Multi-mode control for solid state lighting

What is claimed is: 1. A light emitting diode (LED) controller providing a regulated current across a LED from an unregulated voltage source, the LED controller comprising: a current controller configured to detect an output current at an output of the LED controller; and a firing angle detection circuit configured to detect a firing angle of a voltage waveform output by a dimmer switch, the dimmer switch coupled to receive the unregulated voltage source, wherein a firing angle sense input of the firing angle detection circuit is directly connected to both inputs of a diode bridge circuit coupled to the dimmer switch; the current controller further configured to: generate a control signal to turn on or turn off a switch, the switch being turned on responsive to the control signal being in a first state and the switch being turned off responsive to the control signal being in a second state, the switch configured to receive the control signal and regulate an amount of current to be supplied to the LED based on the control signal, wherein for each switching cycle: responsive to the detected firing angle of the voltage waveform output by the dimmer switch being less than a first firing angle threshold, corresponding to a first regulation mode, generate the control signal in the second state when the detected output current at the output of the LED controller satisfies a first output current threshold; responsive to the detected firing angle of the voltage waveform output by the dimmer switch being greater than a second firing angle threshold, corresponding to a second regulation mode, generate the control signal in the second state when the detected output current at the output of the LED controller satisfies a second output current threshold; and responsive to the detected firing angle of the voltage waveform output by the dimmer switch being greater than the first threshold and less than the second threshold, corresponding to a third regulation mode, generate the control signal in the second state when the detected output current at the output of the LED controller satisfies the first output current threshold. 2. The LED controller of claim 1 , wherein during the first regulation mode the first output current threshold waveform has a shape proportional to the voltage waveform output by the dimmer switch. 3. The LED controller of claim 1 , wherein the LED controller is further configured to: adjust, during the first regulation mode, the first output current threshold to regulate the output current to the dimmer switch. 4. The LED controller of claim 1 , wherein during the second regulation mode, the second output current threshold corresponds to a holding current of the dimmer switch. 5. The LED controller of claim 1 , wherein the LED controller is further configured to: adjust, during the second regulation mode, the second output current threshold to regulate the output current to the dimmer switch. 6. The LED controller of claim 1 , wherein during the third regulation mode the first output current threshold waveform has a shape proportional to the voltage waveform output by the dimmer switch. 7. The LED controller of claim 1 , wherein the LED controller is further configured to: adjust, during the third regulation mode, the first output current threshold to regulate the output current to the dimmer switch, such that the first output current threshold is greater than a minimum holding current of the dimmer switch. 8. A light emitting diode (LED) controller providing a regulated current across a LED from an unregulated voltage source, the LED controller comprising: a current controller configured to detect an output current at an output of the LED controller; and a firing angle detection circuit configured to detect a firing angle of the unregulated voltage source, wherein a firing angle sense input of the firing angle detection circuit is directly connected to both inputs of a diode bridge circuit coupled to the unregulated voltage source; the current controller further configured to: generate a control signal to turn on or turn off a switch, the switch being turned on responsive to the control signal being in a first state and the switch being turned off responsive to the control signal being in a second state, the switch configured to receive the control signal and regulate an amount of current to be supplied to the LED based on the control signal, wherein for each switching cycle: responsive to the detected firing angle of the unregulated voltage source being less than a first firing angle threshold, corresponding to a first regulation mode, generate the control signal in the second state based on a first regulation mode when the detected output current at the output of the LED controller satisfies a first output current threshold; responsive to the detected firing angle of the unregulated voltage source being greater than a second firing angle threshold, corresponding to a second regulation mode, generate the control signal in the second state when the detected output current at the output of the LED controller satisfies a second output current threshold; and responsive to the detected firing angle of the unregulated voltage source being greater than the first threshold and less than the second threshold, corresponding to a third regulation mode, generate the control signal in the second state when the detected output current at the output of the LED controller satisfies the first output current threshold. 9. The LED controller of claim 8 , wherein during the first regulation mode the first output current threshold waveform has a shape proportional to the voltage waveform output by the unregulated voltage source. 10. The LED controller of claim 8 , wherein the LED controller is further configured to: adjust, during the first regulation mode, the first output current threshold to regulate the output current to the dimmer switch. 11. The LED controller of claim 8 , further comprising a dimmer switch, the dimmer switch having an input coupled to receive the unregulated voltage source, and an output coupled to the LED controller. 12. The LED controller of claim 11 , wherein during the second regulation mode, the second output current threshold corresponds to a holding current of the dimmer switch. 13. The LED controller of claim 11 , wherein the LED controller is further configured to: adjust, during the second regulation mode, the second output current threshold to regulate the output current to the dimmer switch. 14. The LED controller of claim 11 , wherein during the third regulation mode the first output current threshold waveform has a shape proportional to the voltage waveform output by the dimmer switch. 15. The LED controller of claim 11 , wherein the LED controller is further configured to: adjust, during the third regulation mode, the adjusting first output current threshold to regulate the output current to the dimmer switch, such that the first output current threshold is greater than a minimum holding current of the dimmer switch.