Load control device for a light-emitting diode light source

The invention claimed is: 1. An electric load controller, comprising: control circuitry to: receive an input indicative of a target intensity receive a load voltage feedback signal; receive a load current feedback signal; and determine whether target intensity is greater than a first intensity threshold; responsive to the determination that the target intensity exceeds a first intensity threshold: cause an operatively coupled load regulation circuit to operate in a continuous current mode in which the load current is supplied continuously to an operatively coupled LED lighting load; and determine an average load current supplied to the LED lighting load using a load voltage feedback signal; determine whether target intensity is less than a second intensity threshold; responsive to the determination that the target intensity is less than the second intensity threshold: cause the operatively coupled load regulation circuit to operate in a discontinuous current mode in which current is not continuously supplied to the operatively coupled LED lighting load; and determine the average load current supplied to the LED lighting load using a load current feedback signal; and generate at least one output to adjust at least one of: a load voltage or a load current supplied to the operatively coupled LED lighting load based on a target average load current to achieve the target intensity. 2. The electric load controller of claim 1 wherein to determine the average load current supplied to the LED lighting load using the load voltage feedback signal, the control circuitry to further: cause operatively coupled load sense circuitry to filter the received load voltage feedback signal to provide a filtered load voltage feedback signal; and determine an average load current supplied to the LED lighting load using the filtered load voltage feedback signal, input power provided to the load regulation circuitry, and an efficiency of the load regulation circuitry. 3. The electric load controller of claim 2 wherein to determine the average load current supplied to the LED lighting load using the load current feedback signal, the control circuitry to further: determine the average load current supplied to the LED lighting load by integrating and scaling the load voltage feedback signal. 4. The electric load controller of claim 1 , the control circuitry to further: determine whether target intensity falls between the first intensity threshold and the second intensity threshold; and responsive to the determination by the electric load control circuitry that the target intensity falls between the first intensity threshold and the second intensity threshold: cause the operatively coupled load regulation circuit to operate in a discontinuous current mode in which current is not continuously supplied to the operatively coupled LED lighting load; and determine a first average load current using the load voltage feedback signal; determine a second average load current using the load current feedback signal; and combine the calculated first average load current and the calculated second using a scaling factor to determine the average load current supplied to the LED lighting load. 5. The electric load controller of claim 4 , wherein to determine the average load current supplied to the LED lighting load using the load voltage feedback signal, the control circuitry to further: cause operatively coupled load sense circuitry to filter the received load voltage feedback signal to provide a filtered load voltage feedback signal; and determine an average load current supplied to the LED lighting load using the filtered load voltage feedback signal, input power provided to the load regulation circuitry, and an efficiency of the load regulation circuitry. 6. The electric load controller of claim 5 wherein to determine the average load current supplied to the LED lighting load using the load current feedback signal, the control circuitry to further: determine the average load current supplied to the LED lighting load by integrating and scaling the load voltage feedback signal. 7. An electric load control method, comprising: receiving, by electric load control circuitry, an input indicative of a target intensity; receiving, by electric load control circuitry, a load voltage feedback signal from operatively coupled load sense circuitry; receiving, by electric load control circuitry, a load current feedback signal from the operatively coupled load sense circuitry; and determining, by the electric load control circuitry, whether target intensity is greater than a first intensity threshold; responsive to the determination by the electric load control circuitry that the target intensity exceeds a first intensity threshold: causing, by the electric load control circuitry, operatively coupled load regulation circuitry to operate in a continuous current mode such that a load current is supplied continuously to an operatively coupled LED lighting load; and determining, by the electric load control circuitry, an average load current supplied to the LED lighting load using the load voltage feedback signal; determining, by the electric load control circuitry, whether target intensity is less than a second intensity threshold; responsive to the determination by the electric load control circuitry that the target intensity is less than the second intensity threshold: causing, by the electric load control circuitry, the operatively coupled load regulation circuit to operate in a discontinuous current mode such that current is not continuously supplied to the operatively coupled LED lighting load; and determining, by the electric load control circuitry, the average load current supplied to the LED lighting load using a load current feedback signal; and generating, by the electric load control circuitry, at least one output to adjust at least one of: a load voltage or a load current supplied to the operatively coupled LED lighting load based on a target average load current to achieve the target intensity. 8. The electric load control method of claim 7 wherein determining the average load current supplied to the LED lighting load using the load voltage feedback signal further comprises: causing, by the electric load control circuitry, operatively coupled load sense circuitry to filter the received load voltage feedback signal to provide a filtered load voltage feedback signal; and determining, by the electric load control circuitry, the average load current supplied to the LED lighting load using the filtered load voltage feedback signal, input power provided to the load regulation circuitry, and an efficiency of the load regulation circuitry. 9. The electric load control method of claim 8 wherein determining the average load current supplied to the LED lighting load using the load current feedback signal further comprises: determining, by the electric load control circuitry, the average load current supplied to the LED lighting load by integrating and scaling the load voltage feedback signal. 10. The electric load control method of claim 7 , further comprising: determining, by the electric load control circuitry, whether target intensity falls between the first intensity threshold and the second intensity threshold; and responsive to the determination by the electric load control circuitry that the target intensity falls between the first intensity threshold and the second intensity threshold: causing, by the electric load control circuitry, the operatively coupled load regulation circuit to operate in a discontinuous current mode in which current is not continuously supplied to the operatively coupled LED