A busbar anchoring system and method for polymer dispersed liquid crystal (PDLC) film layup that includes a plurality of mesh anchors with at least one of the plurality of electrically conductive mesh anchors interposed between and adhesively coupled to a first strip along a first section of the PDLC film layup formed by at least one of two indium tin oxide (ITO) layers flanking a PDLC layer and with at least one of the plurality of mesh anchors interposed between and adhesively coupled to a second strip along a second section of the PDLC film layup and the at least one of the two ITO layers.

A backlight module comprises a back plate, a reflective sheet arranged on the back plate and forming a plurality of openings, a plurality of light-emitting elements located in the plurality of openings, at least one optical element arranged on the reflective sheet, and at least a supporting element configured between the back plate and the reflective sheet. The supporting element can move along with the reflective sheet. The supporting element has a base portion and a supporting portion extending from the base portion towards the optical element. The base portion of the supporting element is located between the back plate and the reflective sheet. The supporting portion of the supporting element passes through the reflective sheet to support the optical element. The supporting element is not a fixed design and can move along with the reflective sheet. Therefore, other plates under the reflective sheet do not require openings, which can improve assembly convenience and effectively reduce the mechanism interference caused by the expansion and contraction of the reflective sheet. The invention also provides a display device including the backlight module.

A technique, comprising: providing a pixelated display unit comprising an array of pixels, wherein the optical output for each pixel is independently controllable; applying a first color filter overlay to a viewing surface of said pixelated display unit, said first color filter overlay defining a first color pattern including one or more areas of a single color continuously extending over a plurality of pixels; operating said pixelated display unit to produce regions of differing brightnesses within said first color pattern; peeling said first color filter overlay from said viewing surface of said display unit; applying a second color filter overlay to said viewing surface of said display unit, said second color filter overlay defining a second color pattern including one or more areas of a single color continuously extending over a plurality of pixels; and operating said pixelated display unit to produce regions of differing brightnesses within said second color pattern.

An apparatus for manufacturing a display device includes a stage, an adhesion member disposed above the stage and including a body part and a curved part, and an adhesion driver to rotate and drive the adhesion member, wherein the curved part is disposed on one side of the body part and is bent to have curvature.

A liquid crystal display module, a method for fabricating the same, and a display device are disclosed. The liquid crystal display module includes a liquid crystal display panel and a backlight module. The liquid crystal display panel and the backlight module are fixed by an adhesive which is applied on an outer surface of at least a side. The disclosure provides for firmly adhering the liquid crystal display panel and the backlight module. By controlling the thickness of adhesive, it is possible to decrease the bezel width of the liquid crystal display module.

According to one embodiment, a display device includes a first transparent substrate including a first main surface, a second transparent substrate including a first end portion, a liquid crystal layer containing strip-shaped polymers and liquid crystal molecules, a third transparent substrate including a second end portion and a second main surface, a first light-emitting element and a first light guide. The first light guide includes a first surface and a second surface. A height from the first main surface to the second surface is less than a height from the first main surface to the second main surface.

An electronic device is provided. The electronic device includes a frame, a backlight module, a working panel, and a spacer. The backlight module is disposed in the frame. The working panel is disposed on the frame. The spacer is disposed between the frame and the working panel. At least a portion of the working panel and at least a portion of the spacer are in direct contact with an adhesive.

A polarizing light emitting plate includes a polarizing layer having a polarizing axis substantially parallel to a first direction, a quantum rod layer including quantum rods aligned in the first direction, and an attachment layer between the polarizing layer and the quantum rod layer and comprising an adhesive material.

According to one embodiment, a display device includes a liquid crystal display panel including a first effective area and a first non-display area, a dimming panel including a second effective area and a second non-display area, a plurality of first pixels provided in matrix in first and second directions intersecting each other in the first effective area, and a plurality of second pixels provided in matrix in the first direction and the second direction in the second effective area. Of the second pixels, the outermost pixel adjacent to the second non-display area overlaps the first non-display area.

A protective film includes a panel protective film, a first protective film disposed on a surface of the panel protective film and covering the surface of the panel protective film, the first protective film having a surface and an opposite surface facing the panel protective film, and a second protective film disposed on an opposite surface of the panel protective film and covering the opposite surface of the panel protective film, the second protective film having a surface facing the panel protective film and an opposite surface opposed to the surface of the second protective film, wherein the first protective film includes a first film layer, a first adhesive layer disposed on the opposite surface of the first film layer, and a blocking layer disposed on an opposite surface of the first adhesive layer along an edge of the first adhesive layer.