Patent application number | Description | Published |
20080316383 | METHOD FOR DETECTING STORAGE VOLTAGE, DISPLAY APPARATUS USING THE STORAGE VOLTAGE AND METHOD FOR DRIVING THE DISPLAY APPARATUS - A method for detecting a storage voltage, a display apparatus using the storage voltage and a method for driving the display apparatus. The method for detecting the storage voltage includes applying a test voltage to a storage line in a display panel having an active layer disposed between the storage line and a data line while varying the test voltage, the active layer being in an active state or an inactive state according to the test voltage, and detecting the storage voltage corresponding to the test voltage in an inactive state of the active layer. Thus, the display panel is driven by using the detected storage voltage, so that an aperture ratio may be increased and current consumption may be decreased. | 12-25-2008 |
20090009685 | POLARIZER AND LIQUID CRYSTAL DISPLAY HAVING THE SAME - A liquid crystal display includes a backlight unit, a liquid crystal display panel, and first and second polarizers. The first polarizer is attached to a lower portion of the liquid crystal display panel to face the backlight unit, and the second polarizer is attached to an upper portion of the liquid crystal display panel to correspond to the first polarizer. The liquid crystal display panel includes a first optical layer that partially reflects light provided from the backlight unit, and the first polarizer includes a second optical layer to prevent the light reflected by the first optical layer from being re-reflected to the liquid crystal display panel. | 01-08-2009 |
20090147169 | THIN FILM TRANSISTOR AND LIQUID CRYSTAL DISPLAY INCLUDING THE SAME - A thin film transistor and a liquid crystal display including the same include a gate electrode including an uneven pattern on at least one side defining the gate electrode, a source electrode partially overlapping the gate electrode, and a drain electrode separated from the source electrode and partially overlapping the gate electrode. | 06-11-2009 |
20090207333 | LIQUID CRYSTAL DISPLAY INCLUDING SENSING UNIT FOR COMPENSATION DRIVING - A liquid crystal display includes; a plurality of pixels, each of which comprises a switching element having a control terminal and an input terminal connected to a corresponding gate line of a plurality of gate lines and a corresponding data line of a plurality of data lines, respectively, at least one test pixel comprising at least one test switching element having a control terminal connected to a corresponding at least one gate line of a plurality of gate lines, and a sensing unit which measures a leakage current flowing through the test pixel and to control compensation driving of a threshold voltage of a switching element of a pixel according to the measured leakage current. | 08-20-2009 |
20090251631 | DISPLAY DEVICE INCLUDING COLOR FILTERS - A display device that is divided into a plurality of pixel regions including first, second, and third pixel regions includes a first color filter occupying the first pixel region and a second color filter occupying the second pixel region, which neighbors the first pixel region, and overlapping the first color filter. The first color filter is disposed on the second color filter in the overlapping region of the first color filter and the second color filter, and a central line of the overlapping region deviates from the boundary line between the first pixel region and the second pixel region. | 10-08-2009 |
20100038648 | THIN FILM TRANSISTOR ARRAY PANEL AND METHOD OF MANUFACTURING THE SAME - A thin film transistor array panel including a substrate; a display area signal line; a display area thin film transistor; a peripheral area signal line; a black matrix disposed on the display area signal line, the display area thin film transistor, and the peripheral area signal line, the black matrix including a first and a second contact holes exposing the peripheral area signal line; a protrusion member disposed on the peripheral area signal line, the protrusion member overlapping the peripheral area signal line; a transparent connector disposed on the black matrix and within the peripheral area, wherein the transparent connector contacts the peripheral area signal line through at least one of the first and the second contact holes and includes a protrusion within at least one of the first and the second contact holes which corresponds to the protrusion member; and a pixel electrode. | 02-18-2010 |
20100045915 | LIQUID CRYSTAL DISPLAY - A liquid crystal display according to an exemplary embodiment of the present invention includes a first insulating substrate, a first subpixel electrode on the first insulating substrate, an organic insulator on the first subpixel electrode and having a first contact hole, and a second subpixel electrode on the organic insulator, and connected to the first subpixel electrode through the first contact hole. Accordingly, one thin film transistor is disposed in each pixel thereby improving the aperture ratio of the liquid crystal display, and the same data signal is applied to the first and second subpixel electrodes through one thin film transistor such that side visibility may be increased through a simple driving method. | 02-25-2010 |
20100053103 | TOUCH SCREEN DISPLAY - A touch screen display includes; a first substrate, a lower sensor electrode disposed on the first substrate, a second substrate disposed substantially opposite to the first substrate, a sensor spacer disposed on the second substrate and aligned with the lower sensor electrode, a common electrode disposed on the second substrate, an upper sensor electrode disposed on the sensor spacer and connected to the common electrode, and a cutout disposed at an edge of the upper sensor electrode, wherein when touch pressure is applied to the first or second substrate, a change in capacitance is generated due to a change in a distance between the lower sensor electrode and the upper sensor electrode at a touch position, such that the touch position is detected on the basis of the change in capacitance. | 03-04-2010 |
20100149128 | LIQUID CRYSTAL DISPLAY PANEL HAVING INTEGRATED PRESSURE SENDING UNITS - Capacitively actuated touch sensor units are integrated between subpixel light emitters of a liquid crystal display panel. In one embodiment, a sensor unit is monolithically integrated on a same substrate as are a plurality of associated subpixel units and the sensor unit includes a variable capacitor and a reference capacitor connected to define a voltage splitting circuit having a split voltage generating node. The sensor unit also includes a sensing transistor operatively coupled to the split voltage generating node and a voltage resetting transistor operatively coupled to the split voltage generating node. In one embodiment, one plate of the variable capacitor is defined by a touchwise flexed portion of a common electrode of the display and an opposed plate is defined by a spaced apart facing electrode provided on a TFT array substrate of the liquid crystal display. | 06-17-2010 |
20100156847 | DISPLAY DEVICE INCLUDING A TOUCH SENSOR - A display device includes; a first touch sensor, a second touch sensor disposed in proximity to the first touch sensor, a shade located on the second touch sensor wherein the shade controls intensity of incident light to the second touch sensor so that the second touch sensor receives a different intensity than the first touch sensor, and a reader which receives a first signal and a second signal from the first touch sensor and the second touch sensor, respectively and which analyzes the first signal and the second signal. | 06-24-2010 |
20110090436 | DISPLAY SUBSTRATE, METHOD OF MANUFACTURING THE SAME AND DISPLAY DEVICE HAVING THE SAME - A display substrate has first and second conductive layers separated from one another by an insulation layer. The first and second conductive layers are used to integrally form on the display substrate, pixel units in a relatively central display area of the substrate and integrated gate driving circuitry as well as associated wirings thereof in one or more peripheral areas. The first and second conductive layers are covered by a first protection layer made of a first electrically insulative material. A second and supplementing protection layer is provided on top of the first protection layer. The supplementing protection layer (buffer layer) is formed of a material different from that of the first protection layer so as to provide supplemental resistance against corrosive chemical agents and supplemental resistance against formation of cracks. In one class of embodiments, the supplementing protection layer is made of a same material as used form at least one of an alignment layer, sealing layer and spacer layer of the display substrate. | 04-21-2011 |
20110193835 | DISPLAY SUBSTRATE AND DISPLAY PANEL HAVING THE SAME - A display substrate includes a gate line, a data line and a pixel electrode. The gate line is extended in a first direction on a base substrate. The data line is extended in a second direction crossing to the first direction. The pixel electrode is disposed on a pixel area of the base substrate. The pixel electrode includes a first sub-electrode and a second sub-electrode spaced apart by an opening portion, and receives a voltage having a same polarity. The opening portion includes a straight line portion extended in the first direction, a diagonal line portion extended in a third direction crossing the first and second directions, and a protrusion portion disposed in a length direction of the straight line portion at a portion of the pixel electrode where the straight line portion and the diagonal line portion meet. | 08-11-2011 |
20140146254 | DISPLAY SUBSTRATE, METHOD OF MANUFACTURING THE SAME AND DISPLAY DEVICE HAVING THE SAME - A display substrate has first and second conductive layers separated from one another by an insulation layer. The first and second conductive layers are used to integrally form on the display substrate, pixel units in a relatively central display area of the substrate and integrated gate driving circuitry as well as associated wirings thereof in one or more peripheral areas. The first and second conductive layers are covered by a first protection layer made of a first electrically insulative material. A second and supplementing protection layer is provided on top of the first protection layer. The supplementing protection layer (buffer layer) is formed of a material different from that of the first protection layer so as to provide supplemental resistance against corrosive chemical agents and supplemental resistance against formation of cracks. In one class of embodiments, the supplementing protection layer is made of a same material as used form at least one of an alignment layer, sealing layer and spacer layer of the display substrate. | 05-29-2014 |