Lighting apparatus having low profile
First Claim
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1. A lighting apparatus, comprising:
- a device that emits light;
an optical cavity formed by diffusive reflective surfaces, said cavity having an output region through which light from said cavity passes;
said light emitting device being mounted to supply light to said cavity while being hidden from direct view through said output region, said cavity having a diffusely reflective surface area and said output region having an area, the ratio of said area of said output region to the sum of (i) said area of said output region and (ii) said surface area of said cavity being at least 0.05, said cavity having a depth and said output region having an edge-to-edge bisector dimension, the ratio of said depth to said bisector dimension being significantly less than 0.1; and
an angular spectrum restrictor positioned to restrict output illumination through said output region to a predetermined range of angles.
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Abstract
Disclosed is a low profile lighting apparatus that is particularly advantageous for use as a backlight for illuminating a display. The lighting apparatus includes a waveguide coupled to a light source for injecting light into the waveguide. The waveguide includes a plurality of elongate structures for ejecting light propagating within the waveguide through a predetermined surface of the waveguide. Another embodiment of the waveguide includes a central region of reduced thickness that redirects light propagating within the waveguide. The lighting apparatus has a low profile so it is particularly useful in areas of limited space.
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Citations
14 Claims
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1. A lighting apparatus, comprising:
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a device that emits light;
an optical cavity formed by diffusive reflective surfaces, said cavity having an output region through which light from said cavity passes;
said light emitting device being mounted to supply light to said cavity while being hidden from direct view through said output region, said cavity having a diffusely reflective surface area and said output region having an area, the ratio of said area of said output region to the sum of (i) said area of said output region and (ii) said surface area of said cavity being at least 0.05, said cavity having a depth and said output region having an edge-to-edge bisector dimension, the ratio of said depth to said bisector dimension being significantly less than 0.1; and
an angular spectrum restrictor positioned to restrict output illumination through said output region to a predetermined range of angles. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
a diffuser at said output region, said diffuser positioned to diffuse illumination which passes from said cavity through said output region; and
a brightness enhancing material disposed adjacent said diffuser, said material concentrating illumination within a viewing angle so as to enhance the brightness of the display panel.
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3. The apparatus of claim 1, wherein said light emitting device comprises a fluorescent tube, and said cavity comprises a waveguide.
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4. The apparatus of claim 1, wherein said ratio of said depth to said edge-to-edge dimension is no more than 0.03.
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5. The apparatus of claim 1, wherein said ratio of said depth to said edge-to-edge dimension is less than 0.08.
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6. The apparatus of claim 1, wherein said fluorescent tube is disposed between an edge of said waveguide and diffusive reflective material.
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7. The apparatus of claim 1, wherein the reflective surfaces of said cavity have a reflectance higher than 90 percent.
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8. The apparatus of claim 1, wherein said spectrum restrictor is planar and comprises micro-replicated optical structures.
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9. The apparatus of claim 1, wherein said predetermined angle provides a viewing angle of no more than about 35 degrees.
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10. The apparatus of claim 1, wherein said diffuser is between said brightness enhancing film and said optical cavity.
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11. A method of lighting, comprising:
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producing illumination from an optical cavity formed by diffusely reflecting surfaces and outputting illumination from the cavity through an output illumination region, said producing of said illumination comprising directing light rays from a source of illumination into the cavity such that the source of the illumination is not visible through the output illumination region;
restricting the angular spectrum of illumination from the output illumination region to a predetermined range of angles;
said restricting comprising using a brightness enhancing film to concentrate light passing from the cavity through the output illumination region; and
mounting the optical cavity to illuminate at least a portion of a room. - View Dependent Claims (12, 13, 14)
using a diffuser to diffuse illumination passing from the cavity through the output illumination region.
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13. The method of claim 11, wherein the source comprises one or more fluorescent tubes mounted adjacent a periphery of the cavity.
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14. The method of claim 11, wherein said mounting comprises mounting the cavity so that the light is directed downwardly from a ceiling of a room towards a floor of the room.
Specification