| Patent application number | Description | Published |
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| 20090193190 | Memory Card and Accessing Method and Accessing System for the same - In a memory card and accessing method and accessing system for the memory card, the accessing method and accessing system are adapted to data access between a memory card and a machine using a first operation system. The accessing method firstly checks whether the data in the memory card is stored according to a data storage type supporting both the first operation system and a second operation system. When the data is not stored according to the data storage type, the machine is prohibited from accessing the memory card. A version value is stored in the memory card, wherein the version value is a value different from a predetermined version value. The second operation system deems the memory card un-accessible when the version value is confirmed to be not the predetermined version value. | 07-30-2009 |
| 20090237341 | Gate driving module and LCD thereof - A gate driving module drives a display device having a plurality of first switch units. The gate driving module includes a gate driving circuit, a switch controlling circuit, and a plurality of switch sets. The gate driving circuit includes a plurality of first output ends for outputting a plurality of gate driving signals. The switch controlling circuit includes a plurality of second output ends for outputting a plurality of switch controlling signals. Each switch set includes at least two second switch units. One end of each second switch unit is coupled to a corresponding first output end of the gate driving circuit, the other end of each second switch unit is coupled to the control end of a corresponding first switch unit, and the control end of each second switch unit is coupled to a corresponding second output end. | 09-24-2009 |
| 20090243981 | Driving module of display device and method for extending lifetime of the driving module - A driving module drives a display device having a plurality of pixel switches. The driving module includes a gate driving circuit, a plurality of switch components, and a shorting line. The gate driving circuit includes a plurality of output ends correspondingly coupled to the plurality of the pixel switches through a plurality of gate lines for outputting a plurality of gate driving signals and turning on the plurality of the pixel switches. The plurality of the gate lines are coupled to the shorting line through the switch components. Each control end of the switch components is coupled to the gate driving circuit for receiving the gate driving signals in order to refresh the state of the switch components. | 10-01-2009 |
| 20090284706 | FLAT-PANEL DISPLAY DEVICE HAVING TEST ARCHITECTURE - A flat-panel display device having test architecture is disclosed for disposing shorting bars without sacrificing wiring-on-array bus layout area of the outer-lead-bonding region. The flat-panel display device essentially includes a substrate having a plurality of driving integrated-circuit (IC) mounting areas, a plurality of signal lines and transmission lines disposed on the substrate, and a plurality of shorting bars disposed on the driving IC mounting areas. Each shorting bar is coupled to a corresponding signal line and a corresponding transmission line. Furthermore, in order to take out the laser-cutting process in the fabrication of the flat-panel display device for saving production cost, each driving IC mounting area is further disposed with a plurality of transistors for controlling the signal connections between the shorting bars and the signal lines, and also for controlling the signal connections between the shorting bars and the transmission lines. | 11-19-2009 |
| 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 |
| 20100302215 | LIQUID CRYSTAL DISPLAY DEVICE AND LIQUID CRYSTAL DISPLAY PANEL THEREOF - A pixel array of a liquid crystal display panel in a half source driver (HSD) model is provided. Each two pixels adjacent in the array location are connected to different data lines. Accordingly, the liquid crystal display panel adopting the driving manner of the column inversion can achieve the display effect of the dot inversion. Therefore, the present invention can substantially reduce the power consumption of the source driver and decrease the flicker effect. | 12-02-2010 |
| 20110013740 | SHIFT REGISTER CIRCUIT HAVING BI-DIRECTIONAL TRANSMISSION MECHANISM - A shift register includes a plurality of shift register stages for providing gate signals. Each shift register stage has a pull-up unit, a carry unit, a carry control unit, an input unit and a pull-down unit. The pull-up unit is employed to pull up a gate signal according to a driving control voltage and a first clock. The carry unit generates a preliminary start pulse signal based on the driving control voltage and the first clock. The carry control unit outputs the preliminary start pulse signal to become a forward or backward start pulse signal according to first and second bias voltages. The input unit is utilized for inputting a start pulse signal generated by a preceding or succeeding shift register stage to become the driving control voltage. The pull-down unit pulls down the gate signal, the preliminary start pulse signal and the driving control voltage according to multiple clocks. | 01-20-2011 |
| 20110044423 | SHIFT REGISTER - A shift register includes a plurality of electrically connected shift units. Each shift unit includes a pull-up circuit, a pull-up driving circuit, a pull-down circuit, and a pull-down driving circuit. The pull-up circuit outputs a first signal to an output node according to the first signal and a voltage of a driving node. The pull-up driving drives the pull-up circuit according to an output voltage of the previous shift unit. The pull-down driving circuit outputs a low level voltage to the driving node and the output node according to the first signal and a second signal. The pull-down circuit resets the pull-up driving circuit according to the voltage of the output node and outputs the low level voltage to the output node and the driving node according to a third signal and a fourth signal. | 02-24-2011 |
| 20110058642 | SHIFT REGISTER CIRCUIT AND GATE SIGNAL GENERATION METHOD THEREOF - A shift register circuit includes a plurality of shift register stages for providing plural gate signals to plural gate lines. Each shift register stage includes an input unit, a first pull-up unit, a second pull-up unit, a pull-down unit and an auxiliary pull-down unit. The input unit inputs a first gate signal generated by a preceding shift register stage to become a driving control voltage. The first pull-up unit pulls up a second gate signal according to the driving control voltage and a first clock signal. The second pull-up unit pulls up a third gate signal according to the driving control voltage and a second clock signal. The auxiliary pull-down unit is employed to pull down the driving control voltage according to a fourth gate signal generated by a subsequent shift register stage. The pull-down unit pulls down the first and second gate signals according to the driving control voltage. | 03-10-2011 |
| 20110158377 | 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. | 06-30-2011 |
| 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 |
| 20110285690 | ESD PROTECTION CIRCUIT AND DISPLAY APPARATUS USING THE SAME - An ESD protection circuit comprises three transistors and two voltage dividers. The two source/drain terminals of a first transistor are electrically coupled to a first power line and a second power line respectively. The two source/drain terminals of a second transistor are electrically coupled to the first power line and a gate terminal of the first transistor respectively. The two source/drain terminals of a third transistor are electrically coupled to the gate terminal of the first transistor and the second power line respectively. A first voltage divider supplies a first voltage to a gate terminal of the second transistor according to a potential difference between the first power line and the second power line. A second voltage divider supplies a second voltage to a gate terminal of the third transistor according to the potential difference between the first power line and the second power line. | 11-24-2011 |
| 20110293063 | SHIFT REGISTER CIRCUIT AND GATE SIGNAL GENERATION METHOD THEREOF - A shift register circuit includes a plurality of shift register stages for providing plural gate signals to plural gate lines. Each shift register stage includes an input unit, a first pull-up unit, a second pull-up unit, a pull-down unit and an auxiliary pull-down unit. The input unit inputs a first gate signal generated by a preceding shift register stage to become a driving control voltage. The first pull-up unit pulls up a second gate signal according to the driving control voltage and a first clock signal. The second pull-up unit pulls up a third gate signal according to the driving control voltage and a second clock signal. The auxiliary pull-down unit is employed to pull down the driving control voltage according to a fourth gate signal generated by a subsequent shift register stage. The pull-down unit pulls down the first and second gate signals according to the driving control voltage. | 12-01-2011 |
| 20120001865 | LIQUID CRYSTAL DISPLAY HAVING TOUCH INPUT SENSING AND TOUCH SENSING METHOD THEREOF - A liquid crystal display having touch input sensing includes a display panel and sensing units integrated in the display panel. The display panel has scan lines for delivering scan signals and readout lines for delivering readout signals. The sensing unit resets a sensing voltage according to a low-level voltage of the scan signal. Further, the sensing unit pulls up the sensing voltage according to a high-level voltage of the scan signal and an increase of the sensing voltage is under the control of a touch event. The readout signal is generated by the sensing unit based on the sensing voltage and the high-level voltage of the scan signal. | 01-05-2012 |
| 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 |
| 20120086627 | Display Device with Bi-directional Shift Registers - A display device having bi-directional shift registers is disclosed. The display device includes a display panel which has N gate lines, a first set of dummy registers, a second set of dummy registers, a plurality of valid shift registers coupled between the two sets of dummy registers, and a first start pulse signal generator coupled to the first valid register for generating the first start pulse signal to the first valid register to enable the first gate line. The first valid register is coupled to the first set of dummy registers. The Nth valid register is coupled to the second set of dummy registers. | 04-12-2012 |
| 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 |
| 20120169703 | SHIFT REGISTER CIRCUIT - A shift register circuit includes plural shift register stages for providing plural gate signals. Each shift register stage includes a driving unit, an input unit, a driving adjustment unit and a pull-down unit. The driving unit is utilized for outputting a gate signal according to a system clock and a driving control voltage. The input unit is put in use for outputting the driving control voltage according to an input control signal and a first input signal. The driving adjustment unit is employed for adjusting the driving control voltage according to a second input signal and a third input signal. The pull-down unit is used for pulling down the gate signal and the driving control voltage according to a fourth input signal. | 07-05-2012 |
| 20120170707 | SWITCH DEVICE AND SHIFT REGISTER CIRCUIT USING THE SAME - A shift register circuit includes plural shift register stages for providing plural gate signals. Each shift register stage includes an input unit and a pull-up unit. The pull-up unit is utilized for pulling up a gate signal according to a system clock and a driving control voltage. The input unit is employed for outputting the driving control voltage according to a control signal and an input signal. The input unit includes a switch device having a first transistor and a second transistor. The first transistor has a first end for receiving the input signal, a gate end for receiving the control signal, and a second end. The second transistor has a first end electrically connected to the second end of the first transistor, a gate end electrically connected to the first end of the first transistor, and a second end for outputting the driving control voltage. | 07-05-2012 |
| 20120176340 | TOUCH MODULE AND TOUCH DETECTING METHOD - A touch module including an image sensing unit, a plurality of first reflecting elements, a plurality of second reflecting elements, and a processing unit is provided. The image sensing unit is positioned in correspondence with a first corner of a sensing area and capable of capturing a sensing image to output an image signal. The first reflecting elements and the second reflecting elements respectively have different first angles and different second angles, are disposed along a first and the second edges of the sensing area respectively, and are capable of reflecting a touch object to form a first and a second image in the sensing image. A second corner formed by the first the second edges is diagonal to the first corner. The processing unit is coupled the image sensing unit and receives the image signal to determine the position of the touch object relative to the sensing area. | 07-12-2012 |
| 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 |
| 20130272486 | SHIFT REGISTER CIRCUIT USING A SWITCH DEVICE - A shift register circuit includes plural shift register stages for providing plural gate signals. Each shift register stage includes an input unit and a pull-up unit. The pull-up unit is utilized for pulling up a gate signal according to a system clock and a driving control voltage. The input unit is employed for outputting the driving control voltage according to a control signal and an input signal. The input unit includes a switch device having a first transistor and a second transistor. The first transistor has a first end for receiving the input signal, a gate end for receiving the control signal, and a second end. The second transistor has a first end electrically connected to the second end of the first transistor, a gate end electrically connected to the first end of the first transistor, and a second end for outputting the driving control voltage. | 10-17-2013 |
| 20140103983 | GATE DRIVING CIRCUIT - A shift register of a gate driving circuit includes a pull-up unit for pulling up a first output signal and a first gate signal to a high voltage level according to a driving voltage and a high-frequency clock signal, a start-up unit for transmitting a second gate signal, an energy-store unit for providing the driving voltage to the pull-up unit according to the second gate signal, a first discharging unit for pulling down the driving voltage to a first voltage level according to a first control signal, a first leakage-preventing unit for turning off the first discharging unit when the first gate signal reaches the high voltage level, a first pull-down unit for respectively pulling down the first output and first gate signals to the first and a second voltage levels according to the first control signal, and a first control unit for generating the first control signal. | 04-17-2014 |
| 20140105351 | SHIFT REGISTER - A shift register includes a plurality of shift register circuits, where an Nth shift register circuit of the shift register includes a driving unit, a boost unit, a pull up unit, and a key pull down unit. The driving unit is for providing a gate signal, a first boost control signal, and a first transmission control signal according a first driving signal and a high frequency clock signal. The boost unit is for boosting the voltage of the first driving signal according to a first boost signal. The pull up unit is for providing a second driving signal according to the first transmission control signal and the gate signal, and is for providing a second boost signal according to the first boost control signal and a second boost control signal. The key pull down unit is for pulling down the first driving signal according to a second transmission control signal. | 04-17-2014 |
| 20140118324 | DISPLAY APPARATUS, DRIVING MODULE THEREOF, VOLTAGE CONTROL CIRCUIT AND VOLTAGE CONTROL METHOD - A voltage control circuit used to control a first clock signal received by a gate driver array of a display apparatus is provided. The voltage control circuit includes a gate trigger pulse generator unit and a controller. The gate trigger pulse generator unit receives a reference voltage and a driving signal outputted from the gate driver array, and accordingly generate a gate trigger pulse; wherein a pulse width of the gate trigger pulse is controlled according to a level relationship between the driving signal and the reference voltage. The controller, coupled to the gate trigger pulse generator unit, receives the gate trigger pulse and control a potential difference of a pulse level of the first clock signal according to the pulse width of the gate trigger pulse. A voltage control method, a driving module of a display apparatus and a display apparatus are also provided. | 05-01-2014 |
| 20140283897 | SOLAR POWER MODULE - A solar power module includes a first frame, a second frame, and a solar cell laminate. The first frame includes a first main body and a first clamping portion. The first clamping portion is disposed along the inner edge of the first main body to be ring-shaped. The second frame includes a second main body and a second clamping portion. The second main body abuts against the first main body. The second clamping portion is disposed along the inner edge of the second main body to be ring-shaped and corresponding to the first clamping portion. The periphery of the solar cell laminate is clamped between the first clamping portion and the second clamping portion. | 09-25-2014 |
| 20140290742 | FRAME STRUCTURE AND SOLAR MODULE HAVING THE SAME - A frame structure includes a first horizontal board, a second horizontal board, a first vertical board, a third horizontal board, a second vertical board, and at least one support element. The first vertical board is connected to the first and second horizontal boards. The second vertical board is connected to the second and third horizontal boards. At least a portion of the second horizontal board and at least a portion of the third horizontal board protrude from the second vertical board, such that an open accommodating space is defined between the second horizontal board, the second vertical board, and the third horizontal board. The support element is detachably positioned in the accommodating space. A top surface of the support element is abutted against the second horizontal board, and a bottom surface of the support element is abutted against the third horizontal board. | 10-02-2014 |
| 20140299185 | PHOTOELECTRICAL COVERSION MODULE - A photoelectrical conversion module includes at least one photoelectrical conversion device, at least one first ribbon, a second ribbon, and at least two encapsulation layers. The photoelectrical conversion device includes a solar substrate having a plurality of finger electrodes. The first ribbon is located on the solar substrate and is intersected with the finger electrodes. The first ribbon has a first connection portion located out of the solar substrate. The second ribbon has at least one second connection portion. The first connection portion is intersected and overlapped with the second connection portion, such that a portion of the first connection portion is located above the second connection portion, and another portion of the first connection portion is located under the second connection portion. The relative position of the first and second ribbons is fixed by the encapsulation layers. | 10-09-2014 |
| 20150060641 | OPTICAL TOUCH DEVICE - An optical touch device defining a sensing area includes two scanning modules and a light detecting element. The scanning modules respectively disposed on terminals of a first side of the sensing area include light-emitting elements and reflective elements. The light-emitting element is used for emitting a detective light along a first pathway and the reflective element has a reflective surface for reflecting the detective light such that the detective light is emitted along a second pathway. There is an angle forming between the first side and the second pathway and the reflective surface changes a direction of the second pathway such that the detective light scans in the sensing area. The detective light has a first intensity and a second intensity, in which the first intensity is less than the second intensity. The light detecting element is used for receiving a detective light reflected by an object. | 03-05-2015 |
| 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 |
