A digitizer includes a folding area a non-folding area. The digitizer includes a first base layer, a second base layer disposed on the first base layer, a third base layer disposed on the second base layer, a first sensing line disposed between the first base layer and the second base layer, and a second sensing line substantially perpendicular to the first sensing line, disposed between the second base layer and the third base layer, and including a first sub-line portion and a second sub-line portion disposed in the non-folding area, and a third sub-line portion disposed between the first sub-line portion and the second sub-line portion and corresponding to the folding area. The third sub-line portion has a fracture strain greater than a fracture strain of the first sub-line portion and the second sub-line portion.

A foldable display device includes: a display panel including a foldable display area; a first base plate overlapping a portion of the foldable display area to guide folding of the display panel; a second base plate overlapping another portion of the foldable display area to guide the folding of the display panel together with the first base plate; a first rotor coupled to the first base plate to rotate around a first virtual rotation axis, a second rotor coupled to the second base plate to rotate around a second virtual rotation axis; a follower in contact with the first and second rotors to reciprocate in a first direction by rotation of at least one of the first and second rotors; and a bracket coupled to the first and second rotors to guide a rotation path of each of the first and second rotors.

A foldable terminal is disclosed, which may include a first storage rotation shaft, a second storage rotation and a flexible screen. One end of the flexible screen is connected and fixed to the first storage rotation shaft, and the other end of the flexible screen is connected and fixed to the second storage rotation shaft. And a portion of the flexible screen is wound around at least one of the first storage rotation shaft and the second storage rotation shaft. In response to the flexible screen being folded, the first storage rotation shaft is rotatable to release the flexible screen, and in response to the flexible screen being unfolded, the second storage rotation shaft is rotatable to roll up the flexible screen.

An electronic device according to various embodiments of the present invention comprises: a first main body including a first surface and a second surface which faces the opposite direction to the first surface; a second main body including a third surface which faces the first surface of the first main body part when being folded in a first direction, and a fourth surface which faces the second surface of the first main body part when being folded in a second direction; a rotatable connection unit which connects at least a part of one side of the first main body part and at least a part of one side of the second main body part; a first display which is exposed to the first surface of the first main body part; a second display which is exposed to the third surface of the second main body part; a processor which is electrically connected to the first display and the second display; and a memory which is electrically connected to the processor. The memory, when being executed, may store instructions for instructing the processor to display the first screen and the second screen on the first display and the second display, respectively, when an angle between the first main body and the second main body is included in a first range, and to display at least one from among the third screen and the fourth screen on at least one from among the first display and the second display when an angle between the first main body and the second main body is out of the first range and is included in a second range due to the first main body and the second main body being folded in the second direction.

An electronic device is provided, including first and second bodies, a processing module, a touch display panel, and at least one sensing unit. The second body is rotatably connected to the first body. The processing module is disposed in the first body or the second body. The touch display panel is disposed on the second body, is coupled to the processing module, and has a main display part, and first and second display parts. The sensing unit is disposed in the first body or the second body and coupled to the processing module. When the sensing unit detects the first and second bodies are folded relative to each other, the processing module is switched to a first mode. In the first mode, the first and second display parts are adapted to synchronously display or individually display a first message, a second message, or a third message.

According to various embodiments of the disclosure, an electronic device includes a first housing including a first side member that surrounds a first inner space, a second housing including a second side member that surrounds a second inner space, and a display, at least a portion of which is folded, the display disposed in a space provided by the first housing and the second housing. At least one of the first side member and the second side member includes a plurality of conductive areas spaced apart from each other, at least one non-conductive area disposed between the plurality of conductive areas to bond the plurality of conductive areas, and at least one bridge member that at least partially surrounded by the at least one non-conductive area and connects at least two of the plurality of conductive areas.

A multi-position hinge includes a base seat, a first axle, a second axle and a sliding assembly. The first and second axles rotatably extend through the base seat in a first direction and are spaced apart from each other in a second direction. The first axle has a first recess, a second recess and a first gear portion. The second axle has a third recess, a fourth recess and a second gear portion corresponding with the first recess, the second recess and the first gear portion, respectively. The sliding assembly includes a first sliding member engageable with the first and third recesses, and a second sliding member engageable with the second and fourth recesses. The first and second axles are rotatable in turn and then rotated synchronously to perform multi-position shifting.

An improved method and system for providing an adjustable foot (155) for an electronic device is disclosed. The electronic device may include a base (150), at least a foot (155) containing a portion being movable relative to the base between a first configuration and a second configuration, a magnetic element for moving said movable portion of the foot between the first configuration and the second configuration, and a display element (140) movably connected to the base, where the movement of the display element (140) from a first position to a second position causes the magnetic element to move the movable portion from the first configuration to the second configuration.

A portable electronic device including a first body, a second body and a supporting mechanism is provided. The first body has a bottom surface and an opening located at the bottom surface. The second body is pivoted to the first body and has a rear surface and a magnetic part located at the rear surface. The supporting mechanism is disposed in the first body corresponding to the opening. The rear surface of the second body is rotated toward the bottom surface of the first body to allow the supporting mechanism to be magnetically attracted to the magnetic part. Afterwards, the rear surface of the second body is rotated away from the bottom surface of the first body, and the supporting mechanism is driven by the second body to move out of the first body via the opening. When the supporting mechanism is locked, a support shaft supports the second body.

Conventional laptop computers may utilize a door-hinge style or in a bezel-behind-base style hinge to connect a display with a keyboard of the laptop computer. Typically, these hinges present an undesirable discontinuous visual impression to the user. In the disclosed technology, a leading edge of a display abuts a leading edge a keyboard. The disclosed sliding double-pivot hinge places a pivot axis parallel and coincident with the abutting interface, the leading edges of the display and the keyboard remain abutting throughout a rotational range of motion of the display with reference to the keyboard. The resulting visual impression to the user is that the display is contiguous with the keyboard regardless of the display angle. Further, the disclosed sliding double-pivot hinge may be used in a kickstand to permit the kickstand to rotate up to 180 degrees to fold back on itself and lay flat against an associated computing device.