Compact, multi-function rotational controllers or switches that allow an operator of a vehicle to simultaneously view the status of a plurality of related functions, and to easily change or toggle the status of each of the functions. A multi-function controller of the present disclosure may include a rotatable central control dial that is at least partially surrounded by a visual indicator panel that indicates a current status for the functions that are controlled by the multi-function controller. The multi-function controller may include a selected function indicator that indicates which of the plurality of related functions is currently selected, control input hardware that receives operator input, and control circuitry that toggles the state of the selected function responsive to such operator input. The multi-function controller may include an “all functions off” function that allows the operator to simultaneously turn all of the related functions off via a single input action.

A system provides for strobing or high conspicuity signaling with vehicle hazard and other lights depending upon inputs and parameters.

An operation device for an autonomous vehicle includes a touch panel configured to display at least one of a start button and a deceleration button, a notification button, and a tab switch on the same screen, the autonomous vehicle being autonomously drivable, the start button being a button for starting driving of the autonomous vehicle in an autonomous drive mode, the deceleration button being a button for decelerating the autonomous vehicle during the autonomous drive mode, the notification button being a button for performing notification to an outside of the autonomous vehicle, and the tab switch being a switch for displaying or enlarging an equipment control button group for controlling equipment mounted on the autonomous vehicle.

A box step lighting arrangement for a vehicle which includes a mount for attachment to a vehicle. A step member and a linkage are connected to the mount, the linkage move the step member between a deployed position and retracted position. A motor is attached to the linkage to move the step between a deployed position and retracted position. Connected to the linkage is at least one light module. The light module has at least one light projection element that projects light onto the step member and the ground beneath the step member.

A driving control device receives power supply from an accessory battery to operate, controls automatic driving, and outputs a control signal. A steering ECU, a power ECU and a brake ECU instruct a steering mechanism, a PCU and a brake to operate based on the control signal, respectively. An emergency stop switch is operated by an operator. In a case where the emergency stop switch is operated, an interface processing device cuts off a switch to stop the power supply, shuts down the driving control device, and outputs a control signal that causes the steering mechanism, the PCU and the brake to perform an emergency stop operation.

A lighting device is provided for controlling the photometric distribution of light emitted by two or more LEDs. The lighting device may be integrated with a control system of the vehicle and may be controlled by a remote controller. The lighting device may be capable of being operated in one or more modes of operation based on operating conditions, user input, or both. Operating conditions may include vehicle conditions, environmental conditions, and user conditions. The controller may operate a software application to enable the user to modify, control, or otherwise regulate any mode of operation or other feature of the lighting system.

A steering assembly for a vehicle includes a housing having a signal portion and defining a shaft enclosure. A steering shaft includes a cancellation rib that rotates about a rotational axis and within the shaft enclosure. A trunnion rotates within the signal portion of the housing about a trunnion axis to define a null position and right-turn and left-turn positions. A toggle includes a cancellation member. The toggle axially and rotationally operates with respect to one of the trunnion and the turn-signal housing. The cancellation member in the null position is within the shaft enclosure and axially offset from the cancellation rib. The cancellation member in one of the right-turn and left-turn positions is within the shaft enclosure and axially aligned for selective engagement with the cancellation rib. Selective engagement of the cancellation rib and the cancellation member axially operates the toggle to the null position.

A covering device for fully or partially covering one or more of a recess, a flat portion, a curved portion, and a stepped portion of at least one of a vehicle body component and a vehicle part includes a cover element provided by a strip element or a cap element, and at least one lip element which is fixedly or detachably connected to the cover element on at least one of its longitudinal sides, the covering device is designed so that light from a lighting device can shine through at least a portion of the covering device, at least one of the cover element and the at least one lip element is made at least partly of a polymeric substrate which is coated with a chromium-based reflective coating material, and the polymeric substrate and the chromium-based reflective coating are at least partially translucent.

The invention proposes a lighting device for a motor vehicle comprising a matrix light source that performs a lighting function within the motor vehicle. The same source is used, together with a photodiode, to estimate the time of flight of captured light pulses initially generated by the matrix source. It becomes possible to detect objects and/or gestures using light in the visible spectrum, and without having to use specific pulse sources dedicated for this purpose.

An embodiment system for illuminating a charging port of an electric vehicle is provided. The charging port is provided in a vehicle body for supplying electrical power to a vehicle driving battery, and the system includes a charging port door configured to open and close the charging port, and a lamp device disposed on the charging port door and configured to illuminate the charging port.