HYDIS TECHNOLOGIES CO., LTD. Patent applications |
Patent application number | Title | Published |
20150084845 | Liquid Crystal Display Device - Provided herein is a liquid crystal device having a plurality of pixel areas defined by cross arrangement of a plurality of gate lines and data lines, the liquid crystal device comprising a reference data line that is one of the plurality of data lines; a first pixel electrode formed at one side of the reference data line, and is driven by the reference data line; a second pixel electrode formed at the other side of the reference data line, and is driven by a data line next to the reference data line; and a black matrix configured to shield the reference data line and its adjacent areas, wherein the distance between the center of the reference data line and the first pixel electrode is shorter than the distance between the center of the reference data line and the second pixel electrode. | 03-26-2015 |
20140313460 | In-Plane Switching Mode Liquid Crystal Display Device - Disclosed is an in-plane switching mode liquid crystal display, in which a pixel electrode and a common electrode are formed on the same substrate. The display includes a first substrate having a first conductive layer and second conductive layer, the first conductive layer and second conductive layer formed on each surface of the first substrate; a second substrate has a transparent pixel electrode and a transparent common electrode formed on one surface of the second substrate, facing the second conductive layer; an electrical connection part is installed to electrically connect the second conductive layer to the transparent common electrode, wherein a common voltage applied to the transparent common electrode is applied to the second conductive layer through the electrical connection part. This arrangement prevents generation of static electricity to suppress a whitening phenomenon due to liquid crystal polarization in a liquid crystal layer, thereby improving display image quality. | 10-23-2014 |
20130169609 | Shift Register and Gate Driving Circuit Using the Same - Disclosed are a shift register, and a gate driving circuit including a plurality of shift registers connected in sequence to respectively supply scan signals to a plurality of gate lines of a display device. Each shift register includes: an input unit which outputs a directional input signal having a gate high or low voltage based on an output signal from a previous or subsequent shift register to a first node; an inverter unit which is connected to the first node, generates an inverting signal to a signal at the first node, and outputs the inverting signal to a second node; and an output unit which includes a pull-up unit connected to the first node and activating an output clock signal based on the signal at the first node, and a pull-down unit activating and outputting a pull-down output signal based on a signal at the second node. | 07-04-2013 |
20130112545 | Sputtering Method Using Sputtering Device - The present invention relates to a sputtering method using a sputtering device, wherein entire scan region is defined from one side to the other side of a sputtering target, and the sputtering target is scanned with a magnet moving back and forth along the entire scan region multiple times. The entire scan region of a sputtering target is divided by N parts to be uniformly eroded, such that a magnet moves back and forth along some part of the divided entire scan region. A sputtering method using a sputtering device can therefore extend an alternating cycle of a sputtering target, by virtue of improving utilization efficiency of the sputtering target through uniform erosion of the sputtering target, and can also reduce manufacturing cost. | 05-09-2013 |
20130077736 | Shift Register and Driving Circuit Using the Same - Disclosed are a shift register that shows excellent operation reliability with elements less than those of the conventional structure and a gate driving circuit using the shift register. The gate driving circuit comprises each of a plurality of shift registers sequentially connected and respectively supplying scan signals to a plurality of gate lines of a display device. | 03-28-2013 |
20120257154 | Liquid Crystal Display Device - Disclosed is a liquid crystal display device comprising a lower substrate, an upper substrate, and a liquid crystal layer interposed between the substrates and aligned in a predetermined rubbing direction, in which pixel regions are respectively defined by gate lines and data lines formed to intersect each other on the lower substrate, and a switching device is arranged in an intersecting portion of the gate line and the data line, the liquid crystal display device comprising: a lateral pattern portion formed on at least one side of the data line and formed zigzagging along an extending direction of the data line. With this, it is possible to effectively improve and prevent the rubbing defect that occurs in the stepped region of the data line during the rubbing process for alignment of liquid crystal. | 10-11-2012 |
20120249436 | Liquid Crystal Display Apparatus with In Touch Sensor and Manufacturing Method Thereof - Disclosed is a liquid crystal display (LCD) apparatus with a built-in touch sensor, the LCD apparatus including: a first substrate and a second substrate placed facing each other with a liquid crystal layer interposed therebetween; a plurality of gate lines and a plurality of data lines arranged to intersect each other and defined a pixel region on the first substrate; a plurality of first touch signal lines formed on a surface of the second substrate opposite to the first substrate substantially corresponding to the respective gate lines; a plurality of second touch signal lines formed on the surface of the second substrate substantially corresponding to the respective data lines while being insulated from and intersecting with the first touch signal lines; and a color filter formed on the surface of the second substrate substantially corresponding to the pixel region, wherein the first touch signal lines and the second touch signal lines serve as a signal line for sensing touch as well as a light shielding member. | 10-04-2012 |
20120080354 | Cassette for Loading Substrate - Disclosed is a cassette for loading a substrate, which includes a cassette main body which includes upper and lower frames spaced apart at upper and lower sides, a plurality of internal support bars for supporting the substrate, side frames provided at opposite sides of the upper and lower frames and forms a box shape to internally receive the substrate; a center frame which includes a plurality of internal support bars for supporting the substrate and is vertically disposed in a back of the upper and lower frames; and a connecting member which is provided between the center frame and the cassette main body and detachably connects the center frame to the cassette main body, wherein the connecting member comprises a first fixing unit fixed to the cassette main body, and a second fixing unit fixed to the center frame and detachably coupled to the first fixing unit, the first fixing unit being installed at each of a front and a back of the cassette main body. | 04-05-2012 |
20110298771 | Display Driving Circuit - A display driving circuit is provided. The display driving circuit, in which a gate driver shifting and outputting an input signal is embedded, includes an input portion receiving a pulse input signal consisting of a high-level signal and a low-level signal and transferring the pulse input signal to a boosting node, an inverter portion connected with the input portion, and inverting the pulse input signal to output the inverted signal, and a pull-up/pull-down portion consisting of a pull-up portion connected to the input portion, receiving a boosting voltage from the boosting node, and outputting a pull-up output signal, and a pull-down portion connected to the inverter portion, receiving the inverted signal, and outputting a pull-down output signal. Here, the inverter portion outputs a signal having a lower level than the low-level signal for a predetermined time period in which the pull-up output signal is output. Accordingly, the display driving circuit exhibits excellent output characteristics due to improved performance and also has excellent reliability. | 12-08-2011 |
20110267335 | LIQUID CRYSTAL DRIVING DEVICE AND DRIVING METHOD THEREOF - Disclosed is a liquid crystal driving device, which is without a gate PCB, having improved uniformity of screen, and a driving method thereof. The liquid crystal driving device comprises: a sequence recognition means for recognizing sequence of a pertinent gate driver IC by a pulse width of a vertical start signal inputted in synchronization with a vertical synchronous signal, and generating a Carry signal and location data of the pertinent gate driver IC; and gate-off voltage generation means for receiving a first gate-off voltage and the location data of the pertinent gate driver IC, and outputting a second gate-off voltage which is generated by subtracting a voltage attenuation quantity corresponding to the location data of the gate driver IC from the first gate-off voltage. | 11-03-2011 |
20110244751 | FRINGE FIELD SWITCHING MODE LIQUID CRYSTAL DISPLAY AND MANUFACTURING METHOD THEREOF - Provided is a fringe field switching mode liquid crystal display. The fringe field switching mode liquid crystal display includes a transparent common electrode having a predetermined shape and formed within the pixel area to adjust light transmittance by applying a voltage to the liquid crystal layer, and a transparent pixel electrode having a plurality of slits and formed above the transparent common electrode with an insulating layer interposed between the transparent common electrode and the transparent pixel electrode. A rubbing direction for aligning the liquid crystal layer is within 5° with respect to a direction of the gate line to remove a light shielding region above the data line, one end of the transparent common electrode is arranged between the data line and the transparent pixel electrode, and a distance between the transparent common electrode and the transparent pixel electrode is regulated with respect to the data line. | 10-06-2011 |
20110109861 | Fringe Field Switching Mode Liquid Crystal Display Device and Method of Fabricating the Same - Provided is a liquid crystal display including a transparent pixel electrode and a transparent common electrode in a pixel region to drive liquid crystals. The transparent common electrode includes a plurality of slits and is configured to open at least a portion of a switching device to connect unit pixels, the slits have an angle of 5 to 10° with respect to a gate line, and a rubbing direction of a liquid crystal layer is substantially parallel to a gate direction. Therefore, it is possible to provide the liquid crystal display capable of removing factors decreasing an aperture ratio, preventing light from leaking, and further improving internal reflection. | 05-12-2011 |
20110085121 | Fringe Field Switching Mode Liquid Crystal Display Device and Method of Fabricating the Same - Provided is a fringe field switching (FFS) mode liquid crystal display device (LCD) and a method of fabricating the same that are capable of effectively improving image quality by reducing loads of gate lines and data lines and increasing a conventional storage capacitance. | 04-14-2011 |
20110037931 | Fringe-Field-Switching-Mode Liquid Crystal Display and Method of Manufacturing the Same - Provided are a fringe-field-switching (FFS)-mode liquid crystal display (LCD) and a method of manufacturing the same. The FFS-mode LCD includes a transparent common electrode, a conductive reflection structure electrically connected to the transparent common electrode, and a transparent pixel electrode formed on the conductive reflection structure and including a plurality of slits. The transparent common electrode is formed on a region including a data line and a gate line so that respective unit pixel regions can be electrically connected to one another. | 02-17-2011 |
20100171892 | Fringe Field Switching Mode Liquid Crystal Display Device - Disclosed is a Fringe Field Switching (FFS) mode Liquid Crystal Display (LCD) including lower substrate, an upper substrate and a liquid crystal layer interposed between the substrates. Each pixel region is defined by gate lines and data lines formed to cross each other on the lower substrate. Switching devices are disposed at intersections of the gate lines and the data lines. The FFS mode LCD includes a transparent pixel electrode, and a transparent common electrode disposed apart from the transparent pixel electrode by an insulating layer interposed therebetween to adjust a transmittance by applying an electric field to the liquid crystal layer. A metal line of a specific thickness is formed to be electrically connected with the transparent common electrode on or under the transparent common electrode of a non-opening region in which the gate lines and the data lines are formed. | 07-08-2010 |
20100134448 | Liquid Crystal Display Device with Touch Screen Function - A liquid crystal display (LCD) device with a touch screen function is provided. The LCD device includes a liquid crystal panel layer including a liquid crystal layer filled between first and second substrates, and a touch panel layer which is formed on the first substrate, includes at least one phase compensating means stacked therein, and detects a contact point when an upper electrode and a lower electrode come into contact with each other due to external pressure, wherein the phase compensating means is patterned so that the upper electrode and the lower electrode are able to contact each other, and thus outdoor visibility and viewing angle characteristics can be effectively improved. | 06-03-2010 |
20100103130 | Liquid Crystal Display with Touch Screen Function and Method for Detecting External Illuminance Using the Same - An Liquid Crystal Display (LCD) with a touch screen function includes an array substrate having a display region and a photosensitive region divided by data lines, scan lines, and common lines, wherein the photosensitive region includes a switching element having a first terminal connected to an (n−1) | 04-29-2010 |
20100090984 | Liquid Crystal Display Having Touch Screen Function Using Photoconductor - Provided is a liquid crystal display (LCD) having a touch screen function using a photoconductor, which includes first and second substrates and a liquid crystal layer filled therebetween. The first substrate includes a touch sensing layer formed under a substrate and sensing a position by variation in current or voltage due to change in characteristics of the photoconductor in response to light supplied from outside, a light shielding layer formed under the touch sensing layer and preventing leakage of light, and a color filter layer including red (R), green (G) and blue (B) color filter patterns to express a color between the light shielding layer, thereby effectively finding a touch position according to a current variation depending on a change in characteristics of the photoconductor by the light supplied from outside. | 04-15-2010 |
20090122240 | In-Plane Switching Mode Liquid Crystal Display Device - Disclosed is an in-plane switching mode liquid crystal display, in which a pixel electrode and a common electrode are formed on the same substrate. The display includes a first substrate having a first conductive layer and second conductive layer, the first conductive layer and second conductive layer formed on each surface of the first substrate; a second substrate has a transparent pixel electrode and a transparent common electrode formed on one surface of the second substrate, facing the second conductive layer; an electrical connection part is installed to electrically connect the second conductive layer to the transparent common electrode, wherein a common voltage applied to the transparent common electrode is applied to the second conductive layer through the electrical connection part. This arrangement prevents generation of static electricity to suppress a whitening phenomenon due to liquid crystal polarization in a liquid crystal layer, thereby improving display image quality. | 05-14-2009 |
20090115951 | FFS Mode LCD and Method of Manufacturing the Same - Provided are a fringe field switching (FFS) mode liquid crystal display (LCD) and a method of manufacturing the same. The FFS mode LCD includes a second transparent electrode having a plurality of slits and bars, disposed apart from a first transparent electrode with an insulating layer interposed between the first and second transparent electrodes, in a pixel region to apply a voltage level to a liquid crystal layer and control an amount of transmitted light. From a plan view, bar-shaped patterns having a specific width in a direction substantially parallel to a length direction of the slits are formed in the middles of the respective slits or in the middles of bars. | 05-07-2009 |