LED light engines

That which is claimed is: 1. An LED light engine comprising: a housing comprising a central axis, an upper tier having an upper tier diameter, and a lower tier having a lower tier diameter, wherein the upper tier diameter is smaller than the lower tier diameter; one or more LEDs mounted on a printed circuit board; and at least one retention feature engaged with the housing, wherein the at least one retention feature comprises one or more friction clips, wherein the housing further comprises at least one upper tier aperture located on the upper tier of the housing at a first lateral distance from the central axis of the housing for retaining the one or more friction clips and at least one lower tier aperture located on the lower tier of the housing at a second lateral distance from the central axis of the housing for retaining the one or more friction clips, the first lateral distance being smaller than the second lateral distance, wherein, when the one or more friction clips is engaged in the at least one upper tier aperture, the one or more friction clips engage an inside wall of a first recessed lighting can having a first can diameter to thereby retain the LED light engine within the first recessed lighting can and wherein, when the one or more friction clips is engaged in the at least one lower tier aperture, the one or more friction clips engage an inside wall of a second recessed lighting can having a second can diameter larger than the first can diameter to thereby retain the LED light engine within the second recessed lighting can. 2. The LED light engine of claim 1 , further comprising a reflector and a lens retained within the housing. 3. The LED light engine of claim 2 , wherein the housing further comprises an inner wall and wherein the reflector and lens are retained within the housing by a groove located on the inner wall of the housing. 4. The LED light engine of claim 3 , wherein the reflector is located between the housing and the lens and wherein the housing, reflector and lens form a sealed chamber for protecting the one or more LEDs from environmental conditions outside the chamber. 5. The LED light engine of claim 1 , wherein the at least one retention feature further comprises a torsion spring and wherein the torsion spring comprises a pair of arms for engaging the inside wall of the first or second recessed lighting can, each of the arms terminating in a loop for contacting the inside wall of the first or second recessed lighting can. 6. The LED light engine of claim 1 , wherein the one or more friction clips comprise a first end and a second end, wherein the first end is U-shaped and engages the at least one upper tier aperture or the at least one lower tier aperture and wherein the second end comprises a plurality of arms for engaging the inside wall of the first or second recessed lighting can. 7. The LED light engine of claim 6 , wherein each of the plurality of arms comprise a plurality of teeth at a distal end of the arm for contacting the inside wall of the first or second recessed lighting can. 8. The LED light engine of claim 1 , wherein the at least one retention feature is removably engaged with the housing. 9. A method for installing an LED light engine into a first recessed lighting can having a first can diameter or a second recessed lighting can having a second can diameter larger than the first can diameter, the LED light engine comprising: a housing comprising a central axis, an upper tier having an upper tier diameter, and a lower tier having a lower tier diameter, wherein the upper tier diameter is smaller than the lower tier diameter; one or more LEDs mounted on a printed circuit board; and at least one retention feature engaged with the housing, wherein the at least one retention feature comprises one or more friction clips, wherein the housing further comprises at least one upper tier aperture located on the upper tier of the housing at a first lateral distance from the central axis of the housing for retaining the one or more friction clips and at least one lower tier aperture located on the lower tier of the housing at a second lateral distance from the central axis of the housing for retaining the one or more friction clips, the first lateral distance being smaller than the second lateral distance, wherein the method comprises: positioning the one or more friction clips in the at least one upper tier aperture or positioning the one or more friction clips in the at least one lower tier aperture; and either: inserting the LED light engine into the first recessed lighting can if the one or more friction clips are positioned in the at least one upper tier aperture, wherein the one or more friction clips engage an inside wall of the first recessed lighting can to thereby retain the LED light engine within the first recessed lighting can; or inserting the LED light engine into the second recessed lighting can if the one or more friction clips are positioned in the at least one lower tier aperture, wherein the one or more friction clips engage an inside wall of the second recessed lighting can to thereby retain the LED light engine within the second recessed lighting can. 10. The method of claim 9 , further comprising a reflector and a lens retained within the housing. 11. The method of claim 10 , wherein the housing further comprises an inner wall and wherein the reflector and lens are retained within the housing by a groove located on the inner wall of the housing. 12. The method of claim 11 , wherein the reflector is located between the housing and the lens and wherein the housing, reflector and lens form a sealed chamber for protecting the one or more LEDs from environmental conditions outside the chamber. 13. The method of claim 9 , wherein the at least one retention feature further comprises a torsion spring and wherein the torsion spring comprises a pair of arms for engaging the inside wall of the first or second recessed lighting can, each of the arms terminating in a loop for contacting the inside wall of the first or second recessed lighting can. 14. The method of claim 9 , wherein the one or more friction clips comprise a first end and a second end, wherein the first end is U-shaped and engages the at least one upper tier aperture or the at least one lower tier aperture and wherein the second end comprises a plurality of arms for engaging the inside wall of the first or second recessed lighting can. 15. The method of claim 14 , wherein each of the plurality of arms comprise a plurality of teeth at a distal end of the arm for contacting the inside wall of the first or second recessed lighting can.