An IR illuminator used during the operation of autonomous vehicles, which provides improvement in the performance of cameras used in the vehicle at night time. An optical design of an outer lens of the IR illuminator is selected so that the outer lens forms a beam pattern for the output light from the IR light source, and also acts as a light guide for light emitted from a secondary visible light source, which is located in the same module as the IR light source, and which may be positioned on the same or a different printed circuit board as the IR light source. The material of outer lens is opalescent including scattering bodies. The optical design of the outer lens allows for improved field of view of the IR illuminator.

A lighting device for vehicles, including a light source and including a two-dimensional luminous element, which has a light-coupling narrow side, a light-decoupling flat side and a deflector for deflecting the light coupled in at the light-coupling narrow side in the direction of the light-decoupling flat side, the two-dimensional luminous element including segmenter, with the aid of which the light-decoupling flat side is divided into luminous segments having different emission characteristics.

A lighting apparatus of vehicles may include a light source unit of emitting light; a first reflection unit of reflecting light incident from the light source unit to discharge the reflected light outside the first reflection unit; a second reflection unit rotatably provided between the light source unit and the first reflection unit to reflect light for allowing light emitted by the light source unit to move to the first reflection unit or blocking the light such that the light is not moved to the first reflection unit and reflecting the light at a position different from the first reflection unit to discharge the light outside depending on a rotational position of the second reflection unit; and a driving unit connected to the second reflection unit and configured of adjusting the rotational position of the second reflection unit.

A vehicle lamp comprises a light irradiation unit including a light source and a board on which the light source is installed, a base member including a first surface for mounting the light irradiation unit and a second surface adjacent to the first surface, a connection terminal arranged on the second surface and extending and protruding in a direction of the first surface, and a coupling member arranged on the board and electrically connected with the light source. The connection terminal is inserted into the coupling member when the board is mounted on the first surface.

A lighting device for vehicles, including a light source and including a two-dimensional luminous element, which has a light-coupling narrow side, a light-decoupling flat side and a deflector for deflecting the light coupled in at the light-coupling narrow side in the direction of the light-decoupling flat side, the two-dimensional luminous element including segmenter, with the aid of which the light-decoupling flat side is divided into luminous segments having different emission characteristics.

An IR illuminator used during the operation of autonomous vehicles, which provides improvement in the performance of cameras used in the vehicle at night time. An optical design of an outer lens of the IR illuminator is selected so that the outer lens forms a beam pattern for the output light from the IR light source, and also acts as a light guide for light emitted from a secondary visible light source, which is located in the same module as the IR light source, and which may be positioned on the same or a different printed circuit board as the IR light source. The material of outer lens is opalescent including scattering bodies. The optical design of the outer lens allows for improved field of view of the IR illuminator.

A vehicle lamp comprises a light irradiation unit including a light source and a board on which the light source is installed, a base member including a first surface for mounting the light irradiation unit and a second surface adjacent to the first surface, a connection terminal arranged on the second surface and extending and protruding in a direction of the first surface, and a coupling member arranged on the board and electrically connected with the light source. The connection terminal is inserted into the coupling member when the board is mounted on the first surface.

This disclosure details illuminating vehicle closure member systems for selectively producing various exterior lighting effects. Exemplary closure member systems may include a closure member and a discrete illuminating section secured relative to the closure member and including a lighting module that is configured to produce at least one of a beltline lighting effect, a motion path lighting effect, or an operation status lighting effect at or near the closure member. A control module may control the various lighting effects emitted by the illuminating closure member system.

The present invention relates to an optical device that includes a light guide; at least a first and a second light source; at least a first and a second optical coupler; and at least one collimator to generate a first collimated light beam and a second collimated light beam. The at least one first optical coupler is configured to receive the first collimated light beam that is directed along a first optical axis towards a first region of the light exit face producing a first photometric function. The at least one second optical coupler is configured to receive the second collimated light beam that is directed along a second optical axis towards a second region of the light exit face producing a second photometric function.

A multifunction lamp unit for a vehicle includes a housing, at least one light pipe together with at least one light source disposed at least partially within the housing, and a clear lens substantially enclosing the housing, the at least one light pipe and the at least one light source, the lens having an inner surface, an outer surface disposed opposite the inner surface and at least one of a continuous transparent and translucent coating on the outer surface.