Underwater light having a replaceable light-emitting diode (LED) module and cord assembly

The invention claimed is: 1. An underwater light comprising: a bezel having a screw aperture sized and shaped to receive a screw for mounting the underwater light to a niche, a plurality of recesses, and a first annular projection, the bezel sized and shaped to cover niches or recesses of pools or spas having different diameters, the bezel formed from an electrically insulative polymer material; a lens having a central lens portion, a peripheral annular wall, a plurality of tabs, and a central recess defined by the central lens portion and the peripheral annular wall, the bezel positioned about the central lens portion of the lens, the lens formed from an electrically-insulating material, the lens including a coating or layer preventing formation of condensation on an interior portion of the lens; a rear housing in water tight communication with the peripheral annular wall of the lens, the rear housing including a recessed portion configured to couple to a cable attachment assembly; a rear housing plate having a plurality of notches, a second annular projection, an internal lens assembly and formed from an electrically insulative and thermally conductive polymer material, the rear housing plate positioned between the lens and the rear housing, the second annular projection being received by the central recess of the lens, the plurality of notches engaging the rear housing so that the rear housing plate is in water tight communication with the rear housing; a printed circuit board having a plurality of light-emitting diodes (LEDs), the internal lens assembly of the rear housing plate directing or focusing light generated by the plurality of LEDs, the printed circuit board potted by an optically-transparent potting compound; a back plate formed of a thermally conductive material and in contact with the printed circuit board; a heat sink in contact with the back plate, the back plate transferring heat from the printed circuit board to the heat sink, the heat sink positioned on a central inner surface of the rear housing and including a plurality of fins, the heat sink formed from a thermally conductive and electrically insulative material; an electronics assembly including control and network electronics and controlling the underwater light, the electronics assembly received and housed by the rear housing, the electronics assembly potted with a potting compound; a mounting flange including a plurality of fingers and a central aperture, the plurality of fingers of the mounting flange engaging the plurality of recesses of the bezel and the central aperture receiving the first annular projection of the bezel, the mounting flange formed from a thermally conductive and electrically insulative polymer material; and a positioning assembly allowing for vertical movement of the underwater light during installation. 2. An underwater light, comprising: a watertight housing including: (i) a lens having an annular wall and a recess formed by the annular wall, (ii) a rear housing plate having an internal lens, and (iii) a rear housing coupled to the lens; a printed circuit board assembly including: (i) a printed circuit board having a front surface and a rear surface, the front surface including at least one light-emitting element; and (ii) a heat sink having an inner surface and a rear surface, the rear surface including a plurality of heat dissipating fins; a bezel having a screw aperture, an annular projection positioned on an interior of the bezel and a plurality of peripheral recesses; and a mounting flange having a screw aperture, a central aperture and a plurality of fingers, wherein: the printed circuit board assembly is positioned between the rear housing plate and the rear housing and enclosed by the lens and the rear housing, the printed circuit board is removable from the watertight housing and encapsulated by an optically transparent potting compound formed from a thermally conductive and electrically insulative material, the central aperture receives the watertight housing and the annular projection of the bezel and the plurality of fingers of the mounting flange respectively engage the plurality of peripheral recesses of the bezel to couple the bezel to the mounting flange and secure the watertight housing therein, the screw aperture of the bezel can be rotated up to 360 degrees to direct light in a particular direction and accommodate the underwater light in underwater niches having different orientations, and the bezel and the mounting flange are each formed of at least one of a thermally conductive and electrical insulative polymer material or a chemical resistant material including one of urethane, thermoplastic elastomer overmolding, silicone or polyamide. 3. The underwater light of claim 2 , wherein the lens is formed of an electrically insulating material including one of glass or a polymeric material, and includes silicon dioxide formed within the lens, on an outer surface of the lens, or on an interior surface of the lens. 4. The underwater light of claim 2 , wherein the rear housing plate is positioned between the lens and the rear housing, the lens recess receiving the annular projection of the rear housing plate and the plurality of notches of the rear housing plate engaging the rear housing such that the internal lens of the rear housing plate is positioned between the lens and the printed circuit board to direct or focus light generated by the at least one light-emitting element. 5. The underwater light of claim 4 , further comprising a gasket between the lens and the rear housing plate. 6. The underwater light of claim 2 , wherein each of the rear housing plate and the rear housing is formed of at least one of a thermally conductive and electrically insulative polymer material or a chemical material including one of urethane, thermoplastic elastomer over molding, silicone or polyamide. 7. The underwater light of claim 2 , further comprising a back plate having a front surface and a rear surface and being formed of a thermally conductive material, wherein the rear surface of the printed circuit board is affixed to the front surface of the back plate and the rear surface of the back plate is affixed to the inner surface of the heat sink, the back plate transferring heat from the printed circuit board through the back plate to the heat sink and an exterior of the rear housing. 8. The underwater light of claim 2 , further comprising an electronics assembly including control electronics and network electronics, wherein: the electronics assembly is encapsulated by the optically transparent potting compound, and the electronics assembly is molded to the rear housing and the rear housing is overmolded over the electronics assembly. 9. The underwater light of claim 2 , wherein: the heat sink is molded to the rear housing and the rear housing is molded to receive the plurality of heat dissipating fins of the heat sink, and the heat sink is formed of at least one of a thermally conductive and electrically insulative polymer material or a chemical material including one of urethane, thermoplastic elastomer overmolding, silicone or polyamide. 10. The underwater light of claim 2 , wherein the watertight housing is removable from the mounting flange by removing the bezel. 11. The underwater light of claim 2 , further comprising a positioning assembly coupled to a rear surface of the mounting flange, wherein the positioning assembly allows for the vertical movement of the underwater light within an underwater niche such that the underwater light can be positioned and fixed in a vertical orientation in underwater niches of different sizes.