A mobile terminal is provided with a housing, a circuit board included in the housing and having a thickness direction normal to a plane of the circuit board, a battery pack included in the housing, and a non-contact charging module included in the housing. The non-contact charging module includes a charging coil formed of a wound conducting wire; a communication coil arranged adjacent to the charging coil; and a magnetic sheet on which the charging coil and the communication coil are arranged. The magnetic sheet has four edges that collectively define a rectangular profile of the magnetic sheet, and at most three pairs of adjacent edges respectively meet to form at most three corners. At least a portion of the non-contact charging module overlaps with the circuit board as viewed in the thickness direction of the circuit board.

The present invention provides a locking mechanism in a mobile terminal and a method of manufacturing the same. The locking mechanism comprises a slider, latch, button, and spring. The slider and latch include openings and may translate between a locked position and an unlocked position. The latch may include a protrusion that limits the translation of the slider and the latch when in the locked position. The button is located within the opening of the slider and the opening of the latch, and the spring member is fixed adjacent the latch. In an instance in which an external force is applied to the button, the external force deforms the spring member such that contact between a vertical edge of the protrusion and the spring is precluded allowing translation of the slider and the latch between the locked position and the unlocked position.

A mobile telephone case that includes a housing structured to receive a mobile telephone, the housing includes a perimeter frame disposed about a perimeter of the mobile telephone to substantially cover and protect the mobile telephone, an at least partially open front face to provide access to a display screen of the mobile telephone, and a protective rear panel that is at least partially movable between an open orientation and a closed orientation when the housing is operatively disposed on the mobile telephone. The protective rear panel substantially covers and protects a rear surface of the mobile telephone when in the closed orientation, with at least a portion thereof being at least partially separable from the perimeter frame to define the open orientation that provides wireless charging access to the rear surface of the mobile telephone with the housing still disposed on the mobile telephone.

Disclosed is a case for an electronic device. The case for the electronic device includes an integrated electronic device charger adapted for charging the electronic device in wireless manner using an integrated sensor adapted to actuate charging of the electronic device when the electronic device reaches below a predefined battery threshold, an auxiliary battery adapted for provided additional power supply to the electronic device, and a charging port adapted for charging the electronic device through external power.

According to various embodiments of the disclosure, an electronic device may include: a housing including a first housing and a second housing configured to guide sliding movement of the first housing, a display configured to be at least partially unfolded based on the sliding movement of the first housing, and including a first display area disposed on the first housing and a second display area extending from the first display area, a battery disposed in the first housing, a driver configured to provide a driving force for the sliding movement to the first housing, and including a motor disposed in the first housing and a gear structure including a gear at least partially disposed in the second housing and connected to the motor, and an elastic member comprising a material arranged to be compressible and to provide an elastic restoring force disposed in the second housing. The gear structure may be disposed adjacent to one end of the battery, and the elastic member may be disposed adjacent to the other end of the battery facing a direction opposite to the one end of the battery.

A system and method for a face mask communication system. The face mask communication system includes a removable microphone that can be installed in a face mask to allow the wearer to clearly and privately communicate with another user over a Bluetooth enabled mobile device such as a cell phone. In illustrated examples, a microphone unit is deformable to enable the microphone unit to form a custom fit over the nose bridge to seal the mask on the user's face. The face mask communication system includes an application program operating on the mobile device that allows a user to initiate and secure private conversations with other users.

A variety of improvements to portable electronic devices are disclosed, particularly electronic devices designed for use in and around water. The improvements include a more secure interface jack, improved waterproofing techniques, improved battery stability, and improved device functionality. One or more of the disclosed improvements may be incorporated into a variety of portable electronic devices.

A battery charger for electronic devices and an electronic device are disclosed. In one embodiment, a battery charger housing forms a portion of an outer device shell or a protective case cover. Capacitors are located within the battery charger housing that include opposing spaced plates having contact segments thereon. An output power increasing, electrically resistive fluid is held within and partially fills an enclosed chamber that is boundaried by the contact segments. In response to movement of the electronic device, induced relative motion between the output power increasing, electrically resistive fluid and contact segments varies the fluid-contact segment contact within the enclosed chamber, thereby inversely alternating the capacitance between the pair of capacitors and triboelectrically generating an electrical charge. An electronic circuit, which is coupled to the opposing spaced plates, is configured to transfer the electrical charge to a battery associated with the electronic device.

A portable terminal is provided. The portable terminal includes a back surface on which a battery-mounting groove is formed; and a receiving-side resonant antenna arranged around the battery-mounting groove on the body. The receiving-side resonant antenna is arranged parallel to at least three sides of the battery-mounting groove.

Examples are disclosed herein that relate to curved batteries. One example provides a battery comprising an anode arranged on an anode substrate, a cathode arranged on a cathode substrate, the anode substrate being curved at a first curvature and the cathode substrate being curved at a second curvature, and a separator between the anode and the cathode. A thickness of the anode substrate and a thickness of the cathode substrate are determined based on the curvature of the respective substrate, such that the one of the anode substrate and the cathode substrate with a larger curvature has a larger thickness.