An actuating breathable material structure is disclosed and includes a supporting main body, a plurality of actuating breathable units and a plurality of micro processing chips. The supporting main body is made of a supporting matrix. The plurality of actuating breathable units and the plurality of micro processing chips are compounded and are integrally formed with the supporting matrix into one piece. By controlling the actuation of the plurality of actuating breathable units through the plurality of micro processing chips, a breathing effect resulting from gas transportation in a specific direction is performed.

A power bank and holographic projection accessory intended for use with a portable electronic device. The accessory includes a holographic projection unit and an external power bank case attachable to the holographic projection unit. The external power bank case is configured to provide power to the holographic projection unit and to provide a video signal generated by the portable electronic device to the holographic projection unit. The holographic projection unit generates volumetric projections based upon the video signal.

A structure suitable for a portable information terminal or a wearable device is provided. In addition, an electronic device having a novel structure that can have various forms is provided. It is preferable that a buffer layer which absorbs a difference in the amount of change in form be provided between adjacent film substrates which overlap with each other. As the buffer layer, a gelled resin material, a rubber resin material, a liquid material, an air layer, or the like can be used. Furthermore, an optical film such as a polarizing film or a color filter may be used as the buffer layer. A plurality of buffer layers may be provided in an electronic device.

A portable electronic apparatus includes a case, a solar cell disposed in the case, a GPS antenna as an antenna section disposed in the case, including a base as a nonconductive member and a conductive body disposed on a surface of the nonconductive member, and adapted to receive a positioning satellite signal, and a circuit board disposed in the case, and electrically connected to the solar cell and the antenna section, and the antenna section overlaps the solar cell in a planar view viewed from a normal direction of light receiving surfaces of the solar cell.

An electronic device includes a housing structure including a first cover facing in a first direction and forming a first surface of the electronic device, and a second cover facing in a second direction opposite to the first direction and forming a second surface of the electronic device. The electronic device also includes a display positioned in a space formed by the housing structure and exposed through the first surface. The electronic device further includes an energy harvesting structure positioned in the space and configured to generate a current from a contact input to the first surface and a sound input generated inside and outside the electronic device. The electronic device additionally includes a battery positioned in the space. The electronic device also includes a charging circuit configured to charge the battery using the current received from the energy harvesting structure.

An e-book reader in which destruction of a driver circuit at the time when a flexible panel is handled is inhibited. In addition, an e-book reader having a simplified structure. A plurality of flexible display panels each including a display portion in which display control is performed by a scan line driver circuit and a signal line driver circuit, and a binding portion fastening the plurality of display panels together are included. The signal line driver circuit is provided inside the binding portion, and the scan line driver circuit is provided at the edge of the display panel in a direction perpendicular to the binding portion.

The present disclosure provides an auxiliary device that implements both free-stop hinge and click hinge and includes a seating member forming a seating area for a mobile terminal to implement a neat appearance and a hinge module rotatably connecting the cover member to the seating member, wherein the hinge module includes a holder, a rotation member including a first rotation member fixed to the seating member to form a first rotation axis between the holder and the seating member, and a second rotation member fixed to the cover member to form a second rotation axis between the holder and the cover member, the second rotation axis being parallel with the first rotation axis, and an elastic member configured to elastically press the rotation member to prevent a rotation due to a predetermined magnitude of force or less.

A portable workstation. The portable workstation comprises a hollowed housing having a closed-end and an opposing open end. The housing defines a compartment for storing a computer keyboard. A hinge is rotatably coupled to an upper surface of the housing. The hinge is adapted to support a mobile device and is adjustable to support the mobile device in various orientations. One or more electrical connectors are coupled to the closed end of the housing. The electrical connectors are in electrical communication with the mobile unit. A charging station is coupled to the upper surface of the housing for fast charging a mobile device. A power cord is coupled to the closed end of the housing. The power cord is electronically coupled to the one or more electrical connectors and the charging station.

A method may include determining that an information handling system is placed on a wireless charging pad. The wireless charging pad is communicatively coupled to a wireless docking station. The method may further include receiving, at the wireless charging pad, a first unique identifier from the wireless docking station. A wireless dock connection is initiated between the wireless docking station and the information handling system in response to receiving the first unique identifier.

According to one embodiment, an electronic device includes a housing formed of an insulator and including an outer surface and a mounting part opened to the outer surface, a conductor member provided in the inside of the housing, an installation component formed of an insulator and can be installed into the mounting part, and a first connector provided on the inner side of the mounting part. The mounting part includes communicating apertures at a position in contact with a gap to be formed between the mounting part and the installation component when the installation component is installed into the mounting part and on the outer surface side with respect to the first connector, and the conductor member is exposed to the gap through the communicating aperture.