A multi-function key system and method is provided that includes key identification system, a first key, and a second key. The multi-function key system is in communication with an item of power equipment, and comprises first and second sensors for detecting magnetic fields. The first key is configured to interact with the key identification system, the first key comprises a first magnet generating a first magnetic field. The second key is configured to interact with the key identification system. The second key comprises a second magnet generating a second magnetic field. Wherein the first and second sensors differentiate between the first and second key based upon the first and second magnetic fields. The key identification system initiates a first functionality of the power equipment responsive to identifying the first key, and initiates a second functionality of the power equipment responsive to identifying the second key.

Methods for processing signals from a magnetic user interface device having a manual actuator are disclosed. Movements of the actuator may cause relative movement between one or more magnets and one or more corresponding sensors that may each generate signals representing independent magnetic field components detected within each sensor. A field model may be used in the magnetic user interface device to translate magnetic sensor readings during operation to position information, which may then be converted to output signals for transmission to an electronic computing system representing displacement and/or deformation of the actuator. The output signals may be generated in a predetermined format, such as USB format or other computer-interface formats, that can be interpreted by the electronic computing system.

An electronic device includes: a camera module, a camera window formed to cover the camera module and installed in a first opening, a bracket receiving the camera window and the camera module and adhered to a rear cover by a third waterproof member, a fourth waterproof member adhering the window cover and the bracket, a second opening formed in the bracket and connected to the inside of the middle frame, and a filter member disposed in the second opening and blocking movement of water and forming a movement path of air, wherein a gap is formed between an edge of the rear cover forming the first opening and an edge of the camera window and a movement region is formed by a space between the rear cover and the bracket and connected to the second opening, such that air and water are introduced.

At least one operator control element which can be moved by an operator is included in an operator control device. Furthermore, the operator control device includes an actuator with which activation of the operator control element can be communicated to the operator. The actuator includes a coil element and an armature which can move relative to the coil element. The armature is secured to the operator control element. The operator control device also includes an evaluation device with which a position of the armature relative to the coil element can be detected.

Aspects of the disclosure relate generally to keyboards for computing devices. For example, rather than using a dome, the keycap may include one or more magnets. In one example, a second magnet may be placed adjacent to a switch or magnetic sensor on a circuit board. The magnets may be arranged so that they repel one another in order to force the keycap away from the switch. Webbing between the keycaps may be used to keep the keycaps from falling off of the device. To keep the keycap from moving laterally, the keycap may include two or more flanges held in place by rails. Other arrangements of magnets or magnetic plates may also be used. If a magnetic sensor is used, it may be calibrated to adjust the sensitivity of the keys, for example, how far a user must press the keycap in order to have the pressing register.

A non-electromechanical-contact switch which includes an interfering member which is displaceable into a core of an inductor thereby to change the inductance of the inductor in a manner which is related to the degree of displacement of the interfering member.

The present disclosure provides a customize input device and a customize button input method. The customize input device includes a button, a sensing module, a storage module, and a processor. The sensing module is disposed under the button for measuring a displacement of the button. The storage module is used for storing a triggering condition of the button. The processor is connected to the sensing module to compare the displacement with the triggering condition. When the displacement coincides with the triggering condition, the processor sends a triggering signal.

At least one operator control element which can be moved by an operator is included in an operator control device. Furthermore, the operator control device includes an actuator with which activation of the operator control element can be communicated to the operator. The actuator includes a coil element and an armature which can move relative to the coil element. The armature is secured to the operator control element. The operator control device also includes an evaluation device with which a position of the armature relative to the coil element can be detected.

The present disclosure aims to provide a high-durability switch device. The switch device includes: a switch key top and a switch key bottom that are freely displaceable relative to each other, the switch key top including key top reception and transmitting coils that are connected to each other, and the switch key bottom including: a key bottom transmitting coil having a relative positional relationship with the key top receiving coil that changes according to a relative displacement operation with respect to the switch key top; a key bottom receiving coil having a relative positional relationship with the key top transmitting coil that changes according to the relative displacement operation with respect to the switch key top; a current supplier supplying current to the key bottom transmitting coil; and a determiner determining relative displacement with respect to the switch key top from induced current in the key bottom receiving coil.

A switch device includes a circuit board, a coil structure, a lower cover, an upper cover, an elastic part, and a sliding part. The circuit board gas a through hole running through the circuit board. The coil structure is disposed on the circuit board and surrounds the through hole. The lower cover us located over the coil structure. The upper cover is disposed on the lower cover. The lower cover and the upper cover form an accommodating space. The elastic part is located in the accommodating space. The sliding part passes through an opening of the upper cover and is configured to slide relative to the lower cover along a direction. The sliding body is configured to drive the sliding part to pass through the through hole along the direction to generate a switch signal corresponding to an inductance variance of the coil structure.