Load control device for a light-emitting diode light source

What is claimed is: 1. An LED driver for controlling an intensity of an LED light source, the LED driver comprising: an LED drive circuit configured to conduct a load current through the LED light source and to control the intensity of the LED light source; a current sense circuit configured to provide a load current feedback signal that indicates a magnitude of the load current; and a control circuit configured to generate at least one drive signal for controlling the LED drive circuit to adjust an average magnitude of the load current, the control circuit configured to adjust an operational characteristic of the at least one drive signal in response to the load current feedback signal in order to control the intensity of the LED light source towards a target intensity, wherein the control circuit is configured to operate in a normal mode to regulate the average magnitude of the load current towards a target load current that ranges from a maximum rated current to a minimum rated current, the control circuit further configured to operate in a burst mode to regulate the average magnitude of the load current below the minimum rated current; wherein, during the burst mode, the control circuit is configured to control the LED drive circuit in an active state during a first time period in which the control circuit adjusts the operational characteristic of the at least one drive signal to regulate a peak magnitude of the load current towards approximately the minimum rated current in response to the load current feedback signal, the control circuit further configured to control the LED drive circuit in an inactive state during a second time period in which the control circuit stops generating the at least one drive signal and maintains the operational characteristic of the at least one drive signal constant, such that the average magnitude of the load current is less than the minimum rated current. 2. The LED driver of claim 1 , wherein the control circuit is configured to adjust a burst duty cycle defining when the LED drive circuit operates in the active state and the inactive state to adjust the average magnitude of the load current below the minimum rated current when operating in the burst mode. 3. The LED driver of claim 2 , wherein the control circuit is configured to adjust the burst duty cycle in response to the target intensity when operating in the burst mode. 4. The LED driver of claim 3 , wherein the control circuit is configured to adjust the burst duty cycle linearly with respect to the target intensity when operating in the burst mode. 5. The LED driver of claim 2 , wherein the control circuit is configured to operate in the burst mode when a target amount of power is less than a transition amount of power. 6. The LED driver of claim 2 , wherein, during the burst mode, the control circuit is configured to regulate the average magnitude of the load current by adjusting the burst duty cycle and the target load current. 7. The LED driver of claim 6 , wherein, during the burst mode, the control circuit is configured to regulate the peak magnitude of the load current to the minimum rated current during the first time period in a first burst mode period and regulate the peak magnitude of the load current to the minimum rated current plus a current offset during the first time period in a second burst mode period. 8. The LED driver of claim 7 , wherein the current offset ranges from a minimum current offset to a maximum current offset based on the burst duty cycle and the target intensity. 9. The LED driver of claim 8 , wherein the control circuit is configured to increase the magnitude of the load current from an initial current to the minimum rated current plus the current offset over a ramp time period at a beginning of the first time period. 10. The LED driver of claim 1 , wherein the operational characteristic of the at least one drive signal comprises a duty cycle of the at least one drive signal. 11. The LED driver of claim 10 , wherein the control circuit is configured to adjust the duty cycle of the at least one drive signal to regulate the average magnitude of the load current to the target load current in response to the load current feedback signal in the normal mode, the control circuit further configured to adjust the duty cycle of the at least one drive signal to regulate the peak magnitude of the load current to the minimum rated current in response to the load current feedback signal in the active state of the burst mode. 12. The LED driver of claim 10 , wherein the LED drive circuit comprises a half-bridge inverter circuit, and the at least one drive signal comprises two drive signals for driving the half-bridge inverter circuit. 13. The LED driver of claim 1 , wherein the operational characteristic of the at least one drive signal comprises an operating frequency of the at least one drive signal. 14. The LED driver of claim 1 , wherein, after the second time period, the control circuit is configured to control the LED drive circuit in the active state during a third time period in which the control circuit generates the at least one drive signal and adjusts the operational characteristic of the at least one drive signal to regulate the peak magnitude of the load current towards approximately the minimum rated current in response to the load current feedback signal. 15. The LED driver of claim 1 , wherein the control circuit is configured to increase the magnitude of the load current from an initial current to the minimum rated current over a ramp time period at a beginning of the first time period. 16. An LED driver for controlling an intensity of an LED light source, the LED driver comprising: an LED drive circuit configured to conduct a load current through the LED light source and to control the intensity of the LED light source; a control circuit coupled to the LED drive circuit and configured to adjust an average magnitude of the load current, wherein the control circuit is configured to operate in a normal mode and a burst mode, wherein the burst mode comprises an active state during a first time period of a burst mode period and an inactive state during a second time period of the burst mode period, and a duration of the active state of the burst mode period is determined based on a burst duty cycle; and wherein, during the normal mode, the control circuit is configured to regulate the average magnitude of the load current by holding the burst duty cycle constant and adjusting a target load current, and wherein, during the burst mode, the control circuit is configured to regulate the average magnitude of the load current by adjusting the burst duty cycle and the target load current; and wherein, during the burst mode, the control circuit is configured to adjust the target load current by a current offset that ranges from a minimum current offset to a maximum current offset based on the burst duty cycle and a target amount of power to be delivered to the LED light source. 17. The LED driver of claim 16 , wherein, during the burst mode, the control circuit is configured to decrease the average magnitude of the load current by decreasing the target load current during consecutive burst mode periods while holding the burst duty cycle constant, and by decreasing the burst duty cycle and increasing the target load current in a succeeding burst mode period. 18. The LED driver of claim 16 , wherein, during the burst mode, the control circuit is configured to increase the average magnitude of the load current by increasing the target load current