Patent application number | Description | Published |
20110075084 | LIQIUD CRYSTAL DISPLAY PANEL - A liquid crystal display panel includes a first substrate, a second substrate opposite to the first substrate, a plurality of scan lines, a plurality of data lines intersecting with the scan lines, a plurality of pixel areas defined by the scan lines and the data lines, and a plurality of electrodes. Each electrode is positioned in a corresponding pixel area. Each pixel area has an inner surface. The electrode includes a branch portion, a frame connected to the branch portion, and a plurality of first slits defined by the frame and the branch portion, away from the inner surface of the pixel area. | 03-31-2011 |
20110122116 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE AND DRIVING METHOD THEREOF - A transflective liquid crystal display (LCD) device includes a plurality of pixel units, each pixel unit including a thin film transistor (TFT), a coupling capacitor, a first liquid crystal capacitor, and a second liquid crystal capacitor. The first liquid crystal capacitor is formed by a first common electrode, a liquid crystal layer, and a transmissive electrode, and the second liquid crystal capacitor is formed by a second common electrode, the liquid crystal layer, and a reflective area. The TFT is electrically connected to the first liquid crystal capacitor, and is also electrically connected to the second liquid crystal capacitor via the coupling capacitor. | 05-26-2011 |
20140002333 | DISPLAY | 01-02-2014 |
20140016057 | DISPLAY - An embodiment of the present invention provides a display including: a first substrate; gate lines and data lines; transistors respectively located in pixel areas, wherein each of the transistors includes: an active layer on the first substrate and having a first end portion, a second end portion, and a necked-down portion connecting the first and the second end portions; a second substrate on the first substrate; and a display medium between the first substrate and the second substrate. | 01-16-2014 |
20140139774 | THIN-FILM TRANSISTOR SUBSTRATE AND DISPLAY - An embodiment of the invention provides a thin-film transistor substrate including: a substrate; a gate electrode disposed on the substrate; a gate insulating layer disposed on the substrate and covering the gate electrode; an active layer disposed on the gate insulating layer and above the gate electrode; an etching stop layer disposed on the active layer; a source electrode disposed on the etching stop layer and electrically connecting the active layer; a first insulating layer disposed on the etching stop layer and covering the source electrode; and a transparent electrode including a drain electrode and a pixel electrode connected thereto, wherein the drain electrode passes through the first insulating layer and the etching stop layer and directly contacts the active layer to electrically connect the active layer, and the pixel electrode is disposed the first insulating layer. | 05-22-2014 |
Patent application number | Description | Published |
20110013740 | SHIFT REGISTER CIRCUIT HAVING BI-DIRECTIONAL TRANSMISSION MECHANISM - A shift register includes a plurality of shift register stages for providing gate signals. Each shift register stage has a pull-up unit, a carry unit, a carry control unit, an input unit and a pull-down unit. The pull-up unit is employed to pull up a gate signal according to a driving control voltage and a first clock. The carry unit generates a preliminary start pulse signal based on the driving control voltage and the first clock. The carry control unit outputs the preliminary start pulse signal to become a forward or backward start pulse signal according to first and second bias voltages. The input unit is utilized for inputting a start pulse signal generated by a preceding or succeeding shift register stage to become the driving control voltage. The pull-down unit pulls down the gate signal, the preliminary start pulse signal and the driving control voltage according to multiple clocks. | 01-20-2011 |
20110044423 | SHIFT REGISTER - A shift register includes a plurality of electrically connected shift units. Each shift unit includes a pull-up circuit, a pull-up driving circuit, a pull-down circuit, and a pull-down driving circuit. The pull-up circuit outputs a first signal to an output node according to the first signal and a voltage of a driving node. The pull-up driving drives the pull-up circuit according to an output voltage of the previous shift unit. The pull-down driving circuit outputs a low level voltage to the driving node and the output node according to the first signal and a second signal. The pull-down circuit resets the pull-up driving circuit according to the voltage of the output node and outputs the low level voltage to the output node and the driving node according to a third signal and a fourth signal. | 02-24-2011 |
20110285690 | ESD PROTECTION CIRCUIT AND DISPLAY APPARATUS USING THE SAME - An ESD protection circuit comprises three transistors and two voltage dividers. The two source/drain terminals of a first transistor are electrically coupled to a first power line and a second power line respectively. The two source/drain terminals of a second transistor are electrically coupled to the first power line and a gate terminal of the first transistor respectively. The two source/drain terminals of a third transistor are electrically coupled to the gate terminal of the first transistor and the second power line respectively. A first voltage divider supplies a first voltage to a gate terminal of the second transistor according to a potential difference between the first power line and the second power line. A second voltage divider supplies a second voltage to a gate terminal of the third transistor according to the potential difference between the first power line and the second power line. | 11-24-2011 |
Patent application number | Description | Published |
20080293339 | Retainer Ring - A retainer ring and a method of using the retainer ring are provided. The retainer ring has openings along a bottom surface. Grooves encompass the openings and extend to an interior portion of the retainer ring wherein a semiconductor wafer may be held. In operation, a semiconductor wafer is placed inside the retainer ring. As the retainer ring and the semiconductor wafer are moved relative to an underlying polishing pad, slurry is dispensed through the openings in the retainer ring. The grooves in the retainer ring allow the slurry to flow from the openings to the interior portion of the retainer ring and the semiconductor wafer. | 11-27-2008 |
20100042710 | REMOTE MANAGEMENT OF COMPUTER SYSTEM - A computer system is remotely managed by a console. The computer system includes a central processing unit, a chipset, a network chip, an embedded controller and a basic input output system. The chipset communicates with the central processing unit. The network chip communicates with the chipset. The embedded controller communicates with the network chip and the chipset. The basic input output system communicates with the chipset. The embedded controller is connected to the Internet through the network chip to acquire a fixed IP address or a dynamic address, thereby exchanging data with the console through the Internet. | 02-18-2010 |
20100077192 | COMPUTER, BOOTING SOFTWARE PRODUCT AND COMPUTER BOOTING METHOD - A computer includes an application system, a storage device and a basic input output system (BIOS). The application system can be respectively coupled to the storage device and the BIOS, set at least a multimedia file as a preset playing file according to an input instruction and store the preset playing file into the storage device. The application system can further generate a log file according to the input instruction and the storage position of the preset playing file, wherein the log file is sent to the BIOS. The BIOS has a file access module, so that the BIOS can acquire the preset playing file from the storage device according to the log file for playing during booting the computer. | 03-25-2010 |
20100090342 | Metal Line Formation Through Silicon/Germanium Soaking - A method for forming interconnect structure includes providing a substrate; forming a low-k dielectric layer over the substrate; forming an opening in the low-k dielectric layer; after the step of forming the opening, performing a silicon/germanium soaking process to exposed surfaces of the low-k dielectric layer; and after the silicon/germanium soaking process, filling the opening. | 04-15-2010 |
20100112912 | Retainer Ring - A retainer ring and a method of using the retainer ring are provided. The retainer ring has openings along a bottom surface. Grooves encompass the openings and extend to an interior portion of the retainer ring wherein a semiconductor wafer may be held. In operation, a semiconductor wafer is placed inside the retainer ring. As the retainer ring and the semiconductor wafer are moved relative to an underlying polishing pad, slurry is dispensed through the openings in the retainer ring. The grooves in the retainer ring allow the slurry to flow from the openings to the interior portion of the retainer ring and the semiconductor wafer. | 05-06-2010 |
20100295173 | Composite Underfill and Semiconductor Package - Embodiments of the invention exploit physical properties of nanostructures by using nanostructures in a composite underfill. An embodiment is a composite underfill comprising an epoxy matrix applied between a substrate and a semiconductor chip and a suspension of nanostructures distributed within the epoxy matrix. Another embodiment is a semiconductor package comprising a semiconductor chip, a carrier, wherein the semiconductor chip is bonded to the carrier, and a composite underfill comprising a plurality of nanostructures dispersed in an epoxy medium between the carrier and the semiconductor chip. Further embodiments include a method for creating a semiconductor package comprising a composite underfill. | 11-25-2010 |
20140122913 | DEBUGGING DEVICE - A debugging device includes a power detection unit used for detecting a power supply status of a power supply unit of a server to generate a power detection signal, a boot status detection unit, a control unit, a first display unit and a second display unit. The boot status detection unit is coupled to a control chip, for receiving a boot inspection signal to generate a boot status detection signal. The control unit is coupled to the power detection unit and the boot status detection unit, for receiving the power detection signal and the boot status detection signal to generate a plurality of first control signals and a second control signal. The first display unit is coupled to the control unit, for receiving and displaying the first control signals. The second display unit is coupled to the control unit, for receiving and displaying the second control signal. | 05-01-2014 |
Patent application number | Description | Published |
20090146698 | DRIVING CIRCUIT AND A PIXEL CIRCUIT INCORPORATING THE SAME - A driving circuit includes: a switch unit operable according to a scan signal, and adapted for permitting transfer of a data signal when operating in an on state; a capacitor having a first end that is coupled to the switch unit, and a second end; a first transistor having a first terminal that is adapted for coupling to a voltage source, a second terminal that is coupled to the second end of the capacitor and that is adapted to be coupled to a load, and a control terminal that is coupled to the first end of the capacitor; and a second transistor having a first terminal that is adapted for coupling to the voltage source, a second terminal coupled to the second terminal of the first transistor, and a control terminal that is adapted for receiving a bias voltage. Each of the first and second transistors operates in the linear region. | 06-11-2009 |
20100109717 | Pixel Circuit - A pixel circuit includes an LED having an anode that receives a driving current and a cathode that receives a scan signal, and a driving circuit including: a switch unit operable according to a voltage signal, and adapted for permitting transfer of a data signal when operating in an on state; a capacitor having a first end coupled to the switch unit, and a second end; a first transistor having a first terminal that is coupled to the second end of the capacitor, a second terminal that is coupled to the anode of the LED, and a control terminal that is coupled to the first end of the capacitor; and a second transistor having a first terminal that is adapted for coupling to the voltage source, a second terminal that is coupled to the first terminal of the first transistor, and a control terminal that is adapted for receiving a reference voltage. | 05-06-2010 |
20100109718 | Driving Circuit, and a Pixel Circuit Incorporating the Same - A driving circuit includes: a switch unit permitting transfer of a data signal when operating in an on state; a capacitor having a first end coupled to the switch unit, and a second end; a first transistor having a first terminal for coupling to a second voltage source, a second terminal coupled to the second end of the capacitor and to a load, and a control terminal coupled to the first end of the capacitor; and a second transistor having a first terminal coupled to the second end of the capacitor, a second terminal receiving a bias voltage, and a control terminal coupled to the first terminal of the second transistor. | 05-06-2010 |
20110205221 | DISPLAY AND COMPENSATION CIRCUIT THEREFOR - A display includes a scan line, a data line, a pixel circuit, a compensation circuit, a voltage controller, and a data line driver. The data line forms a junction with the scan line. The pixel circuit is disposed at the junction of the scan line and the data line. When the scan line and the data line are driven, the pixel circuit generates a driving current. The compensation circuit generates a comparing signal and a positioning signal based on the driving current. The voltage controller generates a reference voltage that corresponds to the positioning signal with reference to the comparing signal. The data line driver corrects an image signal based on the reference voltage, and drives the data line with the corrected image signal. A compensation circuit for the display is also disclosed. | 08-25-2011 |
Patent application number | Description | Published |
20090153273 | ENERGY TRANSFERRING SYSTEM AND METHOD THEREOF - An energy transferring system including a source-side resonator, an intermediate resonant module, and a device-side resonator is provided. The three resonators substantially have the same resonant frequency for generating resonance. The energy on the source-side resonator is coupled to the intermediate resonant module, such that non-radiative energy transfer is performed between the source-side resonator and the intermediate resonant module. The energy coupled to the intermediate resonant module is further coupled to the device-side resonator, such that non-radiative energy transfer is performed between the intermediate resonant module and the device-side resonator to achieve energy transfer between the source-side resonator and the device-side resonator. The coupling coefficient between the intermediate resonant module and its two adjacent resonators is larger than the coupling coefficient between the source-side resonator and the device-side resonator. The invention has the advantages of high transmission efficiency, small volume, low cost. | 06-18-2009 |
20090289595 | WIRELESS CHARGING MODULE AND ELECTRONIC APPARATUS - A wireless charging module includes a wireless power supplying module and a wireless receiving module. The wireless power supplying module includes a first resonator, which is for receiving first electric energy and has a first resonance frequency. The wireless receiving module includes a body, a shell, a second resonator and a charging circuit. The body is electrically connected to a battery. The second resonator is located on an inner wall of the shell and is electrically connected to the body. The second resonator has a second resonance frequency substantially the same as the first resonance frequency. The first electric energy of the first resonator is coupled to the second resonator so that non-radiative energy transfer is performed between the first and second resonators. The second resonator provides second electric energy. The charging circuit receives the second electric energy to charge the battery. | 11-26-2009 |
20110273078 | FLUORESCENT SUBSTANCE AND LIGHT-EMITTING DEVICE USING THE SAME - A fluorescent substance includes zinc with a concentration not larger than 400 ppm, and a composition represented by the following formula (I): | 11-10-2011 |
20120075209 | TOUCH PANEL - A touch panel, which contains a substrate, a mask layer, a sensing circuit layer and a barrier layer, is disclosed. The mask layer is disposed around the bottom surface of the substrate. The sensing circuit layer is located on the same side of the substrate with the mask layer, and the surrounding area of the sensing circuit layer is shielded by the mask layer. In addition, the area of the sensing circuit layer exposed from the mask layer is defined as a sensing region. Furthermore, the barrier layer is disposed between the substrate and the sensing circuit layer and between the mask layer and the sensing circuit layer. Concurrently, the barrier layer further provides separation between the mask layer and the sensing circuit layer. The barrier layer has a transparent appearance. Particularly, the barrier layer is provided for changing optical refraction and harmonizing optical reflection index and transmittance. | 03-29-2012 |
20120080704 | METHOD OF PROVIDING A PHOSPHOR WITH A PRECISELY CONTROLLED ELEMENT COMPOSITION, A PHOSPHOR PROVIDED BY THE SAME, A PHOSPHOR, AND A LIGHT EMITTING DEVICE COMPRISING THE SAID PHOSPHOR - A method of providing a phosphor with a precisely controlled element composition, a phosphor provided by the same, and a red phosphor represented by the [formula 1] are disclosed, in which | 04-05-2012 |
20120080999 | PHOSPHOR AND LIGHT EMITTING DEVICE - The present invention provides a phosphor, including a constituent having the formula Ca | 04-05-2012 |
20120091486 | PHOSPHOR AND LIGHT EMITTING DEVICE - The present invention provides a phosphor, including a constituent having the formula Ca | 04-19-2012 |
20120091879 | PHOSPHOR AND LIGHT EMITTING DEVICE - The present invention provides a phosphor, including a constituent having the formula Ca | 04-19-2012 |
20120126687 | NITRIDE PHOSPHOR AND MANUFACTURING METHOD THEREOF, AND LIGHT EMITTING DEVICE USING THE SAME - A phosphor and a manufacturing method thereof, and the light emitting device using the same are provided, wherein the composition formula of the phosphor is I | 05-24-2012 |
20120326593 | NITRIDE PHOSPHOR AND MANUFACTURING METHOD THEREOF, AND LIGHT EMITTING DEVICE USING THE SAME - A phosphor and a manufacturing method thereof, and the light emitting device using the same are provided, wherein the composition formula of the phosphor is I | 12-27-2012 |
20130099657 | FLUORESCENT MATERIAL AND LIGHT EMITTING DEVICE USING THE SAME - A fluorescent material and a light emitting device using the same are provided. The fluorescent material has a general formula of ((Lu | 04-25-2013 |
20130134865 | FLUORESCENT MATERIAL AND LIGHT EMITTING DEVICE USING THE SAME - A fluorescent material and a light emitting device using the same are provided. The fluorescent material has a general formula of ((Lu | 05-30-2013 |
20140063677 | PROTECTION DEVICE - This disclosure provides a protection device for a display having a panel. The protection device includes a voltage generator coupled to the panel, configured for generating at least one common voltage; and a discharge unit coupled to the voltage generator, configured for discharging charges on the voltage generator when the display is turned off. | 03-06-2014 |
Patent application number | Description | Published |
20130043476 | THIN FILM TRANSISTOR SUBSTRATE AND DISPLAY DEVICE COMPRISING THE SAME - The invention provides a thin film transistor substrate and a display device including the same. The thin film transistor substrate includes: a substrate; a gate line, a gate insulating layer and an active layer sequentially formed on the substrate; a source and a drain simultaneously formed on the active layer to from a thin film transistor; an insulation layer formed on the thin film transistor, wherein a via is formed in the insulation layer, and the via is formed on a portion of the drain and a portion of the active layer to expose the portion of the drain and the active layer; and a pixel electrode formed in the via and on the insulation layer, wherein the pixel electrode is electrically connected to the drain through the via. | 02-21-2013 |
20130207957 | PIXEL DRIVING CIRCUITS, PIXEL DRIVING METHODS, DISPLAY PANELS AND ELECTRONIC DEVICES - A pixel driving circuit is provided, including first, second, third, fourth, and fifth switching devices and first and second capacitors. The first switching device has a first terminal coupled to a power source voltage, and a control terminal coupled to a first scan signal line. The second switching device has a first terminal coupled to a second terminal of the first switching device, a second terminal coupled between a first node and an emitting device, and a control terminal coupled to a second node. The third switching device has a first terminal coupled to the second node, a second terminal coupled between the first terminal of the second switching device and the second terminal of the first switching device, and a control terminal coupled to a second scan signal line. | 08-15-2013 |
20140014961 | DISPLAY DEVICE AND DISPLAY PANEL THEREOF - A display device and a display panel thereof are provided. The display panel includes a plurality of pixels, a first adjacent zone and a plurality of gate lines. The pixels include a first pixel and a second pixel adjacent to the first pixel. Each pixel includes one of the gate lines. The gate lines include a first gate line and a second gate line. The first pixel includes the first gate line. The second pixel includes the second gate line. The first gate line and the second gate line are located at the first adjacent zone. | 01-16-2014 |