A display device provided with a plurality of display panels, wherein the display device is characterized in that: the display device is provided with a single control unit for controlling the drive of the plurality of display panels, and a rigid substrate extending along one direction, in which a wiring for conveying an output signal from the control unit is formed; the rigid substrate and the plurality of display panels constitute panel groups connected in series via a flexible substrate along a direction perpendicular to the longitudinal direction of the rigid substrate; and the flexible substrate that connects the rigid substrate and the display panel disposed next to the rigid substrate is provided with a source driver.

A liquid crystal display and a method for driving same, capable of eliminating large viewing angle color shift of a liquid crystal display having VA liquid crystals. The liquid crystal display comprises a liquid crystal panel (10) and a driving module (20). The driving module (20) is used for respectively providing different pixel voltages of the same polarity to each liquid crystal pixel (P.sub.ab) in the two adjacent frames to deflect liquid crystal molecules of the liquid crystal pixel (P.sub.ab), wherein in each of the two adjacent frames, the pixel voltage of each liquid crystal pixel (P.sub.ab) varies by using the average pixel voltage of liquid crystal pixels (P.sub.ab) in a pixel interval, in which the liquid crystal pixels (P.sub.ab) are spaced from the liquid crystal pixel (P.sub.ab) in a first direction, a second direction, a third direction, and a fourth direction by a plurality of pixels, as a parameter.

A liquid crystal display device includes a liquid crystal panel including a plurality of liquid crystal pixels, wherein the liquid crystal panel is configured to display a same picture in two adjacent frames; a driving module disposed on the non-display area, wherein the driving module is used to respectively provide each liquid crystal pixel with a same polarity pixel voltage of different levels in the two adjacent frames so as to deflect liquid crystal molecules of each liquid crystal pixel, and in each frame of the two adjacent frames, the level of the pixel voltage of each liquid crystal pixel is different from the level of the pixel voltage of the adjacent liquid crystal pixels in front, back, left or right.

A display panel and a display device are provided. The display panel comprises a display area including data lines and an irregular-shaped edge extending in a column direction, and scanning lines and light-emitting controlling lines extending in a row direction; a non-display area including a first and a second non-display areas disposed at opposite sides of the display area along the row direction; and at least one notch formed by recessing the irregular-shaped edge towards an inside of the display area. The first non-display area includes first shift registers, the second non-display area includes second shift registers and light-emitting controllers, a first and second shift registers are connected to two ends of a scanning line, and a light-emitting controller is connected to a light-emitting controlling line. The first non-display area includes a first sub-non-display area disposed adjacent to the at least one notch and including electrostatic discharge circuits.

A display device comprises: a display panel comprising a plurality of pixel regions each comprising one or more pixels; a plurality of receiver electrodes respectively associated with the plurality of pixel regions and configured to supply a VCOM voltage; and data write lines configured to transmit data write signals for writing6 display data into the plurality of pixel regions. One or more but not all of the plurality of receiver electrodes fail to supply the VCOM voltage, while the display data are being written into one or more but not all of the plurality of pixel regions.6

A liquid crystal display device includes a liquid crystal panel including a plurality of liquid crystal pixels, wherein the liquid crystal panel is configured to display a same picture in two adjacent frames; a driving module disposed on the non-display area, wherein the driving module is used to respectively provide each liquid crystal pixel with a same polarity pixel voltage of different levels in the two adjacent frames so as to deflect liquid crystal molecules of each liquid crystal pixel, and in each frame of the two adjacent frames, the level of the pixel voltage of each liquid crystal pixel is different from the level of the pixel voltage of the adjacent liquid crystal pixels in front, back, left or right.

A liquid crystal display device includes a liquid crystal panel including a plurality of liquid crystal pixels, wherein the liquid crystal panel is configured to display a same picture in two adjacent frames; a driving module disposed on the non-display area, wherein the driving module is used to respectively provide each liquid crystal pixel with a same polarity pixel voltage of different levels in the two adjacent frames so as to deflect liquid crystal molecules of each liquid crystal pixel, and in each frame of the two adjacent frames, the level of the pixel voltage of each liquid crystal pixel is different from the level of the pixel voltage of the adjacent liquid crystal pixels in front, back, left or right.

A substrate includes thin film transistors, each of which includes: an upper gate electrode formed of a first conductive film and continuous with one of gate lines; a source electrode formed of a second conductive film and continuous with one of source lines; a channel region formed of a portion of a semiconductor film over which an upper gate insulating film is disposed and overlapping the upper gate electrode; a source region formed of a portion of the semiconductor film and continuous with the channel region, and a drain region formed of a portion of the semiconductor film and continuous with the channel region on an opposite side of the channel region from the source region. The source electrode connects the source line and the source region through a first contact hole in an interlayer insulating film disposed over the first conductive film and containing a photosensitive material.

A liquid crystal writing film includes: a first conductive layer, a liquid crystal layer and a second conductive layer, which are arranged in sequence. At least one of the first conductive layer and the second conductive layer is divided into two or more conductive regions that are insulated from each other; and the positioning of a to-be-erased region is achieved by the positioning system, a set voltage is applied to the set conductive region, and the voltage forms a set electric field in the to-be-erased region to erase the to-be-erased region. According to the present invention, the partial erasing of the liquid crystal writing film can be realized by using a local electric field formed between two upper and lower conductive layers, the erasing speed is high, a partial erasing region can be accurately positioned, and meanwhile the storage and reproduction of a writing trajectory can be achieved.

A display panel and a display device are provided. The display panel comprises a display area including data lines and an irregular-shaped edge extending in a column direction, and scanning lines and light-emitting controlling lines extending in a row direction; a non-display area including a first and a second non-display areas disposed at opposite sides of the display area along the row direction; and at least one notch formed by recessing the irregular-shaped edge towards an inside of the display area. The first non-display area includes first shift registers, the second non-display area includes second shift registers and light-emitting controllers, a first and second shift registers are connected to two ends of a scanning line, and a light-emitting controller is connected to a light-emitting controlling line. The first non-display area includes a first sub-non-display area disposed adjacent to the at least one notch and including electrostatic discharge circuits.