Patent application number | Description | Published |
20080251797 | Array substrate and method for manufacturing the same - An array substrate is disclosed. The array substrate comprises a substrate, a gate metal layer, a gate insulation layer, a semiconductor layer, a patterned metal layer, a flat layer, and a pixel electrode. The patterned metal layer is disposed on the surface of the semiconductor layer comprising a source and a drain, and on the surface of the gate insulation layer comprising a storage capacitor line and a data line. The storage capacitor line has an extending portion parallel to a scan line. The pixel electrode overlaps parts of the scan line, parts of the data line, parts of the storage capacitor line, and parts of the extending portion. A method for manufacturing the array substrate is also provided. | 10-16-2008 |
20100225624 | FLAT DISPLAY PANEL - A flat display panel includes a substrate, at least a driving chip, a plurality of control lines and conductive lines. The substrate has a display area and peripheral circuit area defined thereon. The driving chip is disposed in the peripheral circuit area, and has a plurality of pins. The pitches of adjacent pins are varied. The pitches of the pins in the central portion of the driving chip are smaller than the pitches of the pins in the border portion. The control lines and the conductive lines are disposed in the display area and the peripheral circuit area respectively, and the control lines are electrically connected to the conductive lines. | 09-09-2010 |
20120134460 | LAYOUT STRUCTURE OF SHIFT REGISTER CIRCUIT - An exemplary layout structure of a shift register circuit includes a first shift register and a second shift register arranged adjacent to the first shift register. The first shift register and the second shift register each receive a first signal and a second signal phase-inverted with respect to the first signal. Moreover, the first shift register and the second shift register share a common signal routing trace for receiving the first signal. The common signal routing trace is arranged extending into between the first shift register and the second shift register. | 05-31-2012 |
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 |
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 |
20120320021 | DISPLAY PANEL AND GATE DRIVING CIRCUIT AND DRIVING METHOD FOR GATE DRIVING CIRCUIT - An exemplary gate driving circuit is adapted for driving a display panel including multiple pixels and includes a first gate driving unit string and a second gate driving unit string. The first gate driving unit string includes multiple cascade-connected first gate driving units and receives a start pulse. The first gate driving units are for generating output pulses to drive the pixels. The second gate driving unit string includes multiple cascade-connected second gate driving units and receives the start pulse. The second gate driving units are for generating output pulses to drive the pixels. The output pulse generated from one of the second gate driving units is provided to one of first gate driving units to determine whether to disable the output pulse of the first gate driving unit which receives the output pulse generated from the second gate driving units. | 12-20-2012 |
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 |
20140369457 | SHIFT REGISTER CIRCUIT - A shift register circuit includes a first pull-down control circuit, a first pull-down circuit electrically connecting to the first pull-down control circuit, a first inversed pulse signal coupling circuit outputting a first inversed pulse signal, a first pull-up circuit outputting a first gate control signal, and a first main pull-down circuit electrically connecting to the first pull-up circuit. The first pull-up circuit receives a first driving signal and a first pulse signal to output the first gate control signal. The first inversed pulse signal coupling circuit duly outputs the first inversed pulse signal to compensate a surge occurring in the first driving signal. | 12-18-2014 |