There are provided systems, devices and methods for operating a housing for an electronic device as an input/output (I/O) device. In one embodiment, an electronic device includes a housing configured to function as an integrated housing and I/O device and one or more sensors obscured by a panel of the housing. The one or more sensors being configured to sense via the panel of the housing. The electronic device further includes a processing unit communicatively coupled to the one or more sensors and configured to interpret electrical signals generated by the one or more sensors. One or more output devices are communicatively coupled to the processing unit and configured to provide an output in response to the one or more sensors generating an electrical signal.

Methods and apparatus to operate closed-lid portable computers are disclosed. An example portable computer includes a first display on a lid of the portable computer, the first display to be deactivated when the lid is in a closed position; a second display distinct from the first display, the second display to be visible when the lid is in the closed position; instructions; and processor circuitry to execute the instructions to cause activation of the first display in response to a user interaction with the second display while the lid is in the closed position.

A display panel, a display apparatus, and a fabrication method of a display panel. The display panel includes a display region and a non-display region, the non-display region includes a bonding region and an unbonding region, and the display panel includes: a display substrate including a substrate and a display device layer disposed on the substrate. The display device layer is at least partially located in the display region; a polarizer disposed on a side of the display device layer away from the substrate, The polarizer includes a first surface away from the substrate, a second surface close to the substrate, and a side surface connecting the first surface and the second surface; a protection layer including a side protection portion covering at least the side surface.

A support device and a foldable device. The foldable device comprises a bendable structure (102) and a support device (101). The bendable structure (102) comprises a bending portion (1021), and a first non-bending portion (1022) and a second non-bending portion (1023) respectively located on two sides of the bending portion (1021). The support device (101) comprises a first support (1011), a second support (1012), a rotating shaft support (1013), and at least one support component (1014). The first support (1011) is used to support the first non-bending portion (1022), and the second support (1012) is used to support the second non-bending portion (1023). Each support component (1014) is connected to the rotating shaft support (1013), and is further used to be connected to the bending portion (1021) to provide support. The support device (101) is used to support the entire bendable structure (102) to avoid swelling of the bending portion (1021) of the bendable structure (102), thereby ensuring the flatness of the bendable structure (102).

An electronic device and a method of manufacturing the electronic device are provided. The electronic device includes: a flexible display; and a cover window disposed on the flexible display, wherein the cover window includes a glass member and a buffer member disposed between the glass member and the flexible display, wherein the glass member includes at least one flat area and a bending area extending from the at least one flat area, and wherein a thickness of at least a portion of the bending area continuously decreases from a thickness of the at least one flat area as the bending area extends from the at least one flat area, and a width of the at least the portion of the bending area continuously decreases from a width of the at least one flat area as the bending area extends from the at least one flat area.

An electronic device has a hinge structure including a first fixed structure on which a first arc-shaped guide rail is formed, a second fixed structure on which a second arc-shaped guide rail is formed, a first rotating structure including a first coupling portion rotatably coupled to the first guide rail, a second rotating structure including a second coupling portion rotatably coupled to the second guide rail, and a torque structure which provides torque to the first rotating structure and the second rotating structure. The torque structure includes a cam structure formed on the first rotating structure and the second rotating structure, a cam member including a moving cam engaged with the cam structure, and an elastic member which is compressed or tensioned in response to linear movement of the cam member.

An electronic device includes a first case, a second case, and a locking assembly. The first case includes a first fixing surface, and the first fixing surface has a locking part. The second case includes a second fixing surface and two receiving grooves, and the two receiving grooves are respectively arranged on two sides of the second fixing surface. The locking assembly includes a buckle and two elastic elements. The buckle has a hook part and fixing rods. The fixing rods are arranged on two sides of the hook part. One end of each of the fixing rods abuts against the second fixing surface and slides relative to the second fixing surface, and another end of each of the fixing rods extends into the corresponding receiving groove. The hook part is configured to buckle to the locking part.

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 example display device includes a display element having at least one portion which can be changed into a curved shape; and a flexible window member stacked onto the display element, wherein the thickness of a portion of the window member is less than that of the other portions.

A terminal control method, a terminal and a non-transitory computer-readable storage medium are provided. The terminal control method includes: receiving, by a microphone, a detection audio signal emitted from a speaker and having a frequency within a pre-set detection frequency range; acquiring actual audio parameters of the detection audio signal when being received by the microphone, and original audio parameters of the detection audio signal when being emitted from the speaker; determining a relative state between the microphone and the speaker according to the actual audio parameters and the original audio parameters; determining a terminal control operation to be performed, according to the relative state and a pre-set correspondence between relative states and terminal control operations; and performing the determined terminal control operation on a terminal where the microphone is located.