An enclosure and a method for forming an enclosure are disclosed. The enclosure may be formed from metal, such as aluminum, and further include a non-metal portion allowing for transmission and receipt of electromagnetic waves. The non-metal portion may be interlocked to the enclosure and in particular, to a region within the enclosure including a first material having a relatively high strength and stiffness compared to the non-metal portion. Interlocking means may include forming dovetail cuts into the enclosure to receive the non-metal portion, a hole or cavity drilled into the enclosure which includes internal threads, and a rod inserted into the first material to provide a tension to the non-metal portion. Methods of assembling internal components using anodization are also disclosed.

A remote controller includes a remote controller body including a control device configured to receive a remote-control command. The remote controller further includes an antenna and a holding mechanism movably connected to two opposite sides of the remote controller body, respectively. The holding mechanism is configured to hold a mobile terminal. The remote controller further includes a connecting mechanism connected between the remote controller body and the holding mechanism and configured to enable the holding mechanism to move relative to the remote controller body to be in an extended state or in a contracted state.

An electronic device includes a hinge coupling at least a first device housing to a second device housing. A flexible display is coupled to the first device housing and the second device housing and spans the hinge. The first device housing defines a curvilinear recess forming at least some of the flexible display into an asymmetrical service loop when the first device housing and the second device housing pivot about the hinge from an axially displaced open position to a closed position. Additional hinges and device housings can be added to accommodate flexible displays of varying lengths.

A rotating shaft mechanism includes: a rotating shaft bracket; a guide member, movably connected to the rotating shaft bracket; an elastic member, disposed between the guide member and the rotating shaft bracket; and two rotating arms. One of the two rotating arms is rotatably arranged on a first end of the rotating shaft bracket, and the other one is rotatably arranged on a second end of the rotating shaft bracket opposite to the first end. At least one of the two rotating arms abuts against the guide member. When the two rotating arms rotate relative to the rotating shaft bracket and move closer to each other, the guide member is driven to protrude out of the rotating shaft bracket.

A case-baffle-stand system utilized with a dipole speaker, in which the case-baffle-stand system has a cover that, when opened, is a baffle to enhance the sound waves emitting from the speaker system and is also a stand to stabilize the speaker in its proper standing orientation, and when closed, protects the speaker.

A mobile device includes a first display portion, a second display portion and a graphics processor. The first display portion is viewable while the second display portion is obscured when the mobile device is in a retracted configuration. Both display portions are viewable when the mobile device is in an expanded configuration. The graphics processor may be coupled to each display portion and configured to generate a first image for display on: the first display portion when the mobile device is in the retracted configuration; at least one of the display portions while the mobile device is in the expanded configuration; and at least one of the display portions while the mobile device transitions between the retracted configuration and the expanded configuration. The second display portion may be a flexible display material, such as an OLED display and with the first display portion may be a single sheet OLED display.

Methods, systems, and devices for wireless communications are described. A user equipment (UE) may be configured to be positioned in different possible physical configurations and may identify its current physical configuration based on a modem-based sensor. The UE may transmit a signal from a first antenna element and receive an echo of the signal at a second antenna element different than the first antenna element. The UE may then generate an echo signature for the echo of the signal and determine that the UE is in a first physical configuration (e.g., its current physical configuration) from the possible physical configurations by comparing the generated echo signature to a set of echo signatures that correspond to each of the possible physical configurations. Accordingly, based on the determined first physical configuration, the UE may perform an operating system function that corresponds to the first physical configuration.

A flexible device includes two opposite sides and a flexible functional element. Each side includes a movable element having a top portion. The flexible functional element includes a flexible functional screen and a support plate supporting the flexible functional screen. The support plate includes a plate body and fixing sheets extending from the plate body. The plate body separably abuts against the top portions of the movable elements, and the fixing sheets fix to the movable elements.

An electronic device includes at least two modules, each module includes at least one component; two adjacent modules of the at least two modules are detachably connected, and the two adjacent modules are electrically connected; the housings of the at least two modules are connected to form the housing of the electronic device; in the at least two modules, the first module includes a mainboard and the second module includes a battery. When any module in the electronic device needs to be updated, the module only needs to be detached from the electronic device, and then the replacement of the module is connected to other modules, thereby forming a new electronic device There is no need to replace the entire electronic device, and the hardware cost is reduced.

The present invention relates to a three-stage foldable mobile terminal having a flexible display, and can provide a mobile terminal comprising: a body portion which comprises first to third bodies rotatably connected to each other and which implements a first state in which the first to third bodies are arranged side by side in one direction and a second state in which the first to third bodies overlap each other by the at least one hinge unit, respectively; and a flexible display unit which is mounted on the body portion, wherein the body portion comprises: a main circuit board which is disposed on the first body; a flexible circuit board which electrically connects the first and second bodies in the first state; and a connection member which is disposed on the second body so that the main circuit board and the third body are electrically connected to each other in the second state.