A touch region adjustment method includes: determining a region on a touch display of a terminal device and in which a sensing parameter changes to determine a grasping gesture of a user for the terminal device; and adjusting a location of a touch response region on the touch display based on the grasping gesture of the user for the electronic device to avoid an accidental touch caused by the grasping gesture of the user for the screen of the terminal device.

A foldable display device includes a display panel, a protective base disposed on a top surface of the display panel, a polarizing plate disposed on a top surface of the protective base, a light blocking layer disposed at an edge of a top surface of the polarizing plate, and a hard coating layer for covering the polarizing plate and the light blocking layer and including a UV absorbent.

Device orientation techniques and systems are described to modify visual characteristics of edits that support the ability of a computing device to modify visual characteristics of digital objects appearing in a user interface of a mobile device based on orientation of the computing device, itself. A user interaction, for instance, is detected in a user interface of a device. Responsive to the detected user interaction, a multiaxial orientation of the device is determined. In some examples, the orientation is translated into tilt data such as in the form of altitude and azimuth values. A relative amount is calculated based on the orientation. The relative amount is applied to a visual characteristic of an edit to a digital object. Once the relative amount is applied, the digital object having the relative amount applied is displayed in the user interface.

A device having a flexible touch screen display configured to display images in at least a first touch area and a second touch area. The first touch area is configured to rotate with respect to the second touch area along a folding axis. A first plurality of touch sensitive column electrodes are integrated into the first touch area, a second plurality of column electrodes are integrated into the second touch area of the flexible display, and a plurality of row electrodes are integrated into and extend across the first touch area and the second touch area. Also included are a plurality of drive-sense circuits that drive sensor signals on the electrodes. A processing module senses, based on the sensor signals, an electrical characteristic of at least one row electrode and at least one column electrode of the first plurality of column electrodes or the second plurality of column electrodes and determines, based on the electrical characteristic, a proximal touch to at least one of the first touch area or the second touch area.

Electronic equipment includes a pressed body as either a housing or a display, a pressure-sensitive sensor, a support configured to support the pressure-sensitive sensor such that the pressure-sensitive sensor is opposed to the pressed body, and a filler provided between the pressed body and the pressure-sensitive sensor. The filler has a thickness that changes with distance between the pressed body and the pressure-sensitive sensor.

An electronic device includes a hinge module; a first housing, a second housing, and a flexible display. The first housing is connected to the hinge module. The second housing is connected to the hinge module. The flexible display is disposed through at least a portion of the first and second housings. The flexible display includes a display panel includes a first surface facing in a first direction and a second surface facing in a direction opposite, when the electronic device is in an unfolded state. The flexible display also includes a window layer disposed at the first surface and a metal sheet layer. The display panel, the window layer, and the metal sheet layer are disposed so that a separation distance between the display panel, the window layer, and the metal sheet layer and inner side walls of the first and second housings and generates different interlayer slips.

A display apparatus includes a substrate having a display area with a display device to display an image, and a non-display area around the display area. The non-display area has a bending area bent about a bending axis. An encapsulation layer is located over the display area. A touchscreen layer is located over the encapsulation layer and includes a touch electrode. A touch wire is connected to the touch electrode, and extends from an upper portion of the encapsulation layer, and at least partially into the bending area. A fan-out wire configured to apply an electric signal to the display area and is at least partially disposed in the bending area. The touch wire and the fan-out wire are on different layers from each other in the bending area.

An electronic device can include a housing at least partially defining an internal volume and an exterior surface of the electronic device. The electronic device can also include a display assembly including a display layer, a substrate disposed below the display layer, and a substantially continuous sheet of conductive material disposed on the substrate, the sheet of conductive material covering substantially an entire surface of the substrate. A transparent cover can overlie the display assembly and can be affixed to the housing.

A method for manufacturing a display device that can prevent deformation of a flexible display is provided. A raw material sheet that serves as a metal sheet of the flexible display has a width that is greater than a width of the display body in Y direction and a plurality of holes are provided in a bent area of the raw material sheet over an entire width along a bent section of the display body. The method includes: mounting the display body on the raw material sheet such that the bent section and the bent area are aligned and that the display body avoids the end portions in the Y direction; applying pressure to the display body from a central part of the display body toward a periphery of the display body; and cutting the raw material sheet into a predetermined size.

A flexible touch screen panel includes a substrate having flexibility, sensing electrodes on at least one surface of the substrate, and implemented using an opaque conductive metal, and a polarizing plate on the substrate having the sensing electrodes formed thereon. The sensing electrodes may be implemented in a mesh shape having a plurality of openings.