An electronic device may include a housing, a first interface, a second interface, a battery, a charger circuitry, and at least one processor. The at least one processor may determine information on a charging type of the external power supply connected through the first interface, acquire state information of the external electronic device connected through the second interface, acquire state information of the battery, determine a first power that will be supplied to the battery and a second power that will be supplied to the external electronic device, charge the battery based on the first power, and transmit the second power to the external electronic device through the second interface.

A collapsible laptop carriage bag. The laptop carriage bag includes a collapsible protective frame, having a first plate and a second plate carried between a plurality of arms pivotally attached between each of the first plate and the second plate. The arms are selectively extensible to position the collapsible protective frame between an extended condition and a collapsed condition. In the collapsed condition, the protective frame defines a protective cage about a portable electronic device received in an interior compartment. A bag is configured to be received within an elongate cylindrical enclosure defined by the collapsible protective frame when in the extended condition. The bag has in interior carriage space dimensioned to contain the collapsible protective frame when configured in the collapsed condition.

An input detection system includes a display device with a detection function that includes a plurality of detection electrodes arrayed in a display region, an electronic apparatus case including an accommodation portion accommodating the display device with the detection function and a cover covering the display region of the display device with the detection function, and an input device that is mounted on the cover of the electronic apparatus case so as to rotate around a rotating axis extending in a normal direction to a surface of the cover and includes a first electrode and a second electrode facing the detection electrodes.

An input detection system includes a display device with a detection function that includes a plurality of detection electrodes arrayed in a display region, an electronic apparatus case including an accommodation portion accommodating the display device with the detection function and a cover covering the display region of the display device with the detection function, and an input device that is mounted on the cover of the electronic apparatus case so as to rotate around a rotating axis extending in a normal direction to a surface of the cover and includes a first electrode and a second electrode facing the detection electrodes.

A portable computing device is disclosed. The portable computing device can take many forms such as a laptop computer, a tablet computer, and so on. The portable computing device can include at least a single piece housing. The single piece housing can be machined from a single billet of material, such as a billet of aluminum. The single piece housing can include ledges with a surface receiving a trim bead and a cover. Corner brackets can be attached to the single piece housing to improve the damage resistance of the housing.

Embodiments of the present invention provide a terminal, a protective case, and a sensing method. The terminal is suitable for removable installation of a protective case that protects a touchscreen of the terminal, and includes: a capacitance detection module, configured to detect a capacitance value of a capacitor module in the touchscreen, where the capacitance value is generated according to the capacitor module and a capacitive sensing body in the protective case; and a processing module, configured to: when it is determined that a change of the capacitance value detected by the capacitance detection module conforms to a first preset rule, determine that the protective case is far away from the terminal; and when it is determined that the change of the capacitance value conforms to a second preset rule, determine that the protective case is near the terminal.

A magnet mount assembly is provided for quickly mounting and releasing the portable electronic device to various objects, including stands, clamps and/or holders (i.e., support mount) to support the portable electronic device in elevated positions at a variety of angles. The magnet mount assembly may attach to the back of the temperature control device or electronics case or to the back of the portable devices by, for example, connecting to the universal mount. The mount may further include pong pins or other electrical connectors for supplying power and/or data to the cooling mount and/portable electronic device when the magnet mount assembly.

A case for a portable electronic device (PED) is disclosed. The case includes a body having an interior surface configured to accept a PED and an exterior surface to be exposed to outside forces. A back vent that permits the transfer heat away from the PED and to the environment presents through the body of the case. A cushioning member is placed at or near the back vent on the interior surface of the case and may substantially or completely surround the back vent. When a PED is placed within the case, the fit of the PED and the case causes the cushioning member to press against the PED in order to create a cushion for the PED in the event of an outside force being applied to the case. The case may include a screen protector within a frame that attaches to the body.

An electronic device can include a housing that includes an optically transparent component. First and second light emitters can be positioned in the internal volume defined by the housing. A light detector can be positioned in the internal volume and can be optically isolated from the first and second light emitters within the internal volume. An opaque material can be disposed on the optically transparent component and can be positioned to inhibit light emitted from the second light emitter from reaching the light detector and to allow light emitted from the first light emitter to reach the light detector.

Apparatuses, methods, systems, and program products are disclosed to determine when a portable electronic device is moved within an enclosed space. A processor and memory may control a sensor may store code executable by the processor to measure a parameter at an inlet of the computing device. The parameter may include an airflow rate, an air temperature at the inlet, and/or a current supply to a fan of the computing device. The processor may execute code to determine when the parameter at the inlet reaches a threshold. When the processor determines that the measured parameter has reached the threshold, a signal from the sensor to the processor and/or from the processor to an operator may be sent, indicating that the threshold has been reached.