Patent application number | Description | Published |
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 |
20090153774 | BACK LIGHT MODULE AND LIQUID CRYSTAL DISPLAY - A liquid crystal display (LCD) including an LCD panel and a back light module is provided. The back light module is disposed below the LCD panel. The back light module includes a planar light source, a reflective polarized light enhancement film, a first prism film and a λ/4 phase retardation film. The planar light source is disposed below the LCD panel, while the reflective polarized light enhancement film is disposed between the LCD panel and the planar light source. The first prism film is disposed between the reflective polarized light enhancement film and the planar light source. Besides, the λ/4 phase retardation film is disposed between the reflective polarized light enhancement film and the first prism film. The back light module has a relatively high light utilization rate, and the LCD has favorable display luminance. | 06-18-2009 |
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 |
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 |
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 |
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 |
20110241015 | PIXEL STRUCTURE - A pixel structure including a scan line, a data line intersecting the scan line, a first gate, a second gate, a third gate, a semiconductor layer, a source, a first drain, a second drain, a first pixel electrode, and a second pixel electrode is provided. The dataline and the scan line are interlaced disposed. The semiconductor layer is disposed on the scan line to define the first gate and the second gate. The source is directly connected to the data line and located between the first gate and the second gate. The first gate is located between the first drain and the source. The second gate is located between the second drain and the source. The third gate is electrically connected to the scan line. The first pixel electrode and the second pixel electrode are respectively electrically connected to the first drain and the second drain. | 10-06-2011 |
20110248944 | TOUCH DISPLAY PANEL - A touch display panel having a display area and an operation area is provided. The touch display panel includes a first substrate, a first transparent electrode layer, a dielectric layer, a second electrode layer, a display medium, an active array device, and a second substrate sequentially disposed. The first substrate and the second substrate are disposed opposite to each other. The first transparent electrode layer includes a first display area pattern located in the display area and a first operation area pattern located in the operation area. The second transparent electrode layer includes a second display area pattern located in the display area and a second operation area pattern located in the operation area. The second display area pattern has a plurality of openings so as to expose a portion of the first display area pattern. | 10-13-2011 |
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 |
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 |
20120127686 | DECORATION PLATE AND ELECTRONIC APPARATUS HAVING THE SAME - A decoration plate and an electronic apparatus having the same are provided. The decoration plate includes a cover plate, a conductive ring, an insulating layer, and a conductive element. The conductive ring is disposed on a surface of the cover plate. The insulating layer is disposed on the surface of the cover plate and covers the conductive ring, and the insulating layer has at least one opening. The conductive element is disposed in the opening. | 05-24-2012 |
20130155021 | CAPACITIVE TOUCH SENSOR AND FABRICATION METHOD THEREOF AND CAPACITIVE TOUCH PANEL - A capacitive touch sensor includes multiple first-axis traces, multiple second-axis traces, an insulation layer and multiple metal traces. Each first-axis trace includes multiple first touch-sensing pads and first connecting lines connected therebetween. Each second-axis trace includes multiple second touch-sensing pads and second connecting lines connected therebetween. At least one of the first connecting line and the second connecting line is a metal printing line. | 06-20-2013 |
20130321004 | Touch-Sensing Electrode Structure and Touch-Sensitive Device - A touch-sensing electrode structure has a plurality of electrode units. Each of the electrode units includes at least one first electrode and at least one second electrode. The second electrode is formed in an area not overlapping the first electrode, and the first electrode has a first part and a second part. The second electrode is adjacent to the first part of the first electrode and spaced apart the first part of the first electrode by a first interval, the second part of the first electrode is adjacent to the second electrode and spaced apart the second electrode by a second interval, and a width of the second interval is not equal to a width of the first interval. | 12-05-2013 |
20140347299 | TOUCH-SENSING ELECTRODE STRUCTURE AND TOUCH-SENSITIVE DEVICE - A touch-sensing electrode structure includes multiple first electrodes and multiple second electrodes. Each of the first electrodes includes at least a first major part and a second major part, the first major part and the second major part cross over each other to form at least one interconnect section, the interconnect section includes a first connecting line extending in a first direction and a second connecting line extending in a second direction different to the first direction. Each of the second electrodes includes a plurality of electrode sections and third connecting lines, each of the third connecting lines is connected between two adjacent electrode sections, the third connecting lines extend in a third direction different to the first direction and the second direction, and at least one of the third connecting lines overlaps the interconnect section. | 11-27-2014 |
Patent application number | Description | Published |
20100171726 | Display Panel - A display panel is disclosed, which includes a substrate, a shift register array, plural scan lines, a compensating circuit, a first repair line, and a second repair line. The shift register array having plural shift registers is disposed on a non-display area of the substrate. The scan lines connect to the shift registers respectively to drive plural display units. The first repair line and the second repair line are connected to the compensating circuit and bridged over two ends of each scan line in the non-display area, respectively. | 07-08-2010 |
20100245298 | SHIFT REGISTER CAPABLE OF REDUCING COUPLING EFFECT - A shift register has a plurality of shift register units coupled in series. Each shift register includes a pull-up circuit, an input circuit, a pull-down circuit, a compensation circuit, an input end, an output end and a node. Each shift register unit receives an input voltage at the input end and provides an output voltage at the output end. The input circuit transmits the input voltage to the node based on a first clock signal. The pull-up circuit provides the output voltage based on a second clock signal and the voltage level of the node. The pull-down circuit selectively connects the node with the output end according to a third clock signal. The compensation circuit is coupled to the input circuit, the pull-down circuit and the node for maintaining the voltage level of the node based on the second and third clock signals. | 09-30-2010 |
20110169793 | Liquid Crystal Display, Flat Display and Gate Driving Method Thereof - In a liquid crystal display, a flat display and a gate driving method thereof, the flat display comprises first and second pixel rows, first to third gate lines and a gate driving circuit. The first gate line is for determining whether to turn on a portion of pixels in the first pixel row, the second gate line is for determining whether to turn on another portion of pixels in the first pixel row, and the third gate line is for determining whether to turn on a portion of the pixels in the second pixel row. The gate driving circuit is for providing first to third gate driving pulses to the first to third gate lines. The first and second gate driving pulses do not overlap with each other, and the third gate driving pulse partially overlaps with one of the first and second gate driving pulses. | 07-14-2011 |
20110216877 | SHIFT REGISTER CIRCUIT - A shift register circuit with waveform-shaping function includes plural shift register stages. Each shift register stage includes a first input unit, a pull-up unit, a pull-down circuit, a second input unit, a control unit and a waveform-shaping unit. The first input unit is utilized for outputting a first driving control voltage in response to a first gate signal. The pull-up unit pulls up a second gate signal in response to the first driving control voltage. The pull-down circuit is employed to pull down the first driving control voltage and the second gate signal. The second input unit is utilized for outputting a second driving control voltage in response to the first gate signal. The control unit provides a control signal in response to the second driving control voltage and an auxiliary signal. The waveform-shaping unit performs a waveform-shaping operation on the second gate signal in response to the control signal. | 09-08-2011 |
20110228891 | SHIFT REGISTER - An exemplary shift register includes a plurality of transistors. The transistors are subjected to the control of a start pulse signal, a first clock signal and a second clock signal to generate a gate driving signal. The first clock signal and the second clock signal are phase-inverted with respect to each other. A logic low level of the first clock signal and another logic low level of the second clock signal are different from each other. Moreover, the transistors are negative threshold voltage transistors. A potential at the gate of the each of the transistors is lower than another potential at the source/drain of the transistor at the situation of the transistor being switched-off state. | 09-22-2011 |
20110255652 | SHIFT REGISTER - An exemplary shift register includes a control circuit and an output circuit. The control circuit is electrically coupled to receive a start pulse signal, a first clock pulse signal and a power supply voltage and for generating an enable signal according to the start pulse signal and the first clock pulse signal. A logic low level of the first clock pulse signal is lower than a level of the power supply voltage. The output circuit is subjected to the control of the enable signal and for generating a gate driving signal according to a second clock pulse signal. The second clock pulse signal and the first clock pulse signal are phase-inverted with respect to each other, and a logic low level of the second clock pulse signal is higher than the level of the power supply voltage. | 10-20-2011 |
20120008731 | BI-DIRECTIONAL SHIFT REGISTER - A shift register of an LCD device includes a plurality of shift register units coupled in series. Each shift register unit includes an input circuit and a pull-down circuit having symmetric structures which enable the LCD device to function in a forward-scan mode and a reverse-scan mode. | 01-12-2012 |
20120032941 | Liquid crystal display device with low power consumption and method for driving the same - A liquid crystal display device includes a timing controller and a charge-sharing circuit. The timing controller is configured to provide a plurality of input clock signals having duty cycle smaller than ⅓. The charge-sharing circuit is configured to allow charge-sharing to occur between a specific input clock signal and two other input clock signals respectively during the signal rising period and signal falling period of the specific input clock signal, thereby providing a plurality of output clock signals for driving a shift register. | 02-09-2012 |
20120075275 | DISPLAY DEVICE WITH BI-DIRECTIONAL SHIFT REGISTERS - A display device having bi-directional shift registers is disclosed. The display device includes a display panel, a first dummy shift register set, a second dummy shift register set, a third dummy shift register sets, a fourth dummy shift register sets, a first valid shift register set coupled between the first dummy shift register set and the second dummy shift register set, a second valid shift register set coupled between the third dummy shift register set and the fourth dummy shift register set, and a first directional circuit coupled to a first valid register in the first valid register set and the third dummy shift register set. | 03-29-2012 |
20120120035 | LCD PANEL - A LCD panel with an improved pixel array configuration is provided. The LCD panel uses a column inversion driving method to drive the data lines so as to achieve a stable common voltage. Moreover, by cross-connecting the layout traces of the wiring zone in a specified manner, the gate pulses outputted from every two gate lines neighboring the sub-pixel are not overlapped with each other, so that the frame can be normally displayed. | 05-17-2012 |
20120140871 | SHIFT REGISTER CIRCUIT - A shift register circuit includes plural shift register stages for providing plural gate signals. Each shift register stage includes an input unit, a pull-up unit, a pull-down unit, a control unit and an auxiliary pull-down unit. The input unit is put in use for outputting a driving control voltage according to at least one first input signal. The pull-up unit pulls up a corresponding gate signal according to the driving control voltage and a system clock. The pull-down unit pulls down the corresponding gate signal to a first power voltage according to a control signal. The control unit is utilized for generating the control signal according to the corresponding gate signal. The auxiliary pull-down unit pulls down the driving control voltage to a second power voltage according to a second input signal. | 06-07-2012 |
20120140873 | SHIFT REGISTER - An exemplary shift register includes a control circuit and an output transistor. The control circuit has a start pulse signal input terminal, a first clock pulse signal input terminal and a power supply voltage input terminal and includes a first control transistor and a second control transistor. The output transistor is electrically coupled to the first control transistor and includes a gate driving signal output terminal and a second clock pulse signal input terminal. Moreover, the first control transistor, the second control transistor and the output transistor all are negative threshold voltage transistors. | 06-07-2012 |
20120153996 | GATE DRIVING CIRCUIT ON ARRAY APPLIED TO CHARGE SHARING PIXEL - The disclosure provides a gate driving circuit on array applied to a display panel with charge sharing pixel structure. In particular, the gate driving circuit is adapted to receive multi-phase clock signal and includes a plurality of shift registers. Each shift register includes a driving circuit including a first driving transistor and a second driving transistor, a pull-down unit and at least one pull-up unit, so that is capable of generating mutually non-overlapped main gate driving signal and sub gate driving signal. Furthermore, the advantage of the disclosure is to provide a gate driving circuit with simplified circuit structure and circuit layout. | 06-21-2012 |
20120155604 | SHIFT REGISTER CIRCUIT - A shift register circuit includes plural shift register stages for providing plural gate signals. The Nth shift register stage of the shift register stages includes an input unit, a pull-up unit and a pull-down unit. The input unit is put in use for outputting an Nth driving control voltage according to an (N−1)th gate signal and an (N−2)th driving control voltage which are generated respectively by the (N−1) th shift register stage and the (N−2) th shift register stage of the shift register stages. The pull-up unit pulls up an Nth gate signal according to the Nth driving control voltage and a system clock. The pull-down unit pulls down the Nth gate signal and the Nth driving control voltage according to an (N+2)th gate signal generated by the (N+2)th shift register stage of the shift register stages. | 06-21-2012 |
20120161842 | CLOCK SIGNAL SUPPLYING METHOD AND CIRCUIT FOR SHIFT REGISTERS - A clock signal supplying method for shift registers includes following steps: receiving a clock signal; and transmitting the clock signal to two first stage signal transmission paths simultaneously, the first stage signal transmission paths determined by a first control signal whether to be conducted, and further conducted at different time. | 06-28-2012 |
20120169581 | SHIFT REGISTER AND DRIVING METHOD THEREOF - A shift register includes a signal input unit for receiving and providing an input signal, a signal output unit for controlling whether outputting a clock signal according to the input signal provided by the signal input unit, and a plurality of stable modules. Each of the stable modules is electrically coupled to an output terminal of the signal input unit, an output terminal of the signal output unit, and a default potential. Each of the stable modules receives a corresponding operation signal and is enabled in a duty of the corresponding operation signal, such that both the output terminal of the signal input unit and the output terminal of the signal output unit are electrically coupled to the default potential when the input signal is disabled. Before one of the stable modules is disabled, another of the stable modules has already been enabled. | 07-05-2012 |
20120169679 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a plurality of pixel driving circuits and a pixel array. Each pixel driving circuit of the plurality of pixel driving circuits includes four thin film transistors and has four output terminals, where each thin film transistor is used for driving an output terminal of the four output terminals, and the four output terminals are coupled to two gate lines and two sharing lines respectively for outputting two main output signals and two sharing output signals. The phases and timings of the two main output signals and the two sharing output signals are all the same. A pixel of the pixel array is charged/discharged to a specific voltage level according to a main output signal of the two main output signals, a sharing output signal, and a signal of a data line. | 07-05-2012 |
20120235890 | BI-DIRECTIONAL SHIFT REGISTER - A shift register of an LCD device includes a plurality of shift register units coupled in series. Each shift register unit includes an input circuit and a pull-down circuit having symmetric structures which enable the LCD device to function in a forward-scan mode and a reverse-scan mode. | 09-20-2012 |
20120300149 | LIQUID CRYSTAL DISPLAY AND METHOD OF CHARGING/DISCHARGING PIXELS OF A LIQUID CRYSTAL DISPLAY - A liquid crystal display includes a liquid crystal panel, a source driving circuit, a timing controller, and a gate driving circuit. The source driving circuit converts frame data into a plurality of data voltages, and charges/discharges a first data line according to a data voltage of the plurality of data voltages. The gate driving circuit enables a gate line corresponding to the data voltage. The timing controller sequentially enables a plurality of switch enable lines corresponding to the gate line. A plurality of pixel switches are turned on according to the enabled gate line. A data line switch is turned on according to an enabled switch enable line. The data voltage charges/discharges a corresponding pixel through the turned-on data line switch and one of the turned-on pixel switches. | 11-29-2012 |
20150084948 | LIQUID CRYSTAL DISPLAY AND METHOD OF CHARGING/DISCHARGING PIXELS OF A LIQUID CRYSTAL DISPLAY - A liquid crystal display includes a liquid crystal panel, a source driving circuit, a timing controller, and a gate driving circuit. The source driving circuit converts frame data into a plurality of data voltages, and charges/discharges a first data line according to a data voltage of the plurality of data voltages. The gate driving circuit enables a gate line corresponding to the data voltage. The timing controller sequentially enables a plurality of switch enable lines corresponding to the gate line. A plurality of pixel switches are turned on according to the enabled gate line. A data line switch is turned on according to an enabled switch enable line. The data voltage charges/discharges a corresponding pixel through the turned-on data line switch and one of the turned-on pixel switches. | 03-26-2015 |
Patent application number | Description | Published |
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 |
20130038545 | TOUCH-SENSING PANEL AND TOUCH-SENSING DISPLAY APPARATUS - A touch-sensing panel including a substrate, a logo pattern, a decoration layer, and a touch-sensing element is provided. The logo pattern is disposed on the substrate. The decoration layer is disposed on surface periphery of the substrate, wherein the logo pattern is disposed between the substrate and the logo pattern. The touch-sensing element is disposed on the substrate. In this way, the layout and the fabrication margins of the touch-sensing panel are increased, and the design sense of the touch-sensing panel is enhanced. Besides, a touch-sensing display apparatus having the above touch-sensing panel is also provided. | 02-14-2013 |
20130038553 | TOUCH PANEL AND METHOD OF FABRICATING THE SAME, AND TOUCH-SENSING DISPLAY DEVICE - A touch panel and a method of fabricating the same and touch-sensing display device are provided. The touch panel includes a cover plate, a touch sensing element, and an atomic layer-deposited (ALD) film. The cover plate has a top surface, a bottom surface, and a side surface. The top surface opposites to the bottom surface and the side surface connects the upper surface with the bottom surface. The touch sensing element is disposed on the bottom surface of the cover plate. The ALD layer completely covers the touch sensing element and completely covers the top surface, the side surface, and a portion of the bottom surface uncovered by the touch sensing element. | 02-14-2013 |
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 |
20140085261 | TOUCH PANEL AND TOUCH DISPLAY PANEL - A touch panel including a substrate, a decoration layer and a first touch unit is provided. The decoration layer is disposed on the substrate, wherein the decoration layer has a window, and the location of the decoration layer is defined as a peripheral region. The first touch unit is at least disposed within the window, and the first touch unit has a plurality of electrode pairs. The electrode pairs are disposed on the substrate. Each of the electrode pairs includes a driving electrode and a sensing electrode. The driving electrode and the sensing electrode are separated by a distance, and the distance is between 300 micrometers and 900 micrometers. | 03-27-2014 |
20140125883 | TOUCH PANEL - A touch panel, including a substrate, first electrodes, second electrodes, first connecting lines, first pads, second connecting lines, and second pads, is provided. The first electrodes are arranged in an array to define a plurality of columns each parallel to a first direction and a plurality of rows each parallel to a second direction intersecting the first direction. Each of the second electrodes is extended in the first direction. The second electrodes are sequentially arranged in the second direction so that one column of the first electrodes is disposed between two adjacent second electrodes. The first connecting lines connect the first electrodes in the same row into a series connected to one first pad. The second electrodes are connected to the second pads through the second connecting lines. The first electrodes, the second electrodes, the first connecting lines, and the second connecting lines do not intersect one another. | 05-08-2014 |
20140152615 | CAPACITIVE TOUCH PANEL - A capacitive touch panel including a substrate and a plurality of approach sensing units disposed on the substrate is provided. Each approach sensing unit comprises a first driving electrode, a second driving electrode, a first sensing electrode unit and a second sensing electrode unit. The first and second driving electrodes are arranged in parallel along an axis. The first and second sensing electrode units are arranged along an axis and sense the approach of an object to generate a first approach sensing signal and a second approach sensing signal, respectively. The first and second sensing electrode units are adjacent to each other and disposed between the first and second driving electrodes or the first and second driving electrodes are adjacent to each other and disposed between the first and second sensing electrode units. | 06-05-2014 |
20140152915 | TOUCH PANEL - A touch panel includes a substrate, a plurality of first and second conductive series, and a plurality of first and second auxiliary electrodes. The first and the second conductive series are disposed alternately on the substrate and located on a light-transmission area of the substrate. A portion of each of the first and second conductive series extends to a peripheral area of the substrate. The first and the second auxiliary electrodes are disposed on the peripheral area. The first auxiliary electrodes connect to the portion of the first conductive series extending to the peripheral area and generate capacitive sensing with the portion of the second conductive series located on the peripheral area. The second auxiliary electrodes connect to the portion of the second conductive series extending to the peripheral area and generate capacitive sensing with the portion of the first conductive series located on the peripheral area. | 06-05-2014 |
Patent application number | Description | Published |
20130082961 | TOUCH-SENSITIVE DEVICE AND TOUCH-SENSITIVE DISPLAY DEVICE - A touch-sensitive device includes a transparent substrate, a decoration layer and a touch-sensing electrode layer. The decoration layer is disposed on the transparent substrate and includes a plurality of medium layers stacked with each other, and the decoration layer has at least one step portion and the step portion is defined by edges of two adjacent medium layers. The touch-sensing electrode layer is disposed on the transparent substrate and overlaps at least the step portion. | 04-04-2013 |
20130135241 | TOUCH-SENSITIVE DEVICE AND TOUCH-SENSITIVE DISPLAY DEVICE - A touch-sensitive device includes a transparent substrate, a touch-sensing structure, a decorative layer, a trace layer, a passivation layer and a sheltering layer. The touch-sensing structure is disposed on the transparent substrate and located in a touch-sensitive region. The decorative layer is disposed on the transparent substrate and located in a non-touch-sensitive region, and the trace layer is disposed on the decorative layer. The passivation layer is disposed on the transparent substrate and at least covers the touch-sensing structure and the trace layer. The sheltering layer is disposed at least on the passivation layer and located in the non-touch-sensitive region. | 05-30-2013 |
20130300440 | CAPACITIVE TOUCH SENSOR AND FABRICATION METHOD THEREOF AND CAPACITIVE TOUCH PANEL - A capacitive touch sensor includes multiple first-axis traces, multiple second-axis traces, an insulation layer and multiple metal traces. Each first-axis trace includes multiple first touch-sensing pads and first connecting lines connected therebetween. Each second-axis trace includes multiple second touch-sensing pads and second connecting lines connected therebetween. At least one of the first connecting line and the second connecting line is a metal printing line. | 11-14-2013 |
20140054156 | TOUCH-SENSING ELECTRODE STRUCTURE AND TOUCH-SENSITIVE DEVICE - A touch-sensing electrode structure includes multiple first electrodes and multiple second electrodes. Each first electrode includes a longitudinal part extending in a first direction and multiple branch parts connected to the longitudinal part. The second electrodes are disposed on at least one side of each longitudinal part, and each of the second electrodes at least spreads over a region between two adjacent branch parts of each of the first electrodes. | 02-27-2014 |
20140104512 | TOUCH-SENSITIVE DISPLAY DEVICE AND METHOD FOR FABRICATING THE SAME - A touch-sensitive display device includes a touch-sensitive device, a display device, and an adhesive layer. The display device is disposed on a side of the touch-sensitive device, and the adhesive layer is disposed between the touch-sensitive device and the display device to combine the touch-sensitive device with the display device. A distribution area of the adhesive layer at least overlaps a viewing area of the touch-sensitive display device. | 04-17-2014 |
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 |
20140145972 | TOUCH-SENSITIVE DEVICE AND TOUCH-SENSITIVE DISPLAY DEVICE - A touch-sensitive device includes a transparent substrate, a touch-sensing structure, a decorative layer, a trace layer, a passivation layer and a sheltering layer. The touch-sensing structure is disposed on the transparent substrate and located in a touch-sensitive region. The decorative layer is disposed on the transparent substrate and located in a non-touch-sensitive region, and the trace layer is disposed on the decorative layer. The passivation layer is disposed on the transparent substrate and at least covers the touch-sensing structure and the trace layer. The sheltering layer is disposed at least on the passivation layer and located in the non-touch-sensitive region. | 05-29-2014 |
20140184955 | TOUCH-SENSITIVE DEVICE AND COVER LENS ASSEMBLY - A touch-sensitive device includes a transparent substrate, a touch-sensing structure, a decorative layer, a trace layer, a passivation layer and a sheltering layer. The touch-sensing structure is disposed on the transparent substrate and located in a touch-sensitive region. The decorative layer is disposed on the transparent substrate and located in a non-touch-sensitive region, and the trace layer is disposed on the decorative layer. The passivation layer is disposed on the transparent substrate and at least covers the touch-sensing structure and the trace layer. The sheltering layer is disposed at least on the passivation layer and located in the non-touch-sensitive region. | 07-03-2014 |
Patent application number | Description | Published |
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 |
20130293821 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate includes a substrate, first scan lines, second scan lines, data lines, and pixels. The first and the second scan lines are alternately arranged along a first direction. The data lines are arranged in parallel along a second direction. The pixels are arranged to form first pixel rows and second pixel rows alternately arranged in the first direction. The first pixel row includes first and second pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The second pixel row includes third and fourth pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The pixels between two adjacent data lines are arranged in two columns. Among the pixels in the same column, the pixels in odd rows and in even rows are electrically connected to different data lines, respectively. | 11-07-2013 |
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 |
20140055417 | DISPLAY MODULE - A display module includes a touch device, a cover lens, a decoration layer, at least one optical module, and a display panel. The touch device is arranged at a lower side of the cover lens for generating a touch signal. The decoration layer is arranged under the cover lens, and has a first hole and at least one second hole, wherein the touch device corresponds to the first hole, and the first hole is larger than the at least one second hole. The at least one optical module is arranged under the cover lens and corresponding to the at least one second hole, for generating an image signal. The display panel is arranged under the decoration layer and the touch device for executing a corresponding operation according to the touch signal or the image signal. | 02-27-2014 |
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 |
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 |
20140139758 | TOUCH PANEL AND TOUCH DISPLAY MODULE THEREOF - A touch panel including a transparent cover plate, a decorative layer, and a touch layer structure is provided. The transparent cover plate has a viewing area and at least one side bending portion. The decorative layer is formed at a position at least corresponding to the side bending portion. The touch layer structure includes a touch sensing layer and a plurality of conductive traces. The touch sensing layer is disposed at a position corresponding to the viewing area. The plurality of conductive traces is electrically connected to the touch sensing layer and disposed at a position corresponding to the decorative layer. | 05-22-2014 |
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 |
20140184951 | TOUCH DISPLAY DEVICE - A touch display device includes a cover substrate, a display panel, a plurality of first touch electrodes, a plurality of first connecting pads, and a first conductive adhesive material. A visible region and a peripheral region adjacent to at least one side of the visible region are defined on the cover substrate. The display panel includes an upper substrate and an array substrate. The upper substrate is disposed between the cover substrate and the array substrate. The first touch electrodes are disposed in the visible region and the first connecting pads are disposed in the peripheral region. Each first connecting pad is electrically connected to the corresponding first touch electrode. The first conductive adhesive material is disposed between the cover substrate and the array substrate so as to electrically connect the first connecting pads and the array substrate. | 07-03-2014 |
20140204043 | TOUCH PANEL - A touch panel including a substrate, a decoration layer, and conductive elements is provided. The decoration layer has an outer margin adjacent to an edge of the substrate and an inner margin opposite to the outer region. A reference line is away from the inner margin with a distance of at least 20 μm towards a direction away from the outer margin. At least one of the conductive elements includes a cross-interface portion which covers the decoration layer and a region of the substrate without the decoration layer. A first distance and a second distance between two adjacent cross-interface portions are provided in a region outward of the reference line to the outer margin of the decoration layer, and in a region inward of the reference line, respectively. The first distance is greater than the second distance. The conductive elements construct touch sensing units for forming a capacitance coupling. | 07-24-2014 |
20140293163 | TOUCH PANEL - A touch panel including a carrier component, a plurality of first electrode series and a plurality of second electrode series is provided. Each first electrode series includes a plurality of first electrodes connected in series in a first direction. Each second electrode series includes a plurality of second electrodes connected in series in a second direction. In a unit sensing area arbitrarily selected on the touch panel, a ratio of the unit sensing area occupied by each of the first electrodes to the unit sensing area occupied by each of the second electrodes is 1:1.2 to 1:1.4, wherein a length and a width of the unit sensing area are equal to pitches of the first electrodes in the first direction and the second direction respectively. | 10-02-2014 |
20140333556 | TOUCH PANEL AND FABRICATION METHOD THEREOF - The present invention discloses a touch panel, having a light transmission touch sensing region and a peripheral region adjacent to at least one side of the light transmission touch sensing region. The touch panel includes a substrate, a patterned decoration frame, a decoration layer, and at least one touch sensing element. The patterned decoration frame is disposed on a surface of the substrate and in the peripheral region. The decoration layer is disposed on the patterned decoration frame, and the touch sensing element is disposed in the light transmission touch sensing region. | 11-13-2014 |
20140346027 | TOUCH PANEL - A touch panel, having a viewing region and a peripheral region adjacent to at least one edge of the viewing region, includes a plurality of first axis electrodes, a plurality of second axis electrodes, and a plurality of first traces. The first axis electrodes are disposed in the viewing region and extend along a first direction. The second axis electrodes are disposed in the viewing region and extend along a second direction. The first direction is not parallel to the second direction. The first traces are at least partially disposed in the viewing region. Each of the first traces is electrically connected to at least one of the first axis electrodes. The first traces extend from the viewing region to the peripheral region. | 11-27-2014 |
20140346028 | TOUCH PANEL - A touch panel including a substrate, first electrodes, second electrodes, first wires, second wires and a means for shortening a gap between the second electrodes in a third direction is provided. The first electrodes are arranged sequentially in a first direction. Each first electrode has openings arranged in a second direction intersecting the first direction. The second electrodes are located in the openings. Each first electrode and the second electrodes surrounded by the first electrode constitute a sensing unit. The first wires and the second wires connect the first electrodes and the second electrodes to a driving circuit. The means for shortening the gap between the second electrodes in the third direction renders a ratio of the gap between the second electrodes in the third direction to that in the second direction to be smaller than 1:3.4, where the third direction intersects either the first direction or the second direction. | 11-27-2014 |
20140347319 | TOUCH PANEL - A touch panel, having a center region and a peripheral region disposed on at least one side of the center region, includes a first electrode. The first electrode includes a plurality of first sub-electrodes and a plurality of second sub-electrode. The first sub-electrodes are disposed in the center region, and the second sub-electrodes are disposed on the peripheral region. A pattern density of the second sub-electrodes in the peripheral region is higher than a pattern density of the first sub-electrodes in the center region. | 11-27-2014 |
20140347577 | TOUCH PANEL - A touch panel, having a light transmission touch sensing region and a peripheral region adjacent to at least one side of the touch sensing region, includes a decoration layer, a hole-filling layer, an outer frame layer, and a touch sensing element. The decoration layer is disposed in the peripheral region and has at least one function hole. The hole-filling layer includes a first portion disposed at the function hole and a second portion overlapping at least one portion of the decoration layer. The outer frame layer is disposed in the peripheral region and partially overlaps the second portion of the hole-filling layer. The touch sensing element is disposed in the light transmission touch sensing region. | 11-27-2014 |
20140362043 | TOUCH PANEL - The present invention discloses a touch panel, which includes a substrate, a plurality of first axis electrodes, a plurality of second axis electrodes and an insulation structure. The first axis electrodes are disposed on the substrate along a first direction and each of the first axis electrodes includes a plurality of first sub electrodes and a plurality of connection structures. Each of the connection structures is at least partially disposed between each of the first sub electrodes and the substrate, and is electrically connected to two adjacent first sub electrodes. Each of the connection structures includes a first metal layer and a low reflective layer disposed between the substrate and the first metal layer. The low reflective layer of the present invention is applied to reduce the visibility of the connection structures, as well as to enhance the reliability of the touch panel. | 12-11-2014 |
20140368755 | Touch panel - A touch panel includes a substrate having a light-shielding region and a light-transmission region, a first conductive pattern disposed on the substrate, and a second conductive pattern disposed on the substrate in the light-shielding region. The first conductive pattern includes a plurality of peripheral electrodes extending from the light-transmission region into the light-shielding region. Each peripheral electrode includes a connecting part disposed in the light-shielding region. Each connecting part has two first sides opposite to each other. The second conductive pattern includes a plurality of connecting electrodes, and each connecting electrode is electrically connected to and partially overlaps each connecting part. Each connecting electrode has two second sides, and the second sides are disposed between the first sides. | 12-18-2014 |
20150029422 | TOUCH PANEL AND TOUCH DISPLAY PANEL - The present invention provides a touch panel and a touch display panel including an insulating layer, a first conductive pattern, and a second conductive pattern. The first conductive pattern and the second conductive pattern are respectively disposed on two sides of the insulating layer. The first conductive pattern includes a plurality of first electrode strips, wherein each first electrode strip includes a strip portion and a plurality of protrusion portions protruding from two sides of the strip portion. The second conductive pattern includes a plurality of second electrode strips, crossing the first electrode strips. | 01-29-2015 |
20150029423 | TOUCH PANEL - A touch panel is provided. The touch panel includes multiple sensing units, multiple connecting wires and multiple bridge wires. A part of the sensing units are arranged along a first direction, and another part of the sensing units are arranged along a second direction. A part of the connecting wires and a part of the bridge wires are connected to the part of the sensing units along the first direction. Another part of connecting wires and another part of bridge wires are connected to the another part of the sensing units along the second direction. The impedance value of each bridge wire is different from that of each connecting wire. | 01-29-2015 |
20150060125 | TOUCH PANEL - A touch panel includes a substrate, a plurality of first axis electrodes, a plurality of second axis electrodes and a first insulation layer. Each first axis electrode includes a plurality of first sub-electrodes and a plurality of first connection parts disposed between two adjacent first sub-electrodes. The first sub-electrodes and the first connection parts are monolithically formed. Each second axis electrode includes a plurality of second sub-electrodes and a plurality of second connection parts disposed between two adjacent second sub-electrodes. The second sub-electrodes and the second connection parts are monolithically formed. The first sub-electrodes and the second sub-electrodes are disposed on an identical surface. The first insulation layer is disposed on and completely covers the first axis electrodes. The first insulation layer is partially disposed between the first connection part and the second connection part. The first axis electrodes are disposed between the first insulation layer and the substrate. | 03-05-2015 |
20150060254 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF - A touch panel and a manufacturing method thereof are provided. The touch panel includes an insulating layer, a plurality of first conductive electrodes, a plurality of second conductive electrodes, a plurality of first auxiliary electrodes and a plurality of second auxiliary electrodes. The insulating layer has a plurality of through holes. The first conductive electrodes are arranged along a first direction and electrically connected with each other. The second conductive electrodes are arranged along a second direction and electrically connected with each other. The first auxiliary electrodes and the first conductive electrodes are electrically connected via part of the though holes. The second auxiliary electrodes and the second conductive electrodes are electrically connected via another of the though holes. | 03-05-2015 |
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 |