Patent application number | Description | Published |
20090021682 | LCD PANEL - A LCD panel is disclosed. The LCD panel has an upper substrate and a lower substrate substantially parallel to the upper substrate. A common electrode is disposed on the upper substrate, and a pixel electrode is disposed on the lower substrate. A first alignment layer, having a first rubbing direction, is disposed on the common electrode, and a second alignment layer, having a second rubbing direction, is disposed on the pixel electrode. The first rubbing direction and the second rubbing direction form a first angle. A liquid crystal layer is disposed between the upper substrate and the lower substrate, and an alignment structure, having an extending direction, is disposed between the common electrode and the liquid crystal layer. The extending direction and the first rubbing direction form a second angle, and the extending direction and the second rubbing direction form a third angle. The second angle is substantially equal to the third angle. | 01-22-2009 |
20090075189 | METHODS FOR FABRICATING TRANSFLECTIVE LIQUID CRYSTAL DISPLAYS - A method for fabricating a display is disclosed. A first substrate comprising a plurality of pixels is provided, each pixel comprises a plurality of sub pixels. A second substrate substantially opposite to the first substrate is provided, wherein the second substrate is divided into a plurality of regions corresponding to the sub-pixels, and at least three of the regions are color regions and at least one of the regions is a fourth region. A photoresist pattern layer is formed on the second substrate, such that the photoresist pattern layer corresponding to the at least three color regions are color photoresist pattern layers and the photoresist pattern layer corresponding to the at least one fourth region is a fourth photoresist pattern layer. A first covering layer is formed on the photoresist layer. A liquid crystal layer is interposed between the first substrate and the second substrate. | 03-19-2009 |
20090109156 | ACTIVE DEVICE ARRAY SUBSTRATE, PIXEL STRUCTURE THEREOF AND DRIVING METHOD THEREOF - A pixel structure including a first transparent electrode, a second transparent electrode, a reflective electrode, a first active device and a second active device is provided. The reflective electrode connects the second transparent electrode, while the first transparent electrode is electrically insulated from the second transparent electrode and the reflective electrode. The first active device electrically connects the first transparent electrode to apply a first driving voltage to the first transparent electrode. The second active device electrically connects the second transparent electrode and the reflective electrode to apply a second driving voltage to the second transparent electrode and the reflective electrode. The first driving voltage differs from the second driving voltage. An active device array substrate having the abovementioned pixel structure and a driving method of the active device array substrate are also provided and applied to a transflective liquid crystal display for improving the display quality thereof. | 04-30-2009 |
20090251638 | Multi-view liquid crystal display and the driving method thereof - A multi-view liquid crystal display for different users to watch different images from different viewing angles is provided. The multi-view liquid crystal display includes a liquid crystal display panel, a first backlight module and a second backlight module. The first backlight module is disposed below the liquid crystal display panel. The second backlight module is disposed between the first backlight module and the liquid crystal display panel. Furthermore, the first backlight module provides a first plane light source and the second backlight module provides a second plane light source. An included angle α formed between transmitting directions of the first and the second plane light sources ranges from 6 degrees to 176 degrees. Therefore, when different users watch the multi-view liquid crystal display which displays different images from different viewing angles, the resolutions of the images are the same as the resolution of the multi-view liquid crystal display panel. | 10-08-2009 |
20090322702 | TOUCH SENSING DISPLAY PANEL, TOUCH SENSING COLOR FILTER AND FABRICATING METHOD THEREOF - A touch sensing color filter including a substrate, a black matrix, a color filter layer and a second sensing electrode layer is provided. The black matrix is disposed on the substrate to define a plurality of sub-pixel areas. The black matrix includes a first sensing electrode layer, and the first sensing electrode layer has a plurality of openings corresponding to the sub-pixel areas. The color filter layer includes a plurality of color filter units disposed in the sub-pixel areas respectively. The second sensing electrode layer is disposed on the substrate, and the second sensing electrode layer includes a plurality of sub patterns corresponding to the sub-pixel areas. A method for fabricating the touch sensing color filter and a display panel using the same are further provided. | 12-31-2009 |
20100039503 | DISPLAY AND DISPLAY METHOD THEREOF - A display and a display method thereof are provided. The display is used for displaying 2D and/or 3D video image. The display method includes displaying 2D video image according to a first gamma curve and displaying 3D video image according to a second gamma curve, wherein the gamma value of the first gamma curve is greater than the gamma value of the second gamma curve. | 02-18-2010 |
20100044716 | PIXEL STRUCTURE AND LIQUID CRYSTAL DISPLAY PANEL - A pixel structure is disclosed. The pixel structure is suitable to be disposed on a substrate and includes a first pixel electrode, a second pixel electrode and a top gate TFT. The first pixel electrode and the second pixel electrode are disposed over the substrate, wherein the first pixel electrode and the second pixel electrode are separated from each other. The top gate TFT is disposed between the substrate and the first pixel electrode and includes a patterned semiconductor layer and a gate. | 02-25-2010 |
20100128000 | TOUCH SENSING SUBSTRATE AND TOUCH SENSING LIQUID CRYSTAL DISPLAY - A touch sensing substrate includes a substrate, first and second sensing series, a first dielectric layer, first and second dummy sensing series, a second dielectric layer, and a common electrode. The first sensing series are electrically insulated from each other, and so are the second sensing series. The first and the second sensing series are covered by the first dielectric layer. The first and the second dummy sensing series are disposed on the first dielectric layer. The first and the second dummy sensing series are disposed above the first and the second sensing series, respectively, and the dummy sensing series and the sensing series corresponding thereto have the same potential. The first and the second dummy sensing series are covered by the second dielectric layer. The common electrode is disposed on the second dielectric layer. A touch sensing liquid crystal display having the above-mentioned touch sensing substrate is also provided. | 05-27-2010 |
20110013257 | ELECTRO-PHORETIC DISPLAY FILM, ELECTRO-PHORETIC DISPLAY PANEL, AND FABRICATING METHOD THEREOF - An electro-phoretic display film includes a conductive layer, a dielectric layer disposed on the conductive layer, a plurality of electro-phoretic display media, and a sealing material. The dielectric layer has a plurality of micro-cups arranged in an array and a trench surrounding the micro-cups. The electro-phoretic display media are exclusively disposed within the micro-cups, and the sealing material is exclusively disposed within the trench. | 01-20-2011 |
20110095971 | ELECTROPHORESIS DISPLAY PIXEL AND DISPLAY APPARATUS - An electrophoresis display pixel including an electrophoresis display film, a substrate, a first active device, a second active device, a first electrode, and a second electrode is provided. The substrate is disposed on the electrophoresis display film, and the substrate has a transparent region and a non-transparent region. The first active device and the second active device are disposed on the substrate and located in the non-transparent region. The first electrode is disposed on the substrate, located in the transparent region, and electrically connected to the first active device. The second electrode is disposed on the substrate, located in the non-transparent region, and electrically connected to the second active device. A light passes through the transparent region and enters the electrophoresis display film to be displayed. A display apparatus including the abovementioned electrophoresis display pixel is also provided. | 04-28-2011 |
20110216256 | REFLECTIVE TYPE TOUCH-SENSING DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A reflective type touch-sensing display panel including a front substrate, scan lines, data lines, pixel structures, photo-sensors, readout devices, a rear substrate and a reflective display medium is provided. The front substrate has an inner surface. The scan lines and the data lines are on the inner surface of the front substrate and intersected to each other. The pixel structures are disposed on the inner surface of the front substrate, and each pixel structure is electrically connected to one of the scan lines and one of the data lines correspondingly. The photo-sensors are disposed on the inner surface of the front substrate. Each readout device is electrically connected to one of the photo-sensor correspondingly. The rear substrate is disposed opposite to the front substrate. The reflective display medium is sealed between the front substrate and the rear substrate. | 09-08-2011 |
20110267320 | FLEXIBLE DEVICE AND FABRICATING METHOD THEREOF - A flexible device has a flexible panel, a driver, and a restraining component. The flexible panel includes a main region and a driver bonding region outside the main region. The driver is electrically connected to the driver bonding region. The restraining component is disposed adjacent to the driver bonding region. Rigidity of the restraining component is greater than rigidity of the flexible panel, and coefficient of thermal expansion of the restraining component is smaller than coefficient of thermal expansion of the flexible panel. | 11-03-2011 |
20110267558 | MULTI-VIEW LIQUID CRYSTAL DISPLAY AND THE DRIVING METHOD THEREOF - A multi-view liquid crystal display for different users to watch different images from different viewing angles is provided. The multi-view liquid crystal display includes a liquid crystal display panel, a first backlight module and a second backlight module. The first backlight module is disposed below the liquid crystal display panel. The second backlight module is disposed between the first backlight module and the liquid crystal display panel. Furthermore, the first backlight module provides a first plane light source and the second backlight module provides a second plane light source. An included angle α formed between transmitting directions of the first and the second plane light sources ranges from 6 degrees to 176 degrees. Therefore, when different users watch the multi-view liquid crystal display which displays different images from different viewing angles, the resolutions of the images are the same as the resolution of the multi-view liquid crystal display panel. | 11-03-2011 |
20110318544 | FLEXIBLE DISPLAY PANEL AND METHOD OF FABRICATING THE SAME - In a method of fabricating a flexible display panel, a rigid substrate is provided. A flexible substrate having a first surface and a second surface opposite to the first surface is provided. A plurality of releasing-regions are formed on the first surface, and bonding strength of an area outside the releasing-regions is greater than bonding strength of the releasing-regions. An adhesive layer is formed between the rigid substrate and the first surface of the flexible substrate. A plurality of display units are formed on the second surface, and each of the display units is located over one of the releasing-regions, respectively. The flexible substrate is patterned to obtain a plurality of flexible carriers, and each of the flexible carriers carries one of the display units, respectively. The flexible carriers and the adhesive layer are de-bonded. | 12-29-2011 |
20120062447 | FLEXIBLE DISPLAY PANEL - A flexible display panel includes a flexible substrate, a plurality of pixels, a plurality of signal lines, a plurality of wave-like connecting lines, and a display medium. The flexible substrate has a plurality of display regions separated from one another and at least one foldable region located among the display regions. The pixels are disposed in the display regions. The signal lines are disposed on the flexible substrate and electrically connected to the pixels. The wave-like connecting lines are distributed in and across the foldable region. Each of the wave-like connecting lines is electrically connected to two of the signal lines adjacent to the wave-like connecting line. Each of the wave-like connecting lines across the foldable region has a wave-like pattern. The display medium is disposed on the flexible substrate to cover at least the display regions. | 03-15-2012 |
20120098739 | SPLICED ELECTROPHORETIC DISPLAY PANEL - A spliced electrophoretic display panel includes a plurality of electrophoretic display units arranged in an array and connected to one another. Each of the electrophoretic display units includes a first substrate, a second substrate, an electrophoretic display layer, and a sealant. The second substrate is configured under the first substrate. At least one edge of the first substrate goes beyond an edge of the second substrate. The electrophoretic display layer is configured between the first substrate and the second substrate. An image displayed by the electrophoretic display layer is observed via the first substrate. The sealant is connected to the electrophoretic display layer, the first substrate, and the second substrate. Besides, the sealant surrounds the electrophoretic display layer. The first substrate of each of the electrophoretic display units is connected to the adjacent first substrate. | 04-26-2012 |
20120099072 | DISPLAY DEVICE - A display device includes a display panel and at least one driving chip. The display panel has a display region and a non-display region and includes a pixel array, a plurality of pads, a passivation layer, and a plurality of conductive patterns. The pixel array is located in the display region. The pads are located in the non-display region and electrically connected to the pixel array. The passivation layer is located on the pads and has a plurality of through holes. Each of the conductive patterns covers one of the pads and is electrically connected to the pad through at least one of the through holes. A material of the conductive patterns includes a polymer conductive material. The driving chip is located on the display panel and electrically connected to the pads of the display panel. | 04-26-2012 |
20120154707 | FLEXIBLE DISPLAY PANEL - A flexible display panel includes a first flexible substrate, a second flexible substrate, a display medium, and a sealant. The first flexible substrate has a plurality of non-folding areas and at least one folding area located between the non-folding areas. The non-folding areas are separated. The second flexible substrate is configured above the first flexible substrate. The display medium is configured between the first flexible substrate and the second flexible substrate. The sealant is configured on the first flexible substrate to surround the display medium. The elasticity of the sealant in the folding area is greater than the elasticity of the sealant in the non-folding areas. | 06-21-2012 |
20120154897 | ELECTRONIC PAPER UNIT AND METHOD FOR FABRICATING ELECTRONIC PAPER UNIT - An electronic paper unit including a flexible substrate, a thin film transistor layer, an electronic ink layer, a waterproof layer, and a sealant is provided. The thin film transistor layer is disposed on the flexible substrate. The electronic ink layer is disposed on a surface of the thin film transistor layer. The waterproof layer is disposed on the electronic ink layer. An edge surface of the waterproof layer and an edge surface of the electronic ink layer form a side wall where there is a first acute angle or a first obtuse angle between the side wall and the surface of the thin film transistor layer. The sealant is coated and covered on the side wall and the surface. A method for fabricating the electronic paper unit is also provided. | 06-21-2012 |
20120168790 | DISPLAY DEVICE STRUCTURE AND MANUFACTURING METHOD THEREOF - A display device structure includes an active device, a passivation layer, a pixel electrode and a first conductive material. The passivation layer covers the active device and has a first through hole exposing a portion of the active device. The pixel electrode is disposed on the passivation layer, and the pixel electrode is a non-thin-film electrode constituted by a plurality of micro-conductive structures. The first conductive material is filled in the first through hole and electrically connected to the exposed active device. The pixel electrode is electrically connected to the first conductive material. | 07-05-2012 |
20120193656 | DISPLAY DEVICE STRUCTURE AND MANUFACTURING METHOD THEREOF - A display device structure includes an active device, a passivation layer, a pixel electrode and a first conductive material. The passivation layer covers the active device and has a first through hole exposing a portion of the active device. The pixel electrode is disposed on the passivation layer, and the pixel electrode is a non-thin-film electrode consituted by a plurality of micro-conductive structures or includes an organic conductive polymer material. The first conductive material is disposed around the first through hole and electrically connected to the exposed active device. The pixel electrode is electrically connected to the first conductive material. | 08-02-2012 |
20130044082 | TOUCH-SENSING DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A touch-sensing display panel including a front substrate, scan lines, data lines, pixel structures, photo-sensors, readout devices, a rear substrate and a display medium is provided. The front substrate has an inner surface. The scan lines and the data lines are on the inner surface of the front substrate and intersected to each other. The pixel structures are disposed on the inner surface of the front substrate, and each pixel structure is electrically connected to one of the scan lines and one of the data lines correspondingly. The photo-sensors are disposed on the inner surface of the front substrate. Each readout device is electrically connected to one of the photo-sensor correspondingly. The rear substrate is disposed opposite to the front substrate. The display medium is sealed between the front substrate and the rear substrate. | 02-21-2013 |
20130126915 | FLEXIBLE ACTIVE DEVICE ARRAY SUBSTRATE AND ORGANIC ELECTROLUMINESCENT DEVICE HAVING THE SAME - A flexible active device array substrate including a flexible substrate, an active device array layer, a barrier layer, and a plurality of pixel electrodes is provided. The active device array layer is disposed on the flexible substrate. The barrier layer covers the active device array layer. The barrier layer includes a plurality of organic material layers and a plurality of inorganic material layers. The organic material layers and the inorganic material layers are alternately stacked on the active device array layer. The pixel electrodes are disposed on the barrier layer, and each of the pixel electrodes is electrically connected to the active device array layer. | 05-23-2013 |
20130250072 | 2D/3D DISPLAY AND METHOD FOR FORMING 3D IMAGE - A display capable of providing 2D and/or 3D images. The display comprises a liquid crystal display device and a self-emissive display device. The self-emissive display device is disposed on the rear of the liquid crystal display device, in which the liquid crystal display device provides a first image and the self-emissive display device a second image and a backlight source. One of the first and second images comprises a parallax barrier pattern for forming a three-dimensional (3D) image, and the other is a 2D image. | 09-26-2013 |
20150015622 | STEREOSCOPIC DISPLAY - A first display zone and a second display zone are displayed based on a first light source group, which corresponds to a first voltage data signal; and then the second display zone and a third display zone are displayed based on light for a second light source group, which corresponding to a second voltage data signal. The first light source group and the second light source group illuminate the display zones alternatively. Each display zone is fed with either a first data voltage signal or a second data voltage signal. While the first data voltage signal is updating each display zone in sequence, the second data voltage signal starts updating the first display zone when the first voltage signal is updating the third display zone. | 01-15-2015 |