Disclosed herein is a multi-function input device, such as a keyboard. The multifunction input device has a touch-sensing layer that enables a user to use the multifunction input device as a standard keyboard and also as a touch sensitive surface such as, for example, a trackpad.

In certain embodiments, a method includes applying voltage to a sensor that includes first and second electrode tracks, the sensor proximate to a conductor depressible relative to the sensor and located between a button and the sensor. The conductor can capacitively couple with a capacitive node formed by the tracks, and the button can capacitively couple with an object. A value of a capacitance at the node is measured, the capacitance reflecting an amount of capacitive coupling between the conductor and the node. In response to the value meeting a first condition, a first button state is detected, indicating the object is within a detectable distance of and not in contact with the button. In response to the value meeting a second condition, a second button state is detected, indicating the object is in contact with the button and the conductor is not in contact with the sensor.

A control panel for a vehicle includes a plurality of buttons disposed on the control panel, and at least one conductive rib disposed on the plurality of buttons. The control panel is made of a non-conductive material. The conductive rib is connected to an electrostatic protection circuit or a touch controller so that the electrostatic protection can be realized through the conductive rib or the conductive rib can serve as a touch button.

According to one embodiment, there is provided an input apparatus comprising a key that is displaceable along a direction; a first detecting circuit that comprises an electrostatic capacitance sensor that detects a variation of an electrostatic capacitance caused by a contact or a proximity of a pressing body with the key; and a second detecting circuit that comprises a first electrode, the second detecting circuit detecting an electric connection of the first electrode to a second electrode that is displaced along the direction as the key is displaced, wherein the input apparatus switches a detecting status thereof exclusively between a first detecting status and a second detecting status to each other in accordance with a displacement variation of the key.

An operation apparatus includes: an operation plate on which an operation surface performed by a pressing operation with an operation body; an assembly member assembled with the operation plate; a first elastic member opposite to the operation surface with respect to the operation plate, and between the operation plate and the assembly member to be elastically deformable by a pressing force applied by the operation body; a sensor detecting an elastic deformation changing amount of the first elastic member generated by the pressing operation; a pressing determinator determining whether the pressing operation is performed based on a detection value of the sensor; and a second elastic member between the operation plate and the assembly member to be elastically deformable with the first elastic member by the pressing force. The first and second elastic members are arranged to enable the pressing force applied serially.

Examples are disclosed that relate to handheld input devices having pressable user input mechanisms configured to move in a manner that adapts to different hands. One disclosed example provides a handheld input device comprising a body configured to be held by a hand such that one or more fingers of the hand are curved at least partially toward a palm of the hand, a pressable user input mechanism positioned on the body at such a location as to be in contact with a palm-side surface of a finger when the handheld input device is held, and a hinge coupling between the body and the pressable user input mechanism, the hinge coupling comprising an axis of rotation that varies based upon a characteristic of force applied to the pressable user input mechanism.

A headset controller takes a first touch sensor, a second touch sensor, a first pressure sensor, and a second pressure sensor as a control medium for users. The headset controller can generate four different output instructions by the users touching or pressing the operating interface. The headset controller integrates various sensing methods to generate the needed output instructions.

A keypad system uses capacitive touch switches in combination with one or more mechanical switches for ultra-low-power operation and/or increased functionality. A Capacitive switches are activated by touching different regions of a housing. A microcontroller detects the activation of the touch switches and communicate a code to a remote device in response to switch activation. The microcontroller preferably has a fully operational active state and a reduced functionality sleep state. Activation of at least one mechanical switch causes the microcontroller to awaken from the reduced functionality sleep state to the fully operational active state, thereby enabling the microcontroller to determine if one or more of the capacitive switches has been activated to communicate a corresponding code to the remote device. While ideally suited to vehicle-mounted keyless entry systems, the apparatus and methods find wider applicability in diverse fields of use.

An activation device for actuation of a vehicle function includes a cover element, a light distribution device arranged under the cover element, and a light source arranged under or in the light distribution device. The light source and the light distribution device are arranged for backlighting the cover element. The cover element includes an outward directed operation area at least partially formed of an electrically-conductive metallic material with the operation area being galvanically decoupled from the remaining components. A circuit board is arranged under the light distribution device with a capacitive sensor such that the capacitive sensor is coupled to the operation area. The control and evaluation circuit is coupled to the light source and the proximity sensor to control the light source depending on an approach.

An actuating element for an electronic domestic appliance has an electrically non-conductive carrier which defines at least one preferably substantially cylindrical detection portion. A plurality of electrically conductive measuring electrodes is spaced apart from one another along the detection portion of the carrier. A preferably substantially annular operating element is disposed at a first predefined distance from the measuring electrodes and is movable relative thereto. The operating element additionally has at least one sensor portion which is at least partially electrically conductive and is disposed at a second predefined distance from the measuring electrodes. The second predefined distance is different from the first predefined distance, so that a movement of the sensor portion and therefore of the operating element relative to the configuration of measuring electrodes can be detected.