Powering internal components of LED lamps using dissipative sources

The invention claimed is: 1. A light-emitting diode (LED) lamp, comprising: one or more LEDs; a power converter receiving a primary side input current and supplying a regulated current to the one or more LEDs; an LED driver receiving an input signal from a dimmer switch indicative of an amount of dimming for the LED lamp, the LED driver controlling the power converter to provide the regulated current through the one or more LEDs based on the input signal such that an output light intensity of the one or more LEDs substantially corresponds to the amount of dimming for the LED lamp; a regulated output providing operating power for the LED driver; and a controller regulating the regulated output, the controller selecting a power source for charging the regulated output from two or more power sources comprising the primary side input current and a bleeder circuit that when activated generates a bleeder current in the dimmer switch, wherein the regulated output is charged by the selected power source. 2. The LED lamp of claim 1 , wherein the controller selects a power source of the two or more power sources dissipating a higher amount of energy to charge the regulated output. 3. The LED lamp of claim 1 , wherein the bleeder circuit comprises a current source and one or more switches, and wherein the controller controls switching of the one or more switches to activate the current source to generate the bleeder current. 4. The LED lamp of claim 1 , wherein the controller is further adapted to: charge the regulated output by the bleeder current responsive to detecting the voltage of the regulated output is below a threshold voltage; and dissipate the bleeder current to a ground node of the LED lamp responsive to detecting the voltage of the regulated output is above the threshold voltage. 5. The LED lamp of claim 1 , wherein the controller is further adapted to: receive a signal from the dimmer switch indicating an amount of current through the dimmer switch; and responsive to the current through the dimmer switch being below a threshold current, activate the bleeder circuit. 6. The LED lamp of claim 1 , further comprising: an inductor coupled to an input of the LED lamp and the one or more LEDs; wherein the LED driver comprises a switch coupled to the inductor, energy stored in the inductor during on cycles of the switch and transferred to the one or more LEDs during off cycles of the switch. 7. The LED lamp of claim 6 , wherein the regulated output is coupled to the inductor, and wherein the controller selects between the inductor and one or more other power sources for charging the regulated output. 8. The LED lamp of claim 1 , wherein the regulated output is provided by a regulation unit, the regulation unit comprising a capacitor. 9. A method for driving a light-emitting diode (LED) lamp comprising one or more LEDs, a power converted receiving a primary side input current and supplying a regulated current to the one or more LEDs, an LED driver, and a regulated output providing operating power for the LED driver, the method comprising: receiving an input signal from a dimmer switch indicative of an amount of dimming for the LED lamp; controlling with the LED driver, the power converter to provide the regulated current through the one or more LEDs based on the input signal such that an output light intensity of the one or more LEDs substantially corresponds to the amount of dimming for the LED lamp; providing the regulated output to power the LED driver; and selecting a power source for charging the regulated output from two or more power sources comprising the primary side input current and a bleeder circuit that when activated generates a bleeder current in the dimmer switch, wherein the regulated output is charged by the selected power source. 10. The method of claim 9 , further comprising: selecting a power source of the two or more power sources dissipating a higher amount of energy to charge the regulated output. 11. The method of claim 9 , wherein the bleeder circuit comprises a current source and one or more switches, the method further comprising: controlling switching of the one or more switches to activate the current source to generate the bleeder current. 12. The method of claim 9 , further comprising: charging the regulated output by the bleeder current responsive to detecting the voltage of the regulated output is below a threshold voltage; and dissipating the bleeder current to a ground node of the LED lamp responsive to detecting the voltage of the regulated output is above the threshold voltage. 13. The method of claim 9 , further comprising: receiving a signal from the dimmer switch indicating an amount of current through the dimmer switch; and responsive to the current through the dimmer switch being below a threshold current, activating the bleeder circuit. 14. The method of claim 9 , wherein the LED lamp further comprises an inductor and a switch, wherein the inductor is coupled to an input of the LED lamp, the regulated output, and the one or more LEDs, wherein the switch is coupled to the inductor, energy stored in the inductor during on cycles of the switch and transferred to the one or more LEDs during off cycles of the switch, and wherein the method further comprises: selecting between the inductor and one or more other power sources for charging the regulated output.