Underwater light assembly and method

What is claimed is: 1 . An underwater light designed to project light onto a surface, comprising: a housing defining a cavity therein; a first circuit board including a first plurality of rows of light-emitting diodes (LEDs), the first circuit board being located within the cavity defined by the housing; and a first refractor assembly including a first plurality of rows of refractors, the first refractor assembly being coupled to the first circuit board, wherein the underwater light is configured to produce a first light distribution on a first region of the surface having a first red-green-blue (RGB) ratio, and a second light distribution on a second region of the surface having a second RGB ratio. 2 . The underwater light of claim 1 , wherein the housing comprises a lens that is substantially dome shaped coupled to a back housing through a sealing gasket, wherein the cavity is the space under the dome shaped lens. 3 . The underwater light of claim 2 further comprises a face ring coupled to sealing gasket. 4 . The underwater light of claim 1 , wherein the first plurality of rows of LEDs includes a first row of LEDs, a second row of LEDs, and a third row of LEDs, wherein each row of LEDs includes a plurality of colored LEDs. 5 . The underwater light of claim 4 , wherein the colored LEDs are at least one of a red LED, a blue LED, or a green LED. 6 . The underwater light of claim 5 , wherein the first row of LEDs has a different RGB ratio than the second row of LEDs, which has a different RGB ratio than the third row of LEDs. 7 . The underwater light of claim 4 , wherein the first refractor assembly includes a first row of refractors coupled to the first row of LEDs, a second row of refractors coupled to the second row of LEDs, and a third row of refractors coupled to the third row of LEDs, wherein the first row of LEDs together with the first row of refractors are configured to create a first cone of light with a first beam angle, the second row of LEDs together with the second row of refractors are configured to create a second cone of light with a second beam angle, and the third row of LEDs together with the third row of refractors are configured to create a third cone of light with a third beam angle. 8 . The underwater light of claim 1 further comprises: a second circuit board having a second plurality of rows of LEDs, the second circuit board being located within the cavity defined by the housing and is electrically coupled to the first circuit board; and a third circuit board having a third plurality of rows of LEDs, the third circuit board being located within the cavity defined by the housing and is electrically coupled to the first circuit board, wherein the second circuit board is arranged to face a first horizontal angle away from the first circuit board and the third circuit board is arranged to face a second horizontal angle away from the first circuit board. 9 . The underwater light of claim 8 , wherein the second circuit board and the third circuit board are both further arranged to face a vertical angle away from the first circuit board. 10 . The underwater light of claim 8 further comprises: a second refractor assembly having a second plurality of rows of refractors coupled to the second circuit board; and a third refractor assembly having a third plurality of rows of refractors coupled to the third circuit board. 11 . The underwater light of claim 10 further comprises: a first plurality of side reflectors coupled to the second circuit board to prevent light from shining backward; and a second plurality of side reflectors coupled to the third circuit board to prevent light from shining backward. 12 . The underwater light of claim 8 , wherein the second plurality of rows of LEDs of the second circuit board and the third plurality of rows of LEDs of the third circuit board each includes a plurality of colored LEDs selected from at least one of a red LED, a blue LED, or a green LED. 13 . The underwater light of claim 8 , wherein the second circuit board and the third circuit board each has less rows of LEDs than the first circuit board. 14 . The underwater light of claim 1 , wherein the first circuit board further includes a second plurality of rows of LEDs and a third plurality of rows of LEDs, wherein the first circuit board is flexible and includes a first area, a second area, and a third area, wherein the first plurality of rows of LEDs are located within the first area, the second plurality of rows of LEDs are located within the second area, and the third plurality of rows of LEDs are located within the third area, wherein the second area is arranged to face a first horizontal angle away from the first area, and the third area is arranged to face a second horizontal angle away from the first area. 15 . The underwater light of claim 14 further comprises: a second refractor assembly having a second plurality of rows of refractors coupled to the second plurality of rows of LEDs; and a third refractor assembly having a third plurality of rows of refractors coupled to the third plurality of rows of LEDs. 16 . An underwater light comprising: a housing including a substantially dome shaped lens coupled to a back housing through a sealing gasket, the housing defining a cavity therein; a first circuit board including a first plurality of rows of light-emitting diodes (LEDs), the first circuit board being located within the cavity defined by the housing; a second circuit board having a second plurality of rows of LEDs, the second circuit board being located within the cavity defined by the housing and is electrically coupled to the first circuit board; a third circuit board having a third plurality of rows of LEDs, the third circuit board being located within the cavity defined by the housing and is electrically coupled to the first circuit board; a first refractor assembly including a first plurality of rows of refractors, the first refractor assembly located adjacent to the first circuit board; a second refractor assembly having a second plurality of rows of refractors located adjacent to the second circuit board; and a third refractor assembly having a third plurality of rows of refractors located adjacent to the third circuit board, wherein the underwater light is configured to produce a first light distribution on a first region of a surface having a first red-green-blue (RGB) ratio, a second light distribution on a second region of the surface having a second RGB ratio, and a third light distribution on a third region of the surface having a third RGB ratio. 17 . The underwater light of claim 16 wherein, the second circuit board is arranged to face a first horizontal angle away from the first circuit board; the third circuit board is arranged to face a second horizontal angle away from the first circuit board; and the second circuit board and the third circuit board are both arrange to face a vertical angle away from the first circuit board. 18 . The underwater light of claim 16 , wherein, the first plurality of rows of LEDs includes a first row of LEDs, a second row of LEDs, and a third row of LEDs, each row having a plurality of colored LEDs; the second plurality of rows of LEDs includes a fourth row of LEDs and a fifth row of LEDs, each row having a plurality of colored LEDs; and the third plurality of rows of LEDs includes a sixth row of LEDs and a seventh row of LEDs, each row having a plurality of colored LEDs, wherein the colored LEDs are selected from a