A functional flip cover protective case having a physical keypad and a transparent viewing window for touch-based smart phone device is being disclosed. The functional flip cover protective case comprising an integral flip cover attached a protective case; the flip cover includes a built in physical keypad device and a transparent viewing window on the front side of the flip cover when the flip cover is in closed position; wherein the flip cover further comprising a sensor to detect opening and closing actions; wherein the protective case may comprising a data/power connector, and/or a Bluetooth device, and/or a NFC (Near Field Communication) device for corresponding between the physical keypad and the smart phone device; wherein upon closing the flip cover, the physical keypad will be activated to take over the input controls of the smart phone device. In addition, the display output on touch screen of the smart phone device will be limited within the boundary of the transparent viewing window; wherein upon the opening the flip cover, the physical keypad will be deactivated and return the input controls to the smart phone device; wherein further comprising a software module to be installed in the smart phone device to correspondence with the censor and physical keypad of the flip cover.

A mobile terminal is disclosed. A mobile terminal according to the present invention includes: a terminal body composed of at least one case; a display provided to a front side of the terminal body; and a rear input module provided to a rear side of the terminal body and including at least one button to receive control commands from a user, wherein the rear input module is covered by the at least one case such that the at least one button is not exposed. Accordingly, the rear input module is not exposed to the outside.

An example system for a telephone can include a unibody plate having a front portion and a back portion, a back plate mounted to the back portion of the unibody plate, and a touch sensitive display panel mounted to the front portion of the unibody plate. The unibody plate can be of a single piece of milled material. The back portion of the back plate, when combined with the unibody plate, can forming at least one cavity such as a speaker cavity. The speaker cavity can include a speaker mount, a speaker cradle, and a speaker. The speaker cradle can have an interior portion and be secured to the back plate. The speaker mount can engages the back portion of the unibody plate and the rim of speaker cradle. The speaker can be mounted within the interior portion of the speaker cradle.

An example system for a telephone can include a unibody plate having a front portion and a back portion, a back plate mounted to the back portion of the unibody plate, and a touch sensitive display panel mounted to the front portion of the unibody plate. The unibody plate can be of a single piece of milled material. The back portion of the back plate, when combined with the unibody plate, can forming at least one cavity such as a speaker cavity. The speaker cavity can include a speaker mount, a speaker cradle, and a speaker. The speaker cradle can have an interior portion and be secured to the back plate. The speaker mount can engages the back portion of the unibody plate and the rim of speaker cradle. The speaker can be mounted within the interior portion of the speaker cradle.

Disclosed are devices, systems, methods, and media for efficient emergency calling using digital devices. In some embodiments, a user is able to make an emergency call by a one-touch or dual-touch process. An authentication process may reduce inadvertent and unauthorized emergency calling. Persistent emergency buttons are also disclosed that may be used for calling emergency in different states of the device.

An electronic device is provided. A lateral fingerprint recognition apparatus is in contact with a function button. An accommodating structure is arranged in the lateral fingerprint recognition apparatus. A stopping assembly is arranged on a side of a fingerprint hole close to the function button. Inserting a partial area of the stopping assembly into the accommodating structure enables the lateral fingerprint recognition apparatus, when pressed, to move in movement space of the accommodating structure on the side of the fingerprint hole close to the function button, so as to limit a displacement amount of the lateral fingerprint recognition apparatus within a specific range, implementing the functions of the lateral fingerprint recognition apparatus and of the function button, and preventing the lateral fingerprint recognition apparatus from being displaced from the originally designed position.

An electronic device including a button assembly is provided. The electronic device includes a housing, a button member which is at least partially exposed to the outside of the housing, a substrate portion disposed in an inner space of the housing, a dome switch module mounted on the substrate portion, a bracket mounted inside the housing, and a block member which is disposed between the dome switch module and the bracket and includes a base portion coupled to one surface of the bracket, a contact portion in contact with the dome switch module, and a support portion disposed on the periphery the contact portion.

An electronic device including a button assembly is provided. The electronic device includes a housing, a button member which is at least partially exposed to the outside of the housing, a substrate portion disposed in an inner space of the housing, a dome switch module mounted on the substrate portion, a bracket mounted inside the housing, and a block member which is disposed between the dome switch module and the bracket and includes a base portion coupled to one surface of the bracket, a contact portion in contact with the dome switch module, and a support portion disposed on the periphery the contact portion.

An electronic device including a housing including a front panel and a rear panel, the rear panel arranged on a side of the housing opposite the front panel, a processor configured to execute instructions and the processor being arranged within the housing, a display device configured to generate an interface based in part in response to the processor, where the display device is arranged in the front panel, a touchscreen associated with the display device and configured to sense a user input, where the user input is provided to the processor and where the touchscreen include part of the front panel, and a rear input arranged on the rear panel of the housing and configured to provide a dedicated input to the processor, the processor providing advanced user controls on the interface in response to operation of the rear input.

An input sensing unit includes a first metal pattern layer including a plurality of first conductive lines extending in a first direction. A first insulating layer is disposed on the first metal pattern layer. A second metal pattern layer is positioned above the first insulating layer and includes a plurality of second conductive lines extending in a second direction intersecting the first direction. A second insulating layer is disposed on the second metal pattern layer. A sensing electrode is disposed on the second insulating layer and is electrically connected to the second metal pattern layer through a contact hole defined in the second insulating layer. An anti-reflection pattern layer is disposed on the first and second metal pattern layers to overlap the first and second metal pattern layers along a direction orthogonal to an upper surface of the anti-reflection pattern layer.