The present disclosure relates to an array substrate, a liquid crystal display panel, and a display apparatus. In an embodiment, an array substrate includes: a plurality of pixel electrodes arranged in an array, data signal lines each connected to a corresponding one of the pixel electrodes, and touch control signal lines extending in a same direction as the data signal lines. Every two ones of the pixel electrodes adjacent to each other in a row direction constitute an electrode set. Each of the data signal lines is located in a gap between two adjacent electrode sets in a column direction, and the touch control signal lines are each disposed between one of the data signal lines and either of two adjacent electrode sets located adjacent to the one data signal line in the row direction.

A liquid crystal display including a first substrate; a pixel electrode which includes a first subpixel electrode and a second subpixel electrode disposed adjacent to and spaced apart from the first subpixel electrode on the first substrate; a second substrate facing the first substrate; and a common electrode disposed on the second substrate and defines a first slit thereof and a second slit thereof which is connected to the first slit. The first subpixel electrode defines a first plate-shaped portion overlapping the first slit and a plurality of first branches which extend from the first plate-shaped portion, and the second subpixel electrode defines a second plate-shaped portion overlapping the second slit and a plurality of second branch portions which extend from the second plate-shaped portion. At least one of the first branch portions is connected to at least one of the second branch portions.

An array substrate includes: a substrate, having a display region and a wiring region; at least one active switch, disposed on the substrate; a plurality of scanning lines and a plurality of data lines, disposed on the substrate, where the scanning lines are electrically connected to a control end of the active switch, and the data lines are electrically connected to an input end of the active switch; and a plurality of pixels, disposed on the display region and electrically connected to an output end of the active switch, where: the pixels include a VA pixel and at least one polymer-stabilized VA pixel, where: the polymer-stabilized VA pixel is a blue pixel; and a pixel electrode of the VA pixel and a pixel electrode of the polymer-stabilized VA pixel are separately electrically coupled to the substrate.

A liquid crystal display device includes a substrate, a first coupling electrode disposed on the substrate, a first insulating layer disposed on the first coupling electrode, a second coupling electrode disposed on the first insulating layer and capacitively coupled to the first coupling electrode, a second insulating layer disposed on the second coupling electrode, and a pixel electrode including first and second sub-pixel electrodes, which are disposed on the second insulating layer and are electrically insulated from each other, where the first sub-pixel electrode is electrically connected to the first coupling electrode via a first contact hole, which is defined in the first and second insulating layers, and the second sub-pixel electrode is electrically connected to the second coupling electrode via a second contact hole which is defined in the second insulating layer.

A display device includes a first unit pixel disposed in a first pixel column and a first pixel row, and a second unit pixel disposed in the first pixel column and a second pixel row adjacent to the first pixel row, and first and second gate lines extending in a row direction and having gate voltage input pads at a terminal portion thereof. First and second data lines extend in a column direction and are connected to the first unit pixel and the second unit pixel, respectively. A first charge control line extends in the row direction and has a charge control gate voltage input pad disposed at a terminal portion thereof. The first gate line is connected to the first unit pixel and the second gate line is connected to the second unit pixel. The first gate line and the second gate line simultaneously receive a same gate pulse.

An array substrate, a method for fabricating the same, and a display device are disclosed. The array substrate comprises a plurality of sub-pixels in a display region which are defined by gate lines and data lines intersecting with each other. The array substrate further comprises a common electrode and a pixel electrode on the substrate. The common electrode comprises a plurality of first strip-shaped sub-electrodes, wherein each of the first strip-shaped sub-electrodes runs through the display region; and a common electrode line which electrically connects all of the first strip-shaped sub-electrodes.

A display panel includes a plurality of pixels. Each pixel includes a plurality of different-color sub-pixels and a coupling sub-pixel that overlaps at least one color sub-pixel so as to be configured to be capacitively coupled to the at least one color sub-pixel to be thereby driven so as to display a color different from that of the different-color sub-pixels.

A pixel array substrate and a display device are disclosed. Wherein, an arrangement direction starting from the first pixel to the second pixel in the pixel unit is defined as a first direction, a conductive sequence of the scanning lines is defined as a second direction. In each of the at least two display regions, the first direction and the second direction are the same, in different display regions, the second directions are the same. The present invention can avoid that in adjacent pixel units, a coupling effect among pixels having different capacitances will make a middle region of the display region to have a larger brightness.

A display region (10d) of a liquid crystal display panel (100) has a first display region (10da) and a second display region (10db). In the display region (10d), a gate bus line (12) extends in a first direction and a source bus line (14) extends in a second direction. A first gate driver (32) and a first source driver (35) for driving a first pixel in the first display region and a second gate driver (32) and a second source driver (35) for driving a second pixel in the second display region are respectively provided. The liquid crystal display panel (100) is further provided with a plurality of first auxiliary wirings (15) extending in the second direction and provided between two first pixels adjacent to each other in the first direction, and a plurality of second auxiliary wirings (15) extending in the second direction and provided between two second pixels adjacent to each other in the first direction.

A pixel structure includes scan lines, data lines and pixel areas. The scan lines are separately arranged in parallel in a horizontal direction. The data lines are separately arranged in parallel in a vertical direction. The scan lines and the data lines overlap with each other to form the pixel areas. The pixel structure further includes a connection electrode coupled to pixel areas. The connection electrode includes a first connection layer and a second connection layer. The first connection layer is in the same pattern layer as the scan lines and intersects with the scan lines. The first connection layer at an intersecting position with the scan line is disconnected. The second connection layer is in the same pattern layer as the data lines and crosses the scan lines.