Patent application number | Description | Published |
20080252802 | LIQUID CRYSTAL DISPLAY AND ACTIVE MATRIX SUBSTRATE THEREOF - An active matrix substrate is provided. The active matrix substrate includes a substrate, scan lines, data lines, and pixel units. The scan lines, data lines, and pixel units are all disposed over the substrate. The pixel unit includes an active component, a pixel electrode, and an auxiliary electrode. The active components are electrically connected with the scan lines and data lines. The pixel electrode has openings extended from the edge of the pixel electrode to the interior of the pixel electrode. The auxiliary electrode is electrically connected with the pixel electrode controlled by a previous scan line and includes a body portion and extending portions disposed in the openings. The pixel electrode is electrically connected with the auxiliary electrode of a pixel unit controlled by a next scan line. | 10-16-2008 |
20080253499 | SHIFT REGISTER AND LEVEL CONTROLLER - A shift register includes several stages of shift register units. Each shift register unit includes a first level lifting unit, first level lowering unit, first driving unit and level controller. The first level lifting unit and first level lowering unit control the scan signal to be equal to a first timing signal and first voltage, respectively. The level controller includes an input unit, a charge storage unit, a second level lifting unit and a second level lowering unit. The input unit controls the third control signal to be equal to the first voltage at a node. The charge storage unit stores a voltage of the timing signal at the node. The second level lifting unit and second level lowering unit respectively control the second control signal to be equal to the third control signal and the first voltage to turn on and turn off the first level lowering unit. | 10-16-2008 |
20080259459 | REFLECTIVE FILTER - A reflective filter including a substrate and an optical film structure disposed on the substrate is provided. The optical film structure includes a reflective layer, a spacing layer, a transflective layer and a transparent layer in sequence. Depending on the reflection and interference phenomenon form the layers of the optical film structure, a colored light within narrow band could be filtered by the reflective filter in order to enhance the color saturation of an image. | 10-23-2008 |
20080266275 | SHIFT REGISTER AND LIQUID CRYSTAL DISPLAY - A shift register is for generating scan signals. Each stage of the shift register comprises a first level lifting unit and at least a second level lifting unit, a first level lowering unit and at least a second level lowering unit, first and second driving units. The first level lowering and lifting units are for controlling the levels of signals at the first output terminal to output a first scan signal. The second level lowering unit and second level lifting unit are for controlling the levels of signals at the second output terminal to output at least a second scan signal. The first and second driving units are for turning on and off the first and the second level lifting units and the first and the second level lowering unit to control the first and second scan signals. | 10-30-2008 |
20080303991 | PIXEL UNIT - A pixel unit of a transflective liquid crystal display (LCD) is provided. The pixel unit is suitable for being disposed between an upper substrate and a lower substrate. The pixel unit includes an active device, a reflective color filter, a common electrode and a liquid crystal layer. The active device and the reflective color filter are both disposed on the lower substrate, and the active device is electrically connected with the reflective color filter. The common electrode is disposed on the upper substrate, and the liquid crystal layer is disposed between the reflective color filter and the common electrode. It should be noted that the reflective color filter includes a reflective film, a spacer layer, a transflective film, and a transparent optical film stacked sequentially. With such a design, the display quality of the pixel unit is improved. | 12-11-2008 |
20080303999 | MULTI-DOMAIN LIQUID CRYSTAL DISPLAY AND ARRAY SUBSTRATE THEREOF - A multi-domain liquid crystal display includes a first and a second transparent substrates, a liquid crystal layer interposed between them, a common electrode, a first and a second metal layers, a first and a second dielectric layer, multiple pixel electrodes and multiple auxiliary electrodes. The second metal layer is formed on the first dielectric layer, and the second dielectric layer is formed on the first dielectric layer and covers the second metal layer. The pixel electrodes are formed on the second dielectric layer, each of the pixel electrodes having at least one opening to divide itself into a plurality of sections. The auxiliary electrodes are formed on the second dielectric layer, and each of the auxiliary electrodes extends into the opening of the pixel electrode. The second metal layer is hollowed out at a position overlapping the auxiliary electrode to form at least one opening. | 12-11-2008 |
20090073368 | MULTI-DOMAIN LIQUID CRYSTAL DISPLAY - A multi-domain liquid crystal display (LCD) includes multiple effective pixel electrodes, dummy pixel electrodes and auxiliary electrodes. The effective pixel electrodes are regularly arranged in an array of row and column, and the array of effective pixel electrodes constitute an active display area of the multi-domain LCD. The dummy pixel electrodes are provided outside the active display area and arranged at least on the side of an outermost row or outermost column of the array of effective pixel electrodes. Each auxiliary electrode is positioned next to one side of an effective pixel electrode or a dummy pixel electrode to produce fringe fields and is connected to another effective pixel electrode controlled by a preceding or a succeeding signal line to allow all effective pixel electrodes to have substantially the same coupling capacitance. | 03-19-2009 |
20090091669 | MULTI-DOMAIN LIQUID CRYSTAL DISPLAY AND ARRAY SUBSTRATE THEREOF - An array substrate includes a transparent plate, a plurality of metallic signal lines, an insulating layer, a plurality of first and auxiliary electrodes, and a plurality of active components. The metallic signal lines are formed on the transparent plate, and the insulating layer is formed on the transparent plate and covers the metallic signal lines. The pixel electrodes are regularly arranged on the insulating layer, with a spacing region existing between two adjacent pixel electrodes. The auxiliary electrodes are provided on the insulating layer, and each auxiliary electrode is spread at least in the spacing region and at least partially surrounds one pixel electrode to produce fringe fields. The active components are connected between the metallic signal lines and the pixel electrodes. | 04-09-2009 |
20090091670 | PIXEL CIRCUIT STRUCTURE - A pixel circuit structure applied in an LCD panel, which has a common voltage and includes at least one data line, is provided. The pixel circuit structure includes a first and a second circuit. The first circuit includes a first switch and a first capacitor. The second circuit includes a second switch, a third switch and a second capacitor. One end of the first capacitor receives the common voltage. Two ends of the first switch are respectively coupled to the data line and the other end of the first capacitor. The second and the third switch are coupled serially between the data line and a voltage source. One end of the second capacitor receives the common voltage, and the other end is coupled between the second and the third switch. The potential difference between the two ends of the first capacitor is different from that of the second capacitor. | 04-09-2009 |
20090096765 | TOUCH PANEL AND LIQUID CRYSTAL DISPLAY PANEL - A touch panel having a color-filtering function is provided. The touch panel includes a first electrode layer, a second electrode layer, a first dielectric layer and a second dielectric layer. The second electrode layer is disposed above the first electrode layer. The first dielectric layer is disposed between the first electrode layer and the second electrode layer, while the second dielectric layer is disposed on the second electrode layer. Further, the second electrode layer is located between the first dielectric layer and the second dielectric layer. Here, either the first dielectric layer or the second dielectric layer is a color filter layer. A liquid crystal display panel using the above touch panel as a color filter is also provided. | 04-16-2009 |
20090114918 | PANEL STRUCTURE AND MANUFACTURING METHOD THEREOF - A panel structure and a manufacturing method thereof are provided. The panel structure is disposed in a display device. The panel structure includes a substrate, several first transistors and second transistors. The substrate has a display circuit and a control circuit. The first transistors are disposed at the display circuit of the substrate. Each of the first transistors has a first active layer. The second transistors are disposed at the control circuit of the substrate. Each of the second transistors has a second active layer. The materials of at least one of the first active layer and the second active layer include ZnO. | 05-07-2009 |
20090115741 | TOUCH SENSOR AND TOUCH SCREEN PANEL - A touch sensor includes a first substrate, a second substrate, an inducing electrode and an inducing switch. The second substrate is disposed opposite the first substrate. The inducing electrode is disposed on the first substrate. The inducing switch disposed on the second substrate includes a first switch electrode, a second switch electrode and an active layer, which is disposed between and contacts with the first switch electrode and the second switch electrode. The active layer and the inducing electrode face each other and are separated by a distance. When the first substrate or the second substrate is pressed so that the distance between the inducing electrode and the active layer is changed, the driven inducing electrode induces a channel, corresponding to a change of the distance, on the active layer to electrically connect the first switch electrode to the second switch electrode. | 05-07-2009 |
20090128043 | LIGHT SENSING APPARATUS AND DISPLAY DEVICE THEREOF - A light sensing apparatus and a display device thereof are provided. The light sensing apparatus comprises a filtering device and a light sensing device. The filtering device filters off a part of the ambient light and outputs the other part of the ambient light. The light sensing device outputs a sensing signal according to the other part of the ambient light. | 05-21-2009 |
20090128541 | SHIFT REGISTER - A shift register comprises many stages, and each of stages comprises a first, a second and a third level control unit and a first and a second control unit is provided. The first and the second level control unit respectively provides a first clock signal and a voltage to an output terminal. The first driving unit and the level control unit are coupled to a first node. The first driving unit turns on and turns off the first level control unit in response to an input signal, a second control signal and a first control signal of the next stage. The second driving unit turns on and turns off the second level control unit in response to the first control signal. The third level control unit provides a first voltage to the output terminal in response to the second control signal and the first control signal. | 05-21-2009 |
20090135324 | LIQUID CRYSTAL DISPLAY PANEL AND DRIVING MEHTOD THEREOF AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME - A liquid crystal display panel including a data line, a first, a second and a third scan line, a first, a second and a third switch, and a first, a second and a third pixel electrode is provided. These scan lines are sequentially disposed next to each other. Each switch has a control end, an input end and an output end. These control ends are respectively coupled to these scan lines. These input ends are coupled to the data line. These output ends are respectively coupled to the pixel electrodes. A first extending electrode of the first pixel electrode is near the second pixel electrode, a second extending electrode of the second pixel electrode is near the third pixel electrode, and a third extending electrode of the third pixel electrode is near the first extending electrode. | 05-28-2009 |
20090152564 | THIN FILM TRANSISTOR ARRAY SUBSTRATE - A thin film transistor array substrate includes an insulating substrate, a plurality of scan lines, an insulating layer, a plurality of data lines, and a plurality of pixels arranged in an array of rows and columns. The pixels in each row are aligned in a row direction, the pixels in each column are aligned in a column direction, and the pixels are separated from each other by the scan lines and the data lines. Each pixel includes a thin film transistor and a pixel electrode. The pixel electrode has at least one opening that extends from the periphery to the inside of the pixel electrode and at least one extension part that extends in the row direction into an opening of a neighboring pixel electrode in the same row. Each of the scan lines alternately controls one of the pixel electrodes in a first row and one of the pixel electrodes in a second row immediately adjacent to the first row. | 06-18-2009 |
20090174830 | LIQUID CRYSTAL DISPLAY AND PIXEL UNIT THEREOF - A pixel unit includes a first control circuit and a second control circuit and is divided into a first region and a second region. The first control circuit determines the output voltage of the first region and includes a first switching device, a first liquid crystal capacitor and a first storage capacitor coupled to the first switching device. The second control circuit determines the output voltage of the second region and includes a second switching device, a second liquid crystal capacitor and an auxiliary capacitor coupled to the second switching device, and a third switching device. The third switching device is coupled to the second switching device through the auxiliary capacitor, and the output voltage of the first region is different to that of the second region. | 07-09-2009 |
20090231249 | ELECTRONIC DEVICE AND HOLDING DEVICE WITH VOLTAGE-REGULATION COLOR-CHANGING ELEMENT - An electronic device with at least one voltage-regulation color-changing element has a display section and a housing substantially surrounding the display section. The voltage-regulation color-changing element, which is provided on at least one of the display section and the housing and supplied with a voltage by a voltage source of the electronic device, is allowed to tune between different wavelength bands of reflected light to vary the color of at least part of the electronic device so as to provide specific visual effects. | 09-17-2009 |
20090268114 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel including an active device array substrate, an opposite substrate, and a liquid crystal layer is provided. The active device array substrate has at least one pixel unit including two active devices, two first pixel electrodes, and two common lines. Each of the active devices has a gate, a source, and a drain. The gates are connected with one another, the sources are connected with one another, and the pixel electrodes are connected with the drains. A first signal source connected with one of the common lines is different from a second signal source connected with the other one of the common lines. The opposite substrate has a common electrode connected with the first signal source. The liquid crystal layer is disposed between the active device array substrate and the opposite substrate. | 10-29-2009 |
20090323002 | LIQUID CRYSTAL DISPLAY PANEL AND LCD DEVICE USING THE SAME - A liquid crystal display (LCD) panel and an LCD device using the same are provided. The LCD panel includes a first and a second substrate, wherein a liquid crystal layer is sealed between the first and the second substrates. The first substrate has a plurality of pixel unit each including a data line, a scan line, a switch element, a first pixel electrode, a second pixel electrode, a first aligning electrode and a second aligning electrode. The scan line corresponds to a gap between the first pixel electrode and the second pixel electrode. The switch element has an input terminal, a control terminal, a first output terminal and a second output terminal. The first aligning electrode and the second aligning electrode correspond to the edges of the first pixel electrode and the second pixel electrode respectively, and receive a voltage of a common electrode. | 12-31-2009 |
20100007598 | SHIFT REGISTER - A shift register includes multiple stages each generating a scan signal at an output terminal and including a level pull-up circuit, a level pull-down circuit, a driving circuit and a level controlling circuit. The level pull-up circuit makes the scan signal equal a first clock signal in response to an enabled level of a first control signal. The level pull-down circuit makes the scan signal equal a first voltage in response to an enabled level of a second control signal. The driving circuit controls the first control signal to be the enabled level and a disabled level in response to an enabled level of an input signal and the enabled level of the second control signal, respectively. The level controlling circuit controls the second control signal to be the disabled level and the enabled level in response to the enabled level and the disabled level of the input signal, respectively. | 01-14-2010 |
20100033798 | ELECTROWETTING DISPLAY DEVICE - An electrowetting display device includes a first and a second transparent substrates, multiple partition walls, a polar liquid, a non-polar liquid, and a phosphor layer. The non-polar liquid is opaque and immiscible with the polar liquid. The phosphor layer is formed on at least one of the first and the second transparent substrates. The phosphor layer comprises a first part that transforms the short-wavelength light into red light, a second part that transforms the short-wavelength light into green light, and a third part that transforms the short-wavelength light into blue light or allows the short-wavelength light to pass therethrough without transformation. Each of the first, the second, and the third parts is corresponding to one pixel unit. | 02-11-2010 |
20100039592 | LIQUID CRYSTAL DISPLAY - A liquid crystal display includes a color filter substrate, an array substrate, a liquid crystal layer, and at least one conductive element. The color filter substrate has at least one color filter, at least one first electrode, and at least one second electrode opposite the first electrode. The second electrode is comb-shaped and disposed between the first electrode and the liquid crystal layer, and one of the first and the second electrodes is electrically connected to a common voltage of the liquid crystal display. At least one conductive element electrically connects the source/drain region of a thin film transistor with the other one of the first and the second electrodes which is not connected to the common voltage. | 02-18-2010 |
20100053106 | SENSING CIRCUIT FOR TOUCH PANEL - A sensing circuit for a touch panel is disclosed. The sensing circuit includes a switching device, a passive device and a sensing device. The switching device receives an input signal and outputs the input signal according to a control signal. The passive device couples to the switching device. The sensing device couples to the switching device to form a node, receives the input signal to generate a reference voltage on the node, and changes the value of the reference voltage to generate a target voltage according to a touching pressure on a preset position on the touch panel from a user. | 03-04-2010 |
20100060837 | COLOR WASHOUT REDUCING LIQUID CRYSTAL DISPLAY PANEL AND LCD DEVICE USING THE SAME - A color washout reducing LCD panel including a first substrate, a second substrate and a liquid crystal layer sealed between the first and second substrates is provided. The first substrate includes several thin film transistors (TFTs) arranged in an array and several pixel electrodes each electrically connected to one TFT. Each pixel electrode has a first and a second electrode blocks. The first electrode block has several first slits, wherein a first interval of the first electrode block is perpendicular to the first slits, and a first width of the first electrode block is between any two neighboring first slits. The second electrode block has several second slits, wherein a second interval of the second electrode block is perpendicular to the second slit and not equal to the first interval, and a second width of the second electrode block is between any two neighboring second slits. | 03-11-2010 |
20100066954 | COLOR FILTER SUBSTRATE AND LIQUID CRYSTAL DISPLAY - A liquid crystal display is provided which includes a color-filter substrate, an active matrix substrate, and a liquid crystal layer interposed between them. The active matrix substrate includes a first transparent substrate and includes a plurality of switching elements and a plurality of pixel electrodes formed on the first transparent substrate. Each switching element is electrically connected one of the pixel electrodes. The color-filter substrate defines a plurality of pixel areas. Each pixel area is suitable for corresponding to one of the pixel electrodes, includes a second transparent substrate, a first and second transparent conducting layers and a dielectric layer. The first transparent conducting layer is interposed between the second transparent substrate and the second transparent conducting layer, and the dielectric layer is interposed between the first and second transparent conducting layers. The second transparent conducting layer in each pixel area defines a hole. | 03-18-2010 |
20100097296 | Organic Light Emitting Diode Display Device and Manufacturing Method Thereof - An organic light emitting diode (OLED) display device including an active array substrate, a display substrate and several conductive members is provided. The active array substrate includes a first substrate and several thin film transistors. The thin film transistors are disposed on the first substrate so as to form an array. The display substrate includes a second substrate, a color filter layer, a first electrode layer, an organic material layer and a second electrode layer disposed sequentially. The second substrate is disposed in parallel to the first substrate. The organic material layer is used for emitting white light and includes several lighting structures electrically insulated from each other. The second electrode layer includes several electrode structures electrically insulated from each other. Each of the conductive members electrically connects to a drain of one corresponding thin film transistor and one corresponding electrode structure. | 04-22-2010 |
20100097303 | Organic Light Emitting Diode Display Device and Manufacturing Method Thereof - An organic light emitting diode (OLED) display device including an active array structure, a display structure and several conductive members is provided. The active array structure includes a first substrate and several thin film transistors. The thin film transistors disposed on the first substrate has several drains. The display structure includes a second substrate, a color changing medium, a first electrode layer, an organic material layer and a second electrode layer disposed sequentially. The location of the second substrate corresponds to that of the first substrate. The color changing medium has several color blocks. The organic material layer is used for emitting blue light and includes several lighting structures electrically insulated from each other. The second electrode layer includes several electrode structures electrically insulated from each other. Each of the conductive members is combined and electrically connected to the drain of each thin film transistor and each electrode structure. | 04-22-2010 |
20100141599 | TOUCH PANEL AND CIRCUIT THEREOF - A sensing circuit for touch panel is disclosed. The sensing circuit includes a switching device, a passive device, a sensing device and a transforming unit. The switching device receives a first control signal and outputs the first control signal according to a second control signal. The passive device couples to the switching device. The sensing device couples to the switching device to form a node, receives the first control signal to generate a reference voltage on the node, and changes the value of the reference voltage to generate a target voltage according to a pressure exerting on a preset position of the surface of the touch panel by a user. The transforming unit receives the target voltage and generates an output current according to the target voltage. | 06-10-2010 |
20100142133 | ELECTRONIC DEVICE WITH TOUCH PANEL - An electronic device with touch panel has a main body, a touch panel, a case and a joint unit wherein the touch panel is pivoted on the main body and the joint unit is connected between the main body and the case. The main body has a display with an active area, and the case has a plurality of patterns. Consequently, the touch panel is capable of being positioned on the active area or the patterns of the case for the user to operate on the active area directly or patterns in the form of a keyboard. | 06-10-2010 |
20100150301 | Shift Register and Level Controller - A shift register includes several stages of shift register units. Each shift register unit includes a first level lifting unit, first level lowering unit, first driving unit and level controller. The first level lifting unit and first level lowering unit control the scan signal to be equal to a first timing signal and first voltage, respectively. The level controller includes an input unit, a charge storage unit, a second level lifting unit and a second level lowering unit. The input unit controls the third control signal to be equal to the first voltage at a node. The charge storage unit stores a voltage of the timing signal at the node. The second level lifting unit and second level lowering unit respectively control the second control signal to be equal to the third control signal and the first voltage to turn on and turn off the first level lowering unit. | 06-17-2010 |
20100164851 | LIQUID CRYSTAL DISPLAY AND PIXEL UNIT THEREOF - One embodiment of the invention is to provide a pixel unit coupled to a data line, a first scan line, and a second scan line. The pixel unit comprises a first sub-pixel unit and a second sub-pixel unit. The first sub-pixel unit comprises a first switching device coupled to the data line, a first storage capacitor and a first liquid crystal capacitor coupled to the first switching device. The second sub-pixel unit comprises a second switching device coupled to the first switching device, a coupling capacitor, and a second storage capacitor and a second liquid crystal capacitor coupled to the second switching device. The coupling capacitor is coupled between the first and second input/output terminals of the second switching device. The control terminal of the first switching device is coupled to the first scan line. The control terminal of the second switching device is coupled to the second scan line. | 07-01-2010 |
20100182278 | RESISTIVE TOUCH CONTROL DEVICE AND DRIVING METHOD AND DRIVING CONTROLLER THEREOF - A resistive touch control device and driving methods and a driving controller thereof are provided to switch operation modes of a touch panel. Depending on the user's requirement, the touch panel can be operated in multi-touch mode or only in an analog mode with high resolution. In other words, the touch control device can be operated in a digital mode, the analog mode, or a hybrid mode including both of the digital and the analog modes. | 07-22-2010 |
20100214513 | HIGH CONTRAST DISPLAY - A high contrast display having a first substrate, a transistor array substrate and a light shielding layer is provided, wherein the first substrate includes a common electrode. The transistor array substrate includes a plurality of pixels arranged in array, wherein each pixel includes a transistor and a pixel electrode electrically connected thereto. The light shielding layer is disposed between the first substrate and the transistor array substrate. The high contrast display is able to protect the transistors from producing current leakage, so as to improve display quality. | 08-26-2010 |
20100225629 | PHOTO SENSING MODULE HAVING PROTECTION FUNCTION AND DISPLAY DEVICE - A photo sensing module is provided on a first substrate and includes a photo sensing device and a protection wiring. A gap exists between the photo sensing module and an external circuit, and the photo sensing device is provided on the first substrate. The protection wiring is electrically-conductive and located between the external circuit and at least a portion of the photo sensing device. | 09-09-2010 |
20100225853 | REFLECTIVE COLOR-CHANGING LIQUID CRYSTAL DISPLAY - A reflective color-changing liquid crystal display including a first substrate, a second substrate parallel thereto, a first color-changing liquid crystal mixture layer between the two substrates, a first electrode layer and a second electrode layer disposed is provided. The color-changing liquid crystal mixture layer includes a plurality of liquid crystal molecules, a chiral dopant and a polymer mixture. The liquid crystal molecules and the chiral dopant are scattered in a solidified structure of the polymer mixture. The first electrode layer is disposed between the first substrate and the first color-changing liquid crystal mixture layer. The second electrode is disposed between the second substrate and the first color-changing liquid crystal mixture layer. The first color-changing liquid crystal mixture layer is suitable for reflecting a first reflective light with a wavelength changing with a first electric field produced between the first electrode layer and the second electrode layer. | 09-09-2010 |
20100245285 | CAPACITIVE TOUCH PANEL - A capacitive touch panel includes a transparent substrate, a plurality of first sensing electrode sets and second sensing electrode sets provided on the transparent substrate. Each first sensing electrode set includes a plurality of first sensing electrodes electrically coupled in series through a plurality of first wires. Each second sensing electrode set includes a plurality of second sensing electrodes. A color compensation layer having a mesh-like pattern is provided between the first sensing electrodes and the second sensing electrodes. The second wires cover part of the surface of the color compensation layer to couple the second sensing electrodes in series. | 09-30-2010 |
20100245300 | Shift Register - A shift register including a plurality of multi-stage shift register circuits is provided. The m | 09-30-2010 |
20100265445 | FLAT DISPLAY PANEL - A flat display panel includes an array substrate and a color filter substrate facing each other. Multiple first electrodes and second electrodes are formed on the array substrate. The first electrodes receive scan signals transmitted from a driving circuit, and each of the second electrodes is connected to a corresponding scan line. Multiple signal lines are formed on the color filter substrate and in an active display area. Besides, multiple third electrodes and forth electrodes are formed on the color filter substrate. Each of the third electrodes is electrically connected to a corresponding forth electrode by a corresponding signal line, each of the third electrodes is electrically connected to a corresponding first electrode, and each of the forth electrodes is electrically connected to a corresponding second electrode. | 10-21-2010 |
20100277453 | METHOD OF DRIVING ELECTRONIC PAPER - A method of driving an electronic paper solving an image sticking problem is provided. First, a frame writing process is executed, wherein a turn-on voltage is supplied to scan lines to enable transistors, and a frame data voltage is supplied to display units through data lines to write a frame. Then, a frame holding process is executed, wherein a turn-off voltage and an auxiliary data voltage are respectively supplied to the scan lines and the data lines to disable the transistors, and a first common voltage is provided by a common electrode layer. During the frame holding process, the first common voltage and the frame data voltage are applied to hold the frame, the turn-off voltage, the auxiliary data voltage, and the first common voltage are fixed voltages, and the auxiliary data voltage is substantially equal to the first common voltage and greater than the turn-off voltage. | 11-04-2010 |
20100283721 | Photoelectric Display Panel and Electronic Device Using the Same - A photoelectric display panel including a first substrate and a second substrate is provided. The first substrate being parallel to the second substrate has a pixel array including a plurality of display pixels. The second substrate includes a base plate and a black matrix located between the base plate and the first substrate. The black matrix has a first photoelectric transform block and a second photoelectric transform block. The first photoelectric transform block has a first transparent electrode, a first semiconductor layer and a first metal electrode that are laminated on the base plate. The second photoelectric transform block has a second transparent electrode, a second semiconductor layer and a second metal electrode that are laminated on the base plate. The second transparent electrode is electrically connected with the first metal electrode, so that the second photoelectric transform block and the first photoelectric transform block are connected in series. | 11-11-2010 |
20100302195 | TOUCH-SENSING DISPLAY DEVICE - A touch-sensing display device includes a display, a lens, and a touch-sensing element. The lens is positioned above the display, where a surface of the lens is divided into a periphery region and a central region, the central region is planar, and the periphery region is non-planar. The touch-sensing element is disposed between the lens and the display. | 12-02-2010 |
20100321214 | TOUCH SENSING METHOD FOR RESISTIVE TYPE TOUCH APPARATUS - A touch sensing method for a resistive type touch apparatus includes a touch panel and a driving circuit. In the touch sensing method, a single-touch mode or a multi-touch mode can be selected. In addition, the touch sensing method includes an analog driving method and a digital driving method to equip the resistive type touch apparatus with at least two sorts of resolutions. | 12-23-2010 |
20110013126 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY - A transflective liquid crystal display is provided which includes a color-filter substrate, an active matrix substrate, and a liquid crystal layer interposed between them. The active matrix substrate includes a first transparent substrate and includes a plurality of switching devices, a plurality of transparent pixel electrodes and a plurality of reflective pixel electrodes formed on the first transparent substrate. The color-filter substrate includes a second transparent substrate, a first and second transparent conducting layers and a dielectric layer. The first transparent conducting layer is interposed between the second transparent substrate and the second transparent conducting layer, and the dielectric layer is interposed between the first and second transparent conducting layers. The second transparent conducting layer in each pixel area has at least one opening. The openings positionally correspond to the reflective pixel electrodes. | 01-20-2011 |
20110026665 | Bidirectional Shift Register - A bi-directional shift register includes N stages, wherein the m | 02-03-2011 |
20110057897 | TOUCH PANEL AND TOUCH SENSING DISPLAY - A touch panel includes a cover glass, a first base plate and a second electrode layer. A first electrode layer is formed on a surface of the cover glass, and the first base plate is disposed on one side of the first electrode layer opposite the cover glass. The second electrode layer is formed on a surface of the first base plate opposite the first electrode layer. | 03-10-2011 |
20110080373 | Touch Panel and Display Device Using the Same - A touch panel includes a first substrate, a sensing electrode structure, a second substrate, a soft spacer layer and a shielding layer. The first substrate and the second substrate are parallel to each other, and the soft spacer layer is interposed between the first substrate and the second substrate for maintaining a gap between the first substrate and the second substrate. The sensing electrode structure is disposed on the first substrate for producing a first capacitance between the sensing electrode structure and an exterior object. The shielding layer is disposed on the second substrate, electrically connected to a ground side, and used for producing a second capacitance between the shielding layer and the sensing electrode structure when the exterior object is pressed and causes the gap to vary. The quantity of variation in the first and second capacitances is used for detecting a touch-control action of the exterior object. | 04-07-2011 |
20110102698 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel including an active device matrix substrate, an opposite substrate, and a liquid crystal layer is provided. The active device matrix substrate includes a first substrate, an active, device array, a padding device, first connecting electrodes, and shielding electrodes. The padding device is disposed on active devices and data lines of the active device array. The first connecting electrodes are located above the active devices and electrically connected to the active devices. The shielding electrodes are located above the data lines and electrically connected to a common voltage. The opposite substrate includes a second substrate, first electrodes, an insulating layer, second electrodes having slits and opposite to the first electrodes, spacers corresponding to the active devices, and second connecting electrodes covering the spacers to directly contact with the first connecting electrodes and electrically connected to the first electrodes or the second electrodes. | 05-05-2011 |
20110132458 | SOLAR LIGHT-CONTROL MODULE - A solar light-control module includes a light-propagation chamber, a plurality of micro structures, a refractive media, and at least one solar cell. The light-propagation chamber has a first face, a second face and at least one side surface. Ambient light is incident to the first face to enter the solar light-control module. The micro structures are disposed on the second face to deflect the ambient light and guide the ambient light to a predetermined area of the light-propagation chamber. The refractive media is disposed between the second face of the light-propagation chamber and the micro structures, and the solar cell is disposed on the predetermined area. | 06-09-2011 |
20110157528 | DISPLAY PANEL - A display panel includes a first substrate, a conductive light-shielding pattern, color filter patterns, a second substrate, scan lines, data lines, pixel structures, third pads and fourth pads. The conductive light-shielding pattern disposed on the first substrate defines conductive matrix pattern, first pads, and second pads. Each first pad is electrically connected to one corresponding second pad through the conductive matrix pattern and insulated with other second pads. The color filter patterns are disposed on the first substrate and a portion of each color filter pattern overlaps the conductive light-shielding pattern. The third pads are one-to-one electrically to the first pads while the fourth pads are one-to-one electrically connected to the second pads. Each fourth pad is electrically connected to one of the scan lines and one of the data lines. | 06-30-2011 |
20110169759 | TOUCH-SENSING DISPLAY DEVICE - A touch-sensing display device includes a display panel, a touch panel, a driver unit, and a flexible printed circuit board. The touch panel is disposed on the display panel, and the driver unit is disposed on the display panel to provide driving signals and drive the display panel and the touch panel. The flexible printed circuit board connects the display panel to a system main board. | 07-14-2011 |
20110169783 | Touch Display Device - A touch display device including a display, a touch panel and a transparent shielding layer is provided. The touch panel is disposed on the display, and includes a substrate and touch sensors positioned thereon. The transparent shielding layer is set between the display and the touch sensors of the touch panel, and includes an edge region and a central region wherein the impedance of the edge region is less than or equal to that of the central region. | 07-14-2011 |
20110199324 | TOUCH PANEL, TOUCH DISPLAY PANEL, AND TOUCH SENSING METHOD - A touch panel including first electrode bands, second electrode bands, and a transparent dielectric material is provided. The first electrode bands are disposed on a first substrate and extended in a first direction, wherein each of the first electrodes has a plurality of first silts in the form of enclosed configuration. The second electrode bands are disposed on a second substrate, facing to the first electrode bands, and extended in a second direction interlacing the first direction. Each second electrode band is partially exposed by the first silts. The transparent dielectric material is disposed between the first electrode bands and the second electrode bands to provide a changeable gap. | 08-18-2011 |
20110248952 | TOUCH DISPLAY APPARTUS - A touch display apparatus including a display module, a circuit board, and an insulation elastic element is provided. The display module has a display surface, and the display module includes a metal frame, wherein at least of a portion of the metal frame is opposite to the display surface. The circuit board is disposed at a side of the display module away from the display surface. The circuit board has a plurality of capacitance sensing element disposed corresponding to a plurality of corners of the display module. The insulation elastic element is disposed between the circuit board and the display module. The capacitance sensing elements are separated from the metal frame at a changeable distance and a sensed capacitance formed between the capacitance sensing elements and the metal frame is changed with the changeable distance. | 10-13-2011 |
20110266565 | DISPLAY PANEL - A display panel having a display area and a non-display area outside the display area is provided. The display panel includes a first substrate, a conductive light-shielding pattern, color filter patterns, first spacers, transparent pads, a second substrate, scan lines, data lines, pixel structures, third pads and fourth pads. The conductive light-shielding pattern defines a conductive matrix pattern, a plurality of first pads and second pads. Each first pad is electrically connected with one of the corresponding second pads through the conductive matrix pattern. The color filter patterns include a plurality of first filter patterns and second filter patterns. The second filter patterns are located within the non-display area and disposed on the second pads. The first spacers are disposed on the second filter patterns, and the transparent pads cover the first spacers and contact the second pads. | 11-03-2011 |
20110291987 | TOUCH-SENSITIVE DEVICE - A touch-sensitive device includes a transparent substrate, a touch-sensing structure, a decorative layer, a metal trace layer, a first insulation layer and a second insulation layer. The touch-sensing structure is disposed on the transparent substrate and located in a touch-sensitive region of the touch-sensitive device. The decorative layer is disposed on a non-touch-sensitive region of the touch-sensitive device, and the metal trace layer is disposed on the non-touch-sensitive region. The first insulation layer is disposed on the transparent substrate and covers the touch-sensing structure and the metal trace layer. The second insulation layer is disposed on the transparent substrate and distributed only in the non-touch-sensitive region to provide a distribution area substantially overlapping the metal trace layer. | 12-01-2011 |
20110298750 | TOUCH-SENSITIVE DEVICE AND FABRICATION METHOD THEREOF AND TOUCH-SENSITIVE DISPLAY DEVICE - A touch-sensitive device includes a transparent substrate, a touch-sensing structure, a metal trace layer, a transparent conductive layer and a first insulation layer. The touch-sensing structure is disposed on the transparent substrate and located in a touch-sensitive region of the touch-sensitive device. The metal trace layer is disposed on a non-touch-sensitive region of the touch-sensitive device. The transparent conductive layer is connected to the metal trace layer. The first insulation layer covers at least the touch-sensing structure, the metal trace layer and the transparent conductive layer. At least one opening is formed on the first insulation layer to expose a part of the transparent conductive layer. | 12-08-2011 |
20110304572 | TOUCH-SENSITIVE DISPLAY DEVICE - A touch-sensitive display device has an active display area and a non-active area and includes a touch-sensitive unit, a display unit and a liquid optical adhesive. The touch-sensitive unit has a touch-sensitive region substantially overlapping the active display area, and the display unit is disposed on one side of the touch-sensitive unit. The liquid optical adhesive is disposed between the touch-sensitive unit and the display unit to combine the touch-sensitive unit with the display unit, and an outer edge of the liquid optical adhesive is located in the non-active area of the touch-sensitive display device. | 12-15-2011 |
20120032175 | DISPLAY STRUCTURE - A display structure includes a first transparent substrate, a second transparent substrate opposite the first transparent substrate, a display medium interposed between the first transparent substrate and the second transparent substrate, at least one first thin film transistor formed on the first transparent substrate, a first insulation layer formed on the first transparent substrate, a first electrode layer formed on the first insulation layer, an organic light-emitting layer formed on the first electrode layer and in a region not overlapping the first thin film transistor, a cathode layer formed on the organic light-emitting layer, and a second electrode layer formed on the second transparent substrate. | 02-09-2012 |
20120086655 | TOUCH DISPLAY PANEL - A touch display panel including a first substrate, a second substrate, a touch sensing structure, a decoration film, an organic light emitting diode pixel array, and a sealant is provided. The touch sensing structure is disposed on the first substrate. The second substrate is opposite to a surface of the first substrate disposed with the touch sensing structure. The decoration film is disposed on the first substrate. The organic light emitting diode pixel array is located between the touch sensing structure and the second substrate. The sealant is disposed between the first substrate and the second substrate and seals the organic light emitting diode pixel array between the first substrate and the second substrate. | 04-12-2012 |
20120112652 | DRIVER CIRCUIT FOR LIGHT-EMITTING DEVICE - A driver circuit for a light-emitting device includes a light-emitting device, a data receiving unit, a storage unit, a driver unit and a voltage divider. The data receiving unit receives a data signal, the storage unit stores a capacitor voltage, and a positive correlation exists between the capacitor voltage and the data signal. The driver unit is coupled to the light-emitting device, and the driver unit is turned on to drive the light-emitting device according to the capacitor voltage and to generate a threshold voltage of the driver unit. The voltage divider is coupled between the data receiving circuit and the light-emitting device and turned on by the capacitor voltage to generate a divided voltage. The voltage divider detects a voltage variation in the threshold voltage and in a voltage across the light-emitting device and adjusts the divided voltage according to the voltage variation. | 05-10-2012 |
20120113050 | TOUCH DISPLAY PANEL - A touch display panel is disclosed, which includes a first substrate, a second substrate, a touch sensing structure disposed on the first substrate, an organic light emitting diode (OLED) pixel array, and a sealant sealing the OLED pixel array between the first substrate and the second substrate. The OLED pixel array includes a plurality of OLED pixel units and an isolation structure isolating the adjacent OLED pixel units from each other. Each of the OLED pixel units includes a first electrode, an organic light emitting layer, a second electrode, an active device, and a conductive component electrically connecting the active device to the first electrode. The first electrodes, the organic light emitting layers, and the second electrodes are sequentially disposed on the first substrate, and the active devices are disposed on the second substrate. | 05-10-2012 |
20120169576 | DISPLAY PANEL - A display panel including a first substrate, a second substrate, a liquid crystal layer, a pixel structure array, a common electrode layer, and spacers is provided. The liquid crystal layer is disposed between the first substrate and the second substrate opposite thereto. The pixel structure array disposed on the first substrate is located between the liquid crystal layer and the first substrate and includes scan lines, data lines, active devices, and pixel electrodes. Each active device is connected to one scan line and one data line intersected therewith. Each pixel electrode crosses over one data line and one active device and is electrically connected to the corresponding one active device. The common electrode layer is disposed on the second substrate. The spacers disposed between the first substrate and the second substrate are located above the scan lines. The spacers are respectively located at centers of the pixel electrodes. | 07-05-2012 |
20120182261 | TOUCH-SENSITIVE DEVICE AND TOUCH-SENSITIVE DISPLAY DEVICE - A touch-sensitive device includes a first and a second substrate and a first and a second touch-sensing electrode structure. The first touch-sensing electrode structure is disposed on the first substrate, and at least one touch position of a conductor is detected by sensing the capacitance variation of the first touch-sensing electrode structure. The second touch-sensing electrode structure is disposed on one side of the second substrate back to the first touch-sensing electrode structure. At least one touch position of an insulator is detected by sensing a variation of the interval between the first touch-sensing electrode structure and the second touch-sensing electrode structure. | 07-19-2012 |
20120206434 | Shift Register - A shift register comprises many stages, and each of stages comprises a first, a second and a third level control unit and a first and a second control unit is provided. The first and the second level control unit respectively provides a first clock signal and a voltage to an output terminal. The first driving unit and the level control unit are coupled to a first node. The first driving unit turns on and turns off the first level control unit in response to an input signal, a second control signal and a first control signal of the next stage. The second driving unit turns on and turns off the second level control unit in response to the first control signal. The third level control unit provides a first voltage to the output terminal in response to the second control signal and the first control signal. | 08-16-2012 |
20120229369 | LIQUID CRYSTAL DISPLAY AND PIXEL UNIT THEREOF - The invention is to provide a pixel unit coupled to a data line, a first scan line, and a second scan line. The pixel unit comprises a first sub-pixel unit and a second sub-pixel unit. The first sub-pixel unit comprises a first switching device coupled to the data line, a first storage capacitor and a first liquid crystal capacitor coupled to the first switching device. The second sub-pixel unit comprises a second switching device coupled to the first switching device, a coupling capacitor, and a second storage capacitor and a second liquid crystal capacitor coupled to the second switching device. The coupling capacitor is coupled between the first and second input/output terminals of the second switching device. The control terminal of the first switching device is coupled to the first scan line. The control terminal of the second switching device is coupled to the second scan line. | 09-13-2012 |
20120249465 | TOUCH PANEL AND TOUCH-SENSITIVE DISPLAY DEVICE - A touch panel structure and the manufacturing method thereof are disclosed, in which the manufacturing method includes the steps of: providing a bonding layer; and forming a conductive pattern layer on the bonding layer; wherein the conductive pattern layer is composed of at least one first and at least one second major conductors with an insulation layer interposed between the first and the second major conductors. Comparing with the prior art for manufacturing touch panels, the disclosure is advantageous in material cost, production cost, and production yield; moreover, the panel lamination process can be simplified and the touch panel structure can be joined to a planar or curvy panel and facilitate the design of a thinner product. | 10-04-2012 |
20120268402 | TOUCH DISPLAY PANEL - A touch display panel includes an electroluminescent display panel, a touch panel, and a patterned decoration layer. The electroluminescent display panel includes a plurality of display devices disposed in a display region, and at least one hot key display unit disposed in at least one hot key region. The touch panel is disposed oppositely to the electroluminescent display panel, and the touch panel includes a touch plate, a plurality of display region touch devices disposed on an inner surface of the touch plate facing the electroluminescent display panel and corresponding to the display region, and at least one hot key region touch device disposed on the inner surface of the touch plate and corresponding to the hot key region. The patterned decoration layer is disposed on the touch plate, and the patterned decoration layer has at least one transparent region corresponding to the hot key region. | 10-25-2012 |
20120274622 | ORGANIC LIGHT EMITTING DIODE PIXEL CIRCUIT - An organic light emitting diode (OLED) pixel circuit includes a driving node, a pixel driving unit, an electroluminescent device, and a compensation unit. The pixel driving unit is coupled to a data line receiving a data voltage and provides a driving voltage to the driving node. The display electroluminescent device is coupled to the driving node for illuminating in response to the driving voltage, wherein the level of the driving voltage is related to an aging factor voltage, corresponding to a usage time of the display electroluminescent device. The compensation unit, including a compensation electroluminescent device, is couple to the driving node and drives the compensation electroluminescent device to illuminate in response to the driving voltage, so as to compensate the aging decay of the display electroluminescent device with the electroluminescent compensation unit. | 11-01-2012 |
20120293531 | IMAGE PROCESSING METHOD AND PIXEL ARRAY OF FLAT DISPLAY PANEL - An image processing method of a flat display panel includes the following steps. A pixel array including a plurality of display units is provided, and each display unit includes two sub-pixels. An image-signal-to-be-processed is provided. The image-signal-to-be-processed includes a plurality of pixel data, and each of the pixel data includes three primary color data of three different primary colors. A display signal generating process is performed to write two primary color data selected from at least one pixel data of the image-signal-to-be-processed to two sub-pixels of the display unit of the pixel array. | 11-22-2012 |
20120306843 | PIXEL CIRCUIT - A pixel circuit comprises a driving transistor, an electroluminescent unit, a pre-write unit, and a write unit. The electroluminescent unit is controlled by the driving transistor to illuminate in a drive period. The write unit is enabled in a write period recording a data voltage relating to an initial threshold voltage of the electroluminescent unit in first storage element. The pre-write unit is enabled in a pre-write period recording a threshold voltage of the driving transistor and the electroluminescent unit in second storage element. The threshold voltage and the data voltage, stored in the first and the second storage units, are supplied as a gate-source voltage of the driving transistor, so as to provide a compensated drive voltage, capable of compensating the variation of the threshold voltages of the driving transistor and the electroluminescent unit, driving the electroluminescent unit. | 12-06-2012 |
20120327349 | INTEGRATED PANEL OF TOUCH PANEL AND PHASE MODULATOR AND SWITCHABLE STEREOSCOPIC DISPLAY DEVICE USING THE SAME - The present invention provides an integrated panel of a touch panel and a phase modulator including a first transparent substrate, a second transparent substrate, a liquid crystal layer, a first transparent electrode layer, a second transparent electrode layer, a third transparent substrate, and a third transparent electrode layer. The first transparent substrate, the second transparent substrate, the liquid crystal layer, the first transparent electrode layer and the second transparent electrode layer constitute the phase modulator, and the second transparent electrode layer, the second transparent substrate, the third transparent substrate and the third transparent electrode layer constitute the touch panel. | 12-27-2012 |
20130009894 | TOUCH-SENSITIVE DISPLAY PANEL - A touch-sensitive display panel including a first panel, a second panel and a spacer layer is provided. The first panel has a touch-sensitive area. The second panel, parallel to the first panel, has a display area correspondingly located below the touch-sensitive area. The spacer layer is disposed between the first panel and the second panel and includes a plurality of conductive spacers for electrically connecting the first panel and the second panel. | 01-10-2013 |
20130057495 | TOUCH DISPLAY PANEL - A touch display panel including an organic electro-luminescent display panel, a cover plate, a touch sensing element, and a decoration layer is provided. The organic electro-luminescent display panel includes a carrier plate, a packing cover, and a plurality of organic light emitting units. The carrier plate and the packing cover are assembled to construct a sealed space. The organic light emitting units are disposed on the carrier plate and located inside the sealed space. The cover plate is adhered on a side of the carrier plate away from the organic light emitting units. The touch sensing element is disposed between the carrier plate of the organic electro-luminescent display panel and the cover plate. The decoration layer is disposed on the cover plate. | 03-07-2013 |
20130063040 | LIGHT-EMITTING COMPONENT DRIVING CIRCUIT AND RELATED PIXEL CIRCUIT AND APPLICATIONS - A pixel circuit related to an organic light-emitting diode (OLED) is provided. When signals having appropriate operating waveforms are supplied, the circuit configuration (6T1C) of the pixel circuit keeps a current flowing through an OLED unchanged when the Vth shift of the TFT for driving the OLED changes and eases the impact of a power supply voltage Vdd on the current. Thereby, the luminance uniformity of an OLED display adopting the OLED pixel circuit is greatly improved. | 03-14-2013 |
20130069556 | LIGHT-EMITTING ELEMENY DRIVER CIRCUIT - A light-emitting element driver circuit is disclosed in embodiment of the invention. The light-emitting element driver circuit includes a driver unit for generating a driving current to the light-emitting element; a data storage unit for storing a threshold voltage of the driver unit and current data signal voltage; and a control unit being controlled to be conducted during a light emitting period so that the driver unit generates a driving current in response to the threshold voltage and current data signal voltage stored in the data storage unit. | 03-21-2013 |
20130069852 | LIGHT-EMITTING COMPONENT DRIVING CIRCUIT AND RELATED PIXEL CIRCUIT AND APPLICATIONS - A pixel circuit related to an organic light-emitting diode (OLED) is provided. When signals having appropriate operation waveforms are supplied, the circuit configuration (7T1C or 5T1C) of the pixel circuit keeps the current flowing through an OLED unaffected by the impact of IR drop on a power supply voltage Vdd (or mitigates the impact of the power supply voltage Vdd on the current) and prevents the current flowing through the OLED from changing with the Vth shift of a TFT for driving the OLED. Thereby, the luminance uniformity of an OLED display adopting the pixel circuit is greatly improved. | 03-21-2013 |
20130069913 | OPTICAL TOUCH MODULE - An optical touch module includes a transparent substrate and two light processing units. The transparent substrate includes a touch surface, a sub-surface parallel to the touch surface, and a surrounding side surface connected to the touch surface and the sub-surface. The two light processing units are positioned on two neighboring corners of the transparent substrate, and each of the two light processing units includes a light source and a detector. The light source and the detector respectively have a light emitting surface and a light entry surface, the light emitting surface of the light source and the light entry surface of the detector both face the surrounding side surface, and the two light processing units are positioned beneath the touch surface. | 03-21-2013 |
20130088165 | LIGHT-EMITTING COMPONENT DRIVING CIRCUIT AND RELATED PIXEL CIRCUIT AND APPLICATIONS USING THE SAME - An organic light-emitting diode (OLED) pixel circuit is provided, and if a circuit configuration (5T1C) thereof collocates with suitable operation waveforms, a current flowing through an OLED in the OLED pixel circuit may not be changed along with the power supply voltage (Vdd) which may be influenced by an IR drop, and may not be varied along with the threshold voltage (Vth) shift of a thin film transistor used for driving the OLED. Accordingly, the brightness uniformity of the applied OLED display can be substantially improved. | 04-11-2013 |
20130088474 | LIGHT-EMITTING COMPONENT DRIVING CIRCUIT AND RELATED PIXEL CIRCUIT AND APPLICATIONS USING THE SAME - A pixel circuit related to an organic light emitting diode (OLED) is provided, and if a circuit configuration (5T1C) thereof collocates with suitable operation waveforms, a current flowing through an OLED in the OLED pixel circuit is not varied along with a threshold voltage (Vth) shift of a TFT used for driving the OLED. Accordingly, the brightness uniformity of the applied OLED display is substantially improved. | 04-11-2013 |
20130114025 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel includes a first substrate, a second substrate, a polarizing film, a liquid crystal layer, and a plurality of sub-pixels. Each of the sub-pixels includes a first patterned electrode layer, a second patterned electrode layer, and a first insulating layer. The first insulating layer is disposed between the first patterned electrode layer and the second patterned electrode layer. The first patterned electrode layer includes a plurality of first stripe electrodes extending along a first direction, and the second patterned electrode layer includes a plurality of second stripe electrodes extending along a second direction. Each of the first stripe electrodes overlaps the second stripe electrodes in a direction perpendicular to the first substrate. | 05-09-2013 |
20130120342 | LIGHT-EMITTING COMPONENT DRIVING CIRCUIT AND RELATED PIXEL CIRCUIT AND APPLICATIONS USING THE SAME - An organic light emitting diode (OLED) pixel circuit is provided by the invention. If a circuit configuration (5T2C) thereof collocates with suitable operation waveforms, a current flowing through an OLED in the OLED pixel circuit may not be changed with a power supply voltage (Vdd) influenced by an IR drop, and may not be varied with a threshold voltage (Vth) shift of a thin-film-transistor (TFT) configured for driving the OLED. Accordingly, brightness uniformity of an OLED display applying the same can be substantially improved. | 05-16-2013 |
20130141380 | TOUCH-SENSITIVE DEVICE AND TOUCH-SENSITIVE DISPLAY DEVICE - A touch-sensitive device includes a substrate, a decorative layer, a touch-sensing structure, a media layer and an insulation layer. The decorative layer is disposed on the substrate, the touch-sensing structure is disposed on the substrate, and a part of the touch-sensing structure overlaps the decorative layer. The media layer is disposed at least between the part of the touch-sensing structure and the decorative layer, and the insulation layer is disposed on the substrate and covers the touch-sensing structure. | 06-06-2013 |
20130153391 | CAPACITIVE TOUCH PANEL - A capacitive touch panel includes a substrate, a plurality of first axis electrodes and a plurality of second axis electrodes disposed on the substrate. Each of the first axis electrodes includes a plurality of first sensing electrodes disposed along a first direction and a plurality of first connecting electrodes respectively disposed between two adjacent first sensing electrodes. Each of the second axis electrodes includes a plurality of second sensing electrodes disposed along a second direction and a plurality of second connecting electrodes respectively disposed between two adjacent second sensing electrodes. Each of the first sensing electrodes partially overlaps the second sensing electrodes along a third direction perpendicular to the substrate. | 06-20-2013 |
20130155059 | SWITCHABLE TOUCH STEREOSCOPIC IMAGE DEVICE - A switchable touch stereoscopic image device includes a stereoscopic image generating module and a touch sensing module. The stereoscopic image generating module includes a first substrate, a second substrate, a light-path converting layer, driving electrodes and a common electrode. The first and second substrates are disposed corresponding to each other. The first substrate has a top surface. The second substrate has a top surface and a bottom surface facing the top surface of the first substrate. The light-path converting layer is disposed between the first and second substrates. The driving electrodes are disposed on the top surface of the first substrate. The common electrode is disposed on the bottom surface of the second substrate. The touch sensing module is disposed on a side of the second substrate of the stereoscopic image generating module and includes sensing electrodes disposed on a side of the top surface of the second substrate. | 06-20-2013 |
20130194528 | DISPLAY STRUCTURE - A display structure includes a first transparent substrate, a second transparent substrate opposite the first transparent substrate, a liquid crystal layer interposed between the first transparent substrate and the second transparent substrate, at least one first thin film transistor formed on the first transparent substrate, a first insulation layer formed on the first transparent substrate, a first electrode layer formed on the first insulation layer, an organic light-emitting layer formed on the first electrode layer and in a region not overlapping the first thin film transistor, a cathode layer formed on the organic light-emitting layer, and a second electrode layer formed on the second transparent substrate. | 08-01-2013 |
20130201084 | NAKED EYE TYPE AND GLASSES TYPE SWITCHABLE STEREOSCOPIC DISPLAY DEVICE - A naked eye type and glasses type switchable stereoscopic display device includes a display panel and a switching module. The display panel is used to provide first display information and second display information. The switching module is disposed on a side of a display surface of the display panel. The switching module forms a plurality of lenses to change directions of the first display information and the second display information under a naked eye type stereoscopic display mode, and the switching module provides a first phase retardation mode and a second phase retardation mode under a glasses type stereoscopic display mode. The first phase retardation mode corresponds to the first display information and renders the first display information a first polarization state, and the second phase retardation mode corresponds to the second display information and renders the second display information a second polarization state. | 08-08-2013 |
20130221397 | LIGHT EMITTING ELEMENT STRUCTURE AND CIRCUIT OF THE SAME - A light emitting element structure and a circuit thereof are provided. The light emitting element circuit includes a driving unit and a light emitting element. The driving unit is used for generating a driving current at a light emission period. The light emitting element includes a current transferring unit and a light emitting unit. The current transferring unit is connected with the driving unit to transfer the driving current and generate a light emitting current at the light emission period. The light emitting unit is connected with the current transferring unit and emits light in response to the light emitting current. The light emitting unit is connected with the current transferring unit and emits light in response to the light emitting current. | 08-29-2013 |
20130234005 | IMAGE SENSOR AND OPTICAL INTERACTION DEVICE USING THE SAME THEREOF - An image sensor for detecting a first and a second image light in different directions is disclosed. The image sensing device comprises a polarization beam splitter, a liquid crystal switch, a polarizer, a lens module and an image sensing device. The polarization beam splitter receives and splits the first and the second image light respectively into a first penetrative light, a first reflective light, a second penetrative light and a second reflective light. The liquid crystal switch controls the phase delay of the first and the second reflective light. The polarizer is disposed on the light emitting side of the liquid switch to control the passage of the first or the second reflective light. The lens module focuses the first or the second reflective light at a focal point. The image sensing device is disposed at the focal point to sense the focused first or second reflective light. | 09-12-2013 |
20130242220 | THIN-FILM TRANSISTOR, METHOD OF MANUFACTURING THE SAME AND ACTIVE MATRIX DISPLAY PANEL USING THE SAME - The present invention provides a thin-film transistor disposed on a substrate. The thin-film transistor includes a gate, a first insulating layer, a metal-oxide semiconductor pattern, a source, a drain, and a second insulating layer. The gate is disposed on the substrate, and the first insulating layer covers the gate. The source and the drain are disposed on the first insulating layer. The metal-oxide semiconductor pattern is disposed on the substrate, and the second insulating layer covers the metal-oxide semiconductor pattern. | 09-19-2013 |
20130249376 | ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device including a first substrate, a second substrate parallel to the first substrate, and an organic light emitting unit disposed between the first substrate and the second substrate is provided. The first substrate has a plurality of first light guiding microstructures. A distribution density of the first light guiding microstructures is in a range of 100 to 2000 pcs/mm, wherein the first light guiding microstructures are located inside the first substrate and a material of the first substrate includes a photosensitive material. | 09-26-2013 |
20130257927 | DISPLAY HAVING LIGHTING DEVICES INTEGRATED WITH AN E-BOOK AND DRIVING METHOD THEREOF - A display having lighting devices integrated with an E-Book includes a display panel, and the display panel includes a plurality of pixels. Each pixel of the plurality of pixels includes a control unit, a lighting device driving unit, a first switch unit, a second switch unit, and an E-Book unit. The lighting device driving unit includes a lighting device. The control unit, the lighting device driving unit, the first switch unit, the second switch unit, and the E-Book unit are used for performing corresponding operations to let the lighting device or the E-Book unit properly display an image corresponding to an image signal when the display receives the image signal. | 10-03-2013 |
20130306946 | TOUCH DISPLAY PANEL - A touch display panel including a array substrate, an opposite substrate, an organic light emitting diode (OLED) structure, a plurality of conductive spacers and a sealant is provided. The OLED structure is disposed on the opposite substrate and located between the array substrate and the opposite substrate. The OLED structure includes a first electrode layer, an organic light emitting layer and a second electrode layer which are sequentially disposed. The first electrode layer is located on the opposite substrate and includes a plurality of touch sensing electrode. The second electrode layer is electrically connected to the array substrate via the conductive spacers. The sealant is sealed the OLED structure and the conductive spacers between the array substrate and the opposite substrate. | 11-21-2013 |
20130314372 | DISPLAY STRUCTURE WITH TOUCH CONTROL FUNCTION - An organic light emitting diode display structure with touch control function includes a plurality of organic light emitting diodes arranged in a matrix form, a plurality of first switches, a plurality of first sensing stripes arranged along a first direction, a plurality of second sensing stripes arranged along a second direction, and a touch control circuit. Each of the first switches is coupled between a first end of one of the plurality of organic light emitting diodes and a voltage source. Each of the second sensing stripes is coupled to a plurality of second ends of at least one of rows of the plurality of organic light emitting diodes. The touch control circuit is for generating touch signals according to capacitance values between the plurality of first sensing stripes and the plurality of second sensing stripes. | 11-28-2013 |
20130330886 | METHOD OF FORMING THIN FILM POLY SILICON LAYER AND METHOD OF FORMING THIN FILM TRANSISTOR - A method of forming a thin film poly silicon layer includes following steps. Firstly, a substrate is provided. A heating treatment is then performed. A thin film poly silicon layer is then directly formed on a first surface of the substrate by a silicon thin film deposition process. A method of forming a thin film transistor includes following steps. Firstly, a substrate is provided. A heating treatment is then performed. A thin film poly silicon layer is then directly formed on a first surface of the substrate by a silicon thin film deposition process. A first patterning process is performed on the thin film poly silicon layer to form a semiconductor pattern. Subsequently, a gate insulation layer, a gate electrode, a source electrode and a drain electrode are formed. | 12-12-2013 |
20130330934 | METHOD OF FORMING THIN FILM POLY SILICON LAYER - A method of forming a thin film poly silicon layer includes following steps. Firstly, a substrate is provided. The substrate has a first surface. A heating treatment is then performed. A thin film poly silicon layer is then directly formed on the first surface of the substrate by a silicon thin film deposition process. | 12-12-2013 |
20140002515 | ORGANIC LIGHT EMITTING DIODE PIXEL CIRCUIT | 01-02-2014 |
20140020628 | SHADOW MASK MODULE AND ORGANIC VAPOR DEPOSITION APPARATUS AND THERMAL EVAPORATION APPARATUS USING THE SAME - The present invention provides a shadow mask module and an organic vapor deposition apparatus and a thermal evaporation apparatus using the same. The shadow mask module is disposed between a gas outlet and a substrate, and includes a pixel mask and a thermal resist mask. The pixel mask is disposed between the gas outlet and the substrate, and includes a plurality of first openings. The thermal resist mask is disposed between the gas outlet and the pixel mask, and includes a plurality of second openings. Each second opening is disposed corresponding to at least one of the first openings. | 01-23-2014 |
20140049892 | Touch panel and touch display panel - A touch panel includes a first substrate, a second substrate, an adhesive layer, a first patterned sensing electrode layer and a second patterned sensing electrode layer. The first substrate has a first surface and a second surface, the second substrate has a third surface and a fourth surface, and the second surface of the first substrate faces the third surface of the second substrate. The adhesive layer is disposed between the second surface of the first substrate and the third surface of the second substrate for assembling the first substrate and the second substrate. The first patterned sensing electrode layer is disposed on the first surface of the first substrate, and the second patterned sensing electrode layer is disposed on the fourth surface of the second substrate. | 02-20-2014 |
20140063211 | NAKED EYE TYPE AND GLASSES TYPE SWITCHABLE STEREOSCOPIC DISPLAY DEVICE - A naked eye type and glasses type switchable stereoscopic display device includes a display panel and a switching module. The display panel provides first display image and second display image. The switching module includes a first transparent electrode, a second transparent electrode, a liquid crystal layer, and an electric field uniforming layer. The electric field uniforming layer is disposed between the liquid crystal layer and the second transparent electrode. The liquid crystal layer is driven by the second transparent electrode through the electric field uniforming layer to form liquid crystal lenses under a naked eye type stereoscopic display mode; the switching module provides a first phase retardation mode and a second phase retardation mode under a glasses type display mode. The first phase retardation mode provides a first polarization state to the first display image; the second phase retardation mode provides a second polarization state to the second display image. | 03-06-2014 |
20140071637 | TOUCH PANEL AND TOUCH DISPLAY DEVICE - A touch panel includes a first substrate and a first composite material conductive layer. The first composite material conductive layer has a first multilayer structure. The first multilayer structure includes a first refraction index compensating layer, a second refraction index compensating layer, and a first metal conductive layer. The first refraction index compensating layer, the first metal conductive layer, and the second compensation layer are stacked on the first substrate, and an equivalent refraction index of the first composite material conductive layer is substantially between a refraction index of the first substrate and 1.1 times the refraction index of the first substrate. | 03-13-2014 |
20140085853 | DISPLAY APPARATUS - A display apparatus including a display and a waveguide plate is provided. The display panel includes multiple rows of display units and multiple rows of solar cell units. The display units and the solar cell units are substantially parallel to a first direction and alternately arranged along a second direction perpendicular to the first direction. The waveguide plate is disposed at one side of the display panel. A first side of the waveguide plate adjacent to the display panel includes multiple microstructures. First and second structure surfaces of each microstructure respectively correspond to one row of the display units and one row of the solar cell units. When the display apparatus is disposed such that the second direction is perpendicular to a ground surface, an inclination of the first structure surface makes a thickness of the waveguide plate gradually decrease along an upward direction from the ground surface. | 03-27-2014 |
20140087527 | METHOD OF FORMING THIN FILM POLY SILICON LAYER AND METHOD OF FORMING THIN FILM TRANSISTOR - A method of forming a thin film poly silicon layer includes following steps. Firstly, a substrate is provided. A thin film silicon layer is then formed on the substrate by a silicon thin film deposition process. A heating treatment is then applied to the substrate so as to convert the thin film silicon layer into a thin film poly silicon layer. A method of forming a thin film transistor includes following steps. A first patterning process is performed on the thin film poly silicon layer on the substrate to form a semiconductor pattern. Subsequently, a gate insulation layer, a gate electrode, a source electrode and a drain electrode are formed. | 03-27-2014 |
20140104233 | TOUCH PANEL AND TOUCH DISPLAY DEVICE - A touch display device including a display, a touch panel and a transparent shielding layer is provided. The touch panel is disposed on the display, and includes a substrate and touch sensors positioned thereon. The transparent shielding layer is set between the display and the touch sensors of the touch panel, and includes an edge region and a central region wherein the impedance of the edge region is less than or equal to that of the central region. | 04-17-2014 |
20140104514 | TOUCH PANEL AND TOUCH DISPLAY DEVICE - A touch display device including a display, a touch panel and a transparent shielding layer is provided. The touch panel is disposed on the display, and includes a substrate and touch sensors positioned thereon. The transparent shielding layer is set between the display and the touch sensors of the touch panel, and includes an edge region and a central region wherein the impedance of the edge region is less than or equal to that of the central region. | 04-17-2014 |
20140125878 | DISPLAY DEVICE AND DRIVING METHOD OF DISPLAY DEVICE - A display device for a user to observe a stereo image through a pair of polarization glasses includes a projector, a switchable polarizer, and a sensor. The projector sequentially displays a first image, a first middle image, a second image, and a second middle image on a projection screen. The switchable polarizer is located between the projector and the projection screen and is switchable between a first mode and a second mode, so that each of the first and second images has a first or second polarization after passing through the switchable polarizer in the first or second mode and is then projected onto the projection screen. The sensor is coupled to the switchable polarizer and senses the images on the projection screen. When the sensor senses the first middle image or the second middle image, the switchable polarizer switches between the first mode and the second mode. | 05-08-2014 |
20140132856 | STRENGTHENED GLASS ARTICLE AND TOUCH-SENSITIVE DEVICE - A strengthened glass article includes a glass block having at least one cut facet, a reinforcement layer, and a sheltering layer. The reinforcement layer is at least disposed on at least a part of the cut facet. The sheltering layer is at least disposed on at least a part of a periphery of the glass block and covers at least a part of the reinforcement layer. | 05-15-2014 |
20140132861 | TOUCH PANEL AND TOUCH-SENSITIVE DISPLAY DEVICE - A touch panel includes a substrate, a patterned decorative layer, a sensing device, a buffer layer, a plurality of bonding pads, and a protection layer. The substrate has a transparent region and a peripheral region. The patterned decorative layer is disposed in the peripheral region of the substrate. The sensing device is disposed on the substrate and a portion of the sensing device is disposed on the patterned decorative layer. The buffer layer is disposed on the patterned decorative layer. The bonding pads are disposed on the buffer layer and electrically connected to the sensing device. The protecting layer covers the sensing device and has an opening that exposes at least one portion of the buffer layer and the bonding pads. | 05-15-2014 |
20140139756 | DISPLAY MODULE - A display module includes a display device, a pivot member, and a reflection-mirror device. The display device includes a light splitting device and a monitor for displaying first and second images arranged alternately. The light splitting device is disposed at a position corresponding to a light exit side of the monitor for splitting the first and second images along first and second splitting directions respectively. The pivot member is disposed at a side of the display device. The reflection-mirror device is connected to the pivot member to be foldably pivoted to the side of the display device. The reflection-mirror device is for reflecting the first images split along the first splitting direction in a reflection direction when being unfolded relative to the display device. The reflection direction is relatively biased toward the monitor so as to form an included angle cooperatively with a normal of the monitor. | 05-22-2014 |
20140160372 | TOUCH PANEL - A touch panel includes a substrate, at least one first axis electrode, and at least one second axis electrode. The first axis electrode is disposed on the substrate and extends along a first direction. The first axis electrode includes at least one first mesh. The second axis electrode is disposed on the substrate and extends along a second direction. The second axis electrode includes at least one second mesh. The first axis electrode at least partially overlaps the second axis electrode along a direction perpendicular to the substrate. An aperture ratio of a region where the first axis electrode overlaps the second axis electrode is substantially equal to an aperture ratio of a region where the first axis electrode does not overlap the second axis electrode. | 06-12-2014 |
20140160373 | CAPACITIVE TOUCH PANEL AND FABRICATION METHOD THEREOF - A capacitive touch panel includes at least one first conductive series extending along a first direction and at least one second conductive series extending along a second direction on a substrate. The first conductive series includes a plurality of first electrodes disposed along the first direction and a plurality of first connecting electrodes respectively disposed between two adjacent first electrodes. The second conductive series includes a plurality of second electrodes disposed along the second direction and a plurality of second connecting electrodes respectively disposed between two adjacent second electrodes. The first direction intersects the second direction. At least one kind of elements of the first electrodes, the first connecting electrodes, the second electrodes, and the second connecting electrodes are formed from a metal mash layer, and the first conductive series and the second conductive series are electrically isolated from each other. | 06-12-2014 |
20140160374 | CAPACITIVE TOUCH PANEL AND METHOD OF MAKING THE SAME - A capacitive touch panel includes a first conductive layer, a second conductive layer and an insulating layer. The first conductive layer includes a plurality of first sensing electrodes, first bridge electrodes and second sensing electrodes. Each of the first sending electrodes and each of the second sending electrodes include a meshed electrode, which has a plurality of openings. The second conductive layer includes a plurality of second bridge electrodes, and each second bridge electrode is electrically connected to two adjacent second sensing electrodes. The insulating layer is disposed between the first conductive layer and the second conductive layer to electrically insulating the first conductive layer from the second conductive layer. | 06-12-2014 |
20140160381 | 2D AND 3D SWITCHABLE DISPLAY DEVICE AND LIQUID CRYSTAL LENTICULAR LENS THEREOF - A liquid crystal lenticular lens includes a first transparent substrate, a second transparent substrate, a first transparent electrode, a second transparent electrode, a liquid crystal layer, a first alignment layer, a second alignment layer and a first electric field uniformizing layer. The first transparent electrode includes a plurality of first electrode bars disposed along a first direction and in parallel, and the first direction is non-parallel and non-perpendicular to the edges of the first transparent substrate. The first electric field uniformizing layer is disposed between the first alignment layer and the first transparent electrode or between the second alignment layer and the second transparent electrode. | 06-12-2014 |
20140184950 | TOUCH PANEL - A touch panel, having a peripheral region, includes a first substrate, a touch-sensing structure, first outer traces, a first ground wire and an outer device. The first outer trace is electrically connected to the touch-sensing structure. The first outer traces extend to a connection region in the peripheral region. The first ground wire extends to the connection region, and the first ground wire has at least one discontinuous section in the connection region. The outer device is electrically connected to the first ground wire and the first outer traces in the connection region. The outer device electrically connects two ends of the discontinuous section of the first ground wire in the connection region, and the two ends of the discontinuous section of the first ground wire are electrically connected via the outer device. | 07-03-2014 |
20140306930 | TOUCH PANEL, TOUCH DISPLAY PANEL, AND TOUCH SENSING METHOD - A touch panel including first electrode bands, second electrode bands, and a transparent dielectric material is provided. The first electrode bands are disposed on a first substrate and extended in a first direction, wherein each of the first electrodes has a plurality of first silts in the form of enclosed configuration. The second electrode bands are disposed on a second substrate, facing to the first electrode bands, and extended in a second direction interlacing the first direction. Each second electrode band is partially exposed by the first silts. The transparent dielectric material is disposed between the first electrode bands and the second electrode bands to provide a changeable gap. | 10-16-2014 |
20140320550 | LIGHT-EMITTING COMPONENT DRIVING CIRCUIT AND RELATED PIXEL CIRCUIT AND APPLICATIONS USING THE SAME - A pixel circuit relating to an organic light emitting diode (OLED) is provided by the invention, and if the circuit configuration (5T1C or 6T1C) thereof collaborates with suitable operation waveforms, the current flowing through an OLED in the OLED pixel circuit is not be changed along with variation of a power supply voltage (Vdd) influenced by the IR drop, and is not be varied along with the threshold voltage (Vth) shift of a TFT used for driving the OLED. Accordingly, the brightness uniformity of the applied OLED display can be substantially improved. | 10-30-2014 |
20140354575 | TOUCH-SENSING DISPLAY DEVICE - A touch-sensing display device includes a display panel, a touch panel, a driver unit, and a flexible printed circuit board. The touch panel is disposed on the display panel, and the driver unit is disposed on the display panel to provide driving signals and drive the display panel and the touch panel. The flexible printed circuit board connects the display panel to a system main board. | 12-04-2014 |
20140354907 | COMPOSITE TOUCH COVER PLATE - A composite touch cover plate defined with a touch surface and an inner surface is provided. The composite touch cover plate includes a substantially homogeneous polymer layer and a fibrous layer. The fibrous layer is located at one side of the polymer layer and near the touch surface. A ratio of a thickness of the fibrous layer to a thickness of the polymer layer lies between 1:9 and 1:49. | 12-04-2014 |
20140368761 | TOUCH PANEL AND TOUCH-SENSITIVE DISPLAY DEVICE - A touch panel includes a cover glass, a flexible substrate, and a touch-sensing electrode structure. The flexible substrate is connected to the cover glass via a bonding layer, and the touch-sensing electrode structure is formed on the flexible substrate. The cover glass, the bonding layer, the flexible substrate and the touch-sensing electrode structure are arranged in order, with the flexible substrate being located between the touch-sensing electrode structure and the bonding layer. | 12-18-2014 |
20150042908 | TOUCH PANEL AND TOUCH DISPLAY APPARATUS - A touch panel, including a substrate, a first electrode structure, a second electrode structure, and an insulating layer. The first electrode structure includes first electrode units and second electrode units, wherein each first electrode unit extends in a first direction, each second electrode unit extends in a second direction, and the first electrode units interlace the second electrode units. The first electrode structure is configured between the second electrode structure and the substrate. The insulating layer is configured between the first electrode structure and the second electrode structure to electrically insulate the first electrode structure from the second electrode structure. In a first touch mode, the second electrode structure does not perform a touch sensing function, while the first electrode units and the second electrode units are electrically independent respectively and perform the touch sensing function. In a second touch mode, the second electrode structure performs the touch sensing function. | 02-12-2015 |
20150070327 | OPTICAL TOUCH PANEL AND TOUCHSCREEN - An optical touch panel including a light guide plate, at least one light-emitting element and a plurality of optical sensing elements and a touchscreen using the same are provided. The light guide plate has a plurality of lateral surfaces, a top surface, a bottom surface and a light extraction structure. The light-emitting element provides a light beam entering the light guide plate. The optical sensing elements are disposed under the bottom surface of the light guide plate. Each of the optical sensing elements has a sensing surface not parallel to the bottom surface of the light guide plate. The optical sensing elements are disposed at an illuminated region of the light beam provided by the light-emitting element. By the light extraction structure, a second portion of the light beam entered the light guide plate is scattered to the optical sensing elements from the bottom surface. | 03-12-2015 |
20150070604 | TOUCH DEVICE - A touch device includes a cover substrate, a thin substrate, a first adhesive layer, a first touch sensing unit and a first outer unit. The thin substrate is disposed opposite to the cover substrate. The thin substrate has a first surface and a second surface opposite to the first surface. The first surface faces the cover substrate. A thickness of the thin substrate is thicker than or equal to 0.05 millimeter and thinner than or equal to 0.25 millimeter. The first adhesive layer is disposed between the cover substrate and the thin substrate. The first touch sensing unit is disposed on the thin substrate. The first outer unit is electrically connected to the first touch sensing unit. | 03-12-2015 |
20150075958 | TOUCH PANEL - A touch panel includes a first substrate and a plurality of conductive electrodes. The conductive electrodes are located at the first substrate, and each of the conductive electrodes includes at least one mesh electrode. Each of the mesh electrodes includes a plurality of conductive patterns, and the conductive patterns of the same mesh electrode are connected together. Each of the conductive patterns has a central point, and distances from the central point of each of the conductive patterns to the central points of adjacent conductive patterns are incongruent, such that the conductive patterns are arranged in an irregular manner. | 03-19-2015 |
20150075959 | TOUCH PANEL - A touch panel including a touch area and a peripheral area adjacent to the touch area is provided. The touch panel includes a plurality of first electrodes, a plurality of second electrodes, a plurality of third electrodes, a plurality of pads and a plurality of wirings. The first electrodes, the second electrodes and the third electrodes are located in the touch area and electrically insulated to each other, wherein the third electrodes expose at least a part of the first electrodes and at least a part of the second electrodes. The pads are located in the peripheral area. The first electrodes, the second electrodes and the third electrodes are electrically connected to the pads through the wirings respectively. | 03-19-2015 |