According to one embodiment, a display device includes a first common electrode and a second common electrode arranged in a first direction, a first switch unit selectively supplying a first drive signal or a second drive signal different from the first drive signal to the first common electrode, and a second switch unit selectively supplying the first drive signal or the second drive signal to the second common electrode, wherein the second common electrode and the first switch unit are arranged in a second direction intersecting the first direction, the first switch unit comprises a first switch circuit and a second switch circuit arranged in the second direction.

An FFS mode array substrate and a manufacturing method thereof are provided. The FFS mode array substrate has: a second insulation layer deposited on a base layer, wherein a first through hole and a second through hole are formed in the second insulation layer; a pixel electrode layer deposited on the second insulation layer, wherein the pixel electrode layer is provided with a plurality of pixel electrodes; and a third insulation layer formed on a source electrode, a drain electrode, the pixel electrodes, and the second insulation layer.

A liquid crystal display apparatus is provided. The liquid crystal display apparatus includes a graphene LED backlight source, a first polarizing film, a first substrate, a liquid crystal layer, a second substrate and a second polarizing film. The graphene LED backlight source is used for providing light output, the first polarizing film is used for converting the light output from the backlight source into a polarized light. The liquid crystal layer includes liquid crystal molecules used for deflecting the polarized light from the backlight source to form a polarized output light, and the second polarizing film is used for emitting the polarized output light.

According to an aspect, an array substrate includes: a substrate; a sensor electrode disposed on the substrate, and configured to detect change of capacitance; and a pull-out line capable of being electrically coupled with the sensor electrode, and pulled out to an end portion of the substrate.

The present invention discloses a display device and a manufacturing method thereof. The display device comprises an array substrate and a color filter substrate arranged opposite to the array substrate, wherein the surface of the array substrate is provided with a lining layer and a conduction layer; and the lining layer uplifts the conduction layer till the conduction layer is in contact with the color filter substrate, so that the conduction layer conducts the array substrate and the color filter substrate. Compared with a conduction structure of the existing technology in which a connector and a conductive adhesive are combined, the conduction structure of the present invention saves the material cost, reduces the machining difficulty, increases the rate of good products and finally greatly reduces the production cost, is simultaneously applicable to a narrow-bezel design of the display device and meets the aesthetic demands of users.

The present application discloses a liquid crystal panel, a manufacturing method thereof and for display apparatus. The liquid crystal panel includes a first substrate, a second substrate and a liquid crystal layer located between the first substrate and the second substrate; a TFT array layer, a color resist layer and an electrode structure layer are formed on the first substrate sequentially; and the color resist layer is formed by a variety of color resist, the color resist layer including a light-shielding region, and a plurality of pixel region, the light-shielding region is in a matrix, the plurality of pixel region is separated by the light-shielding region, each of the pixel region including a kinds of color resist, the light-shielding region is formed by the stacking of a variety of color resist.

A display device includes a first substrate including a display area and a non-display area which is outside the display area; a first gate signal line and a second gate signal line each on the non-display area of the first substrate; a connection electrode which is on the non-display area of the first substrate and connects the first gate signal line and the second gate signal line to each other; and a static electricity prevention pattern which is on the non-display area of the first substrate and on the connection electrode.

A display device includes: a first substrate and a second substrate including a plurality of pixel areas and opposing each other; a liquid crystal layer between the first substrate and the second substrate; a first pixel electrode on the first substrate; a first insulating layer on the first pixel electrode; and a second pixel electrode on the first insulating layer and in a different pixel area from a pixel area in which the first pixel electrode is disposed.

A touch control display and a controlling method are provided. The display comprises a TFT array substrate; an opposite substrate; a cover glass disposed on an outside surface of the opposite substrate, wherein the cover glass has an inner surface facing the opposing substrate and an outside surface, and the cover glass, the TFT array substrate, and the opposite substrate collectively define a display area and a non-display area; first electrodes disposed in the display area of the opposite substrate; second electrodes disposed in the non-display area of the cover glass, and on the inner surface of the cover glass; and third electrodes disposed between the opposite substrate and the TFT array substrate. The third electrodes are disposed opposite to the plurality of first electrodes, and at least one of the plurality of third electrodes is multiplexed as a common electrode of the TFT array substrate.

A liquid-crystal display device includes a substrate, a thin-film transistor (“TFT”) disposed on the substrate, an insulation film disposed on the TFT, a pixel electrode disposed on the insulation film, an expanded electrode disposed in a same layer as the pixel electrode, a connection electrode which is disposed in the same layer as the pixel electrode and connects the pixel electrode with the expanded electrode, and a shield electrode disposed in the same layer as the pixel electrode and separated from the pixel electrode, the connection electrode and the expanded electrode, where the expanded electrode is electrically connected to the TFT via a contact hole defined in the insulation film, and where the shield electrode includes a first shield portion disposed between the pixel electrode and the contact hole in a plan view, and a second shield portion other than the first shield portion.