A liquid crystal display includes: a first insulation substrate; a gate line disposed on the first insulation substrate; a first data line and a second data line disposed on the first insulation substrate; a color filter disposed on the first insulation substrate and disposed between the first data line and the second data line; a first light blocking member disposed on the first data line and the second data line; and a second light blocking member disposed on the color filter and the first light blocking member, extending in the same direction as the gate line, and overlapping the first light blocking member on the first data line and the second data line.

A repairing method of defective pixels having light spots includes: connecting the pixel electrode and a drain electrode of the of the TFT via a point welding method; cutting off the continuous common electrode to divide the common electrode within the switch area and the common electrode within the pixel area; and removing the pixel electrode arranged above intersections of the common electrode, and connecting the pixel electrode within the switch area and the pixel electrode within pixel area. In addition, an array substrate and a liquid crystal panel are disclosed. By cutting off the common electrode within the pixel area switch area and the pixel area, the defective pixels having light spots are eliminated. In addition, such defective pixels are repaired to be pixels capable of emitting light normally.

A method of repairing a transistor, for repairing a short-circuit defect of a metal layer between a source and a drain of a thin film transistor; the repairing method including: acquiring a short-circuit region of the metal layer between the source and the drain of the thin film transistor; etching a protective layer located above the short-circuit region with a first wavelength laser; etching the metal layer located in the short-circuit region with a second wavelength laser; and partially etching a channel layer below the short-circuit region with a third wavelength laser.

A display device including: a first substrate; a first electrode layer disposed on an edge of the first substrate; a second electrode layer disposed on the first electrode layer; the first electrode layer and the second electrode layer defining a space in between; a metal sludge disposed in the space; and a connection electrode configured to cover a side surface of the first substrate, and disposed in the space to contact the first electrode layer, the second electrode layer, and the metal sludge.

A liquid crystal display includes: a first insulation substrate; a gate line disposed on the first insulation substrate; a first data line and a second data line disposed on the first insulation substrate; a color filter disposed on the first insulation substrate and disposed between the first data line and the second data line; a first light blocking member disposed on the first data line and the second data line; and a second light blocking member disposed on the color filter and the first light blocking member, extending in the same direction as the gate line, and overlapping the first light blocking member on the first data line and the second data line.

A peripheral design circuit of a liquid crystal display (LCD) panel includes a demultiplexer, a switch test, a driver integrated circuit (driver IC) zone, and a fanout structure. The driver IC zone comprises an upper bonding pad, a lower bonding pad, and a driver IC. The upper bonding pad and the lower bonding pad are arranged opposite. The driver IC is connected to the upper bonding pad and the lower bonding pad. The fanout structure is connected to the lower bonding pad and the demultiplexer. The switch test is arranged between the upper bonding pad and the lower bonding pad. The driver IC covers the switch test. The switch test is connected to the lower bonding pad.

The present invention provides a TFT structure and a repair method thereof, a GOA circuit. The TFT structure and the repair method thereof includes a source (10) having a plurality of independent U shape source branches (101). The drain (20) comprises a plurality strip drain branches (201). Each independent U shape source branch (101) is solely connected to a first metal line (30) with a connection part (103), and all the plurality of strip drain branches (201) are electrically coupled to a second metal line (40). The respective independent U shape source branches (101) and the corresponding strip drain branches (201) construct a plurality of independent source-drain conduction channels; as some independent U shape source branch (101) and the corresponding strip drain branch (201) are detected having a defect, the repair can be implemented by disconnecting the independent U shape source branch (101) and disconnecting the corresponding strip drain branch (201).

Disclosed is a method for detecting defects of a TFT array substrate. The method comprises steps of: positioning an abnormal area of the TFT array substrate; separating the abnormal area from other areas of the array substrate; and treating the abnormal area as such that multiple layers in the abnormal area can be revealed one by one, and detecting the revealed layers to determine a defective layer in the abnormal area.

The present disclosure provides a gate integrated driving circuit and a restoring method thereof, a display panel and a display apparatus. The gate integrated driving circuit may comprise a plurality of cascaded shift registers, wherein at least one restoring thin film transistor is provided in each of the cascaded shift registers and the restoring thin film transistor is configured to replace a thin film transistor having a failure in the shift register. When a thin film transistor in the shift register has a failure, the gate integrated driving circuit according to the present disclosure may replace the thin film transistor having the failure to operate. Thus, the restoring thin film transistor can restore the failure of the gate integrated driving circuit, thereby improving the productivity of the gate integrated driving circuit.

A repairing method of defective pixels having light spots includes: connecting the pixel electrode and a drain electrode of the of the TFT via a point welding method; cutting off the continuous common electrode to divide the common electrode within the switch area and the common electrode within the pixel area; and removing the pixel electrode arranged above intersections of the common electrode, and connecting the pixel electrode within the switch area and the pixel electrode within pixel area. In addition, an array substrate and a liquid crystal panel are disclosed. By cutting off the common electrode within the pixel area switch area and the pixel area, the defective pixels having light spots are eliminated. In addition, such defective pixels are repaired to be pixels capable of emitting light normally.