A display device includes a display panel, a first circuit board, a second circuit board, a first adhesive element, and a conductive element. The display panel includes a non-bending region and a bending region that is bent from the non-bending region. The bending region includes a curvature region having a specific curvature and a facing region facing the non-bending region in a thickness direction of the display module. The first adhesive element is disposed to combine the first circuit board with the second circuit board, and the conductive element is disposed to electrically connect the first circuit board to the second circuit board.

A component carrier, wherein the component carrier includes: i) a layer stack with at least one electrically conductive layer structure and/or at least one electrically insulating layer structure, ii) a bendable portion which forms at least a part of the layer stack, and iii) a metal layer which forms at least a part of the bendable portion. Hereby, the metal layer extends over at least 75% of the area of the bendable portion.

A flex circuit including a plurality of layers folded on a first fold line and folded on a second fold line is disclosed. The plurality of layers may include a first conductive layer, an insulating layer adjacent the first conductive layer, and a second conductive layer adjacent the insulating layer. The flex circuit may include a plurality of slits extending through each layer of the plurality of layers, the plurality of slits disposed on the first fold line and the second fold line.

A method of manufacturing a cover window for a display device includes: providing a glass substrate having a bendable area and a flat area; modifying the bendable area by irradiating the glass substrate with a beam; and etching the bendable area to have a thinner thickness than the flat area. The bendable area may have a faster etch rate than the flat area due to the modifying of the bendable area.

A method of assembling a capacitive touch device is disclosed. The method comprises providing a flexible sheet having first and second faces and first and second wings divided by a fold line. The flexible sheet supports capacitive touch switches, contact lands and conductive tracks interconnecting the capacitive touch switches and the contact lands on the first face of the flexible sheet. The method comprises providing adhesive on the first face of the flexible sheet so as to bond the first and second wings and to bond a circuit board to flexible sheet. The method comprises placing a circuit board on the flexible sheet, the circuit board having contact pads which are aligned with the contact lands and folding the flexible sheet along the fold line so as to bond the first and second wings with the circuit board interposed between the first and second wings.

A camera assembly and an electronic device are provided. The camera assembly includes a housing having a first sliding groove; a camera component provided inside the housing and slidable along the first sliding groove, wherein the camera component is configured to switch between a first state and a second state by the guide of the PUSH-PUSH component when receiving a press operation; and a press-type PUSH-PUSH component provided inside the housing, wherein both ends of the PUSH-PUSH component are connected to the housing and the camera component, respectively.

The invention proposes a luminous module comprising a flexible printed circuit board. The connection to ground of the electronic circuit accommodated by the printed circuit board is produced without adding fastening parts dedicated to this role. Compared to known prior-art techniques, the invention allows a luminous module to be produced comprising fewer constituent parts and occupying a smaller volume.

A capacitive touch device is described. The device comprises a substrate and a plurality of co-planar capacitive touch switches and conductive tracks connected to the capacitive touch switches disposed directly on a face of the substrate. The capacitive touch switches include first and second capacitive touch switches which are adjacent, separated by a channel and which are electrically isolated from each other. The capacitive touch switches include third and fourth capacitive touch switches which are electrically isolated from the first and second capacitive touch switches, but which are electrically connected to each other by a conductive track which runs through the channel.

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 printed circuit board according to an embodiment of the present invention includes a core layer and a circuit wiring layer disposed on a top surface of the core layer. The core layer is spaced apart from the circuit wiring layer and includes through-holes formed around the circuit wiring layer. Flexibility of the printed circuit board may be enhanced by the through-hole to obtain bending stability.