Patent application number | Description | Published |
20080198287 | DISPLAY PANEL, METHOD FOR MANUFACTURING THE SAME, MOTHERBOARD FOR MANUFACTURING THE SAME AND METHOD FOR MANUFACTURING A DISPLAY SUBSTRATE FOR THE SAME - A display panel includes a first substrate, a thin-film transistor (TFT), an organic layer, a second substrate, a seal line, and a conductive pattern. The first substrate includes a pixel part and a driving part connected to the pixel part. The TFTs are formed in the pixel part and the driving part. The organic layer is formed on the first substrate having the TFTs formed thereon. The second substrate is opposite to the first substrate. The seal line is disposed between an edge portion of the first substrate having the organic layer formed thereon and an edge portion of the second substrate. The seal line combines the first substrate with the second substrate. The conductive pattern is disposed between the seal line and the organic layer. | 08-21-2008 |
20080203392 | DISPLAY SUBSTRATE, METHOD OF MANUFACTURING THE SAME AND DISPLAY DEVICE HAVING THE SAME - A display substrate includes a base substrate having a display area and a peripheral area which surrounds the display area, a pixel electrode formed on the display area, a pad part formed on the peripheral area, an adhesion part formed on the peripheral area and having a plurality of holes formed in an area adjacent to the pad part on the peripheral area and a conductive adhesion member formed on the pad part and the adhesion part to make electrical contact with the pad part and a terminal of an integrated circuit. | 08-28-2008 |
20080297495 | APPARATUS FOR DRIVING A DISPLAY DEVICE, DISPLAY DEVICE INCLUDING THE SAME, AND METHOD THEREOF - An apparatus for driving a display device includes a plurality of stages connected to each other, wherein each stage includes first to seventh transistors and first and second capacitors, the seventh transistor is connected to one terminal of the first capacitor, and a ratio of an area of the first capacitor to a channel width of the seventh transistor is less than 40. Accordingly, since the ratio of the area of the capacitor to the channel width of the transistor is less than 40, deterioration may be remarkably reduced in a low temperature test. | 12-04-2008 |
20080302969 | THIN-FILM TRANSISTOR ARRAY SUBSTRATE FOR X-RAY DETECTOR AND X-RAY DETECTOR HAVING THE SAME - In a thin-film transistor (“TFT”) array substrate for an X-ray detector and an X-ray detector having the TFT array substrate, the TFT array substrate includes a gate wiring, a gate insulating layer, an active layer, a data wiring, a photodiode, an organic insulating layer and a bias wiring. The gate wiring is formed on an insulating substrate and includes a gate line and a gate electrode. The gate insulating layer covers the gate wiring. The active layer is formed on the gate insulating layer. The data wiring is formed on the gate insulating layer and includes a data line, source and drain electrodes. The photodiode includes lower and upper electrodes, and a photoconductive layer. The organic insulating layer covers the data wiring and the photodiode. The bias wiring is formed on the organic insulating layer. Thus, an aperture ratio and reliability are enhanced. | 12-11-2008 |
20090026383 | X-Ray Detector and Method of Manufacturing the Same - Disclosed is an X-ray detector and a method of manufacturing the X-ray detector. A cushion layer is interposed between a scintillator panel for converting X-rays into visual light and a lower substrate formed with a thin film transistor, a photoelectric conversion device. Thus, the lower substrate and the scintillator panel can be bonded to each other such that no air layer can be introduced between the lower substrate and the scintillator panel. Therefore, no air layer is introduced, and thus, it is possible to prevent the efficiency of light incident to the photoelectric conversion device from being lowered. Further, the cushion layer is employed such that the lower substrate and the scintillator panel can be separated and reused. | 01-29-2009 |
20090072158 | METHOD OF DETECTING X-RAYS AND X-RAY DETECTING APPARATUS - Apparatus and method of accurately detecting X-rays employs a photodiode substrate wherein a first reverse bias is applied to the photodiode to generate a photodetect voltage according to the X-rays incident on the photodiode. After an image signal is output in response to the X-rays applied to the photodiode in the present frame, a forward bias is applied to the photodiode so that X-rays may be detected more accurately in the next frame. | 03-19-2009 |
20090095914 | ARRAY SUBSTRATE FOR X-RAY DETECTOR, METHOD OF MANUFACTURING THE SAME, X-RAY DETECTOR HAVING THE SAME INSTALLED THEREIN, AND METHOD OF MANUFACTURING X-RAY DETECTOR - An x-ray detector including an array substrate including blocks extending along the array substrate in a first direction. Each of the blocks includes cells that are each associated with a data line extending in parallel with the first direction and a gate line extending perpendicularly to the first direction such that the data line crosses the gate line, a thin film transistor respectively connected to the gate and data lines, and a photodiode connected to the thin film transistor to receive light. The cells store charges corresponding to an amount of the light. Gate drivers are connected to ends of the gate lines to select rows of the cells associated with each of the gate lines. Read-out circuits are connected to ends of the data lines to read out charges stored in the cells, of each of the selected rows, that are respectively associated with each of the data lines. | 04-16-2009 |
20090108209 | X-RAY DETECTING PANEL, X-RAY DETECTOR AND METHOD OF DRIVING THE X-RAY DETECTOR - An X-ray detecting panel includes a thin film transistor; first and second photosensors connected to the thin film transistor; and a scintillator which changes X-rays that are external and incident thereto into visible light rays. | 04-30-2009 |
20090202042 | X-RAY DETECTOR AND MANUFACTURING METHOD THEREOF - An X-ray detector includes; a panel having a plurality of photo-detecting pixels generating electrical signals in response to the detection of X-rays, a gate driver providing a gate signal to the plurality of photo-detecting pixels, wherein the photo-detecting pixels output the electrical signals in response to the gate signal, a readout integrated circuit reading out the electrical signal in response to the gate signal, a main board including a controller receiving the electrical signal and converting the electrical signal to an image signal, a film attached to the panel and the main board, the film including a signal line electrically connecting the readout integrated circuit to the panel and main board, wherein the readout integrated circuit is mounted on the film, and a shielding layer covering the film and comprising a conductive material, wherein the shielding layer prevents externally applied electromagnetic signals from passing through the film. | 08-13-2009 |
20090245465 | METHOD OF DRIVING X-RAY DETECTOR AND X-RAY DETECTOR USING THE SAME - In a method of driving an x-ray detector having a switching device connected to a light detecting pixel comprising a photodiode which detects an x-ray emitted from an x-ray generator and outputs an electrical signal corresponding to the x-ray, the method includes: receiving an x-ray with the photodiode during an x-ray detecting period to generate the electrical signal corresponding to the x-ray; turning on the switching device using a gate signal during a first gate turn-on period to transmit the electrical signal to an external component; providing a light to the photodiode during a first flash period of an offset control period; and turning on the switching device during a second gate turn-on period of the offset control period during which the light is not provided to the photodiode to maintain an electric potential at a coupling node disposed between the photodiode and the switching device at a predetermined level. | 10-01-2009 |
20100051819 | X-Ray Detection Panel and X-Ray Detector - An X-ray detector includes a plurality of bias connection lines that connect both ends, respectively, of a bias line for applying a bias voltage to a PIN diode. The bias line includes first and second bias lines. | 03-04-2010 |
20100155613 | X-RAY DETECTOR AND METHOD OF DRIVING THE SAME - An X-ray detector and method of driving an X-ray detector include an X-ray detector having a detection module that includes a plurality of gate lines and a plurality of photoelectric transducers connected to the gate lines, respectively, to convert X-ray radiation into an electric signal, a data reading module that sequentially scans the gate lines, generates a dummy dark level, by reading electric signals of the photoelectric transducers during a standby period, generates an offset dark level, by reading the electric signals from the photoelectric transducers, before X-ray radiating a specimen, and generates a bright level by reading the electric signals from the photoelectric signals after the irradiation of the specimen during an X-ray radiation period, and a data processing module that ignores the dummy dark level and generates image data using only the bright level and the offset dark level. | 06-24-2010 |
20100163882 | THIN FILM TRANSISTOR ARRAY SUBSTRATE FOR AN X-RAY DETECTOR AND METHOD OF FABRICATING THE SAME - A thin film transistor (TFT) array substrate for an X-ray detector and a method of fabricating the same are provided. The TFT array substrate includes a substrate, a gate line formed on the substrate, a data line crossing the gate line, a thin film transistor including a gate electrode, a source electrode, and a drain electrode, a first electrode connected to the drain electrode, a passivation layer formed over the gate line, the data line, the thin film transistor and the first electrode, a photoconductor formed over the passivation layer and connected to the first electrode, and a second electrode formed on the photoconductor. | 07-01-2010 |
20110013113 | TFT AND TFT SUBSTRATE USING THE SAME, METHOD OF FABRICATING TFT SUBSTRATE AND LIQUID CRYSTAL DISPLAY - There are provided a TFT, a TFT substrate using the TFT, a method of fabricating the TFT substrate, and an LCD. The TFT includes a source region, a drain region, and a gate electrode having an opening. The opening of the gate electrode is to enhance the light sensing ability of the TFT when it is used as a light sensor, since light is incident into a region where the opening is formed. The TFT including the gate having the opening can be used in a substrate of a flat display or an LCD using such a substrate. The above TFT can sense light incident from outside the display to adjust the brightness of the screen according to the external illumination. | 01-20-2011 |