RU2016132582A - MEETING / TRANSMISSION LIGHTING ON THE BASIS OF THE PRINTED LED ON THE BASIS OF THE DYE ON THE BASIS OF RIELEN - Google Patents

Claims (33)

1. The backlight device for a vehicle, comprising: a lighting device located on the vehicle; at least one detection sensor configured to detect the proximity of the driver and / or passenger; and a controller configured to identify the approach and removal of the driver and / or passenger based on the detected proximity, and control the lighting device for outputting the first light emission in response to the approach and the second radiation in response to the removal. 2. The backlight according to claim 1, in which the first radiation corresponds to the first color of light, and the second radiation corresponds to a second color different from the first color. 3. The backlight according to claim 2, in which the first radiation contains one or more wavelengths having a longer wavelength than the second radiation. 4. The backlight according to claim 2, wherein the first color corresponds to a warmer color than the second color. 5. The backlight according to claim 4, in which each of the first radiation and the second radiation corresponds to essentially white light, and each of them has shades corresponding to the first color and the second color, respectively. 6. The backlight apparatus according to claim 1, wherein the lighting device comprises a first light generating layer printed in a first liquid suspension, configured to emit a first radiation. 7. The backlight apparatus according to claim 6, wherein the lighting device comprises a second light generating layer printed in a second liquid suspension, configured to emit a second radiation. 8. The backlight apparatus according to claim 1, further comprising a light sensor coupled to the controller, configured to transmit an external lighting signal to the controller to control the intensity of at least one of the first radiation and the second radiation. 9. The backlight according to claim 1, in which at least one detection sensor corresponds to at least one of an ultrasonic sensor located on the outer surface of the vehicle, and an proximity detection antenna configured to detect a key fob. 10. A vehicle lighting system comprising: a lighting device located on the vehicle, configured to output light radiation; an ambient light sensor configured to output an external illumination signal corresponding to an environment close to the vehicle; at least one detection sensor configured to output a detection signal for indicating; and a controller configured to: identification of the driver and / or passenger in the vicinity of the vehicle and activation of radiation based on the detection signal; and control the intensity of radiation based on the signal of external lighting. 11. The backlight apparatus according to claim 10, wherein the controller is further configured to monitor the external lighting signal and record changes in the lighting level reported by the external lighting signal. 12. The backlight apparatus according to claim 10, in which the controller is configured to determine the radiation intensity based on the last maximum value or minimum value of the lighting level for a given period of time. 13. The backlight according to claim 12, in which a predetermined period of time corresponds to the most recent data for 30 seconds - 10 minutes, corresponding to the level of lighting. 14. The backlight apparatus according to claim 10, in which the controller is configured to set the radiation intensity to an increased level based on the last maximum value, which is brighter relative to the level of illumination corresponding to the current state of illumination. 15. The backlight apparatus according to claim 10, wherein the controller is configured to set the radiation intensity to a lower level based on the last minimum value, which is darker than the relative level of illumination corresponding to the current state of illumination. 16. The backlight according to claim 10, in which the controller is additionally connected to a rain sensor located on the vehicle, configured to output a rain signal. 17. The backlight according to claim 16, in which the controller is configured to increase the radiation intensity in response to determining moisture from a rain sensor for a predetermined period of time. 18. A method for controlling at least one light source of a vehicle, comprising the steps of: detect the intensity of illumination of external lighting in the vicinity of the vehicle; detecting a lighting event configured to activate a light source; calculating the radiation intensity of the light source based on the detected light intensity; and activating the light source in response to a lighting event at the aforementioned radiation intensity, the radiation intensity being calculated based on the detected light intensity to activate the light source based on the lighting condition that occurred at a previous point in time. 19. The method of claim 18, further comprising controlling the light intensity while the light source is activated and adjusting the light intensity based on the current light intensity level. 20. The method of claim 19, wherein adjusting the light intensity based on the current light intensity level is smoothly adjusted relative to the current light level for a period of time corresponding to the difference between the current level and at least one of the maximum and minimum light intensity identified in the data.