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 mobile terminal includes a first body including a first surface; a second body including a second surface; a third body including a third surface; and a flexible screen coupled to the first surface of the first body, the second face of the second body and the third surface of the third body and including a first end and a second end, wherein the first end of the flexible screen is movable relative to the second surface of the second body, and the second end of the flexible screen is movable relative to the third surface of the third body.

An information processing device includes: a foldable display; a memory which temporarily stores display data to be displayed on the display; and a processor which performs control when displaying the display data stored in the memory on the display. The processor performs folding angle detection processing to detect a folding angle of the display, and luminance correction processing to correct luminance of at least any one of plural areas preset inside a screen area of the display based on the folding angle detected by the folding angle detection processing and a user's viewpoint position.

A rollable display device includes a rollable structure including a plurality of unit structures, a display panel structure attached to the rollable structure, and a plurality of magnetic objects on a bezel region of the rollable structure, wherein respective widths of the unit structures increase in a direction from a first side of the rollable structure to a second side of the rollable structure, wherein the unit structures collectively form first through (n)th rolling cycles, as the rollable structure is rolled, and a (k)th rolling cycle encircles a (k−1)th rolling cycle, and wherein the plurality of magnetic objects aligns the (k)th rolling cycle with the (k−1)th rolling cycle by causing a magnetic attraction between the (k)th rolling cycle and the (k−1)th rolling cycle.

A rollable display device includes a rollable structure including a plurality of unit structures, the rollable structure being rollable and unrollable based on the unit structures, and a display panel structure attached to the rollable structure, wherein respective widths of the unit structures increase in a direction from a first side of the rollable structure to a second side of the rollable structure, the first side of the rollable structure being opposite to the second side of the rollable structure, and wherein each of the unit structures includes a metal plate, the metal plate being bent by a bending limit angle in a direction in which the rollable structure is rolled, and a magnetic object on a side region of the metal plate, the magnetic object being magnetically coupled to an adjacent metal plate.

An electronic device is provided. The electronic device includes a hinge allowing the electronic device to be folded or unfolded, a foldable display disposed on at least one side of the electronic device, a processor controlling an output screen of the foldable display, sensor circuitry for detecting a folding angle of the electronic device, and input circuitry for touch input, the foldable display including a first area disposed on one side and a second area disposed on the other side with respect to the hinge, and the processor providing an execution screen of an application to a target area, which is any one of the first area or the second area, when an execution input for the application is received in a state in which the folding angle is within a predetermined range.

A method in an electronic device comprises detecting, with one or more sensors, a geometry or geometric form factor of the electronic device. One or more processors then enable, in response to detecting the geometric form factor, a dual content presentation mode of operation allowing presentation of first content on a first display of the electronic device and second content on a second display where the first content and the second content are different.

A mounting apparatus may include: a mounting part on which a part of an external electronic apparatus is mounted; a film part connected to the mounting part; a near field wireless communication module; and a processor, wherein the processor may be configured to: detect a mounting state of the external electronic apparatus; determine whether the mounted external electronic apparatus is an apparatus supporting a holographic mode; and on the basis of the determined result, control to transmit a transmission signal to the external electronic apparatus by using the near field wireless communication module so that the external electronic apparatus outputs a hologram content by using at least a part of a display of the external electronic apparatus, and the hologram content output by the external electronic apparatus can be projected on the film part. Various other embodiments may be possible.

Reconfigurable touch screen computing devices with folding configurations that include flexible displays made up of segments reconfigured from a folded state to an expanded state are described. The form factor of the folded state is the size of a handheld phone (including an integrated speaker and microphone). The form factor of the expanded state is the size of a tablet computer. Both states provide a configuration including a touch screen display on a front side and a protective housing on a back side. The computing devices include sensors indicating the state and mechanisms for folding, alignment, and structural support, and magnets for the devices to be locked in the folded or unfolded state. A module attached to at least one segment may contain substantially all processing and memory, and a communications system, all which may be used in either state.

An electronic device including a flexible display panel is provided. The electronic device includes a display panel, a first component, a movable module, and a housing. The housing includes a first movable portion, a second component, and a third component. The third component includes a first space where the first component is stored. The display panel includes a flexible display portion. The display portion includes a first region, a second region, and a third region. The first region is fixed to the second component. The second region is fixed to the first component stored in the third component. The movable module has a function of holding a first angle that is formed between the second component and the third component by the first movable portion. The third region positioned between the first region and the second region has a function of forming a curved surface according to the first angle. The first component slides in the first space according to the first angle.