RU2015129680A - VIDEO DISPLAY WITH PHOTOLUMINESCENT DYES - Google Patents

Claims (30)

1. A video display system comprising: a light source configured to generate light; and a substrate having a plurality of pixels deposited on a first side of the substrate, wherein each of the pixels is formed from a plurality of photoluminescent dyes, and the light source is configured to project light onto the first side of the substrate to illuminate at least a subset of the photoluminescent dyes in the raster to form an image. 2. The video display system of claim 1, wherein each pixel includes at least one of a red subpixel, a blue subpixel, and a green subpixel. 3. The video display system of claim 1, wherein each pixel includes an infrared subpixel. 4. The video display system of claim 1, wherein the substrate is substantially transparent to visible light. 5. The video display system of claim 1, wherein the substrate is substantially transparent to infrared light. 6. The video display system according to claim 1, further comprising a lens configured to project an image onto a screen, the lens being located between the second side of the substrate and the screen. 7. The video display system according to claim 1, further comprising a screen configured to display an image. 8. The video display system of claim 1, wherein the light source includes a scanning laser configured to periodically pulse according to a duty cycle relative to the position of each pixel on the substrate. 9. The video display system of claim 1, wherein the photoluminescent dyes are configured to emit light having a predetermined wavelength in response to receiving light from a light source. 10. The video display system according to claim 9, in which the predetermined wavelength is independent of the frequency of the light generated by the light source. 11. A video display system comprising: light source and a screen having a plurality of pixels printed on the first side of the screen, wherein each of the pixels is formed from a plurality of photoluminescent dyes, and the light source is configured to project light onto the first side of the screen to illuminate at least a subset of the photoluminescent dyes in the raster to form an image. 12. The video display system of claim 11, wherein each pixel includes at least one of a red subpixel, a blue subpixel, and a green subpixel. 13. The video display system of claim 11, wherein each pixel includes an infrared subpixel. 14. The video display system of claim 11, wherein the screen is substantially transparent to visible light. 15. The video display system of claim 11, wherein the screen is substantially transparent to infrared light. 16. The video display system according to claim 11, in which the light source includes a scanning laser, configured to periodically pulsate according to the duty cycle relative to the position of each pixel on the screen. 17. The video display system of claim 11, wherein the photoluminescent dyes are configured to emit light having a predetermined wavelength in response to receiving light from a light source. 18. The video display system of claim 17, wherein the predetermined wavelength is independent of the frequency of the light produced by the light source. 19. A video display system comprising: a scanning laser configured to generate light; a substrate having a plurality of pixels deposited on the first side of the substrate, wherein each of the pixels includes a plurality of photoluminescent dyes forming a red subpixel, a blue subpixel, a green subpixel and an infrared subpixel, and wherein the light source is configured to project light onto the first side substrates to illuminate at least a subset of the photoluminescent dyes in the raster to form an image; a screen located at a distance from the substrate and configured to display an image; and a lens located between the screen and the substrate, while the lens is configured to project the image on the screen. 20. The video display system of claim 19, wherein the photoluminescent dyes are configured to emit light having a predetermined wavelength in response to receiving light from a light source, wherein the predetermined wavelength is independent of the frequency of the light generated by the light source.