A power on/off circuit includes: a sensor for generating a corresponding first control signal based on a user operation; a first switch element, a first end of the first switch element being connected to a voltage input end, a second end of the first switch element being connected to a voltage output end, the voltage input end being connected to a power supply voltage; and a capacitor connected between a third end of the first switch element and the sensor, the capacitor controlling an on-off of the first switch element based on the first control signal.

The technology provides for an extension member configured to direct a magnetic field from a magnet to a Hall Effect sensor to facilitate detection of magnetic field. By varying the dimensions of the extension member, which may be any arbitrary shape, the relative positions of the magnet and the Hall Effect sensor may be less constrained by the reach of the magnetic field of the magnet, thereby allowing more design possibilities. The extension member may be used in a case, where the extension member may facilitate detection of whether the case is open or closed, the extension member may further provide magnetic attraction to keep the case closed.

The technology provides for an extension member configured to direct a magnetic field from a magnet to a Hall Effect sensor to facilitate detection of magnetic field. By varying the dimensions of the extension member, which may be any arbitrary shape, the relative positions of the magnet and the Hall Effect sensor may be less constrained by the reach of the magnetic field of the magnet, thereby allowing more design possibilities. The extension member may be used in a case, where the extension member may facilitate detection of whether the case is open or closed, the extension member may further provide magnetic attraction to keep the case closed.

An inductive sensing-based user interface device which includes a conductive barrier with at least one aperture, a magnetic flux modifier attached to a rotary member on one side of the barrier and an inductive structure on an opposed side of the barrier aligned with the aperture, magnetically coupled to the flux modifier, wherein a change in sensed inductance is used to determine rotational input.

An inductive sensing-based user interface device which includes a conductive barrier with at least one aperture, a magnetic flux modifier attached to a rotary member on one side of the barrier and an inductive structure on an opposed side of the barrier aligned with the aperture, magnetically coupled to the flux modifier, wherein a change in sensed inductance is used to determine rotational input.

Provided are a switch and an operation device which can expand the application range of switches using magnets, etc. A switch incorporated in an operation device includes a movable member with a first end side fixed and a second end side swinging when receiving a pressing, and a pressing member which presses the movable member, and further includes a permanent magnet (magnet) on the tip of the movable member, and a magnetic field detection part which detects a magnetic field. In response to an operation on the operation device, the pressing member of the switch presses the movable member downward. The magnetic field generated by the permanent magnet (magnet) and detected by the magnetic field detection part changes due to the pressing of the pressing member, and the switch outputs a signal based on the magnetic field detected by the magnetic field detection part.

Provided is a sensor device provided with improved reproducibility of a switching characteristic and reduced average consumption current. A sensor device include: a sensor; a drive circuit configured to drive the sensor; a processing circuit configured to output a binary result signal obtained by binarizing an electrical signal output from the sensor; a determination circuit configured to capture the binary result signal a plurality of times and perform a predetermined logical determination processing; a latch circuit configured to capture an output signal of the determination circuit; an output terminal; and a control circuit configured to output a control signal for intermittently controlling at least one of the drive circuit and the processing circuit such that an operation period and a pause period are repeated with a predetermined cycle. The operation period is interrupted and caused to transition to the pause period in a predetermined case.

A push button switch assembly for a vehicle includes an elastic button that is moveable between a first unactuated position and a second actuated position. An actuator is disposed adjacent a plate and is pivotable between a first position and a second position. The actuator includes a magnetic element. When the elastic button is in the first unactuated position the magnetic element biases the actuator into the first position, and when the elastic button is moved to the second actuated position, a force applied to the elastic button is transmitted to the actuator such that the force overcomes the magnetic attraction and permits the actuator to pivot to the second position while providing a tactile haptic response. When the actuator is moved to the second position, a hall sensor senses a change in the magnetic field of the magnetic element.

A push button switch assembly for a vehicle includes an elastic button that is moveable between a first unactuated position and a second actuated position. An actuator is disposed adjacent a plate and is pivotable between a first position and a second position. The actuator includes a magnetic element. When the elastic button is in the first unactuated position the magnetic element biases the actuator into the first position, and when the elastic button is moved to the second actuated position, a force applied to the elastic button is transmitted to the actuator such that the force overcomes the magnetic attraction and permits the actuator to pivot to the second position while providing a tactile haptic response. When the actuator is moved to the second position, a hall sensor senses a change in the magnetic field of the magnetic element.

An electronic device includes: a first housing and a second housing provided to be capable of being displaced between a first state in which the first major surfaces thereof face each other and a second state in which the second major surfaces thereof face each other; a magnetic detection part provided in the first housing; a magnet provided in the second housing; and a control part configured to determine the first state and the second state based on an output of the magnetic detection part. The magnet is disposed such that a magnetization direction thereof is orthogonal to the first major surface and the second major surface of the second housing, and the magnetic detection part includes a first magnetic sensor and a second magnetic sensor arranged along a direction normal to the first major surface and the second major surface of the first housing.