A display device includes a TFT substrate including an overlap portion overlapping the color filter substrate and a non-overlap portion which does not overlap the color filter substrate; a color filter substrate; a source driver; and a height adjusting body. A color filter surface of the color filter substrate is opposite a surface facing a first major surface of the TFT substrate at a first distance. The source driver is disposed on the non-overlap portion and has a source driver surface that is opposite a surface facing the first major surface and disposed a second distance from the first major surface, which is less than the first distance. The height adjusting body is disposed on the non-overlap portion and has a height adjusting body surface opposite a surface facing the first major surface disposed a third distance from the first major surface, which is greater than the second distance.

An apparatus includes a first circuit board, a driving chip, and a second circuit board. The driving chip is coupled to the first circuit board, and the second circuit board is spaced apart from and electrically connected to the driving chip. At least part of the second circuit board is spaced apart from a first surface of the first circuit board.

A panel assembly includes a frame, a cell module, a retaining structure, and a flexible circuit board. The frame has a first surface and a second surface respectively located at opposite sides of the frame. The cell module and the retaining structure are respectively disposed on the first and second surfaces. The flexible circuit board is connected to the cell module and bended to extend over the second surface. The flexible circuit board has a through hole having a passing zone and an inwardly reduced zone communicated with each other. A part of the retaining structure extends from the second surface to a side of the flexible circuit board distal to the second surface via the inwardly reduced zone for preventing the flexible circuit board from moving away from the second surface. The passing zone is configured for the retaining structure to pass through.

A display device is basically provided that comprises a display, two circuit boards, and a cable. The cable connects the circuit boards together and includes a sheet-form wiring component having a first face and a second face on the opposite side from the first face, a first insulating part that is disposed on the first face, and a shield component that is disposed on the first insulating part and shields electromagnetic waves. The cable has a bent part that is bent to a second face side. The angle α formed by a direction towards one end of the wiring component from the bent part and a direction towards the other end of the wiring component from the bent part is 0°<α<180°.

A display device is provided and includes display panel; case provided at back surface of display panel; and flexible wiring board including first end connected to display panel and curved along outer surface of case, flexible wiring board comprising sheet-shaped substrate having first surface that is flat and second surface opposite to first surface, conductive layer formed on first surface of substrate and constituting wires, and protective layer overlaid on conductive layer and substrate, and substrate comprising first portion including first end joined to display panel, second portion including second end opposite to first end, and third portion provided between first portion and second portion, thickness of part of third portion is smaller than thickness of first portion and thickness of second portion, flexible wiring board is curved at third portion.

A driver mounting apparatus 40 includes a driver mount-side heat supply support member 42, a substrate support member 41, a driver-side heat supply support member 43, a first moving portion 44, and a second moving portion 45. The driver mount-side heat supply support member 42 supports a driver mount portion GSd and supplies heat to the driver mount portion GSd. The substrate support member supports a substrate main portion GSm. The driver-side heat supply support member 43 supports and sandwich a driver 21 with the driver mount-side heat supply support member 42 and supplies heat to the driver 21. The first moving portion 44 relatively moves the driver mount portion GSd and the driver mount-side heat supply support member 42 in an overlapping direction in which the glass substrate GS and the driver 21 are overlapped. The second moving portion 45 relatively moves the driver 21 and the driver-side heat supply support member 43 in the overlapping direction.

An image display device includes an image display panel, data drive circuits, a timing control circuit, flexible printed circuits arranged between at least two of the liquid crystal panel, the data drive circuits, and the timing control circuit, to electrically connect the at least two of the liquid crystal panel, the data drive circuits, and the timing control circuit, printed circuit boards arranged between at least two of the data drive circuits, the flexible printed circuit, and the timing control circuit, to electrically connect the at least two of the data drive circuits, the flexible printed circuit, and the timing control circuit, and an element formation portion provided at at least one of the flexible printed circuit and the printed circuit board while including electrical elements regularly arranged on the element formation portion in accordance with at least one predetermined rule.

A display device includes: a first substrate; a wire portion disposed on the first substrate; a pad portion connected with the wire portion; a printed circuit board facing the first substrate and including an output electrode; and an anisotropic conductive film disposed between the first substrate and the printed circuit board, wherein the anisotropic conductive film comprises a plurality of conductive particles disposed with a constant gap, and the plurality of conductive particles respectively disposed at apexes of virtual regular hexagons in a plan view, with a longest diagonal of the respective virtual regular hexagon being parallel with the y-axis.

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 sealant and a preparation method thereof, a display panel motherboard and a manufacturing method thereof are disclosed. The sealant includes a main adhesive material and a water swellable material dispersed and doped in the main adhesive material. The sealant and the preparation method thereof, the display panel motherboard and the manufacturing method thereof are capable of solving a problem of a notch formed in a sealant where a etchant flows into the display panel unit when the display panel mother board is subjected to a thinning treatment.