Provided are a display device its method of manufacturing. The device includes a base; first and second thin-film transistors (TFT) on the base, adjacent to each; an organic layer covering the first and second TFT, comprising a first and second opening overlapping the drain electrodes of the first and second TFT, respectively; a common electrode on the organic layer comprising a common electrode opening overlapping the first opening and another common electrode opening overlapping the second opening; an insulating layer on a bump spacer which is on the common electrode; a first and second pixel electrode on the insulating layer overlapping the common electrode and electrically connected to the first and second TFT, respectively, wherein a minimum distance between the bump spacer and the common electrode opening is substantially equal to a minimum distance between the bump spacer and the other common electrode opening.

Disclosed are a display panel and a display device. The display panel includes: a first metal layer arranged on a substrate; a first insulating layer arranged on the first metal layer and the substrate; a second metal layer arranged on the first insulating layer; a second insulating layer arranged on the second metal layer and the first insulating layer, covering the first metal layer and the second metal layer; and a sealant arranged on the second insulating layer.

Example embodiments of disclosed configurations include a display device with a liquid crystal layer and an organic light emitting diode backlight. In one or more embodiments, the liquid crystal display includes a liquid crystal layer including a plurality of liquid crystals grouped into a plurality of liquid crystal portions, and the organic light emitting diode backlight coupled to the liquid crystal layer. The organic light emitting diode backlight includes a plurality of OLED backlight portions, where each OLED backlight portion faces a corresponding liquid crystal portion and is configured to project light towards the corresponding liquid crystal portion.

A display device includes: a first substrate and a second substrate opposing each other; a common voltage applying line on the first substrate; a common electrode on the second substrate; and a short circuit unit between the common voltage applying line and the common electrode. The short circuit unit includes: a protruding portion on the common voltage applying line; and a short circuit electrode on the protruding portion, the protruding portion includes at least one dummy color filter defining a groove, and the short circuit electrode is electrically connected to the common voltage applying line and the common electrode.

According to one embodiment, a liquid crystal display device includes a first substrate including a switching element and a pixel electrode, a second substrate including an insulating substrate, an organic layer which covers the insulating substrate in a non-display area in a shape of a frame surrounding a display area and comprises a first recess portion formed therein, and a light-shielding layer which covers the first recess portion, a sealing member which attaches the first substrate and the second substrate in the non-display area and a liquid crystal layer disposed in a space surrounded by the first substrate, the second substrate and the sealing member.

In a liquid crystal display device, a common electrode is formed on an organic passivation film, an interlayer insulating film is formed on the common electrode, a pixel electrode with a slit is formed on the interlayer insulating film, and a through hole is formed in the organic passivation film and the interlayer insulating film, so that the pixel electrode is connected to a source electrode of a TFT through the through hole. Further, the taper angle around the upper base of the through hole is smaller than the taper angle around the lower base. Thus, the alignment film material can easily flow into the through hole when the dimeter of the through hole is reduced to connect the pixel and source electrodes, preventing display defects such as uneven brightness due to the absence of the alignment film or due to the alignment film irregularity around the through hole.

According to one embodiment, a liquid crystal display device includes a first substrate includes an insulating substrate, an organic insulating film including a first upper surface and a second upper surface, a step being created by a height difference between the first upper surface and the second upper surface, a common electrode located on the first upper surface, a pixel electrode located on the second upper surface, and a first alignment film which covers the common electrode and the pixel electrode, a second substrate includes a second alignment film opposed to the first alignment film, and a liquid crystal layer held between the first alignment film and the second alignment film.

An array substrate according to the present invention includes a non-linear element. The non-linear element includes a first insulation film disposed so as to cover a light-shielding body, an oxide semiconductor film disposed on the first insulation film so as to overlap the light-shielding body in a plan view, a source electrode and a drain electrode that are disposed so as to be apart from each other with a separation portion therebetween on the oxide semiconductor film, a second insulation film disposed so as to cover the oxide semiconductor film, the source electrode, and the drain electrode, and a first back electrode disposed on a third insulation film and connected to a source wire through a first contact hole. The first back electrode is disposed so as to overlap the source electrode and part of the separation portion on the oxide semiconductor film in a plan view.

The present invention provides a curved display panel, comprising a color filter substrate, an array substrate and a plurality of spacers, and the color filter substrate and the array substrate are curved, and the plurality of spacers is positioned between the color filter substrate and the array substrate, and an edge of one of the color filter substrate and the array substrate comprises recesses at positions corresponding to the spacers, a center of one of the color filter substrate and the array substrate comprises bulges at positions corresponding to the spacers. By the method in which the recesses are positioned at the edge and the bulges are positioned at the center, the cell gaps at respective positions in the curved display panel are the same.

A semiconductor device includes: a first metal layer including a gate electrode; a first insulating layer provided on the first metal layer; an oxide semiconductor layer provided on the first insulating layer; a second insulating layer provided on the oxide semiconductor layer; a second metal layer provided on the oxide semiconductor layer and the second insulating layer, the second metal layer including a source electrode; a third insulating layer provided on the second metal layer; and a first transparent electrode layer provided on the third insulating layer. The oxide semiconductor layer includes a first portion lying above the gate electrode and a second portion extending from the first portion so as to lie across an edge of the gate electrode on the drain electrode side. The third insulating layer does not include an organic insulating layer. The second insulating layer and the third insulating layer have a first contact hole which overlaps the second portion of the oxide semiconductor layer when viewed in a normal direction of the substrate. The first transparent electrode layer includes a transparent electrically-conductive layer which is in contact with the second portion of the oxide semiconductor layer in the first contact hole.