Solid-state lighting apparatus and methods using switched energy storage

What is claimed is: 1. An apparatus comprising: at least one LED; at least one charge storage device; and a switching circuit configured to route current through the at least one LED to the at least one charge storage device for a first state of an applied voltage and to discharge the at least one charge storage device via the at least one LED for a second state of the applied voltage, wherein the switching circuit comprises: a first switch coupled between a first terminal of the at least one LED and a first terminal of the at least one charge storage device; and a second switch coupled between a second terminal of the at least one LED and the first terminal of the at least on charge storage device. 2. The apparatus of claim 1 , further comprising a current control circuit coupled in series with the at least one LED. 3. The apparatus of claim 2 , wherein the current control circuit is configured to limit a current through the at least one LED for a third state of the applied voltage. 4. The apparatus of claim 3 , wherein a first terminal of the at least one LED is configured to receive the applied voltage, wherein a second terminal of the at least one LED is coupled to the current control circuit and wherein the switching circuit is configured to selectively conduct current to the at least one charge storage device from the second terminal of the at least one LED responsive to the applied voltage. 5. The apparatus of claim 2 , wherein the current control circuit comprises a current mirror circuit. 6. The apparatus of claim 1 , wherein the applied voltage comprises a periodically varying voltage and wherein a current through the at least one LED has a frequency twice a frequency of the applied voltage. 7. The apparatus of claim 1 , wherein the first switch comprises a first diode coupled between a first terminal of the at least one LED and a first terminal of the at least one charge storage device and wherein the second switch comprises a second diode coupled between a second terminal of the at least one LED and the first terminal of the at least on charge storage device. 8. The apparatus of claim 1 , wherein the switching circuit is configured to couple the at least one LED and the at least one charge storage device in series responsive to the first state of the applied voltage and to couple the at least one LED and the at least one charge storage device in parallel responsive to the second state of the applied voltage. 9. The apparatus of claim 1 , further comprising a string of LEDs coupled in series with the at least one LED. 10. The apparatus of claim 9 , further comprising bypass circuitry configured to selectively bypass LEDs in the string responsive to the applied voltage. 11. An apparatus comprising: at least one LED; at least one charge storage device; and a switching circuit configured to route current through the at least one LED to the at least one charge storage device for a first state of an applied voltage and to discharge the at least one charge storage device via the at least one LED for a second state of the applied voltage, wherein the switching circuit comprises: a first diode coupled between a first terminal of the at least one LED and a first terminal of the at least one charge storage device; and a second diode coupled between a second terminal of the at least one LED and the first terminal of the at least on charge storage device. 12. An apparatus comprising: a plurality of lighting circuits coupled each lighting circuit comprising: at least one LED; at least one charge storage device; and a switching circuit configured to route current through the least one LED to the at least one charge storage device for a first state of an applied voltage and to discharge the at least one charge storage device via the at least one LED for a second state of the applied voltage, wherein the switching circuit comprises: a first diode coupled between a first terminal of the at least one LED and a first terminal of the at least one charge storage device; and a second diode coupled between a second terminal of the at least one LED and the first terminal of the at least on charge storage device. 13. The apparatus of claim 12 , wherein each of the lighting circuits further comprises a current control circuit coupled in series with the at least one LED. 14. The apparatus of claim 13 , wherein the current control circuit is configured to limit a current through the at least one LED for a third state of the applied voltage. 15. An apparatus comprising: at least one LED; at least one charge storage device; a first switch coupled between a first terminal of the at least one LED and a first terminal of the at least one charge storage device; and a second switch coupled between a second terminal of the at least one LED and the first terminal of the at least one charge storage device, wherein the first and second switches are configured to route current through the least one LED to the at least one charge storage device for a first state of a voltage applied to the first terminal of the at least one LED and to discharge the at least one charge storage device via the at least one LED for a second state of the applied voltage. 16. The apparatus of claim 15 , wherein the first and second switches comprise respective first and second diodes. 17. The apparatus of claim 15 , further comprising a current control circuit coupled to the second terminal of the at least one LED. 18. The apparatus of claim 15 , further comprising a string of LEDs coupled in series with the at least one LED. 19. The apparatus of claim 18 , further comprising bypass circuitry configured to selectively bypass LEDs in the string responsive to the applied voltage. 20. A controller for a lighting apparatus comprising at least one LED, the controller comprising: a switching circuit configured to route current through the at least one LED to at least one charge storage device for a first state of an applied voltage and to discharge the at least one charge storage device via the at least one LED for a second state of the applied voltage, wherein the switching circuit comprises: a first switch configured to be coupled between a first terminal of the at least one LED and a first terminal of the at least one charge storage device; and a second switch configured to be coupled between a second terminal of the at least one LED and the first terminal of the at least one charge storage device. 21. The controller of claim 20 , wherein the first and second switches comprise respective first and second diodes. 22. The controller of claim 20 , further comprising a current control circuit configured to be coupled in series with the at least one LED. 23. The controller of claim 20 , further comprising the at least one charge storage device.