Load control device for a light-emitting diode light source

The invention claimed is: 1. A light-emitting diode driver for controlling power delivered from a power source to an LED light source, the LED driver configured to receive an input voltage from the power source, the LED driver comprising: a power converter circuit configured to generate a bus voltage; a load regulation circuit configured to receive the bus voltage and to control the power delivered to the LED light source; a rectifier circuit configured to receive the input voltage from the power source, the rectifier circuit configured to rectify the input voltage to generate a rectified voltage and provide the rectified voltage to the power converter circuit when the input voltage is an AC voltage, the rectifier circuit further configured to pass through the input voltage to the power converter circuit when the input voltage is a DC voltage, the rectifier circuit comprising first and second input terminals, first and second output terminals, a first controllable switching circuit, and a second controllable switching circuit, the first and second controllable switching circuits rendered non-conductive when the input voltage is the AC voltage and rendered conductive when the input voltage is the DC voltage; and a control circuit configured to control the load regulation circuit to control the power delivered to the LED light source, the control circuit configured to operate in the AC mode when the input voltage is the AC voltage and in a DC mode when the input voltage is the DC voltage; wherein the control circuit is configured to disable the power converter circuit when operating in the DC mode. 2. The LED driver of claim 1 , wherein the rectifier circuit comprises: a first diode configured to conduct current from the first input terminal to the first output terminal; a second diode configured to conduct current from the second output terminal to the second input terminal; a third diode configured to conduct current from the second input terminal to the first output terminal; and a fourth diode configured to conduct current from the second output terminal to the first input terminal; wherein the first controllable switching circuit is coupled in parallel with the first diode and the second controllable switching circuit is coupled in parallel with the second diode. 3. The LED driver of claim 2 , wherein the first and second controllable switching circuits each comprise a MOSFET. 4. The LED driver of claim 3 , wherein the first and second diodes are body diodes of the MOSFETs of the first and second controllable switching circuits. 5. The LED driver of claim 1 , wherein the control circuit is configured to disable the power converter circuit when the power required by the load is less than a threshold amount in the DC mode. 6. The LED driver of claim 5 , wherein the control circuit is configured to control the power converter circuit to adjust the magnitude of the bus voltage towards a target bus voltage, the control circuit configured to adjust the target bus voltage as a function of the power required by the LED light source when the power required by the LED light source is greater than the threshold amount in the DC mode. 7. The LED driver of claim 1 , wherein the rectifier circuit comprises a DC detect circuit electrically coupled between input terminals of the rectifier circuit, the DC detect circuit configured to render first and second controllable switching circuits of the rectifier circuit conductive when the voltage across the DC detect circuit is a DC voltage. 8. The LED driver of claim 1 , further comprising: a ripple detect circuit configured to receive a rectified voltage and generate a ripple detect signal that indicates whether AC ripple is present in the rectified voltage; wherein the control circuit is configured to receive the ripple detect signal, and determine whether the input voltage is AC voltage or DC voltage based on the ripple detect signal. 9. The LED driver of claim 1 , wherein the control circuit is configured to enable the power converter circuit during a startup routine of the LED driver when operating in the DC mode, and configured to disable the power converter circuit during normal operation when operating in the DC mode. 10. The LED driver of claim 1 , further comprising: a bus capacitor; and a controllable switching circuit electrically coupled in series with the bus capacitor; wherein the control circuit is configured to render the controllable switching circuit non-conductive when operating in the DC mode to disconnect the bus capacitor. 11. The LED driver of claim 1 , wherein the control circuit is configured to generate a bus voltage control signal and provide the bus voltage control signal to the power converter circuit, and the power converter circuit is configured to adjust a magnitude of the bus voltage towards a target bus voltage based on the bus voltage control signal. 12. The LED driver of claim 1 , wherein the power converter circuit is configured to generate a bus voltage feedback control signal that indicates a magnitude of the bus voltage, and provide the bus voltage feedback control signal to the control circuit. 13. The LED driver of claim 1 , wherein the control circuit is configured to disable the power converter circuit by allowing the DC voltage to pass through the power converter circuit so that the bus voltage has a minimum bus voltage magnitude. 14. A light-emitting diode (LED) driver for controlling power delivered from a power source to an LED light source load, the LED driver configured to receive an input voltage from the power source, the LED driver comprising: a power converter circuit configured to receive the input voltage or a rectified version of the input voltage and generate a bus voltage; a load regulation circuit configured to receive the bus voltage and to control the power delivered to the LED light source; and a control circuit configured to control the load regulation circuit to control the power delivered to the LED light source, the control circuit is configured to control the power converter circuit to adjust the magnitude of the bus voltage towards a target bus voltage, the control circuit configured to operate in an AC mode when the input voltage is an AC voltage and in a DC mode when the input voltage is a DC voltage; wherein the control circuit is configured to decrease the target bus voltage when operating in the DC mode. 15. The LED driver of claim 14 , further comprising: a rectifier circuit configured to receive the input voltage from the power source, the rectifier circuit configured to rectify the input voltage to generate the rectified version of the input voltage when the input voltage is the AC voltage, and to pass through the input voltage when the input voltage is the DC voltage. 16. The LED driver of claim 15 , wherein the rectifier circuit comprises a DC detect circuit electrically coupled between input terminals of the rectifier circuit, the DC detect circuit configured to render first and second controllable switching circuits of the rectifier circuit conductive when the voltage across the DC detect circuit is a DC voltage. 17. The LED driver of claim 14 , wherein the control circuit is configured to control the power converter circuit to adjust a magnitude of the bus voltage towards a target bus voltage, the control circuit configured to adjust the target bus voltage as a function of the power required by the LED light source when the power required by the LED light source is greater than a threshold amount in the DC mode. 18. The LED driv