Disclosed is a display panel, comprising a signal line, a test line for testing a signal line of the signal line, and a dummy line. The dummy line extends in a direction substantially consistent with that of the test line for preventing occurrence of electrostatic discharge on the test line. The test line and the dummy line have an overlapping region with the signal line, respectively, and the ratio of the area of the overlapping region between the dummy line and the signal line to the area of the dummy line is smaller than the ratio of the area of the overlapping region between the test line and the signal line to the area of the test line. A display device comprising the display panel is further disclosed.

An array substrate, a repair method of the array substrate, a display panel and a display device are provided. The array substrate includes a base substrate, and a common electrode layer, a common electrode line mesh, a first metal layer and a second metal layer which are on the base substrate, and the common electrode line mesh is electrically connected with the common electrode layer. The first metal layer includes a first signal line extending along a first direction; the second metal layer includes a second signal line extending along a second direction and a plurality of repair connection portions; and each repair connection portion has a first overlap portion overlapping the first signal line and a second overlap portion overlapping the common electrode line mesh.

An array substrate, manufacturing method thereof and display device are provided. The array substrate includes a plurality of scan lines, a plurality of data lines intersecting with the plurality of scan lines to as to define a plurality of pixel areas; a plurality of auxiliary segments, and each scan line and/or each data line respectively corresponding to at least a auxiliary segment, the scan line and/or data line and the corresponding auxiliary segment forming capacitive coupling to reduce signal delay on the scan line and/or data line. As such, the signal delay on the scan line and/or data line is reduced, and the charging rate and display effect are improved.

An active device array structure including a substrate including a first region and a second region, and first signal lines, second signal lines, third signal lines, and active devices disposed on the substrate is provided. A bending degree of the first region is greater than that of the second region. The first signal lines and the second signal lines cross through the first region and the second region. Each first signal line includes a first multi-segments structure located in the first region. Each first multi-segments structure includes first segments connected in parallel. An extending direction of the third signal lines is intersected with the first signal lines and the second signal lines. Each third signal line is electrically connected to one first signal line. The active devices are electrically connected to the second and the third signal lines, or the first and the third signal lines.

A substrate for a display device includes a pixel electrode, at least two signal lines, a first auxiliary capacitor, a second auxiliary capacitor, and an auxiliary capacitor connecting section. The at least two signal lines sandwich the pixel electrode, supply a signal to the pixel electrode and extend in an extending direction of a signal line. The first auxiliary capacitor extends and crosses the pixel electrode and the signal lines and overlaps the signal lines via a first interlayer insulator and overlaps the pixel electrode via a second interlayer insulator. The second auxiliary capacitor is disposed spaced from the first auxiliary capacitor with respect to the extending direction of the signal line and overlaps the pixel electrode via the second interlayer insulator and does not overlap one of the at least two signal lines. The auxiliary capacitor connecting section connects the first auxiliary capacitor and the second auxiliary capacitor.

A display device includes: display wires; first wires including first end portions overlapped with first end portions of the plurality of display wires via an insulating film; second wires including first end portions overlapped with second end portions of the display wires via the insulating film; third wires routed from second end portions of the first wires to second end portions of the second wires; a fourth wire overlapping with the second end portions of the first wires and first end portions of the third wires via the insulating film; and a fifth wire overlapping with the second end portions of the second wires and second end portions of the third wire via the insulating film.

An example display apparatus includes: a display panel having a display region and a non-display region located at peripheries of the display region; a signal line provided in the display panel to transmit an image signal; a spare wiring routed to an outside of the display panel and the non-display region of the display panel, and connected to the signal line; a plurality of connection terminals; and an amplifier which have an input side connected to a first connection terminal and an output side connected to the spare wiring, and the display apparatus is configured to input a signal from the signal line to the amplifier through the first connection terminal. On the output side of the amplifier, a part of the spare wiring is connected to a second connection terminal, and is routed to the non-display region from the outside of the display panel. The part of the spare wiring is further connected a third connection terminal, and is routed to the outside of the display panel.

A flexible array substrate includes a display area and a non-display area, and the non-display area includes a bending area adjacent to the display area. The bending area includes a plurality of signal lines and a plurality of auxiliary lines on the base substrate, and the plurality of auxiliary lines are on a side of the plurality of signal lines away from the base substrate. An insulating layer is disposed between the plurality of auxiliary lines and the plurality of signal lines, and the insulating layer is provided with a concave section group formed by a plurality of concave sections which are arranged along an extension direction of the signal line in a region where the bending area overlaps any one of at least some signal lines of the plurality of signal lines, and each of the auxiliary lines covers at least one of concave section groups.

A display device may include a switching device, a gate line, a data line, a pixel electrode, and an auxiliary line. The switching device includes a first electrode, a second electrode, and a third electrode. The gate line is electrically connected to the first electrode. The data line crosses the gate line in a plan view of the display device and is electrically connected to the second electrode. The pixel electrode is electrically connected to the third electrode. The auxiliary line is electrically connected through the first gate line to the first electrode and crosses the gate line in the plan view of the display device.

A liquid crystal display panel includes: a plurality of pixels arranged in a matrix; a plurality of pixel electrodes and a plurality of transistors provided in each of the plurality of pixels; and a scanning line connected to the plurality of transistors in each of the plurality of pixels arranged in a first direction. In each of the plurality of pixels, the plurality of pixel electrodes and the plurality of transistors are arranged in the first direction.