Patent application number | Description | Published |
20100013001 | METHOD FOR MANUFACTURING NON-VOLATILE MEMORY AND STRUCTURE THEREOF - A method for manufacturing a non-volatile memory and a structure thereof are provided. The manufacturing method comprises the following steps. Firstly, a substrate is provided. Next, a semiconductor layer is formed on the substrate. Then, a Si-rich dielectric layer is formed on the semiconductor layer. After that, a plurality of silicon nanocrystals is formed in the Si-rich dielectric layer by a laser annealing process to form a charge-storing dielectric layer. Last, a gate electrode is formed on the charge-storing dielectric layer. | 01-21-2010 |
20100026658 | TOUCH SUBSTRATE OF EMBEDDED TOUCH DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - An embedded touch display panel including a first substrate and a second substrate is provided. The first substrate having a displaying region and a sensing region includes a stack structure, a first conductive layer and a first alignment layer. The stack structure disposed on the first substrate within the sensing region includes a protruding structure and a first rough structure disposed on the protruding structure. The first conductive layer conformally disposed on the stack structure has a first rough surface. The first rough surface is exposed from the first alignment layer that covers the first conductive layer. The second substrate includes a second conductive layer and a second alignment layer. The second conductive layer whose position corresponds to the sensing region is disposed on the second structure. A portion of the second conductive layer corresponding to the first rough surface is exposed from the second alignment layer covering thereon. | 02-04-2010 |
20100066951 | Flexible liquid crystal display panel and method for manufacturing the same - A flexible liquid crystal display panel and method for manufacturing the same are provided. The flexible liquid crystal display panel includes a rigid substrate, a flexible substrate and a liquid crystal layer disposed therebetween. | 03-18-2010 |
20100149116 | TOUCH DEVICE AND TOUCH DISPLAY PANEL - A touch device includes a patterned sensing electrode structure, an insulating layer and a patterned common electrode layer. The patterned sensing electrode structure is disposed on a surface of a substrate, defining a plurality of displaying regions and a light-shielding region. The patterned sensing electrode structure corresponds to the light-shielding region, and exposes the displaying regions. The insulating layer covers the patterned sensing electrode structure. The patterned common electrode layer is disposed on the insulating layer, and the patterned common electrode layer includes a plurality of electrode portions corresponding to the displaying regions and a plurality of connecting portions disposed between the adjacent electrode portions and electrically connected to the electrode portions. | 06-17-2010 |
20100321341 | PHOTO SENSOR, METHOD OF FORMING THE SAME, AND OPTICAL TOUCH DEVICE - The present invention provides a photo sensor, a method of forming the photo sensor, and a related optical touch device. The photo sensor includes a first electrode, a second electrode, a first silicon-rich dielectric layer and a second silicon-rich dielectric layer. The first silicon-rich dielectric layer is disposed between the first electrode and the second electrode for sensing infrared rays, and the second silicon-rich dielectric layer is disposed between the first silicon-rich dielectric layer and the second electrode for sensing visible light beams. The multi-layer structure including the first silicon-rich dielectric layer and the second silicon-rich dielectric layer enables the single photo sensor to effectively detect both infrared rays and visible light beams. Moreover, the single photo sensor is easily integrated into an optical touch device to form optical touch panel integrated on glass. | 12-23-2010 |
20100327289 | FLAT DISPLAY PANEL, UV SENSOR AND FABRICATION METHOD THEREOF - A UV sensor comprises a silicon-rich dielectric layer with a refractive index in a range of about 1.7 to about 2.5 for serving as the light sensing material of the UV sensor. The fabrication method of the UV sensor can be integrated with the fabrication process of semiconductor devices or flat display panels. | 12-30-2010 |
20110037729 | OLED TOUCH PANEL AND METHOD OF FORMING THE SAME - A displaying region and a sensing region are defined in each pixel region of the OLED touch panel of the present invention. The readout thin film transistor of the sensing region is formed by the same processes with the drive thin film transistor of the displaying region. The top and bottom electrodes of the optical sensor are formed by the same processes with the top and bottom electrodes of the OLED. Accordingly, the present invention can just add a step of forming the patterned sensing dielectric layer to the processes of forming an OLED panel to integrate the optical sensor into the pixel region of the OLED panel. Thus, an OLED touch panel is formed. | 02-17-2011 |
20110141086 | ELECTROPHORETIC DISPLAY AND METHOD OF DRIVING THE SAME - An electrophoretic display with threshold voltage drift compensation functionality includes a gate driving circuit, a data driving circuit, a controller and a pixel array. The gate driving circuit provides plural gate signals according to a scan control signal. The data driving circuit provides plural data signals according to a data control signal. The controller is employed to provide the scan control signal and the data control signal. The pixel array is utilized for displaying images according to the gate signals and the data signals. Each of the gate signals includes a writing enable pulse for enabling write operations of the data signals during a writing period. And during a compensation period, each of the gate signals includes a compensation pulse for performing threshold voltage drift compensation operations on the data switches of the pixel array, and the data signals are set to hold a common voltage. | 06-16-2011 |
20110157071 | CAPACITIVE TOUCH DISPLAY PANEL AND CAPACITIVE TOUCH BOARD - A capacitive touch display panel includes a display panel, a touch sensing unit, and a plurality of floating gate type ESD protection devices. The touch sensing unit includes a plurality of first sensing pads and second sensing pads. Each floating gate type ESD protection device is disposed between two adjacent first sensing pads and between two adjacent second sensing pads. The two adjacent first sensing pads are electrically disconnected from each other, and the two adjacent second sensing pads are electrically disconnected from each other. | 06-30-2011 |
20110157084 | CAPACITIVE TOUCH DISPLAY PANEL AND CAPACITIVE TOUCH BOARD - A capacitive touch display panel includes a display panel, a touch sensing unit, and a plurality of diode ESD protection devices. The touch sensing unit includes a plurality of first sensing pads and second sensing pads. Each diode ESD protection device is disposed between two adjacent first sensing pads and between two adjacent second sensing pads. The two adjacent first sensing pads are electrically disconnected from each other, and the two adjacent second sensing pads are electrically disconnected from each other. | 06-30-2011 |
20110254804 | TOUCH PANEL, TOUCH DISPLAY PANEL AND REPAIRING METHOD THEREOF - A touch display panel contains a display panel and a touch sensing array. The touch sensing array is disposed on the display panel, wherein the touch sensing array includes a plurality of first transparent sensing series, a plurality of second transparent sensing series, and a plurality of conductive repair marks. The first transparent sensing series are arranged along a first direction. Each of the first transparent sensing series includes a plurality of first transparent sensing pads electrically connected with each other; the second transparent sensing series are arranged along a second direction. Each of the second transparent sensing series includes a plurality of second transparent sensing pads electrically connected with each other, and each first transparent sensing pad is isolated from each second transparent sensing pad. The conductive repair marks are disposed corresponding to the first transparent sensing pads or the second transparent sensing pads. | 10-20-2011 |
20110254808 | REFLECTIVE TOUCH DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A reflective touch display panel and a manufacturing method thereof are provided. An incident light enters the display panel through a front substrate thereof. A plurality of pixel structures and a plurality of light sensing devices are disposed on an inner surface of the front substrate. The light sensing device includes a light sensing transistor having a transparent gate electrode. The manufacturing method for the reflective touch display panel includes the following steps. A first patterned transparent conductive layer, including the transparent gate electrode and a capacitance lower electrode, is formed on the front substrate. A first patterned conductive layer, a dielectric layer, a patterned semi-conductive layer, a second patterned conductive layer and a second patterned transparent conductive layer are sequentially formed on the front substrate to respectively form the light sensing device and the pixel structure. A reflective material layer and a back substrate are. assembled on the front substrate to complete the reflective touch display panel. | 10-20-2011 |
20120169628 | TOUCH PANEL - A touch panel includes an insulating base, a plurality of first sensing electrodes, a plurality of second sensing electrodes and a plurality of third sensing electrodes. The insulating base has a first surface and a second surface. The first sensing electrodes and the second sensing electrodes are disposed on the first surface of the insulating base, and electrically isolated from each other. The third sensing electrodes are disposed on the second surface of the insulating base, and each third sensing electrode at least partially overlaps a portion of the first sensing electrodes and a portion of the second sensing electrodes. | 07-05-2012 |
20140084291 | Active Device Array Substrate and Manufacturing Method Thereof - An active device array substrate includes a flexible substrate, a gate electrode, a dielectric layer, a channel layer, a source electrode, a drain electrode, and a pixel electrode. The flexible substrate has at least one transistor region and at least one transparent region adjacent to each other. The gate electrode is disposed on the transistor region of the flexible substrate. The dielectric layer covers the flexible substrate and the gate electrode. A portion of the dielectric layer disposed on the gate electrode has a first thickness. Another portion of the dielectric layer disposed on the transparent region of the flexible substrate has a second thickness. The second thickness is less than the first thickness. The channel layer is disposed above the gate electrode. The source electrode and the drain electrode are disposed on opposite sides of the channel layer and are electrically connected to the channel layer. | 03-27-2014 |
20150028336 | Active Device Array Substrate - An active device array substrate includes a flexible substrate, a gate electrode, a dielectric layer, a channel layer, a source electrode, a drain electrode, and a pixel electrode. The flexible substrate has a transistor region and a transparent region adjacent to each other. The gate electrode is disposed on the transistor region. The dielectric layer covers the flexible substrate and the gate electrode. A portion of the dielectric layer disposed on the gate electrode has a first thickness. Another portion of the dielectric layer disposed on the transparent region has a second thickness less than the first thickness. The channel layer is disposed above the gate electrode. The source electrode and the drain electrode are electrically connected to the channel layer. The pixel electrode is disposed on the dielectric layer which is disposed on the transparent region. The pixel electrode is electrically connected to the drain electrode. | 01-29-2015 |
20150062088 | OPTICAL TOUCH DEVICE AND METHOD OF FORMING PHOTO SENSOR - A method of forming a photo sensor includes the following steps. A substrate is provided, and a first electrode is formed on the substrate. A first silicon-rich dielectric layer is formed on the first electrode for sensing an infrared ray, wherein the first silicon-rich dielectric layer comprises a silicon-rich oxide layer, a silicon-rich nitride layer, or a silicon-rich oxynitride layer. A second silicon-rich dielectric layer is formed on the first silicon-rich dielectric layer for sensing visible light beams, wherein the second silicon-rich dielectric layer comprises a silicon-rich oxide layer, a silicon-rich nitride layer, or a silicon-rich oxynitride layer. A second electrode is formed on the second silicon-rich dielectric layer. | 03-05-2015 |
Patent application number | Description | Published |
20100301345 | ARRAY SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - An array substrate and method for manufacturing the same is provided, wherein a data line is composed of first and second segments connected by a contact pad. First and second insulation layers are disposed between the first segment of the data line and a shielding electrode. In addition, the first insulation layer is disposed between the second segment of the data line and a gate line in their overlapping area. Accordingly, the coupling effect between the conductive layers can be reduced. For example, the RC delay problem due to parasitic capacitance between the shielding electrode and the data line is solved. As a result of the design of the two insulator layers between the first segment of the data line and the shielding electrode, the shorting between the conductive layers can also be simultaneously solved and the product yield can be increased. | 12-02-2010 |
20100315569 | PIXEL DESIGNS OF IMPROVING THE APERTURE RATIO IN AN LCD - This invention in one aspect relates to a pixel structure. In one embodiment, the pixel structure includes a scan line formed on a substrate and a data line formed over the substrate defining a pixel area, a switch formed inside the pixel area on the substrate, a shielding electrode having a first portion and a second portion extending from the first portion, and formed over the scan line, the data line and the switch, where the first portion is overlapped with the switch and the second portion is overlapped with the data line, and a pixel electrode having a first portion and a second portion extending from the first portion, and formed over the shielding electrode in the pixel area, where the first portion is overlapped with the first portion of the shielding electrode so as to define a storage capacitor therebetween and the second portion has no overlapping with the second portion of the shielding electrode. | 12-16-2010 |
20100315583 | PIXEL DESIGNS OF IMPROVING THE APERTURE RATIO IN AN LCD - This invention in one aspect relates to a pixel structure. In one embodiment, the pixel structure includes a scan line formed on a substrate and a data line formed over the substrate defining a pixel area, a switch formed inside the pixel area on the substrate, a shielding electrode formed over the switch, a plane organic layer formed over the date line and the pixel area and having no overlapping with the shielding electrode, and a pixel electrode having a first portion and a second portion extending from the first portion, and formed over the shielding electrode and the plane organic layer in the pixel area, wherein the first portion is overlapped with the shielding electrode so as to define a storage capacitor therebetween, and the second portion overlays the plane organic layer and has no overlapping with the data line. | 12-16-2010 |
20110192657 | Capacitive touch panel with multiple zones - In a capacitive touch panel having touch cells arranged in a two-dimensional array and defined by two coordinates, the present invention provides a third coordinate. In particular, the touch cells in a row are electrically connected a first sensing element and the touch cells in a column are electrically connected in a second sensing element. The first sensing elements can be arranged into two or more touch zones. Each of the touch zones has a zone sensing element for defining the zone coordinate. Some of the first sensing elements in one touch zone are electrically connected to the corresponding first sensing elements in the other touch zones in series. As such, the number of terminals connected to the first sensing elements can be reduced. | 08-11-2011 |
20110286076 | Electrophoretic Display Device - The present invention in one aspect relates to a solar cell formed on a substrate, a bottom electrode member formed on the solar cell, an electrophoretic display panel formed on the bottom electrode member, having a plurality of electrophoretic cell structures spatially arranged in a matrix form, each electrophoretic cell structure containing a plurality of charged particles movable in the electrophoretic cell structure responsively to applied fields, and a top electrode member formed on the electrophoretic display panel, where at least one of the bottom electrode member and the top electrode member includes a plurality of in-plane switching (IPS) electrodes. Each IPS electrode is positioned in relation to a corresponding electrophoretic cell structure for controlling movements of the charged particles therein along a horizontal direction parallel to the electrophoretic display panel. | 11-24-2011 |
20120004441 | METHOD OF ENANTIOSELECTIVE ADDITION TO IMINES - The present invention relates to a method of enantioselective addition to imines, including: reacting R | 01-05-2012 |
20120193629 | ARRAY SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - An array substrate and method for manufacturing the same is provided, wherein a data line is composed of first and second segments connected by a contact pad. First and second insulation layers are disposed between the first segment of the data line and a shielding electrode. In addition, the first insulation layer is disposed between the second segment of the data line and a gate line in their overlapping area. Accordingly, the coupling effect between the conductive layers can be reduced. For example, the RC delay problem due to parasitic capacitance between the shielding electrode and the data line is solved. As a result of the design of the two insulator layers between the first segment of the data line and the shielding electrode, the shorting between the conductive layers can also be simultaneously solved and the product yield can be increased. | 08-02-2012 |
20120196392 | PIXEL DESIGNS OF IMPROVING THE APERTURE RATIO IN AN LCD - In one aspect of this invention, a pixel structure includes a scan line formed on a substrate and a data line formed over the substrate defining a pixel area, a switch formed inside the pixel area on the substrate, a shielding electrode having a first portion and a second portion extending from the first portion, and formed over the scan line, the data line and the switch, where the first portion is overlapped with the switch and the second portion is overlapped with the data line, and a pixel electrode having a first portion and a second portion extending from the first portion, and formed over the shielding electrode in the pixel area, where the first portion is overlapped with the first portion of the shielding electrode so as to define a storage capacitor therebetween and the second portion has no overlapping with the second portion of the shielding electrode. | 08-02-2012 |
Patent application number | Description | Published |
20130269480 | Method for Making a Strong Aluminum Alloy - A method is used to make an aluminum alloy with excellent tensile strength, low density and excellent radiation. The method includes the steps of providing a base material, adding 0.06 wt % to 0.30 wt % of zirconium and 0.06 wt % to 0.30 wt % of vanadium to the base material, and melting the basic material with the zirconium and vanadium to provide an aluminum alloy. The base material includes 92.55 wt % to 97.38 wt % of aluminum, 0.9 wt % to 1.8 wt % of silicon, less than 0.5 wt % of iron, 0.6 wt % to 1.2 wt % of copper, 0.4 wt % to 1.1 wt % of manganese, 0.6 wt % to 1.4 wt % of magnesium, less than 0.40 wt % of chromium, less than 0.25 wt % of zinc and less than 0.20 wt % of titanium. | 10-17-2013 |
20140130637 | Method for Making a Strong Aluminum Alloy - A method is used to make an aluminum alloy with excellent tensile strength, low density and excellent radiation. The method includes the steps of providing a base material, adding 0.06 wt % to 0.30 wt % of zirconium and 0.06 wt % to 0.30 wt % of vanadium to the base material, and melting the basic material with the zirconium and vanadium to provide an aluminum alloy. The base material includes 92.55 wt % to 97.38 wt % of aluminum, 0.9 wt % to 1.8 wt % of silicon, less than 0.5 wt % of iron, 0.6 wt % to 1.2 wt % of copper, 0.4 wt % to 1.1 wt % of manganese, 0.6 wt % to 1.4 wt % of magnesium, less than 0.40 wt % of chromium, less than 0.25 wt % of zinc and less than 0.20 wt % of titanium. | 05-15-2014 |