Stepped light collection and concentration system, components thereof, and methods
| Title: | Stepped light collection and concentration system, components thereof, and methods |
|---|---|
| Patent Number: | 7,817,885 |
| Publication Date: | October 19, 2010 |
| Appl. No: | 12/490432 |
| Application Filed: | June 24, 2009 |
| Abstract: | A light guide includes a light guide layer having a transversely oriented side-end surface that forms a primary output aperture (exit) for light traveling in a forward propagation direction out of the end surface of the light guide (for, e.g., CPV applications) and, which forms a primary input aperture (entrance) for light traveling in a rearward propagation direction into the end surface of the light guide (for, e.g., illuminator applications), and a first plurality of light injection elements stepped (staggered) in a forward light propagation direction in a first plane along lines parallel to the side-end surface or clocked (tilted) about a y-axis in a z-axis-light propagation direction in a respective first plane, wherein the light injection elements are disposed along parallel lines normal to the side-end surface. The light guide component may further comprise at least a second plurality of light injection elements stepped in at least second plane. A light guide system includes a component light guide, a lenslet array disposed adjacent a top surface of the light guide, and a light-transmitting, TIR medium layer disposed immediately adjacent at least one of the top and bottom surfaces of the light guide. |
| Inventors: | Moore, Duncan T. (Fairport, NY, US); Schmidt, Greg R. (Gates, NY, US); Unger, Blair L. (Rochester, NY, US) |
| Assignees: | University of Rochester (Rochester, NY, US) |
| Claim: | 1. A light guide system, comprising: a light guide having a top surface and a bottom surface, characterized by an index of refraction, n 1 , and a transversely oriented side-end surface that forms a primary aperture for light traveling into and out of the light guide, further characterized by a length dimension in an intended light propagation direction towards or away from the primary aperture; a first plurality of light injection elements disposed in at least one of the top and bottom surfaces and extending inwardly therefrom at an angle to the surface, wherein the light injection elements are stepped (staggered) in a z-axis-light propagation direction in a respective first plane along lines parallel to the side-end surface; a lenslet array having a defined lenslet plane, disposed adjacent a top surface of the light guide, wherein each lenslet is in optical registration with a respective light injection element; and a light-transmitting medium layer characterized by an index of refraction, n med , where n med is less than n 1 , disposed between the lenslet array and the top surface of the light guide. |
| Claim: | 2. The light guide system of claim 1 , further comprising at least a second plurality of light injection elements disposed in the same at least one of the top and bottom surfaces as the first plurality of light injection elements and extending inwardly therefrom at an angle to the surface, wherein the at least second plurality of the light injection elements are stepped in the z-axis-light propagation direction in a respective at least second plane along lines parallel to the side-end surface. |
| Claim: | 3. The light guide system of claim 2 , wherein the medium layer is not tilted with respect to the lenslet plane, further wherein the light guide is not tilted with respect to the lenslet plane, and further wherein the at least second plane is vertically displaced from the first plane. |
| Claim: | 4. The light guide system of claim 2 , wherein the medium layer is tilted with respect to the lenslet plane, further wherein the light guide is tilted with respect to the lenslet plane parallel to the medium layer, and further wherein the at least second plane is vertically displaced from the first plane. |
| Claim: | 5. The light guide system of claim 2 , wherein the medium layer is not tilted with respect to the lenslet plane, further wherein the light guide is not tilted with respect to the lenslet plane, and further wherein the first plane and the at least second plane are parallelly tilted with respect to the lenslet plane and not vertically displaced from one another. |
| Claim: | 6. The light guide system of claim 1 , wherein the light injection elements are air prisms. |
| Claim: | 7. The light guide system of claim 1 , wherein the light-transmitting medium layer is air. |
| Claim: | 8. The light guide system of claim 1 , wherein the light-transmitting medium layer is solid. |
| Claim: | 9. The light guide system of claim 1 , further comprising a TIR layer disposed immediately adjacent the bottom surface of the light guide. |
| Claim: | 10. The light guide system of claim 9 , wherein the plurality of light injection elements are disposed in the bottom surface of the light guide. |
| Claim: | 11. The light guide system of claim 1 , wherein the lenslet array is a refractive lenslet array. |
| Claim: | 12. The light guide system of claim 11 , wherein each of the lenslets have curvature in two dimensions. |
| Claim: | 13. The light guide system of claim 12 , wherein the curvatures are equal. |
| Claim: | 14. The light guide system of claim 1 , wherein the lenslet array is an array of Fresnel lenses. |
| Claim: | 15. The light guide system of claim 1 , wherein the lenslet array has optical characteristics that provide converging light on the injection elements from a substantially plane wave input light. |
| Claim: | 16. A light guide system, comprising: a light guide having a top surface and a bottom surface, characterized by an index of refraction, n 1 , and a transversely oriented side-end surface that forms a primary aperture for light traveling into and out of the light guide, further characterized by a length dimension in an intended light propagation direction towards or away from the primary aperture; a first plurality of light injection elements disposed in at least one of the top and bottom surfaces and extending inwardly therefrom at an angle to the surface, wherein the light injection elements are clocked (tilted) about a y-axis in a z-axis-light propagation direction in a respective first plane, wherein the light injection elements are disposed along parallel lines normal to the side-end surface; a lenslet array having a defined lenslet plane, disposed adjacent a top surface of the light guide, wherein each lenslet is in optical registration with a respective light injection element; and a light-transmitting medium layer characterized by an index of refraction, n med , where n med is less than n 1 , disposed between the lenslet array and the top surface of the light guide. |
| Claim: | 17. A light guide apparatus, comprising: a light guide having a top surface and a bottom surface, characterized by an index of refraction, n 1 , and a transversely oriented side-end surface that forms a primary aperture for light traveling into and out of the light guide, further characterized by a length dimension in an intended light propagation direction towards or away from the primary aperture; and a first plurality of light injection elements disposed in at least one of the top and bottom surfaces and extending inwardly therefrom at an angle to the surface, wherein the light injection elements are stepped (staggered) in a z-axis-light propagation direction in a respective first plane along lines parallel to the side-end surface. |
| Claim: | 18. The light guide apparatus of claim 17 , further comprising at least a second plurality of light injection elements disposed in the same at least one of the top and bottom surfaces as the first plurality of light injection elements and extending inwardly therefrom at an angle to the surface, wherein the at least second plurality of the light injection elements are stepped in the z-axis-light propagation direction in a respective at least second plane along lines parallel to the side-end surface. |
| Claim: | 19. The light guide apparatus of claim 18 , wherein the light guide is not tilted with respect to a horizontal plane, further wherein the at least second plane is vertically displaced from the first plane. |
| Claim: | 20. The light guide apparatus of claim 18 , wherein the light guide is tilted with respect to a horizontal plane, further wherein the at least second plane is vertically displaced from the first plane. |
| Claim: | 21. The light guide apparatus of claim 18 , wherein the light guide is not tilted with respect to a horizontal plane, further wherein the first plane and the at least second plane are parallelly tilted with respect to the horizontal plane and not vertically displaced from one another. |
| Claim: | 22. The light guide apparatus of claim 17 , wherein the light injection elements are air prisms. |
| Claim: | 23. The light guide apparatus of claim 17 , further comprising a TIR layer disposed immediately adjacent the top surface of the light guide. |
| Claim: | 24. The light guide apparatus of claim 23 , wherein the plurality of light injection elements are disposed in the bottom surface of the light guide. |
| Claim: | 25. A light guide apparatus, comprising: a light guide having a top surface and a bottom surface, characterized by an index of refraction, n 1 , and a transversely oriented side-end surface that forms a primary aperture for light traveling into and out of the light guide, further characterized by a length dimension in an intended light propagation direction towards or away from the primary aperture; and a first plurality of light injection elements disposed in at least one of the top and bottom surfaces and extending inwardly therefrom at an angle to the surface, wherein the light injection elements are clocked (tilted) about a y-axis in a z-axis-light propagation direction in a respective first plane, wherein the light injection elements are disposed along parallel lines normal to the side-end surface. |
| Current U.S. Class: | 385/33 |
| Patent References Cited: | 4307936 December 1981 Ochiai 4389085 June 1983 Mori 4411490 October 1983 Daniel 4505264 March 1985 Tremblay 5877874 March 1999 Rosenberg 6005692 December 1999 Stahl 6021007 February 2000 Murtha 6957650 October 2005 Nyhart, Jr. et al. 7039261 May 2006 Fu et al. 7101063 September 2006 Long et al. 2007/0189701 August 2007 Chakmakjian et al. 2008/0043466 February 2008 Chakmakjian et al. 2008/0190413 August 2008 Grochola 2008/0271776 November 2008 Morgan 2009/0067784 March 2009 Ghosh et al. WO2007095049 August 2007 WO2008131561 November 2008 |
| Other References: | Chakmakjian et al.; Lightguide Luminaire with Controlled Numerical Aperture for General Illumination; RPC Photonics, Inc.; www.RPCphotonics.com, 2006. cited by other |
| Assistant Examiner: | Wong, Eric |
| Primary Examiner: | Peng, Charlie |
| Attorney, Agent or Firm: | Greener, William Bond, Schoeneck & King, PLLC |
| Accession Number: | edspgr.07817885 |
| Database: | USPTO Patent Grants |
| Language: | English |
|---|