A handlebar assembly for steering a vehicle includes a handlebar, a grip positioned on the handlebar at a first end of the handlebar assembly, and a hand control assembly positioned adjacent the grip. The hand control assembly includes an optical sensor. The optical sensor has a housing with a light transmissive section, a light source configured to emit light, and a light sensor configured to detect light. The light source and the light sensor are positioned at least partially within the housing. The optical sensor is operable to detect movement of a vehicle operator along the light transmissive section of the housing by detecting reflected light from the light source with the light sensor.

A handlebar assembly for steering a vehicle includes a handlebar, a grip positioned on the handlebar at a first end of the handlebar assembly, and a hand control assembly positioned adjacent the grip. The hand control assembly includes an optical sensor. The optical sensor has a housing with a light transmissive section, a light source configured to emit light, and a light sensor configured to detect light. The light source and the light sensor are positioned at least partially within the housing. The optical sensor is operable to detect movement of a vehicle operator along the light transmissive section of the housing by detecting reflected light from the light source with the light sensor.

The present disclosure relates to a shift device for a control system for a vehicle. The shift device may include at least one optical fiber for conducting a light signal, where the light signal has an input characteristic when entering the shift device, and where the light signal has an output characteristic when exiting the shift device. The shift device may further include a control element, where the control element can be moved between a home position, a first actuation position, and a second actuation position by an actuation force. The control element may have an adjustment device for adjusting the characteristic of the light signal, where the adjustment device is configured to set the output characteristic of the light signal to a first value when the control element is in the home position.

The present disclosure relates to a shift device for a control system for a vehicle. The shift device may include at least one optical fiber for conducting a light signal, where the light signal has an input characteristic when entering the shift device, and where the light signal has an output characteristic when exiting the shift device. The shift device may further include a control element, where the control element can be moved between a home position, a first actuation position, and a second actuation position by an actuation force. The control element may have an adjustment device for adjusting the characteristic of the light signal, where the adjustment device is configured to set the output characteristic of the light signal to a first value when the control element is in the home position.

The position detector of an object comprises a body defining an input receiving an optical fibre delivering a light signal, and an output delivering a signal representative of the position of the object. A mirror is mounted to move between first and second positions in the body with respect to the input. The first position or the second position ensures transmission of the light signal from the input to the output. The other of the first position and the second position prevents transmission of the light signal to the output. A spring is mounted in the body in order to place the mirror in the first position. A tip is movable relative to the body between a first position and a second position along a direction of movement and is intended to cooperate with the object to be monitored.

An analog input device including at least one mounting panel and a matrix of analog push button assemblies mounted thereon. Each analog push button assembly including an analog pressure sensor including a pressure reception arrangement having an optical sensing sub-arrangement configured to measure an amount of light varied according to a pressure sensed at the pressure reception arrangement and an output terminal for outputting an analog signal corresponding to the amount of light measured, and a plunger element configured to exert the pressure on the pressure reception arrangement. The analog input device may include a multiplexer including an input side coupled to the push button assemblies and an output side; an analog-to-digital converter coupled to the output side of the multiplexer; a processor coupled to the analog-to-digital converter and configured to output a data packet; and a communication interface configured to transmit the data packet to a host computing device.

A compound-operation input device includes an operating member; a rotary mechanism configured to hold the operating member such that the operating member is rotatable; a slide mechanism configured to support the operating member such that the operating member is slidable in a sliding direction intersecting a rotation axis of the rotary mechanism; and a noncontact detector including a plurality of noncontact sensors and configured to detect a direction of movement and an amount of movement of a detection object, the detection object moving together with the operating member. The noncontact detector is one of a pair of noncontact detectors provided across the rotation axis from each other on a rotation locus of the detection object, the pair of noncontact detectors being at respective positions on a straight line orthogonal to the sliding direction.

Mounting an agent on a cover of on an enclosure of an electronic device such that changing a physical location of the cover changes a location of the agent. In response to a change in the physical location of the cover, detecting a change in location of the agent with a sensor. Reading a transmitted signal from the sensor by a controller and changing a status of the electronic device according to instructions from the controller, the instructions being configured according to the transmitted signal of the sensor.

Mounting an agent on a cover of on an enclosure of an electronic device such that changing a physical location of the cover changes a location of the agent. In response to a change in the physical location of the cover, detecting a change in location of the agent with a sensor. Reading a transmitted signal from the sensor by a controller and changing a status of the electronic device according to instructions from the controller, the instructions being configured according to the transmitted signal of the sensor.

The present disclosure relates to a vehicle steering wheel, including: a steering wheel body with a hub region for attachment to a steering shaft, with a steering wheel rim and with at least one spoke for attaching the steering wheel rim to the hub region; an airbag initiation device; wherein an electromechanical triggering device has at least one force transducer, which is disposed between a projection and the steering wheel body and via which the impact absorber cover is supported on the steering wheel body, for measuring a force value that can be associated with an actuating force acting on the actuating surface of the impact absorber cover; wherein the electromechanical triggering device has at least one electronic evaluation unit connected in an electrically conductive manner to the force transducer to determine an actuating force value by a force value measured by the at least one force transducer.