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A lighting assembly comprising a light engine housing, a circuit board, a heat transfer material, an electrically conductive leg and a solid state light emitter. The emitter is in contact with a first end of the leg. The leg extends through the circuit board. A second end of the leg extends into the

A lighting assembly comprising a light engine housing, a circuit board, a heat transfer material, an electrically conductive leg and a solid state light emitter. The emitter is in contact with a first end of the leg. The leg extends through the circuit board. A second end of the leg extends into the heat transfer material. Also, a lighting assembly as described above, which further comprises a fixture housing, in which the heat transfer material is in contact with the light engine housing and the light engine housing is connected to the fixture housing. In addition, a method of installing a lighting assembly, comprising connecting an electrical conductor and inserting the lighting assembly through a hole in a construction element such that clips attached to a fixture housing engage the construction element. Also, a method of changing a light emitter in a lighting assembly.

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1. A lighting assembly, comprising: a fight engine housing;a circuit board;a heat transfer material;at least a first electrically conductive leg; andat least a first solid state light emitter,said first solid state light emitter in contact with a first end of said first electrically conductive leg,s

1. A lighting assembly, comprising: a fight engine housing;a circuit board;a heat transfer material;at least a first electrically conductive leg; andat least a first solid state light emitter,said first solid state light emitter in contact with a first end of said first electrically conductive leg,said heat transfer material in contact with said light engine housing,said light engine housing having at least a first surface and a second surface,at least a portion of said first surface exposed to an exterior of said lighting assembly,a recess defined by said second surface of said light engine housing,a first surface of said circuit board in contact with a portion of said second surface of said light engine housing that extends around a periphery of said recess,said heat transfer material completely filling said recess between said light engine housing and said first surface of said circuit board,said first electrically conductive leg extending through said circuit board,a second end of said first electrically conductive leg extending (1) toward said portion of said light engine housing which is exposed to an exterior of said lighting assembly and (2) into said heat transfer material. 2. A lighting assembly as recited in claim 1, wherein said lighting assembly further comprises a fixture housing, and an axis of symmetry of said fixture housing is substantially co-linear with an axis of symmetry of said light engine housing. 3. A lighting assembly as recited in claim 2, wherein an axis of symmetry of said first leg is substantially parallel to said axis of symmetry of said light engine housing. 4. A lighting assembly as recited in claim 2, wherein an axis of symmetry of said first solid state light emitter is substantially parallel to said axis of symmetry of said light engine housing. 5. A lighting assembly as recited in claim 1, wherein heat sink fins extend from said light engine housing away from said heat transfer material. 6. A lighting assembly as recited in claim 1, wherein said heat transfer material comprises at least one material selected from the group consisting of epoxy and silicon carbide. 7. A lighting assembly as recited in claim 1, wherein said lighting assembly further comprises a fixture housing and at least two clips, said two clips attached to said fixture housing and extending away from a periphery of said fixture housing. 8. A lighting assembly as recited in claim 1, wherein said lighting assembly further comprises a fixture housing and a rim, said rim having a rim external surface and a rim internal surface, said fixture housing having a fixture housing internal surface, said rim external surface facing said fixture housing internal surface. 9. A lighting assembly as recited in claim 8, wherein: said lighting assembly further comprises a fixture housing, at least two clips, and at least a first drawstring, said two clips attached to said fixture housing and extending away from a periphery of said fixture housing, andsaid first drawstring, when pulled, causes said clips to retract toward said periphery of said fixture housing, said rim obstructing said first drawstring from view through an opening defined by said rim internal surface. 10. A lighting assembly as recited in claim 8, further comprising at least a first control device attached to said fixture housing, said rim obstructing said first control device from view through an opening defined by said rim internal surface. 11. A lighting assembly as recited in claim 8, further comprising mounting screws which connect said fixture housing to a construction element, said rim internal surface defining an opening through which light from said at least a first solid state light emitter can pass, said rim obstructing the mounting screws from view through said opening. 12. A lighting assembly as recited in claim 1, wherein said first electrically conductive leg extends into said heat transfer material at least 50% of a distance from said circuit board to a surface of said light engine housing which is opposite said circuit board relative to said heat transfer material. 13. A lighting assembly as recited in claim 1, wherein said first electrically conductive leg extends into said heat transfer material at least 75% of a distance from said circuit board to a surface of said light engine housing which is opposite said circuit board relative to said heat transfer material. 14. A lighting assembly as recited in claim 1, wherein said first electrically conductive leg extends into said heat transfer material at least 90% of a distance from said circuit board to a surface of said light engine housing which is opposite said circuit board relative to said heat transfer material. 15. A lighting assembly, comprising: a light engine housing;a circuit board;at least a first solid state light emitter; anda heat transfer material,said light engine housing having at least a first surface and a second surface,a recess defined by said second surface of said light engine housing,a first surface of said circuit board in contact with a portion of said second surface of said light engine housing that extends around a periphery of said recess,said heat transfer material completely filling said recess between said first surface of said circuit board and said light engine housing,at least a portion of said first surface of said light engine housing exposed to an exterior of said lighting assembly,said circuit board mounted on the light engine housing between (1) said first solid state light emitter and (2) said portion of said surface of said light engine housing which is exposed to an exterior of said lighting assembly. 16. A lighting assembly as recited in claim 15, wherein said lighting assembly further comprises at least a first electrically conductive leg, said first electrically conductive leg extending into said heat transfer material at least 50% of a distance from said circuit board to a surface of said light engine housing which is opposite said circuit board relative to said heat transfer material. 17. A lighting assembly as recited in claim 15, wherein said lighting assembly further comprises at least a first electrically conductive leg, said first electrically conductive leg extending into said heat transfer material at least 75% of a distance from said circuit board to a surface of said light engine housing which is opposite said circuit board relative to said heat transfer material. 18. A lighting assembly as recited in claim 15, wherein said lighting assembly further comprises at least a first electrically conductive leg, said first electrically conductive leg extending into said heat transfer material at least 90% of a distance from said circuit board to a surface of said light engine housing which is opposite said circuit board relative to said heat transfer material. 19. A lighting assembly as recited in claim 15, wherein said lighting assembly further comprises at least a first electrically conductive leg, and an axis of symmetry of said first leg is substantially parallel to an axis of symmetry of said light engine housing. 20. A lighting assembly as recited in claim 15, wherein an axis of symmetry of said first solid state light emitter is substantially parallel to an axis of symmetry of said light engine housing. 21. A lighting assembly as recited in claim 15, wherein said lighting assembly further comprises heat sink fins, and said heat sink fins extend from said light engine housing away from said heat transfer material. 22. A lighting assembly as recited in claim 15, wherein said heat transfer material comprises at least one material selected from the group consisting of epoxy and silicon carbide. 23. A lighting assembly, comprising: a light engine housing;a circuit board;at least a first solid state light emitter;at least a first electrically conductive leg, andmeans for transferring heat from said first solid state light emitter,said circuit board mounted on the light engine housing between (1) said first solid state light emitter and (2) a portion of a surface of said light engine housing which is exposed to an exterior of said lighting assembly,said first solid state light emitter in contact with a first end of said first electrically conductive leg,said means for transferring heat from said first solid state light emitter in contact with said light engine housing,said first electrically conductive leg extending through said circuit board,a second end of said first electrically conductive leg extending (1) toward said portion of said light engine housing which is exposed to an exterior of said lighting assembly and (2) into said means for transferring heat from said first solid state light emitter,said light engine housing having at least a first surface and a second surface,at least a portion of said first surface exposed to an exterior of said lighting assembly,a recess defined by said second surface of said light engine housing,a first surface of said circuit board in contact with a portion of said second surface of said light engine housing that extends around a periphery of said recess,said heat transfer means completely filling said recess between said light engine housing and said first surface of said circuit board. 24. A method of installing a lighting assembly, comprising: connecting an electrical conductor on a lighting assembly to an electrical supply component, said lighting assembly comprising a light engine housing, a circuit board, a heat transfer material, at least a first electrically conductive leg, and at least a first solid state light emitter, said first solid state light emitter in contact with a first end of said first electrically conductive leg, said heat transfer material in contact with said light engine housing, said light engine housing having at least one surface, at least a portion of which is exposed to an exterior of said lighting assembly,said first electrically conductive leg extending through said circuit board,a second end of said first electrically conductive leg extending (1) toward said portion of said light engine housing which is exposed to an exterior of said lighting assembly and (2) into said heat transfer material,said light engine housing having at least a first surface and a second surface,at least a portion of said first surface exposed to an exterior of said lighting assembly,a recess defined by said second surface of said light engine housing,a first surface of said circuit board in contact with a portion of said second surface of said light engine housing that extends around a periphery of said recess,said heat transfer material completely filling said recess between said light engine housing and said first surface of said circuit board. 25. A method as recited in claim 24, wherein said construction element is selected from the group consisting of a wall, a floor and a ceiling. 26. A method as recited in claim 24, further comprising positioning a lens in said lighting assembly and turning said lens, whereby said lens becomes engaged with said lighting assembly and is held in place. 27. A method as recited in claim 26, wherein said turning said lens comprises rotating said lens about an axis substantially coaxial with an axis of said lighting assembly. 28. A method as recited in claim 24, further comprising positioning a rim such that an external surface of said rim faces an internal surface of said lighting assembly. 29. A method as recited in claim 24, wherein said electrical supply component comprises an electrical wire. 30. A method as recited in claim 24, wherein said first solid state light emitter is an LED. 31. A method of changing a light emitter in a lighting assembly, comprising: retracting clips attached to a lighting assembly out of contact with a construction element;moving said lighting assembly through a hole in a construction element, said lighting assembly comprising a light engine housing, a circuit board, a heat transfer material, and at least a first solid state light emitter, said light engine housing having at least a first surface and a second surface, at least a portion of said first surface exposed to an exterior of said lighting assembly, said heat transfer material in contact with said first surface, said circuit board mounted on the light engine housing between (1) said first solid state light emitter and (2) said portion of said surface of said light engine housing which is exposed to an exterior of said lighting assembly,a recess defined by said second surface of said light engine housing,a first surface of said circuit board in contact with a portion of said second surface of said light engine housing that extends around a periphery of said recess,said heat transfer material completely filling said recess between said light engine housing and said first surface of said circuit board. 32. A method as recited in claim 31, wherein: said lighting assembly comprises a fixture housing, said light engine housing, a light engine and at least a first light emitter, said first light emitter mounted on said light engine, said light engine mounted on said light engine housing, and said method further comprises: removing said light engine housing from said fixture housing;removing said light engine from said light engine housing;attaching a replacement light engine to said light engine housing; andattaching said light engine housing to said fixture housing. 33. A method as recited in claim 32, wherein said method further comprises inserting said lighting assembly through said hole in said construction element such that said clips engage said construction element. 34. A method as recited in claim 31, wherein: said lighting assembly comprises a fixture housing, said light engine housing, a light engine and at least a first light emitter, said first light emitter mounted on said light engine, said light engine mounted on said light engine housing, andsaid method further comprises: removing said light engine housing from said fixture housing;removing said first light emitter from said light engine;attaching a replacement light emitter on said light engine; andattaching said light engine housing to said fixture housing. 35. A method as recited in claim 34, wherein said method further comprises inserting said lighting assembly through said hole in said construction element such that said clips engage said construction element. 36. A method as recited in claim 34, wherein said method further comprises inserting said lighting assembly through a second hole in a second construction element such that said clips engage said second construction element. 37. A method as recited in claim 31, wherein: said lighting assembly comprises: a fixture housing;said light engine housing;said circuit board;said heat transfer material;at least a first electrically conductive leg; andat least said first solid state light emitter,said first solid state light emitter is in contact with a first end of said first electrically conductive leg,said first electrically conductive leg extends through said circuit board,a second end of said first electrically conductive leg extends into said heat transfer material. 38. A method as recited in claim 37, wherein said first emitter is a solid state light emitter. 39. A method as recited in claim 38, wherein said solid state light emitter is an LED. 40. A lighting assembly as recited in claim 15, wherein: said lighting assembly further comprises at least a first electrically conductive leg,said first solid state light emitter is in contact with a first end of said first electrically conductive leg,said first electrically conductive leg extends through said circuit board, anda second end of said first electrically conductive leg extends into said heat transfer material. 41. A lighting assembly as recited in claim 37, wherein: said electrically conductive leg is electrically connected to said electrical conductor,said heat transfer material is in contact with said light engine housing, andsaid light engine housing is connected to said fixture housing.