This disclosure generally relates to various directional input units of a mobile communication terminal, where such directional input units receive a single user input or multiple concurrent user inputs and then acquires at least one selecting (user) sub-input therefrom while a terminal is in its powered-off state or its off-state. After acquiring the selecting user sub-input, a terminal runs at least one pre-selected operation which is selected from a set of multiple pre-selected operations and which matches the selecting user sub-input when a terminal powers on from its powered-off state or wakes up from its off-state. A directional input unit may acquire the selecting user sub-input from a movement of at least a portion thereof, a contact between at least a portion thereof and a user body part, or the like. As a result, a terminal can provide a user with more seamless operations.

An electronic device that includes a rotary operator that changes a parameter value of the device itself, the rotary operator having a first contact region and a second contact region positioned on an opposite side of the first contact region with respect to a rotation axis of the rotary operator and being rotatably operated in such a manner that a finger of a user slides in a circumferential direction of the rotary operator with the finger contacting any of the first and second contact regions; and a changing direction setting unit that sets a changing direction of the parameter value with respect to a rotation direction of the rotary operator.

An electronic device is disclosed. In some examples, the electronic device includes an input element configured to move in a first direction in response to an input at the input element. The input element can include circuitry configured to perform a first functionality, and process data resulting from the performance of the first functionality and output the processed data from the input element. In some examples, the electronic device includes a processor electrically coupled to the circuitry and configured to process the movement of the input element as an input to the electronic device, and receive the processed data and perform an action based on the processed data.

An apparatus for carrying out inputs in an input capturing unit that can be coupled to the apparatus. An operating device has a receiving part and an operating element that is rotatably mounted on the receiving part. The operating element can be rotated by a finger to effect an input. A torque for the rotation of the control element can be adjusted by way of a controllable braking device. In addition, the control element has at least two actuating zones. The resistance to movement for the movability of the operating element can be adjusted depending on from which actuation zone the operating element is actuated and/or which actuation zone was previously activated.

An electronic device including an antenna and a stylus pen, that can reduce antenna performance degradation, is provided. The electronic device includes a housing including a conductive part and at least one cut-off portion formed in the conductive part, a printed circuit board disposed inside the housing, a wireless communication interface disposed on the printed circuit board, and a stylus pen, wherein the conductive part may be electrically connected to the wireless communication interface, wherein the stylus pen may include at least one cut-off portion, and at least one magnet enabling attachment and detachment to and from the housing, and wherein when the stylus pen is attached to the housing, the at least one cut-off portion formed in the conductive part and the at least one cut-off portion formed in the stylus pen are aligned.

A control-knob selection system includes a smartphone or electronic tablet having a front face equipped with a display and a video camera, a support equipped with a control-knob button, and a receiving area able to receive and retain the smartphone or electronic tablet, such that when the smartphone or electronic tablet is positioned in the receiving area, an optical path between a light source emitted by the display and the video camera is selectively established or interrupted depending on the angular position of the control-knob button about the axis A, with at least one reflection on an optical reflector, whereby the control-knob function uses the smartphone resources and can operate with just one software application.

A device that includes a control element that has multiple degrees of freedom; a mobile device holder that is configured to control a movement of a mobile device when the mobile device is connected to the mobile device holder; and a transmission mechanism that is configured to translate a movement of the control element to a corresponding movement of at least a part of the mobile device holder.

Operability is improved when operating an electronic device with one hand. An electronic device (1) includes a touch sensor on a front surface and a touch sensor on a back surface. A controller (14) causes a cursor for selecting an icon positioned at an upper portion of a display (11) to be displayed upon detecting an operation on the touch sensor (13) on the back surface and executes processing corresponding to an icon selected by the cursor upon detecting an operation on the touch sensor (12) on the front surface. The controller (14) also executes processing related to a phone call application upon detecting an operation on the touch sensor (13) on the back surface during a phone call.

An electronic device includes a rear cover and a camera decoration component. The camera decoration component includes a decoration member, a dial plate, a plurality of positioning members, and a plurality of induction members. The dial plate is annular, and is sleeved on an outer peripheral side of the decoration member. The decoration member includes a virtual rotation axis, and the dial plate is rotatably connected to the decoration member. The decoration member is configured to rotate around the virtual rotation axis of the decoration member. The positioning members and the induction members are configured to control the dial plate to be in a hovering state.

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.