A holding apparatus and method may be used to secure and support a portable electronic device. The apparatus has a base plate that fits along the back surface of a portable electronic device. The base plate has top and bottom base plate surfaces. The apparatus has a strip that fits along the top base plate surface. The apparatus has a frame on the top base plate surface. The frame defines an aperture. The apparatus has pins and recesses that form hinged connections and secure the strip to the base plate. The strip is moveable between engaged and disengaged positions within the aperture.

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.

In accordance with some embodiments, an apparatus that controls security choke points on a personal communication device is provided. The apparatus includes a housing arranged to hold a second device. The apparatus receives a first input and classifies the first input. The apparatus then determines which of a combination of one or more sensors on the second device that the first input is directed to based on an input type classification associated with the first input. The apparatus further disables a first combination of the one or more sensors on the second device in accordance with determining that the first input corresponds to a first input type classification.

A mobile device has at least one grip handle disposed on the back surface of the mobile device. The grip handle comprises at least one grip surface that enables a user to grasp the mobile device and use it with one hand of the user. Various embodiments of the invention are disclosed.

A wireless communication terminal includes: a body; a camera on a back surface; a code reader attachable to the back surface; a display on a front surface with top and bottom edges longer than left and right edges; and first and second buttons on the front surface. Upper, lower, left, right areas are between respective edges of the front surface and those of the display. The camera is in an area opposite the upper area. A width of the lower area is wider than each of widths of the left and right areas. The first button is in the lower area. The second button is between a center line of the body passing through a center point of the front surface and in parallel with the top or bottom edge of the front surface and a line extending from the top edge of the display.

A mobile-cordless phone system including a mobile-cordless phone assembly; the mobile-cordless phone assembly including an external-phone-body and an internal-circuitry system. The external-phone-body and the internal-circuitry system are structured and arranged to provide the user with a device useful for communications with the internal-circuitry useful for providing a user with a portable telephone with the capabilities to operate on a wireless cellular network and, optionally, a telephone landline. The mobile-cordless phone assembly may be weather-resistant in some embodiments, and may include a multi-color-LED-light-source useful for providing visual indications and notifications to the user. The mobile-cordless phone system includes a solar panel for charging. The mobile-cordless phone assembly may also include a charging-port for connecting a charging-device to the mobile-cordless phone system. Preferred embodiments may also include a fingerprint-reader.

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.

An anti-fingerprint terminal housing includes a housing substrate, where the housing substrate includes a first surface and a second surface that are oppositely disposed, the first surface faces the exterior of the terminal housing, and the second surface faces the interior of the terminal housing, the first surface is provided with a plurality of spaced convexes or concaves formed by the housing substrate, a distance between boundaries of any two adjacent convexes or concaves on a same side is in a range of 1-900 nanometers (nm), and the height of the convex or the depth of the concave is in a range of 1-400 nm.

The disclosure relates to a key structure, a key input method, and an electronic device using the same, and an operating method of an electronic device includes: identifying an input operation, by comparing output values of at least two sensors provided on a side surface of the electronic device and a threshold value; determining whether a function corresponding to the identified input operation exists; and, based on the corresponding function existing, executing the corresponding function. Accordingly, the electronic device can receive various input operations under a keyless structure.