Underwater light having programmable controller and replaceable light-emitting diode (LED) assembly

What is claimed is: 1. An underwater light, comprising: a controller printed circuit board assembly (PCBA), including: a microcontroller subsystem including a microcontroller, a light-emitting diode (LED) driver subsystem in communication with the microcontroller subsystem, the LED driver subsystem receiving pulse-width modulated (PWM) signals from the microcontroller subsystem and being controlled by the PWM signals, and a power subsystem providing power to the microcontroller subsystem and the LED driver subsystem; and an LED printed circuit board assembly (PCBA) in communication with the controller PCBA, the LED PCBA including a plurality of LED strings in communication with and driven by the LED driver subsystem; wherein the controller PCBA retrieves at least one value from a memory of the LED PCBA and transmits a control signal to the LED PCBA for controlling the LED PCBA in response to the at least one value retrieved from the memory of the LED PCBA. 2. An underwater light, comprising: a controller printed circuit board assembly (PCBA) including a microcontroller, the microcontroller generating pulse-width modulated (PWM) signals; and an LED printed circuit board assembly (PCBA) in communication with the controller PCBA, the LED PCBA being replaceable and including a plurality of LED strings in communication with and driven by the microcontroller; wherein the controller PCBA retrieves at least one value from a memory of the LED PCBA and transmits a control signal to the LED PCBA for controlling the LED PCBA in response to the at least one value retrieved from the memory of the LED PCBA. 3. The underwater light of claim 1 , wherein the controller PCBA further includes a thermistor in communication with the microcontroller subsystem, the thermistor measuring a temperature of the controller PCBA and communicating a controller PCBA temperature signal to the microcontroller subsystem, the microcontroller subsystem controlling operation of the LED driver subsystem in response to the controller PCBA temperature signal. 4. The underwater light of claim 3 , wherein the microcontroller subsystem controls operation of the LED driver subsystem to reduce a light output of the plurality of LED strings when the controller PCBA temperature signal exceeds a predetermined temperature threshold. 5. The underwater light of claim 1 , wherein the power subsystem includes a bridge rectifier providing a rectified voltage signal to the LED driver subsystem. 6. The underwater light of claim 1 , wherein the LED driver subsystem includes a plurality of buck regulators, each buck regulator being associated with a respective LED string of the plurality of LED strings. 7. The underwater light of claim 1 , wherein the plurality of LED strings include red, blue, green and white LEDs. 8. The underwater light of claim 1 , wherein the LED PCBA is encapsulated in an optically-transparent potting compound and is replaceable by removing a rear housing of the underwater light. 9. The underwater light of claim 1 , wherein the LED PCBA further includes a plurality of thermistors in communication with the microcontroller subsystem, the plurality of thermistors measuring temperatures of the plurality of LED strings and communicating a plurality of LED temperature signals to the microcontroller subsystem, the microcontroller subsystem controlling operation of the LED driver subsystem in response to the plurality of LED temperature signals. 10. The underwater light of claim 9 , wherein the microcontroller subsystem controls the operation of the LED driver subsystem to reduce a light output of the plurality of LED strings when the plurality of LED temperature signals exceed a predetermined temperature threshold. 11. The underwater light of claim 1 , wherein the LED PCBA further includes a programmable memory in communication with the microcontroller subsystem and powered by the power subsystem, the programmable memory storing a plurality of color table values for controlling colors of light emitted by the plurality of LED strings, the microcontroller subsystem reading the plurality of color table values from the programmable memory and controlling the LED driver subsystem in response to the plurality of color table values. 12. The underwater light of claim 1 , wherein the LED PCBA further includes a high-temperature shutdown circuit in communication with the microcontroller subsystem and powered by the power subsystem, the high-temperature shutdown circuit issuing a shutdown signal to the microcontroller subsystem in response to a temperature threshold of the LED PCBA being exceeded. 13. The underwater light of claim 2 , wherein the controller PCBA further includes a thermistor in communication with the microcontroller, the thermistor measuring a temperature of the controller PCBA and communicating a controller PCBA temperature signal to the microcontroller, the microcontroller reducing a light output of the plurality of LED strings when the controller PCBA temperature signal exceeds a predetermined threshold. 14. The underwater light of claim 2 , further including a plurality of buck regulators, each buck regulator being associated with a respective LED string of the plurality of LED strings. 15. The underwater light of claim 2 , wherein LEDs of the plurality of LED strings include red, blue, green and white LEDs. 16. The underwater light of claim 2 , wherein the LED PCBA is encapsulated in an optically-transparent potting compound and is replaceable by removing a rear housing of the underwater light. 17. The underwater light of claim 2 , wherein the LED PCBA further includes a plurality of thermistors in communication with the microcontroller, the plurality of thermistors measuring temperatures of the plurality of LED strings and communicating a plurality of LED temperature signals to the microcontroller, the microcontroller reducing, based on the communicated plurality of LED temperature signals, a light output of the plurality of LED strings when the plurality of LED temperature signals exceed a predetermined threshold. 18. The underwater light of claim 2 , wherein the LED PCBA further includes a memory in communication with the microcontroller, the memory storing a plurality of color table values for controlling colors of light emitted by the plurality of LED strings, the microcontroller controlling the plurality of LED strings based on the plurality of color table values read from the memory. 19. The underwater light of claim 2 , wherein the LED PCBA further includes a shutdown circuit in communication with the microcontroller, the shutdown circuit issuing a shutdown signal to the microcontroller in response to a threshold of the LED PCBA being exceeded.