A portable electronic device includes a base, a first display pivotally connected to the base, a second display, and a linkage mechanism. The first display is movable to be opened or closed relative to the base. The second display is located between the base and the first display. The linkage mechanism includes at least one first link. Two ends of the first link are pivotally connected to the first display and the second display, respectively. When the first display is opened relative to the base, the at least one first link rotates to drive the second display to move up relative to the base. When the first display is closed relative to the base, the at least one first link rotates in an opposite direction to drive the second display to move down to be accommodated between the first display and the base.

An electronic apparatus includes a storage chassis, an electronic component, an antenna circuit, and a proximity sensor circuit. A pair of main faces facing each other in the thickness direction and end faces of the storage chassis define a storage space. The electronic component is disposed in the storage space. The antenna circuit is disposed in the storage space so that at least a part of the antenna circuit overlaps the electronic component when viewed in the thickness direction. The proximity sensor circuit is connected to the antenna circuit, and detects proximity of an object based on a physical quantity that changes according to proximity of the object. The antenna circuit includes a substrate, an antenna element, and an antenna ground. The proximity sensor circuit is located in an end space defined between the electronic component and the end face.

Systems and methods for providing merchant/customer interaction include determining that a tablet computer is in a merchant orientation, retrieving merchant product information according to a received instruction and merchant orientation information, and displaying a merchant screen on the tablet computer that includes the merchant product information according to the merchant orientation information. A change in the orientation of the tablet computer enclosure/stand is then detected from the merchant orientation to a customer orientation. In response, the merchant screen is transitioned on the tablet computer display to a customer screen as the tablet computer enclosure/stand changes orientations by moving the merchant screen and the customer screen linearly while in a stacked orientation. The customer screen includes the merchant product information displayed according to customer orientation information such that the merchant product information is displayed differently on the customer screen relative to the merchant screen.

A pivoting mechanism for an electronic device includes a pivot shaft, a first connecting member disposed on the pivot shaft for being connected with a support of the electronic device, a second connecting member disposed on the pivot shaft for connected with a main body of the electronic device, and a torque adjusting assembly. The torque adjusting assembly includes four sleeves and an elastic member through which the pivot shaft is disposed. Each of the sleeves includes at least one protrusion. The protrusion of one of the four sleeves is slidable relative to the protrusion of another sleeve for adjusting an amount of deformation of the elastic member. A portable electronic device including a main body, a support and the pivoting mechanism is provided.

One illustrative system disclosed herein includes a processor configured to: receive a signal; determine a haptic effect based at least in part on the signal; and transmit a haptic signal associated with the haptic effect. The system further includes a haptic output device in communication with the processor and coupled to a holder, wherein the holder is configured to mechanically couple with an electronic device. The haptic output device is configured to receive the haptic signal and output the haptic effect.

Examples are disclosed relating to computing device hinge assemblies. In one example, a hinge assembly comprises a hinge frame affixed to one substrate and a hinge arm member affixed to another substrate. The hinge arm member comprises first and second arcuate arm guide slots. An arm support member, moveably coupling the hinge arm member to the hinge frame, comprises a first side comprising a first arcuate support guide slot receiving a first frame guide of the hinge frame, and a second side comprising a second arcuate support guide slot receiving a second frame guide. First and second arcuate inner support guides are received within the first and second arcuate arm guide slots of the hinge arm member. An elongated bridge member connects the first side of the arm support member to the second side, with the bridge member comprising a unitary structure fabricated from bulk metallic glass.

A cellular phone protection case that has four impact absorbing corners and a planar body extending therebetween. Portions of the planar body are asymmetrical relative to imaginary central axes associated with the planar body. Additionally, the four corners define free spaces therebetween to define a cell phone cover that is substantially free of planar sidewalls extending between respective corners. The corners may deflect to repeatably engage a cell phone at complementarily shaped cellphone corners.

The description relates to devices that can include a base assembly, upper assembly, an arm, and a conductor. In one example the base assembly can include a base shaft and the upper assembly can include an upper shaft. The arm can be secured to the base shaft and the upper shaft to translate a range of rotation of the arm around the base shaft to rotation around the display shaft. The conductor can extend from the base assembly into the arm parallel to the base shaft and extend from the arm into the upper assembly parallel to the upper shaft.

A foldable electronic apparatus with an adjusting bracket includes a first body having a rail and steps disposed along the rail, a second body pivotally connected to the first body to pivot and be unfolded and folded relative thereto, a first supporting member having first and second ends opposite to each other, and a second supporting member having third end and fourth ends opposite to each other. The first end is pivotally connected to the first body. The second end is pivotally connected to the second supporting member and located between the third and fourth ends. The third end is movably coupled to the rail. The first and second supporting members and the second body form a linkage mechanism, so the first and second supporting members pivot relative to the first body. The steps limit the third end to generate a unique moving path on the rail.

A portable electronic device including a first body, a second body, a stand, and a hinge structure is provided. The stand has a first pivot part and a second pivot part opposite to the first pivot part, wherein the first pivot part is pivotally connected to the first body, and the second body is pivotally connected to the second pivot part. The hinge structure includes a first bracket secured to the second body, a second bracket secured to the second pivot part of the stand, a first movable base, a first shaft secured to the first bracket and pivoted to the first movable base, a second movable base, a second shaft secured to the first movable base and pivoted to the second movable base, and a sliding shaft fixed to the second movable base and slidably connected to the second bracket.