The present disclosure provides a night vision imaging system (NVIS) lighting system, comprising a frame comprising a first light source, a second light source adjacent to the first light source, a third light source adjacent to the second light source, and a diffuser mounted to the frame and encasing the first light source, the second light source, and the third light source. The first light source may comprise a first dominant wavelength, the second light source may comprise a second dominant wavelength different from the first dominant wavelength, and the third light source may comprise a third dominant wavelength different from the first dominant wavelength and the second dominant wavelength. Light emitted from the first light source, the second light source, and the third light source may be blended to generate a first blended light source comprising a first target output color.

A vehicle light module, a headlight assembly, and a method for communicating information are provided. The vehicle light module includes a panel having a transparent state and an opaque state; and a projector operable to project a visual representation toward the panel. The visual representation is displayed on the panel when in an opaque state and on a second surface when in a transparent state.

A vehicle window assembly is provided herein and includes an inner layer, an outer layer, and an interlayer therebetween. A light-producing assembly is disposed in the interlayer and includes light sources disposed to emit light toward the inner layer, an optical film configured to collimate light emitted by the light sources, and a variable-transparency switchable glazing configured to vary the transmittance of the light emitted from the light sources based on user-supplied input.

A vehicle window assembly is provided herein and includes an inner layer, an outer layer, and an interlayer therebetween. A light-producing assembly is disposed in the interlayer and includes light sources disposed to emit light toward the inner layer, an optical film configured to collimate light emitted by the light sources, and a variable-transparency switchable glazing configured to vary the transmittance of the light emitted from the light sources based on user-supplied input.

An aircraft passenger light includes a reading light unit having a reading light unit and a halo light unit. The reading light unit includes at least one reading light source and is configured for emitting a targeted reading light output. The halo light unit includes at least one halo light source and is configured for emitting a ring shaped halo light output, at least partly surrounding the targeted reading light output.

A method for manufacturing a color slide for an automobile projection lamp includes: forming a plurality of same color pattern units on a glass substrate, each of the color pattern units being composed of a plurality of color coating layers. The plurality of color coating layers are formed by sequentially depositing materials having different colors on a surface of the glass substrate in accordance with different colors. Finally, the glass substrate is cut and separated in unit of one color pattern unit to form an independent color slide with the color pattern. The color slide can be mounted to an automobile projection lamp system for projecting the color pattern.

A method for manufacturing a color slide for an automobile projection lamp includes: forming a plurality of same color pattern units on a glass substrate, each of the color pattern units being composed of a plurality of color coating layers. The plurality of color coating layers are formed by sequentially depositing materials having different colors on a surface of the glass substrate in accordance with different colors. Finally, the glass substrate is cut and separated in unit of one color pattern unit to form an independent color slide with the color pattern. The color slide can be mounted to an automobile projection lamp system for projecting the color pattern.

An accessory lighting assembly for vehicles. The accessory lighting assembly includes at least one attachment portion for selectively attaching the assembly to the vehicle wherever lighting is desired. The accessory lighting assembly includes at least one integrated lighting portion for selectively providing lighting to the interior of the vehicle. The accessory lighting assembly incorporates a grab handle for attaching to the at least one attachment portion for allowing a vehicle occupant a grip/handle for grabbing onto inside of the vehicle when desired.

An accessory lighting assembly for vehicles. The accessory lighting assembly includes at least one attachment portion for selectively attaching the assembly to the vehicle wherever lighting is desired. The accessory lighting assembly includes at least one integrated lighting portion for selectively providing lighting to the interior of the vehicle. The accessory lighting assembly incorporates a grab handle for attaching to the at least one attachment portion for allowing a vehicle occupant a grip/handle for grabbing onto inside of the vehicle when desired.

A lighting unit includes a housing, a first cover, and a second cover. The housing is configured to house a light source and a circuit body constituting a circuit between the light source and an outside of the housing. The first cover is mountable to the housing and configured to emit light from the light source to the outside of the housing. The second cover is mountable to the housing and includes a cover-side attachment portion attachable to an attachment hole of a lighting attachment member. The second cover is configured to emit the light from the light source to the outside of the housing through the attachment hole. The first cover and the second cover are selectively mountable to the housing.