microorganism.5. A method according to wherein the microorganism is selected from the group consisting of viruses claim 4 ...

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Номер записи: 129
18-09-2014 дата публикации

MIDDLE LAYER COMPOSITION FOR TRILAYER PATTERNING STACK

Номер: US20140272709A1
Автор: Chang Ching-Yu, Liu Chen-Yu
Принадлежит: Taiwan Semiconductor Manufacturing Company, Ltd.

Methods and materials for making a semiconductor device are described. The method includes forming a middle layer (ML) of a patterning stack (e.g., a tri-layer patterning stack such as a tri-layer resist) and forming a photoresist layer directly on the middle layer. The middle layer includes an additive component having a photo base generator (PBG). The substrate including the photoresist layer and the middle layer is then exposed to a radiation. A covalent bond between the ML and the photoresist layer may be formed. 1. A method of making a semiconductor device , the method comprising:forming a middle layer (ML) of a patterning stack on a semiconductor substrate, wherein the middle layer includes an additive component having a photo base generator;forming a photoresist layer (PR) of the patterning stack directly on the middle layer; andexposing the semiconductor substrate to a radiation beam.2. The method of claim 1 , further comprising:forming a covalent bond between the ML and a component of the PR layer; anddeveloping the exposed PR layer having the covalent bond.3. The method of claim 1 , wherein an upper surface of the ML contains a higher concentration of the additive component having the photo base generator than a lower region of the ML.4. The method of claim 1 , further comprising:forming an underlying layer of the patterning stack underlying the middle layer.5. The method of claim 1 , wherein the forming the ML includes depositing the additive component having a photo base generator that generates an amine.6. The method of claim 1 , further comprising:floating the additive component to a region adjacent a top surface of the ML.7. The method of claim 1 , further comprising:adding a photo acid generator (PAG) to the PR layer; andafter exposure, using the base generated by the photo base generator to quench an acid generated by the PAG.8. The method of claim 6 , further comprising:after using the base to quench the acid generated by the PAG,baking the PR ...

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Номер записи: 130
18-09-2014 дата публикации

Unlocking Layer and Method

Номер: US20140273506A1
Автор: Chang Ching-Yu, Liu Chen-Yu
Принадлежит:

A system and method for anti-reflective layers is provided. In an embodiment the anti-reflective layer comprises a polymer resin which has repeating units within it. At least one of the repeating units comprises a locked unit which has a cyclic structure and a lock within the unit. After the anti-reflective layer has been applied and baked, irregularities such as voids and step heights differences that have occurred may be handled by unlocking the lock within the locked unit. This unlocking breaks the cyclic structure, allowing the polymer to take up more volume and causing the anti-reflective layer to self-expand, filling the voids and reducing the step-height. The unlocking may be performed by exposure or thermal treatments. 1. A method for manufacturing a semiconductor device , the method comprising:applying an anti-reflective coating layer onto a substrate, the anti-reflective coating layer comprising a resin with a locked monomer; andexpanding a volume of the anti-reflective coating layer by unlocking the locked monomer.2. The method of claim 1 , wherein the unlocking the locked monomer comprises exposing the anti-reflective coating to an energy source.3. The method of claim 2 , wherein the exposing the anti-reflective coating to an energy source generates an acid from a photoacid generator within the anti-reflective coating layer.4. The method of claim 2 , wherein the exposing the anti-reflective coating to an energy source generates a base from a photobase generator within the anti-reflective coating layer.5. The method of claim 1 , wherein the unlocking the locked monomer comprises heat treating the anti-reflective coating to generate an acid from a thermal acid generator.6. The method of claim 1 , wherein the locked monomer comprises a cyclic structure with a lock located within the cyclic structure.7. The method of claim 6 , wherein the lock is an ester.8. A method of manufacturing a semiconductor device claim 6 , the method comprising:applying an anti- ...

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Номер записи: 131
04-06-2020 дата публикации

DISPLAY PANEL

Номер: US20200174330A1
Автор: Hsu Wei-Chih, Liu Yu-Chen, Su Chen-Hao
Принадлежит:

The display panel includes a first substrate, a second substrate, pixel structures, a liquid crystal layer and a transparent conductive layer. The liquid crystal layer is disposed between the pixel structures and the second substrate. The transparent conductive layer is disposed between the second substrate and the liquid crystal layer. When a liquid crystal molecule of the liquid crystal layer is a positive liquid crystal molecule, an absolute voltage difference between the transparent conductive layer and the common electrode is smaller than or equal to 2.3 volts(V). When the liquid crystal molecule of the liquid crystal layer is a negative liquid crystal molecule, the absolute voltage difference between the transparent conductive layer and the common electrode is smaller than or equal to 5V. 1. A display panel , comprising:a first substrate;a second substrate disposed opposite to the first substrate;{'sup': th', 'th', 'th', 'th, 'a plurality of first to Mgate lines disposed on the first substrate, wherein a plurality of first to Mgate signals are provided to the first to Mgate lines respectively, an igate signal is at a high level in a first time period of a first frame and in a second time period of a second frame next to the first frame, M is a positive integer greater than or equal to 2, and i is a positive integer less than or equal to the positive integer M;'}a plurality of pixel structures disposed between the first substrate and the second substrate, wherein each of the pixel structures comprises a thin film transistor, a pixel electrode and a common electrode;a liquid crystal layer disposed between the pixel structures and the second substrate; anda transparent conductive layer disposed between the second substrate and the liquid crystal layer,wherein when a liquid crystal molecule of the liquid crystal layer is a positive liquid crystal molecule, an absolute voltage difference between the transparent conductive layer and the common electrode is smaller ...

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Номер записи: 132
07-07-2016 дата публикации

TOUCH PANEL AND METHOD FOR FORMING A TOUCH STRUCTURE

Номер: US20160195974A1
Автор: Lee Lu-Hsing, Liu Chen-Yu
Принадлежит:

A manufacturing process for forming a touch structure at least comprises the following steps. S1: a substrate is provided, a sensing region and a trace region surrounding the sensing region are defined on the substrate; S2: an electrode layer is formed on a substrate; S3: a first anti-etching optical layer is formed on the electrode layer; S4: the electrode layer that is not covered by the first anti-etching optical layer is etched; S5: a second anti-etching optical layer is formed on the first anti-etching optical layer and on the substrate; S6: the first anti-etching optical layer that is not covered by the second anti-etching optical layer is etched; and S7: a trace layer is formed. 1. A manufacturing process for forming a touch structure , at least comprising the following steps:S1: providing a substrate, wherein a sensing region and a trace region surrounding the sensing region are defined on the substrate;S2: forming an electrode layer on a substrate;S3: forming a first anti-etching optical layer on the electrode layer;S4: etching the electrode layer that is not covered by the first anti-etching optical layer, thereby dividing the electrode layer into an etched region and a non-etched region;S5: forming a second anti-etching optical layer on the first anti-etching optical layer and on the substrate, wherein the second anti-etching optical layer at least exposes parts of the first anti-etching optical layer within the trace region;S6: etching the first anti-etching optical layer that is not covered by the second anti-etching optical layer to expose the electrode layer of the non-etched region within the trace region; andS7: forming a trace layer disposed within the trace region, wherein the trace layer is electrically connected to the exposed electrode layer of the non-etched region.2. The manufacturing process for forming a touch structure of claim 1 , wherein the step S2 further comprises forming a protection layer on the electrode layer claim 1 , the second ...

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Номер записи: 133
05-07-2018 дата публикации

DISPLAY DEVICE WITH TWO DISPLAY PANELS

Номер: US20180188551A1
Автор: Chen Yen-Chung, Hsu Wei-Chih, Liu Yu-Chen
Принадлежит:

The display device includes a first display panel and a second display panel. The first display panel includes first pixel structures having a first pixel pitch. The second display panel includes second pixel structures having a second pixel pitch. The first display panel is overlapped with the second display panel. A user would not see a moiré pattern generated by the display device by adjusting the first pixel pitch, the second pixel pitch, and an effective distance between the first display panel and the second display panel. 2. The display device of claim 1 , wherein when a sum of m and n is greater than 2 and smaller than or equal to 9 claim 1 , the moiré pitch is less than 500 micrometer.3. The display device of claim 1 , wherein the first pixel pitch is different from the second pixel pitch.4. The display device of claim 3 , wherein the first pixel pitch is smaller than the second pixel pitch.5. The display device of claim 1 , wherein the first display panel is bonded to the second display panel by an adhesive layer.6. The display device of claim 5 , wherein material of the adhesive layer comprises an adhesive which is a frame-shape adhesive claim 5 , a film-type adhesive or a liquid-type adhesive.7. The display device of claim 1 , wherein a ratio K/nof the distance K to the refractive index nis in a range from 5 millimeters (mm) to 10 mm.8. The display device of claim 1 , wherein the first pixel pitch is equal to the second pixel pitch claim 1 , and the distance K between the first display panel and the second display panel satisfies the following relationship:{'br': None, 'i': K′>', 'L′×P, '1/500(),'}{'sub': top', 'bottom, 'wherein P=P=P, a unit of L′ is millimeter, a unit of P is micrometer, and a unit of K is millimeter.'}10. The display device of claim 9 , wherein when a sum of m and n is greater than 2 and smaller than or equal to 9 claim 9 , the moiré pitch is less than 500 micrometer.11. The display device of claim 9 , wherein the first pixel pitch is ...

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Номер записи: 134
25-09-2014 дата публикации

Monitoring system

Номер: US20140285349A1
Автор: Chih-Yung Wang, Yu-Chen Liu, Yu-Te Lin
Принадлежит: Pegatron Corp

A monitoring system can be used to monitor an operation status of at least one machine. The machine has an operation lamp. The operation lamp is used to emit light when the operation status of the machine is under operation. The monitoring system includes at least one light sensor and at least one controller. The light sensor is disposed at the operation lamp for emitting a sensing signal according to the brightness of the operation lamp of the machine. The controller is electrically connected with the light sensor for determining, the operation status of the machine according to the sensing signal.

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Номер записи: 135
13-07-2017 дата публикации

PIXEL STRUCTURE OF LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF

Номер: US20170199438A1
Автор: Liu Yu-Chen, Lu Ya-Ju, Wu Kuo-Wei
Принадлежит:

A pixel structure of a liquid crystal display panel includes a substrate, a switch device, a pixel electrode, an insulating layer, and a patterned common electrode. The switch device and the pixel electrode are disposed on the substrate, and the switch device is electrically connected to the pixel electrode. The insulating layer is disposed on the substrate and covers the switch device and the pixel electrode, wherein the insulating layer includes a plurality of trenches. The patterned common electrode is disposed on the insulating layer and does not cover the trenches. The pixel structure of the liquid crystal display panel and related manufacturing method are able to enhance the driving effect of the liquid crystal molecules, reduce the driving voltage and increase alignment performance of the alignment film. 1. A pixel structure of a liquid crystal display panel , comprising:a substrate;a switch device and a pixel electrode disposed on the substrate, the switch device being electrically connected to the pixel electrode;an insulating layer disposed on the substrate and covering the switch device and the pixel electrode, wherein the insulating layer comprises a plurality of trenches; anda patterned common electrode disposed on the insulating layer, wherein the patterned common electrode does not cover the plurality of trenches.2. The pixel structure of the liquid crystal display panel according to claim 1 , wherein the switch device comprises:a gate electrode;a gate insulating layer disposed on the gate electrode;a semiconductor layer disposed on the gate insulating layer and partially overlapping the gate electrode;a source electrode and a drain electrode disposed on the gate insulating layer and partially covering the semiconductor layer respectively;a source contact layer disposed between the semiconductor layer and the source electrode, the source electrode at least partially covering the source contact layer; anda drain contact layer disposed between the ...

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Номер записи: 136