An appliance, including an interface and input chassis is provided. Appliance may include a contact plate, a conductive spring, and a support wall. The input chassis may define a connection aperture extending therethrough. The contact plate may be disposed above the connection aperture of the input chassis. The contact plate may include a top surface facing away from the input chassis and a bottom surface facing toward the input chassis. The conductive spring may be coupled the contact plate at the bottom surface of the contact plate. The conductive spring may extend through the connection aperture. The support wall may be attached to the input chassis and disposed about the conductive spring between the contact plate and the connection aperture of the input chassis.

A capacitive sensor to determine instantaneous angular position of a rotatable element in a timepiece, such as a setting stem of a wristwatch. Static electrodes are configured to form, in conjunction with rotor electrodes of the rotatable element, a first differential capacitance pair and a second differential capacitance pair. A sensor calculation unit is configured to sense difference values from the differential capacitances pairs and to evaluate the angular position of the rotatable element from the difference values using predetermined information relating the differential capacitance values to angular position values.

A capacitive sensor to determine instantaneous angular position of a rotatable element in a timepiece, such as a setting stem of a wristwatch. Static electrodes are configured to form, in conjunction with rotor electrodes of the rotatable element, a first differential capacitance pair and a second differential capacitance pair. A sensor calculation unit is configured to sense difference values from the differential capacitances pairs and to evaluate the angular position of the rotatable element from the difference values using predetermined information relating the differential capacitance values to angular position values.

The invention relates to an input device (10) for ascertaining manual operation, having a touch-sensitive sensor element (12) that is mounted movably such that it is movable in a direction of operation (14) on the manual operation, the touch-sensitive sensor element (12) being mechanically coupled to a force sensor element (16).

An input device includes an operation part, an operation commencement trigger part, and a detection circuit. The operation part includes an electrostatic capacity-type slider. The operation commencement trigger part is provided at a predetermined location on the slider. The operation commencement trigger part is provided to commence a first operation including a flick operation on the slider. When the detection circuit detects that the operation commencement trigger part has been touched, the detection circuit enables detection of a first operation on the slider.

An input device includes an operation part, an operation commencement trigger part, and a detection circuit. The operation part includes an electrostatic capacity-type slider. The operation commencement trigger part is provided at a predetermined location on the slider. The operation commencement trigger part is provided to commence a first operation including a flick operation on the slider. When the detection circuit detects that the operation commencement trigger part has been touched, the detection circuit enables detection of a first operation on the slider.

An operating apparatus is disposed on a surface of a detection panel including a transparent panel and a sensor panel. An operation body includes an upper wall, an inner peripheral wall, and an outer peripheral wall. A rotary assembly is housed in the operation body. The rotary assembly includes a supporter fixed to the detection panel and a rotational operation member rotatably supported by the supporter. The rotational operation member is rotatable together with the operation body. A press detection conductor is provided at a conductor supporting portion of the operation body. A rotation detecting conductor is provided at the rotational operation member.

An electronic switch with force feedback function includes a base, an actuating component and a. The actuating component is movably connected to the base, and includes a. The magnetic field generating module is disposed on the base, and provides a magnetic repulsive force to the magnetic unit for force feedback while the actuating component moves close to the base.

Systems and methods are disclosed for user configurable pressure sensitive keys and techniques for controlling these keys for keyboards. User configuration information, including information for user configurable granularity scales for pressure levels, can be communicated from a host system to the keyboard and stored for later use by a keyboard controller to control the operation of the pressure sensitive keys. In this way, greater control of the pressure sensitive keys can be provided. This configurability is of particular use for applications such as where the keyboard is being used for gaming by a user running a gaming application on an information handling system.

Systems and methods are disclosed for user configurable pressure sensitive keys and techniques for controlling these keys for keyboards. User configuration information, including information for user configurable granularity scales for pressure levels, can be communicated from a host system to the keyboard and stored for later use by a keyboard controller to control the operation of the pressure sensitive keys. In this way, greater control of the pressure sensitive keys can be provided. This configurability is of particular use for applications such as where the keyboard is being used for gaming by a user running a gaming application on an information handling system.