LED lamp with refracting optic element

The invention claimed is: 1. A LED lamp comprising: at least two LEDs providing light of at least two different spectral outputs; and an optic element comprising a refracting entry surface disposed to receive the light from the at least two LEDs, the refracting entry surface comprising a plurality of refracting surfaces wherein the plurality of refracting surfaces comprise a plurality of convex refracting surfaces alternating with a plurality of concave refracting surfaces, the refracting entry surface refracting the light tangentially. 2. A LED lamp comprising: at least two LEDs providing light of at least two different spectral outputs; and an optic element comprising a refracting entry surface disposed to receive the light from the at least two LEDs, wherein the optic element comprises a diffusive outer portion generating back light, the refracting entry surface refracting the light tangentially. 3. The LED lamp of claim 1 wherein the plurality of refracting surfaces extend radially on the refracting entry surface. 4. The LED lamp of claim 1 wherein the plurality of refracting surfaces comprise a plurality of continuously curved surfaces. 5. The LED lamp of claim 2 wherein the plurality of refracting surfaces comprise a plurality of convex refracting surfaces alternating with a plurality of concave refracting surfaces. 6. The LED lamp of claim 1 wherein the plurality of refracting surfaces extend along radii of the optic element where the center of the entry surface is centered over the at least two LEDs. 7. The LED lamp of claim 2 wherein the refracting entry surface is surrounded by an annular guide surface comprising a plurality of refracting surfaces that extend along a longitudinal axis of the lamp generally perpendicular to the refracting entry surface. 8. The LED lamp of claim 6 wherein at least some of the plurality of refracting surfaces do not extend to the center of the entry surface. 9. The LED lamp of claim 1 wherein at least some of the plurality of refracting surfaces extend for a different length than other ones of the plurality of refracting surfaces. 10. The LED lamp of claim 1 wherein the plurality of refracting surfaces cover at least 50% of the entry surface. 11. The LED lamp of claim 1 wherein the optic element comprises a diffusive outer portion generating back light. 12. A LED lamp comprising: a plurality of LEDs to provide light of at least two different spectral outputs disposed about a longitudinal axis; and an optic element comprising an entry surface disposed to receive the light from the plurality of LEDs, the entry surface comprising refracting surfaces that refract the light tangentially relative to the longitudinal axis wherein the refracting surfaces comprise a plurality of convex refracting surfaces and a plurality of concave refracting surfaces defining a sinusoidal line as the entry surface is traversed at a given radius. 13. The lamp of claim 12 wherein the refracting surfaces extend radially relative to the longitudinal axis. 14. The lamp of claim 2 wherein the refracting entry surface comprises a plurality of convex refracting surfaces and a plurality of concave refracting surfaces define a sinusoidal line as the entry surface is traversed at a given radius. 15. The LED lamp of claim 12 wherein at least some of the refracting surfaces do not extend to the longitudinal axis. 16. A LED lamp comprising: at least two LEDs providing light of at least two different spectral outputs; and an optic element comprising a first refracting entry surface disposed to receive the light from the at least two LEDs, the first refracting entry surface being disposed in a first plane and a second refracting entry surface disposed to receive the light from the at least two LEDs, the second refracting entry surface being disposed at an angle of other than 180 degrees relative to the first plane wherein the first refracting entry surface has a first plurality of refracting surfaces arranged in a first pattern and the second refracting entry surface has a second plurality of refracting surfaces arranged in a second pattern. 17. The LED lamp of claim 16 wherein the first refracting entry surface has an elongated shape where a width of the first refracting entry surface is smaller than a length of the first refracting entry surface. 18. The LED lamp of claim 16 wherein the first refracting entry surface has a first plurality of refracting surfaces arranged in a first pattern and a second plurality of refracting surfaces arranged in a second pattern. 19. The LED lamp of claim 16 wherein the top outer surface of the optic element is relatively flat. 20. A LED lamp comprising: at least two LEDs providing light of at least two different spectral outputs; and an optic element comprising a refracting entry surface disposed to receive the light from the at least two LEDs, the refracting entry surface refracting the light tangentially wherein the entry surface is surrounded by an annular guide surface comprising a plurality of refracting surfaces that extend along a longitudinal axis of the lamp generally perpendicular to the entry surface. 21. A LED lamp comprising: at least two LEDs providing light of at least two different spectral outputs; and an optic element comprising a refracting entry surface disposed to receive the light from the at least two LEDs, the refracting entry surface comprising a plurality of refracting surfaces wherein at least some of the plurality of refracting surfaces extend for a different length than other ones of the plurality of refracting surfaces, the refracting entry surface refracting the light tangentially.