Patent application number | Description | Published |
20110084673 | OPERATING PHASE NUMBER DEPENDENT COMPENSATION OF A MULTI-PHASE BUCK CONVERTER - A multi-phase buck converter has a digital compensator to select a set of compensation coefficients depending on the operating phase number of the multi-phase buck converter, or including different compensators for each operation phase number to improve the loop gain bandwidth, transient response and stability of the multi-phase buck converter. The multi-phase buck converter operates with more phase circuits for higher loading and operates with fewer phase circuits for lower loading. The compensation varies with the number of the operated phase circuits so to be adaptive to the operation condition with an optimized control-to-output voltage transfer function. | 04-14-2011 |
20120206379 | Single-layer and multi-touch projected capacitive apparatus - A single-layer and multi-touch projective-capacitive apparatus includes: (a) a substrate, (b) a conductive layer configured on the substrate, wherein the conductive layer consists of a plurality of first patterns, a plurality of second patterns, a plurality of third patterns and a plurality of fourth patterns, and (c) a plurality of conductive wires configured on the substrate respectively to connect with the first patterns, the second patterns, the third patterns and the fourth patterns. | 08-16-2012 |
20140176484 | CAPACITIVE TOUCH DISPLAY APPARATUS - A capacitive touch display apparatus includes a liquid crystal (LC) display module, a touch panel and a judgment unit. The LC display module includes an active device array substrate, a color filter (CF) substrate, and an LC layer disposed between inner sides of the two substrates. The touch panel includes a single touch sensing layer fabricated on an outer side of the CF substrate and a cover lens disposed on the single touch sensing layer. The single touch sensing layer includes a transmitter patterned electrode and multiple receiver patterned electrodes. A same inductive capacitor is formed between each receiver patterned electrode and the transmitter patterned electrode. The judgment unit transmits a scan signal to the transmitter patterned electrode, and determines whether there is an occurrence of a single-touch event or a multi-touch event by analyzing inductive signals from the respective receiver patterned electrodes. | 06-26-2014 |
20140204049 | DISPLAY APPARATUS WITH TOUCH SENSING FUNCTION - The invention provides a display apparatus including a display panel, a display driving circuit and a touch sensing circuit. The display panel has a plurality of pixels arranged in an array, in which each of the pixels includes a liquid crystal capacitor. The display driving circuit is coupled to the display panel and configured to drive the pixels during a display period in a frame period to display images on the display panel. The touch sensing circuit is coupled to the display panel and configured to sense capacitance variations of the liquid crystal capacitors during a blanking period in the frame period, so as to generate a touch information. | 07-24-2014 |
20140313436 | TOUCH-SENSING LIQUID CRYSTAL PANEL AND FABRICATION METHOD THEREOF - A touch-sensing liquid crystal panel and a fabrication method thereof are provided. The touch-sensing liquid crystal panel includes a color filter substrate, a transistor substrate, and a sensing matrix. In the fabrication method, at first, a first glass substrate is provided. Then, color filters and a common electrode are disposed on a first surface of the first glass substrate to form a color filter substrate. Thereafter, a transistor substrate is combined with the color filter substrate. Then, the glass substrates of the color filter substrate and the transistor substrate are slimed. Thereafter, a sensing layer is formed on a second surface of the first glass substrate, wherein the second surface is opposite to the first surface. Then, the sensing layer is baked to enable a sheet resistance of the sensing matrix to be equal to or less than 30 ohm/square. Thereafter, the sensing layer is patterned. | 10-23-2014 |
20140333847 | TOUCH PANEL AND TOUCH DISPLAY - A touch panel that includes a first substrate, a touch sensing layer, a compensation pattern layer, a second substrate, and a first optical adhesive layer is provided. The touch sensing layer includes a plurality of electrode sets arranged in parallel, and each of the electrode sets includes a scan electrode and a plurality of sensing electrodes. An orthogonal projection of the touch sensing layer on the first substrate is not overlapped with an orthogonal projection of the compensation pattern layer on the first substrate. The compensation pattern layer and the touch sensing layer are located between the first substrate and the second substrate. The first optical adhesive layer is located between the first substrate and the second substrate. A touch display is also provided. | 11-13-2014 |
20140368752 | TOUCH-SENSING LIQUID CRYSTAL PANEL - A touch-sensing liquid crystal panel is provided and includes a color filter substrate and a transistor substrate. The color filter substrate includes a first substrate, a sensing array, touch-sensing circuit contact pads, and color filters. The transistor substrate includes a second substrate and pixel units. In one embodiment, the first substrate has a first edge region and a second edge region having the same width. In another embodiment, the touch-sensing circuit contact pads are disposed at the first edge region and the second edge region of the first substrate, and each conductive pattern in the sensing array is connected to the touch-sensing circuit contact pads of the first edge region and the second edge region. In another embodiment, each conductive pattern of the sensing array includes two first conductive patterns and conductive pattern rows disposed between the first conductive patterns. | 12-18-2014 |
20140375906 | TOUCH-SENSING LIQUID CRYSTAL PANEL AND FABRICATION METHOD THEREOF - A touch-sensing liquid crystal panel and a fabrication method thereof are provided. The touch-sensing liquid crystal panel includes a color filter substrate and a transistor substrate. In the fabrication method, at first, a first glass substrate is provided. Thereafter, a sensing matrix is formed on a first surface of the first glass substrate at a baking temperature. The sensing matrix is formed from indium tin oxide (ITO), and a sheet resistance of the sensing matrix is equal to or less than 30 ohm/square. Then, color filters and a common electrode are disposed on a second surface of the first glass substrate to form a color filter substrate, wherein the second surface is opposite to the first surface. Thereafter, the transistor substrate is provided and combined with the color filter substrate. Thereafter, a slimming process is performed to slim a second glass substrate of the transistor substrate. | 12-25-2014 |
Patent application number | Description | Published |
20100259519 | SUBPIXEL STRUCTURE AND LIQUID CRYSTAL DISPLAY PANEL - A subpixel structure of a liquid crystal display is disclosed. The subpixel structure is disposed between a first substrate and a second substrate, in which the subpixel structure includes a first portion and a second portion. The subpixel structure further includes: a data line, a first scan line and a second scan line intersecting the data line; a first transistor disposed on the first scan line and connected to the first portion of the subpixel structure; a second transistor disposed on the first scan line and connected to the second portion of the subpixel structure; and a third transistor disposed on the second scan line and connected to the second portion of the subpixel structure. | 10-14-2010 |
20110069269 | CONTINUOUS DOMAIN VERTICAL ALIGNMENT LIQUID CRYSTAL DISPLAY PANEL - A continuous domain vertical alignment liquid crystal display panel includes a first substrate and a second substrate opposing to the first substrate. The first substrate includes a first electrode and a number of protrusions disposed on the first electrode. The second substrate includes a second electrode and a number of slits defined in the second electrode. Each protrusion is adjacent to at least one slit, and one of the adjacent protrusion and slit is extended along a straight line and the other is extended along a sine curve. A baseline is defined passing through 0 degrees and 180 degrees on the sine curve, and an angle between protrusions or slits extended along the sine curve and the baseline is smaller than 25 degrees. | 03-24-2011 |
20110085120 | PIXEL STRUCTURE, ACTIVE DEVICE ARRAY SUBSTRATE, AND LIQUID CRYSTAL DISPLAY PANEL - A pixel structure disposed on a substrate having a horizontal direction and a vertical direction and driven by a scan line and a data line is provided. The pixel structure includes a pixel electrode and an active device. The pixel electrode has a first extension portion and a second extension portion connected to the first extension portion, wherein a first included angle of the first extension portion and the horizontal direction is θ degrees, a second included angle of the second extension portion and the horizontal direction is (360-θ) degrees, the data line is parallel to the first extension portion and the second extension portion, and a plurality of slits are perpendicular to the data line. The pixel electrode is electrically connected to the scan line and the data line via the active device. | 04-14-2011 |
20110109858 | VERTICAL ALIGNMENT LIQUID CRYSTAL DISPLAY WITH DIRECTIONAL ELECTRODES - An exemplary vertical alignment liquid crystal display (LCD) includes a first substrate, a second substrate opposite to the first substrate, a liquid crystal layer disposed between the first and second substrates, first electrodes formed at an inner side of the second substrate adjacent to the liquid crystal layer, and second electrodes formed at the inner side of the second substrate adjacent to the liquid crystal layer. The liquid crystal layer comprises a plurality of liquid crystal molecules having the positive dielectrics constants and being vertically aligned. The first electrodes and the at least one second electrode are configured for generating electric fields to drive the liquid crystal molecules to orient in a plurality of different directions all parallel to the first substrate and the second substrate. | 05-12-2011 |
20110128272 | LIQUID CRYSTAL DISPLAY ACCEPTING ALTERNATING COMMON VOLTAGE - A liquid crystal display includes a pixel matrix having a plurality of pixels and a common voltage driver. Each pixel includes a TFT, a pixel electrode, and a common electrode. The pixels are defined as a first pixel group and a second pixel group. The pixels in the first pixel group all have a first polarity in each frame period, the pixels in the second pixel group all have a second polarity in each frame period, and the first polarity and the second polarity are different. The common voltage driver is configured for providing a first common voltage to the common electrodes of the pixels in the first pixel group and providing a second common voltage to the common electrodes of the pixels in the second pixel group. The first common voltage and the second common voltage are alternating voltages, and have inverse phases. | 06-02-2011 |
20110128622 | THREE-DIMENSIONAL DISPLAY DEVICE WITH LENS FOR SPLITTING LIGHT ALONG TWO AXES - A three-dimensional display device includes a display panel and an optical film. The display panel includes a plurality of display units arranged in a matrix. Each display unit includes a plurality of pixels configured for displaying sub-images having stereoscopic parallax. The optical film includes a plurality of lenses, each corresponding to a respective display unit. The lens is disposed opposite to the corresponding display unit and configured to split light corresponding to two sub-images of the corresponding display unit to reach both left and right viewing sides, respectively. | 06-02-2011 |
20140028962 | VERTICAL ALIGNMENT LIQUID CRYSTAL DISPLAY WITH DIRECTIONAL ELECTRODES - An exemplary vertical alignment liquid crystal display (LCD) includes a first substrate, a second substrate opposite to the first substrate, a liquid crystal layer disposed between the first and second substrates, first electrodes formed at an inner side of the second substrate adjacent to the liquid crystal layer, and second electrodes formed at the inner side of the second substrate adjacent to the liquid crystal layer. The liquid crystal layer comprises a plurality of liquid crystal molecules having the positive dielectrics constants and being vertically aligned. The first electrodes and the at least one second electrode are configured for generating electric fields to drive the liquid crystal molecules to orient in a plurality of different directions all parallel to the first substrate and the second substrate. | 01-30-2014 |
Patent application number | Description | Published |
20090278162 | Low Temperature Co-Fired Ceramic (LTCC) Tape Compositions, Light-Emitting Diode (LED) Modules, Lighting Devices and Methods of Forming Thereof - The present invention provides LTCC (low temperature co-fired ceramic) tape compositions and demonstrates the use of said LTCC tape(s) in the formation of Light-Emitting Diode (LED) chip carriers and modules for various lighting applications. The present invention also provides for the use of (LTCC) tape and LED modules in the formation of lighting devices including, but not limited to, LED devices, High Brightness (HB) LED backlights, display-related light sources, automotive lighting, decorative lighting, signage and advertisement lighting, and information display lighting. | 11-12-2009 |
20130099178 | THICK FILM SILVER PASTE AND ITS USE IN THE MANUFACTURE OF SEMICONDUCTOR DEVICES - The present invention is directed to an electroconductive silver thick film paste composition comprising Ag, a glass frit and rhodium resinate, Cr | 04-25-2013 |
20150221789 | THICK FILM SILVER PASTE AND ITS USE IN THE MANUFACTURE OF SEMICONDUCTOR DEVICES - The present invention is directed to an electroconductive saver thick film paste composition comprising Ag, a glass frit and rhodium resinate, Cr | 08-06-2015 |
Patent application number | Description | Published |
20080259234 | Liquid crystal display device and method for driving same - An exemplary liquid crystal display device includes a plurality of gate lines configured for providing a plurality of scanning signals, a plurality of data lines configured for providing a plurality of gray scale voltages, and a plurality of pixel units arranged in an array. Each pixel unit includes a first sub-pixel unit and a second sub-pixel unit. The first and second sub-pixel units are connected to one of the gate lines and one of the data lines. A plurality of first common lines are configured for providing a first common signal to the first sub-pixel unit, and a plurality of second common lines are configured for providing a second common signal to the second sub-pixel unit. The first and second common signals are pulse voltage signals and have different starting pulse times according to successive starting pulse times of the scanning signals. An exemplary method for driving the liquid crystal display device is also provided. | 10-23-2008 |
20080303969 | Liquid crystal display device with pixel electrode voltage differential - An exemplary liquid crystal display ( | 12-11-2008 |
20090040413 | Thin film transistor substrate assembly, and liquid crystal display having same - An exemplary thin film transistor (TFT) substrate assembly includes a substrate, a plurality of gate lines disposed on an inner surface of the substrate, a plurality of data lines disposed insulated with the gate lines. The plurality of gate lines and the plurality of data lines define a plurality of pixel regions. Each pixel region includes a first switch element, a second switch element, a first pixel electrode, and a second pixel electrode. The first switch element and the second switch element are connected with a same gate line from the plurality of gate lines. The first pixel electrode is applied with data signals from a data line from the plurality of data lines via the first switch element. The second pixel electrode is applied with data signals from the data line from the plurality of data lines via the second switch element and a voltage dividing element. | 02-12-2009 |
20090086147 | Multi-domain vertical alignment liquid crystal display having two sub-pixel regions - An exemplary liquid crystal display includes a first substrate; a second substrate opposite the first substrate; a liquid crystal layer interposed between the first and second substrates; a plurality of pixel electrodes disposed at the second substrate; a plurality of parallel first data lines alternately disposed at the second substrate; a plurality of parallel second data lines alternately disposed at the second substrate. Each of the first data lines is disposed upon and insulative to a corresponding second data line, and each of the first and second data lines provides signals to a corresponding pixel electrode. | 04-02-2009 |
20090195489 | Thin film transistor substrate having high aperture ratio and method of manufacturing same - An exemplary TFT substrate ( | 08-06-2009 |
Patent application number | Description | Published |
20090010267 | NETWORK DEVICE AND PACKET FORWARDING METHOD THEREOF - A network device, for forwarding packets from an asynchronous transmit mode (ATM) network over different permanent virtual connections (PVC) to a plurality of terminal devices, includes a storage module, a flag setting module, a buffer, and a sending module. The storage module is for storing an identifier of at least one predetermined PVC, and packets transmitted over the at least one predetermined PVC need to be processed with higher priority. The flag setting module is for receiving the packets transmitted over the different PVCs, marking packets transmitted over the at least one predetermined PVC corresponding to the identifier stored in the storage module, and sending the packets to the buffer for temporarily storing the packets. The sending module is for retrieving the packets from the buffer, and first sending the marked packets to the plurality of terminal devices. | 01-08-2009 |
20130182080 | CAMERA TESTING DEVICE AND METHOD FOR TESTING CAMERA - A method for testing a 3D camera is provided. The method includes: making a first camera of the 3D camera align with a first picture of a reference picture, wherein, the reference picture includes a second picture, a central point of the first picture and the second picture respectively has a first label and a second label; obtaining an image captured by a second camera of the 3D camera; identifying the first label, the second label, and a central point of the image; calculating an actual angle difference and an actual distance difference according to coordinates of the first label, the second label, and the central point; determining whether the 3D camera is installed appropriately by comparing the actual distance difference with the reference distance difference and the actual angle difference with the reference angle difference respectively. | 07-18-2013 |
Patent application number | Description | Published |
20110286515 | Quantized Coefficient Coding Apparatus and Quantized Coefficient Method - A quantized coefficient coding apparatus used in a media coding system includes a determination module, a coding mode arbitration module and a coding module. The determination module determines whether a set of quantized coefficients are defined in a predetermined variable length coding (VLC) table to generate a determination result. When the determination result of the determination module is negative, the coding mode arbitration module determines a best coding mode corresponding to the set of quantized coefficients from a plurality of predetermined coding modes. The coding mode encodes the set of quantized coefficients according to the best coding mode. | 11-24-2011 |
20110317933 | Image Coding Method for Facilitating Run Length Coding and Image Encoding Device Thereof - An image coding method for run-length coding (RLC), including quantizing a coefficient string representing a plurality of pixel values to generate a first quantization coefficient string, determining a cutoff quantization coefficient in the first quantization coefficient string, discarding a part of quantization coefficients of the first quantization coefficient string according to the cutoff quantization coefficient, and forming remaining quantization coefficients of the first quantization coefficient string as a second quantization coefficient string, and performing image coding to the second quantization coefficient string with the RLC. | 12-29-2011 |
20140195736 | DATA ACCESSING METHOD AND ELECTRONIC APPARATUS UTILIZING THE DATA ACCESSING METHOD - A data access method applicable on an electronic apparatus is provided. The electronic apparatus comprises a control unit, a first storage apparatus, and a second storage apparatus. The method comprising: storing a first part of data and a second part of data of a data group in the first storage apparatus and the second storage apparatus, respectively; and selectively accessing the first storage apparatus and the second storage apparatus via different data paths for the first part of data and the second part of data, wherein access speed to the first storage apparatus is different from access speed to the second storage apparatus. | 07-10-2014 |