A consumer electronic product includes at least a transparent housing and a flexible display assembly enclosed within the transparent housing. In the described embodiment, the flexible display assembly is configured to present visual content at any portion of the transparent housing.

Provided is a mobile terminal. The mobile terminal includes a display unit outputting an image, a front case seated on a front surface of the display unit, a rear case disposed at a rear side of the front case, and a leaf spring disposed between the front case and the rear case to provide an elastic force to the front case, thereby changing a curvature of the front case.

A conductive trace design is described that minimizes the possibility of crack initiation and propagation in conductive traces during bending. The conductive trace design has a winding trace pattern that is more resistant to the formation of cracks at high stress points in the conductive traces. The conductive trace design includes a cap that helps ensure electrical connection of the conductive trace even though one or more cracks may begin to form in the conductive portion of the conductive trace.

Electronic devices may be provided that contain flexible displays that are bent to form displays on multiple surfaces of the devices. Bent flexible displays may be bent to form front side displays and edge displays. Edge displays may be separated from front side displays or from other edge displays using patterned housing members, printed or painted masks, or by selectively activating and inactivating display pixels associated with the flexible display. Edge displays may alternately function as virtual buttons, virtual switches, or informational displays that are supplemental to front side displays. Virtual buttons may include transparent button members, lenses, haptic feedback components, audio feedback components, or other components for providing feedback to a user when virtual buttons are activated.

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.

An electronic device is provided. The electronic device includes a housing, comprising a first surface including a transparent later and a second surface, a display exposed through the transparent layer and including an active area, a first adhesive layer, a touchscreen panel, and a second adhesive layer, an opening formed at least partially through the first adhesive layer, a plurality of conductive lines disposed extending around a periphery of the opening so as not to optically block the opening, a camera device positioned including an image sensor disposed through at least a portion of the opening, and an integrated circuit (IC) electrically coupled to the plurality of conductive lines, wherein the IC is configured to provide image data to the display.

This disclosure provides systems, methods, and apparatus, including computer programs encoded on computer storage media, for displaying information in various display regions within wearable display devices in a manner that enhances user experience. The wearable display devices may include a flexible display region and may be capable of operating in a wrinkled state. In one aspect, a wearable display device includes a plurality of sensors configured to determine the state of the display. The sensors may, for example, be configured to detect pressure, light, and/or deformation. In some aspects, the device includes a processor configured to provide image data to the display. In some aspects, the processor is capable of changing at least one characteristic of the image data provided to the display based at least in part on input received from the sensors. For example, the processor may re-size an image and/or deactivate a portion of the display.

An electronic device includes a display that includes a first area having a plurality of first pixels arranged with a first density and a second area having a plurality of second pixels arranged with a second density, wherein the display includes at least one layer having an opening formed in at least part of the first area and in at least part of the second area, a first sensor configured to detect incident light through at least part of the first area, and a second sensor configured to generate image data using incident light received through the opening.

In aspects of adaptive grip suppression, a wireless device has a display screen with curved display edges to display a selectable element in a region of a curved display edge. The wireless device implements an adaptive control module to adaptively tune grip suppression in the curved display edges of the display screen, which limits a device application action from being initiated based on inadvertent touch inputs on the selectable element. The adaptive control module can adaptively tune the grip suppression by decreasing the grip suppression in the region of the curved display edge proximate the selectable element responsive to false rejects indicating that the device application action is not initiating responsive to intended touch inputs, or by increasing the grip suppression in the region of the curved display edge proximate the selectable element responsive to false accepts indicating that the device application action is initiating responsive to inadvertent touch inputs.

A mobile terminal includes: a body in which an electronic component is installed; and a movement unit fastened to the body in at least a portion thereof, configured to output information processed in the mobile terminal, and the movement unit being flexible on the body as curvature of the body is varied, wherein the body includes a varied portion whose curvature is varied and fixed portions formed on both ends of the varied portion and having curvature which is not changed, wherein the varied portion includes a plurality of micro blocks formed in a movement direction and configured to form a predetermined curvature and an elastic member formed in the micro blocks and enabling the micro blocks to form a predetermined curvature when external force is applied or when external force is removed.