Load control device for a light-emitting diode light source

What is claimed is: 1. A load control device for controlling an amount of power delivered to an electrical load, the load control device comprising: a load regulation circuit configured to control a magnitude of a load current conducted through the electrical load to control the amount of power delivered to the electrical load, the load regulation circuit comprising an inverter circuit characterized by an operating period and a duty cycle; and a control circuit coupled to the load regulation circuit and configured to control an average magnitude of the load current, the control circuit configured to operate in a normal mode and a burst mode, the burst mode comprising an active state during an active state period of a burst mode period and an inactive state during an inactive state period of the burst mode period; wherein, during the normal mode, the control circuit is configured to regulate the average magnitude of the load current towards a target load current by adjusting an on time of the inverter circuit; and wherein, during the burst mode, the control circuit is configured to adjust the operating period of the inverter circuit to a low-end operating period by adjusting the on time of the inverter circuit to a value less than or equal to a minimum on time while holding the duty cycle of the inverter circuit constant, the control circuit further configured to regulate the average magnitude of the load current towards the target load current by adjusting a length of the active state period and a length of the inactive state period. 2. The load control device of claim 1 , wherein the control circuit is configured to store the low-end operating period in memory. 3. The load control device of claim 1 , wherein, during the normal mode, the control circuit is configured to maintain the operating period of the inverter circuit at a high-end operating period after the target load current reaches a high-end transition value. 4. The load control device of claim 3 , wherein the high-end transition value is equal to approximately a maximum rated current of the electrical load. 5. The load control device of claim 3 , wherein the high-end transition value is less than a maximum rated current of the electrical load. 6. The load control device of claim 3 , wherein the control circuit is configured to adjust the operating period of the inverter circuit between the low-end operating period and the high-end operating period when the target load current is between a low-end transition value and the high-end transition value. 7. The load control device of claim 3 , wherein the low-end operating period is shorter than the high-end operating period. 8. The load control device of claim 1 , wherein, during the burst mode, the control circuit is configured to periodically decrease the operating period of the inverter circuit by a predetermined amount until the on time of the inverter circuit is less than or equal to the minimum on time. 9. The load control device of claim 1 , wherein, during the normal mode, the control circuit is configured to regulate the average magnitude of the load current from a maximum rated current to a minimum rated current, and wherein, during the burst mode, the control circuit is configured to regulate the average magnitude of the load current below the minimum rated current. 10. The load control device of claim 1 , wherein, during the burst mode, the control circuit is configured to adjust the length of the active state period of the burst mode period in first adjustment steps that are dependent on the low-end operating period of the inverter circuit. 11. The load control device of claim 10 , wherein, during the burst mode, the control circuit is configured to adjust the length of the active state period in the first adjustment steps while keeping a length of the burst mode period constant. 12. The load control device of claim 1 , wherein the load regulation circuit comprises an LED drive circuit for an LED light source. 13. The load control device of claim 1 , further comprising: a current sense circuit configured to provide a load current feedback signal that indicates the magnitude of the load current to the control circuit, wherein, during the normal mode, the control circuit is configured to regulate the average magnitude of the load current to the target load current in response to the load current feedback signal. 14. An LED driver for controlling an intensity of an LED light source, the LED driver comprising: an LED drive circuit configured to control a magnitude of a load current conducted through the LED light source and to control the intensity of the LED light source, the LED drive circuit comprising an inverter circuit characterized by an operating period and a duty cycle; and a control circuit coupled to the LED drive circuit and configured to control an average magnitude of the load current, the control circuit configured to operate in a normal mode and a burst mode, the burst mode comprising an active state during an active state period of a burst mode period and an inactive state during an inactive state period of the burst mode period; wherein, during the normal mode, the control circuit is configured to regulate the average magnitude of the load current towards a target load current by adjusting an on time of the inverter circuit; and wherein, during the burst mode, the control circuit is configured to adjust the operating period of the inverter circuit to a low-end operating period by adjusting the on time of the inverter circuit to a value less than or equal to a minimum on time while holding the duty cycle of the inverter circuit constant, the control circuit further configured to regulate the average magnitude of the load current towards the target load current by adjusting a length of the active state period and a length of the inactive state period. 15. The LED driver of claim 14 , wherein the control circuit is configured to store the low-end operating period in memory. 16. The LED driver of claim 14 , wherein, during the normal mode, the control circuit is configured to maintain the operating period of the inverter circuit at a high-end operating period after the target load current reaches a high-end transition value. 17. The LED driver of claim 16 , wherein the high-end transition value is equal to approximately a maximum rated current of the LED light source. 18. The LED driver of claim 16 , wherein the high-end transition value is less than a maximum rated current of the LED light source. 19. The LED driver of claim 16 , wherein the control circuit is configured to adjust the operating period of the inverter circuit between the low-end operating period and the high-end operating period when the target load current is between a low-end transition value and the high-end transition value. 20. The LED driver of claim 16 , wherein the low-end operating period is shorter than the high-end operating period. 21. The LED driver of claim 14 , wherein, during the burst mode, the control circuit is configured to periodically decrease the operating period of the inverter circuit by a predetermined amount until the on time of the inverter circuit is less than or equal to the minimum on time. 22. The LED driver of claim 14 , wherein, during the normal mode, the control circuit is configured to regulate the average magnitude of the load current from a maximum rated current to a minimum rated current, and wherein, during the burst mode, the control circuit is