Configuration for a load regulation device for lighting control

The invention claimed is: 1. A load regulation device for controlling an amount of power delivered to an electrical load, the load regulation device comprising: a load regulation circuit configured to control a magnitude of a load current conducted through the electrical load to control an operational characteristic of the electrical load; and a control circuit configured to receive an analog control signal and control the load regulation circuit for controlling the operational characteristic of the electrical load based on a stored relationship between the operational characteristic of the electrical load and a magnitude of the analog control signal, wherein the magnitude of the analog control signal ranges between a low-end magnitude and a high-end magnitude according to the stored relationship, and wherein the control circuit is further configured to: measure the magnitude of the analog control signal; determine when the measured magnitude of the analog control signal is less than the low-end magnitude of the stored relationship; adjust the stored relationship between the operational characteristic of the electrical load and the magnitude of analog control signal based on the measured magnitude of the analog control signal being less than the low-end magnitude; and control the load regulation circuit based on the adjusted relationship. 2. The load regulation device of claim 1 , wherein the electrical load comprises an LED light source and the load regulation device comprises an LED driver. 3. The load regulation device of claim 2 , wherein the stored relationship between the operational characteristic of the electrical load and the analog control signal is associated with a dimming curve of the LED driver. 4. The load regulation device of claim 3 , wherein the dimming curve comprises a low-end intensity of the LED driver corresponding to a low-end magnitude of the analog control signal, and a high-end intensity of the LED driver corresponding to a high-end magnitude of the analog control signal. 5. The load regulation device of claim 4 , wherein the control circuit is configured to adjust the dimming curve based on a determination that the measured magnitude of the analog control signal falls outside the range defined by the low-end and the high-end magnitudes of the analog control signal. 6. The load regulation device of claim 5 , wherein the control circuit is configured to adjust the stored relationship between the operational characteristic of the electrical load and the analog control signal by rescaling the dimming curve of the LED driver based on the measured magnitude of the analog control signal. 7. The load regulation device of claim 1 , further comprising: a communication circuit configured to communicate with at least one other load regulation device regarding the adjusted relationship between the operational characteristic of the electrical load and the analog control signal. 8. The load regulation device of claim 7 , wherein the communication circuit is configured to communicate with the at least one other load regulation device via a control link on which the analog control input signal is transmitted. 9. The load regulation device of claim 1 , wherein the control circuit is configured to adjust the stored relationship between the operational characteristic of the electrical load and the analog control signal based on the measured magnitude of the analog control signal during a special mode. 10. The load regulation device of claim 9 , wherein the control circuit is configured to enter the special mode upon power-up. 11. The load regulation device of claim 9 , wherein the control circuit is configured to enter the special mode when receiving a command from a user. 12. The load regulation device of claim 1 , wherein the control circuit is further configured to: determine if the measured magnitude of the analog control signal is greater than the high-end magnitude of the stored relationship; and adjust the stored relationship between the operational characteristic of the electrical load and the magnitude of analog control signal based on the measured magnitude of the analog control signal if the measured magnitude is greater than the high-end magnitude. 13. The load regulation device of claim 1 , wherein the analog control signal comprises a 0-10V control signal. 14. A method of configuring a load regulation device for controlling an amount of power delivered to an electrical load, the method comprising: receiving an analog control signal; controlling a magnitude of a load current conducted through the electrical load to control an operational characteristic of the electrical load based on a stored relationship between the operational characteristic of the electrical load and a magnitude of the analog control signal, wherein the magnitude of the analog control signal ranges between a low-end magnitude and a high-end magnitude according to the stored relationship; measuring the magnitude of the analog control signal; determining when the measured magnitude of the analog control signal is less than the low-end magnitude of the stored relationship; adjusting the stored relationship between the operational characteristic of the electrical load and the magnitude of analog control signal based on the measured magnitude of the analog control signal being less than the low-end magnitude; and controlling the magnitude of the load current based on the adjusted relationship. 15. The method of claim 14 , wherein the electrical load is a light source and the stored relationship is a dimming curve of the load regulation device, and wherein the dimming curve comprises a low-end intensity of the load regulation device corresponding to a low-end magnitude of the analog control signal, and a high-end intensity of the load regulation device corresponding to a high-end magnitude of the analog control signal. 16. The method of claim 15 , wherein adjusting the stored relationship further comprises adjusting the dimming curve based on a determination that the measured magnitude of the analog control signal falls outside the range defined by the low-end and the high-end magnitudes of the analog control signal. 17. The method of claim 16 , wherein adjusting the dimming curve further comprises adjusting rescaling the dimming curve based on the measured magnitude of the analog control signal. 18. The method of claim 14 , further comprising: determining if the measured magnitude of the analog control signal is greater than the high-end magnitude of the stored relationship; and adjusting the stored relationship between the operational characteristic of the electrical load and the magnitude of analog control signal based on the measured magnitude of the analog control signal if the measured magnitude is greater than the high-end magnitude. 19. The method of claim 14 , further comprising: communicating with at least one other load regulation device regarding the adjusted relationship between the operational characteristic of the electrical load and the analog control signal. 20. The method of claim 14 , wherein adjusting the stored relationship further comprises adjusting the stored relationship between the operational characteristic of the electrical load and the analog control signal based on the measured magnitude of the analog control signal during a special mode.