A repairing method for an array substrate is provided. The array substrate includes at least one defective signal line, which is a data line or a gate line having a breakpoint. The defective signal line is divided by the breakpoint into a first portion and a second portion. The repairing method includes disconnecting a connection between a first thin film transistor and a data line or a gate line to which the first thin film transistor is connected, the first thin film transistor being a thin film transistor closest to the breakpoint among thin film transistors connected to the first portion; electrically connecting a first terminal of the first thin film transistor to the first portion; and taking a common electrode line segment from a common electrode line to which the first pixel electrode corresponds as a repair line.

A display substrate includes: a base substrate, as well as a first metal layer, a first insulating layer, a second metal layer, a second insulating layer, and a common electrode metal layer laminated on one side of the base substrate. The common electrode metal layer includes metal line segments and connecting line segments. The metal line segments include first metal line segments and second metal line segments. The connecting line segments connect the adjacent first and second metal line segments. Each connecting line segment is provided with a maintenance line segment. Orthographic projections of the maintenance line segments on the base substrate do not overlap those of gate lines and data lines on the base substrate. The spacing between the orthographic projections of the maintenance line segments and those of the gate lines and data lines is greater than or equal to a preset distance, which is greater than zero.

The present disclosure relates to the field of display technology, and provides a method for repairing broken line, an array substrate, and an active matrix display device. The method for repairing broken line comprises: providing an array substrate including a data driving circuit disposed in the bottom peripheral area, a plurality of data lines derived from the data driving circuit and extending to the top peripheral area through the active area, a repair line derived from the data driving circuit and extending along the side peripheral area and the top peripheral area, detecting each of the data lines of the array substrate to determine a broken data line including a first section and a second section disconnected with each other; performing laser-welding on an laser intersection position between the broken data line and the repair line in the top peripheral area to weld the broken data line and the repair line; forming, by disconnecting the repair line near the intersection position in the top peripheral area, a repair section which is extending from the data driving circuit to be conductive connected with the second section, and signals are introduced to two disconnected sections of the broken data line from the data driving circuit, and the data driving circuit and the repair section, respectively. The present disclosure can achieve a high repair success rate of the broken data line and a small resistance-capacity loading after repairing.

A display panel may include a first display substrate. The first display substrate may include a base layer defining a display area and a non-display area that is adjacent to the display area, a gate line disposed on the base layer, a first insulating layer disposed on the base layer and covering the gate line, and a test line overlapping the non-display area and disposed on the first insulating layer, the test line being in electric contact with the gate line through a first contact hole defined in the first insulating layer.

A method for repairing a broken wire, a substrate and a display device are provided. The method is adopted for electrically connecting a first conductive point and a second conductive point separated from each other on a substrate. The method includes: forming a conductive polymer precursor thin film to physically connect the first conductive point and the second conductive point; and performing a polymerizing process on the conductive polymer precursor thin film to form a conductive polymer electrically connecting the first conductive point and the second conductive point.

The present application provides a display panel, a display device and a repairing method of the display panel, the display panel includes: a color filter substrate; an array substrate opposite to the color filter substrate and provided with a plurality of pixel areas at intervals, and each of the pixel areas including a signal line and a light-emitting diode electrically connected with the signal line; a liquid crystal layer located between the array substrate and the color filter substrate; a common electrode located on a surface of the color filter substrate facing the liquid crystal layer; and a plurality of compensation electrodes arranged at intervals and located on a surface of the array substrate facing the liquid crystal layer, the common electrode is opposite to the compensation electrodes, and the plurality of compensation electrodes corresponding to the plurality of light-emitting diodes one by one.

This application discloses a display panel and a display apparatus. The display panel includes a common electrode cable, an active switch, and a signal cable. The signal cable is overlapped with the active switch to form a first overlapping region, and a first extension cable and a second extension cable of the common electrode cable are connected to the signal cable to form a second overlapping region and a third overlapping region.

A display panel and a repair method for the display panel, and a display device are disclosed. The display panel includes a plurality of horizontally disposed first lines and a plurality of vertically disposed second lines. The first lines intersect with the second lines. Each of the first lines is divided into at least two first sub-lines located at an intersection of each of the first lines and each of the second lines. The two first sub-lines are insulated from each other and arranged in parallel. In this manner, the present invention can increase a success rate of repairing the display panel, and improve yield of the display panel.

A display panel comprises a first substrate, a second substrate, and an active switch matrix. The first substrate comprises color resistor units, and the second substrate is disposed opposite to the first substrate. The active switch matrix is disposed on the first substrate or the second substrate. The active switch matrix comprises scan lines and data lines. A first repair line is disposed on one side of at least one of the scan lines, and a second repair line is disposed on one side of at least one of the data lines.

A method for repairing a white defect of a LCD panel includes providing a substrate, the substrate defining pixel areas which themselves comprise a base, a first metal layer, a first insulating layer, a semi-conductor layer, an ohmic contact layer, a source electrode, a drain electrode, and a second insulating layer; forming a through hole by laser in the second insulating layer, the through hole extending through the second insulating layer and separating the drain electrode into two spaced parts; forming a third insulating. layer to cover the first conductive layers, the second insulating layer and the though hole and forming a second conductive layer by laser on the third insulating layer to couple the first conductive layer to the second conductive layer.