A mobile terminal includes a first module and a second module. The first module and the second module are in a folded state or an extended state. The first module is provided with a first antenna radiation branch, the first antenna radiation branch is provided with a first feed point and a first ground point, and the first feed point is electrically connected to a first feed source via a switch. The second module is provided with a second antenna radiation branch, and the second antenna radiation branch is provided with a second feed point and a second ground point. In the case where the first module and the second module are in the folded state, the switch is in the off state, and in the case where the first module and the second module are in the extended state, the switch is in the on state.

An electronic device is provided. The electronic device includes a housing and a connection part. The housing includes a first housing portion that includes a first side face, and a second housing portion that includes a second side face. The connection part connects the first housing portion and the second housing portion. A first conductive member extends along at least a portion of the first side face, a first non-conductive member is disposed on the first side face, a second conductive member extends along at least a portion of the second side face, a second non-conductive member is disposed on the second side face, and when the second housing portion faces the first housing portion, the first non-conductive member and the second non-conductive member are substantially aligned.

An apparatus for autonomous form factor control of a foldable mobile device includes a processor that determines a current form factor of the foldable mobile device and senses a forward motion or a backward motion of a subject within a field of view of a camera of the device. In response to forward motion of a user, the processor raises a pointing elevation angle of the camera to maintaining the user within the field of view by autonomously controlling the hinge angle between the first device housing and the second device housing of the foldable mobile device and in response to backward motion the processor lowers the pointing elevation angle by autonomously using shape memory actuators to control the hinge angle in the direction determined based on the form factor.

An electronic device is provided. The electronic device includes a housing and a connection part. The housing includes a first housing portion that includes a first side face, and a second housing portion that includes a second side face. The connection part connects the first housing portion and the second housing portion. A first conductive member extends along at least a portion of the first side face, a first non-conductive member is disposed on the first side face, a second conductive member extends along at least a portion of the second side face, a second non-conductive member is disposed on the second side face, and when the second housing portion faces the first housing portion, the first non-conductive member and the second non-conductive member are substantially aligned.

Disclosed are a folding device of a foldable display and a display device having the same. The folding device is rotatable sequentially or in stages through a plurality of unit hinges rotated relative to one another about multiple axes. Therefore, the folding device is applicable to both an inner folding type and an outer folding type, and the respective unit hinges are rotated by gear motions and may thus be stably rotated and assure reliability.

An apparatus for autonomous form factor control of a foldable mobile device includes a processor that determines a current form factor of the foldable mobile device and senses a forward motion or a backward motion of a subject within a field of view of a camera of the device. In response to forward motion of a user, the processor raises a pointing elevation angle of the camera to maintaining the user within the field of view by autonomously controlling the hinge angle between the first device housing and the second device housing of the foldable mobile device and in response to backward motion the processor lowers the pointing elevation angle by autonomously using shape memory actuators to control the hinge angle in the direction determined based on the form factor.

A portable communication device or electronic device is provided. The communication device includes a housing including a first housing structure, a second housing structure, and a hinge cover positioned between at least a portion of the first housing structure and at least a portion of the second housing structure, a flexible display at least partially received in the housing and including a first portion corresponding to the first housing structure, a second portion corresponding to the second housing structure, and a third portion corresponding to the hinge cover, a hinge structure positioned between the third portion of the flexible display and the hinge cover and connected with the first housing structure and the second housing structure, and at least one sealing member positioned between the third portion of the flexible display and the hinge cover and contacting the hinge cover.

A portable communication device or electronic device is provided. The communication device includes a housing including a first housing structure, a second housing structure, and a hinge cover positioned between at least a portion of the first housing structure and at least a portion of the second housing structure, a flexible display at least partially received in the housing and including a first portion corresponding to the first housing structure, a second portion corresponding to the second housing structure, and a third portion corresponding to the hinge cover, a hinge structure positioned between the third portion of the flexible display and the hinge cover and connected with the first housing structure and the second housing structure, and at least one sealing member positioned between the third portion of the flexible display and the hinge cover and contacting the hinge cover.

A hinge mechanism includes two guide rod mechanisms that are respectively formed between a main shaft assembly in the hinge mechanism, a first support arm, a first guide rod arm, and a first connecting frame, and between the main shaft assembly in the hinge mechanism, a second support arm, a second guide rod arm, and a second connecting frame. A first support plate and a second support plate are respectively fastened to the first support arm and the second support arm. The first support arm and the first connecting frame are rotatably connected through a first arc-shaped sliding groove and a first arc-shaped arm that are in sliding fit. The second support arm and the second connecting frame are rotatably connected through a second arc-shaped sliding groove and a second arc-shaped arm that are in sliding fit.

An electronic device is provided. The electronic device includes a housing and a connection part. The housing includes a first housing portion that includes a first side face, and a second housing portion that includes a second side face. The connection part connects the first housing portion and the second housing portion. A first conductive member extends along at least a portion of the first side face, a first non-conductive member is disposed on the first side face, a second conductive member extends along at least a portion of the second side face, a second non-conductive member is disposed on the second side face, and when the second housing portion faces the first housing portion, the first non-conductive member and the second non-conductive member are substantially aligned.