A method of manufacturing a display apparatus is provided as follows. A substrate having a display portion on an upper surface of the substrate is prepared. A protection film having an opening is attached to a lower surface of the substrate so that the protection film overlaps the display portion. A support film is attached to the lower surface so that the support film is disposed within the opening of the protection film. A driving circuit chip is attached to the upper surface so that the driving chip is spaced apart from the display portion and the opening. At least a part of the support film is removed. The substrate is bent along a longitudinal direction of the opening.

The invention provides a liquid crystal display panel and a liquid crystal display device. The liquid crystal display device includes a liquid crystal display panel and an edge-lit backlight module. The liquid crystal display panel includes multiple pixel units arranged in an array and having equal areas. Each pixel unit includes sequentially arranged red sub-pixel, green sub-pixel and blue sub-pixel. Transmittances of blue light of the blue sub-pixels of the pixel units are gradually increased along a direction away from a side-type backlight source of the edge-lit backlight module. Therefore, the invention can increase transmittances of blue light of the blue sub-pixels, compensate the influence of color shift caused by blue light being absorbed in the backlight module and reduce color difference of the liquid crystal display panel.

A display device includes a first substrate, a second substrate, a first polarizer, a second polarizer and a frame. The frame contacts with a first surface and a first side of the first substrate, a second surface and a second side of the second substrate, and a third side of the first polarizer. The frame has a fourth surface and a fourth side connecting to the fourth surface, and the fourth side is disposed corresponding to the second side. In a first direction perpendicular to the first surface, a shortest distance between the fourth and first surfaces is a first distance, a shortest distance between the fourth and first surfaces is a second distance, and a shortest distance between the third and first surfaces is a third distance. The third distance is substantially equal to the first distance, and the first distance and the second distance are different.

A display device includes a display panel including a top surface and a bottom surface facing the top surface in a normal direction, a mold member including a seat surface and an outer surface, the bottom surface of the display panel being positioned on the seat surface of the mold member, an adhesion member between the bottom surface and the seat surface to fix the bottom surface to the seat surface, a heating wire contacting the adhesion member, and an accommodation member coupled to the mold member.

A backlight module includes a light guide plate, a light source, a prism sheet and a reflective structure. The light guide plate includes a light emitting surface, a bottom surface opposite to the light emitting surface, a light incident surface connected with the light emitting surface and the bottom surface and a plurality of micro structures located on the bottom surface or the light emitting surface. The light source is disposed beside the light incident surface of the light guide plate. The prism sheet is disposed above the light emitting surface of the light guide plate, and includes a plurality of prisms facing the light emitting surface. The reflective structure is disposed under the bottom surface of the light guide plate. The reflective structure has a characteristic of changing its reflectivity according to a control signal applied thereto.

This disclosure is related to the field of semiconductor technology, more specifically, to a flexible touch sensor and display device including the flexible touch sensor. The flexible touch sensor is formed through the construction of chain structure formed by flexible conductors and rigid conductors, that is, based on the principle of chains, connecting the rigid conductors and flexible conductors in an interval way, to form a chain structure, and making the manufactured sensor and the display device reach the purpose of being flexible, and the problem caused by the immature of the development of flexible materials that the flexible sensor can't be mass-produced can be effectively solved.

To allow short time spreading for adhesive, verifying whether the adhesive is spread out to a member end. In obtaining a bonded member by applying the adhesive to a surface of one of two members and bonding the members with a member bonding device, a tilt adjusting device acquires with a camera an image of spreading state of the adhesive in the members' bonding surface, and adjusts the tilt of the bonded member when a non-spreading part of the adhesive between ends of the bonded member and the adhesive has a size bias so that the adhesive moves to the larger side of the part, and a spreading adjustment device controls a pushing amount and a pushing time interval of a pressing-side member to adjust spreading of the adhesive so that the part size reduces to a predetermined size depending on the part size acquired with the camera, and cures the adhesive in the bonded member edge with the non-spreading part eliminated.

A backlight module includes a backplane, a mold frame, a light guide plate, and an optic film. The optic film includes a first layer and a second layer stacked on the first layer and including a constraint portion including an extension section, a connection section, and a support section parallel with and opposite to the extension section. The connection section connects between the support section and the extension section. The extension section extends from an end of the second layer. The optic film is stacked on the light guide plate with the first layer engaging the light guide plate. The mold frame surrounds the light guide plate and the first layer and is received in the backplane. The connection section is located outside opposite sides of the backplane. The mold frame and the opposite sides of the backplane are received and retained between the support section and the extension section.

A window member includes: a glass member; a display member wherein the glass member has a bottom surface which faces and overlays the display member and a pattern layer provided on a first surface of the glass member and having a fine pattern. The pattern layer is silk-screen printed on the first surface of the glass member to directly contact the surface of the glass member. A method of manufacturing a window member, includes: forming a pattern layer such that the pattern layer contacts a surface of the glass member along a periphery of the glass member. The pattern layer is formed at a location which is offset inward from a periphery of the glass member.

To provide a display device or the like that enables stable curing of a resin. The display device includes a first circuit and a second circuit over the same substrate. The first circuit has a function of performing display; the second circuit has a function of driving the first circuit; the second circuit includes a transistor and a capacitor; the transistor includes an oxide semiconductor layer over a first insulating layer; the capacitor includes a first conductive layer, a second insulating layer, and a second conductive layer; the first conductive layer is positioned over the first insulating layer; one of a source and a drain of the transistor is electrically connected to the second conductive layer; and the first conductive layer and the oxide semiconductor layer include the same metal element.