Abstract:
The disclosure provides, in part a seal system for sealing a film. The disclosure further provides, in part, a sealed film comprising a first and a second substrate; a first and a second electrode disposed on the surface of at least one of the substrates; a switching material disposed between the first and second substrates; a first seal and a second seal; the first seal disposed along an edge of the switching material, separating the switching material from the second seal.
Abstract:
The embodiments of present invention disclose a direct type backlight module, comprising a backplate and a plurality of strip lamps provided on the backplate, each of the strip lamps is provided with a lamp set composed of a plurality of light-emitting diodes. The direct type backlight module further comprises a plurality of wires, the lamp set of at least one strip lamp of the plurality of strip lamps is electrically connected to the power supply via the plurality of wires. The lamp set of the at least one strip lamp has two terminals, i.e., positive/negative terminals, the positive/negative terminals of the lamp set of the at least one strip lamp are electrically connected to the corresponding wires via a pair of mated connectors.
Abstract:
An electronic device includes a conductive structure, a first insulation layer and a second insulation layer. The first insulation layer is disposed on the conductive structure. The second insulation layer is disposed on the first insulation layer. The first insulation layer includes a first hole, and the first hole overlaps a part of the conductive structure. The second insulation layer includes a second hole, and the first hole and the second hole at least partially overlap. A width of the second hole is less than a width of the first hole.
Abstract:
The present application discloses an array substrate including a first signal line layer having a plurality of rows of first signal lines; a second signal line layer having a plurality of columns of second signal lines; the plurality of rows of first signal lines crossing over the plurality of columns of second signal lines defining a plurality of subpixels; a first insulating layer and a second insulating layer between the first signal line layer and the second signal line layer; the first insulating layer on a side of the second insulating layer proximal to the first signal line layer; a repair line between the first insulating layer and the second insulating layer, the repair line corresponding to one of the plurality of columns of second signal lines; and a first via and a second via extending through the second insulating layer; the repair line being electrically connected to the corresponding one of the plurality of columns of second signal lines through the first via and the second via, respectively.
Abstract:
A display panel and a manufacturing method thereof, and a display device are provided. The display panel includes an array substrate and an opposite substrate. The array substrate includes signal lines including a gate line and/or a source line. The opposite substrate includes auxiliary lines corresponding to the signal lines, and the signal lines are electrically connected to the corresponding auxiliary lines. The signal lines are insulated from each other. The signal lines and the electrically connected auxiliary lines are configured to transmit signals to electrodes electrically connected to the signal lines.
Abstract:
The embodiments of present invention disclose a direct type backlight module, comprising a backplate and a plurality of strip lamps provided on the backplate, each of the strip lamps is provided with a lamp set composed of a plurality of light-emitting diodes. The direct type backlight module further comprises a plurality of wires, the lamp set of at least one strip lamp of the plurality of strip lamps is electrically connected to the power supply via the plurality of wires. The lamp set of the at least one strip lamp has two terminals, i.e., positive/negative terminals, the positive/negative terminals of the lamp set of the at least one strip lamp are electrically connected to the corresponding wires via a pair of mated connectors.
Abstract:
A display substrate includes a pixel, an organic layer and a shorting pad structure. The pixel electrode is arranged at a display area of a base substrate, and the pixel electrode is electrically connected to a transistor connected to a gate line and data line. The organic layer is arranged at the base substrate, and the organic layer is arranged between the transistor and the pixel electrode. The shorting pad structure is disposed at a peripheral area of the display area, and the shorting pad structure includes a first pad electrode at a lower height, a second pad electrode at a higher height, and a first height compensation pattern interposed between the first and second pad electrodes. A contact hole is defined through the organic layer so that second pad electrode can be electrically connected there through to the first pad electrode.
Abstract:
Provided is a method for producing a liquid crystal panel capable of repairing a defective portion of an alignment film more easily. Provided is a method for producing a liquid crystal panel, including the step of repairing a defective portion 50 of an alignment film 30 formed on a substrate 12 by use of a repair stamp 60 having repair ink 61 attached thereto. The step of repairing includes step (a) of locating the repair stamp 60 in a zone (repair zone) 55 including the defective portion 50; step (b) of moving the repair stamp 60 from the position (60a) at which the repair stamp 60 has been located in step (a); and step (c) of moving the repair stamp 60 again from a position (60b) to which the repair stamp 60 has been moved in step (b) to the position (60a) at which the repair stamp 60 was located in step (a).
Abstract:
An array substrate comprises a plurality of data lines (300) and a plurality of groups of gate lines (110,120), the plurality of data lines (300) and the plurality of groups of gate lines (110,120) intersect each other for dividing the array substrate into a plurality of pixel units. Each group of gate lines (110,120) defines a row of a plurality of pixel units and comprises a first gate line (110) and a second gate line (120). Each pixel unit comprises a first pixel electrode (210) and a second pixel electrode (220), the first pixel electrode (210) corresponds to the second gate line (110) and the second pixel electrode (220) corresponds to the first gate line (110). Each pixel unit comprises a first repair unit (230) electrically coupled to the first pixel electrode (210) and forming a first repair capacitance with the first gate line (110), and a second repair unit (280) electrically coupled to the second pixel electrode (220) and forming a second repair capacitance with the second gate line (120). Each pixel unit further comprises a main compensating unit (270) electrically coupled to the first pixel electrode (210) and forming a compensation capacitance with the second gate line (120). A display panel comprising the array substrate, a display device comprising the display panel and an electronic device comprising the display device are also provided.