A portable electronic device includes a three-axis acceleration sensor, a touch-sensing module, a processor, and a display screen. The three-axis acceleration sensor outputs a first sensing signal according to the state of motion. The touch-sensing module generates a touch-sensing signal according to the touch action of a touching object. The processor receives the first sensing signal and the touch-sensing signal, executes the user interface, and determines that the portable electronic device is in a state of motion when the first sensing signal is greater than a predetermined threshold. When the portable electronic device is in a state of motion, the processor continuously receives the touch-sensing signal and the user interface is in a normal mode rather than a call mode for longer than a predetermined time, the processor controls the display screen to decrease the brightness for entering a safe operation mode.

Described herein are improved grips for handheld devices (such as handheld mobile phones). Specifically, the grips disclosed herein overcome many of the technical problems (such as ergonomic problems) found in known grips for handheld devices. Embodiments can include an articulate grip that includes a finger retainer, a phone mount base, and a pivot link connecting the finger retainer and the phone mount base.

A case for a mobile phone is provided with a forefinger tip purchase or gripping area on its back so that a user can securely hold the phone and case in the palm of one hand, with pinky, ring and middle finger on the side wall of the phone with the thumb opposed for use in touching, swiping, and scrolling the touch sensitive screen of the phone, and the forefinger located behind the case, but secured thereto by the tip of the forefinger interacting with a finger tip purchase mechanism located at or near the top of the back of the case, preferably in a corner.

An electronic device according to one example of the present invention comprises: a proximity sensor for generating proximity information on an object which approaches the electronic device; an iris sensor for detecting an iris; and a first processor for controlling the electronic device, wherein the first processor can be set to: determine the distance between the electronic device and the object on the basis of the proximity information generated by the proximity sensor; detect the iris by using the iris sensor when the distance between the electronic device and the object is greater than a first reference value; and inactivate the iris sensor when the distance between the electronic device and the object is less than or equal to the first reference value. In addition, other examples are possible.

Floor panels are shown, which are provided with a mechanical locking system on long and short edges allowing installation with vertical snap folding that could be accomplished automatically without tools and where the short edge locking system has a tongue made in one piece with the panel.

A mobile communication device which comprises a first member with first surface having a first curvature and a second surface having a second curvature; a second member having first surface with a third curvature and a second surface with a fourth curvature. A hinge pivotally connects the first and second members with one another such that they are movable between opened and closed configurations. The first and the second curvatures of the first member combine with one another and form a combined average curvature for the first member and the third and the fourth curvatures of the second member combine combine with one another and form a combined average curvature for the second member. The combined average curvature for the first member and the combined average curvature for the second member combine with one another to form a combined average curvature for the communication device which is 8 feet or less.

A signal processing device, which processes a baseband signal for wireless communication, includes a plurality of temperature sensors arranged to sense internal temperatures of the signal processing device, respectively, a threshold storage storing a plurality of thresholds, and a controller that estimates a surface temperature based on the sensed internal temperatures and performs a thermal mitigation operation based on the surface temperature and a plurality of temperature ranges defined by the plurality of thresholds.

Wearable communication devices, e.g. implemented in a watch, using short range communication e.g. to a cell phone allow a user to talk and listen, place and answer calls, send and receive text messages, initiate voice commands to mobile search for information and find locations, and be notified of incoming calls, texts, and events, all while a phone is nearby but not visible. Notification is performed with vibration, an LED light or OLED text display of incoming calls, texts, and calendar events. It allows communicating hands-free. The watches can be directly connected to a smartphone allowing using the watch as “remote control” for home appliances or any other devices via voice and buttons. Motion sensors such as accelerometer, magnetometer and gyroscope, together with audio generation device can be used for gaming applications.

A mobile terminal includes: a body in which an electronic component is installed; and a movement unit fastened to the body in at least a portion thereof, configured to output information processed in the mobile terminal, and the movement unit being flexible on the body as curvature of the body is varied, wherein the body includes a varied portion whose curvature is varied and fixed portions formed on both ends of the varied portion and having curvature which is not changed, wherein the varied portion includes a plurality of micro blocks formed in a movement direction and configured to form a predetermined curvature and an elastic member formed in the micro blocks and enabling the micro blocks to form a predetermined curvature when external force is applied or when external force is removed.

A receiver module and a terminal device are provided. The receiver module includes a housing, a receiver, a drive assembly and a soundproofing assembly, where the housing is internally provided with an accommodating space, the receiver is arranged in the accommodating space, and the housing and the receiver fit together to form a sound cavity, a sound-emitting side of the receiver facing towards the sound cavity; the housing is provided with a first sound-emitting hole and a second sound-emitting hole; the drive assembly and the soundproofing assembly are connected, and the drive assembly is configured to drive the soundproofing assembly to be in a first state or a second state.