Electrical power generation for header systems from a combine backshaft

What is claimed is: 1. An electrical power system for a header of a combine harvester, the header including a working element and a header backshaft, wherein the header backshaft is mechanically coupleable to a drive mechanism of the combine harvester to cause rotation of the header backshaft, wherein the header backshaft is further mechanically coupled to the working element of the header, and wherein rotation of the header backshaft drives operation of the working element of the header, the electrical power system comprising: an alternator mounted to the header and mechanically coupled to the header backshaft, wherein the alternator is configured to convert rotation of the header backshaft into electrical power; and a power supply circuit mounted to the header and configured to transfer the electrical power from the alternator to one or more electric devices mounted on the header. 2. The electrical power system of claim 1 , wherein the power supply circuit includes an inverter configured to convert AC power from the alternator to DC power that is provided to the one or more electric devices mounted on the header. 3. The electrical power system of claim 1 , further comprising a battery mounted to the header, and wherein the power supply circuit is configured to charge the battery by transferring electrical power from the alternator to the battery and to smooth electrical power provided to the one or more electric devices by controllably supplementing electrical power from the alternator with stored electrical power from the battery. 4. The electrical power system of claim 1 , further comprising a plurality of LED lamps mounted on the header, and wherein the power supply circuit is configured to transfer electrical power from the alternator to the one or more electric devices by transferring electrical power to each LED lamp of the plurality of LED lamps. 5. The electrical power system of claim 1 , further comprising a header controller mounted on the header and coupled to the alternator to receive electrical power from the alternator, wherein the header controller is configured to control the operation of at least one electric device of the one or more electric devices. 6. The electrical power system of claim 1 , wherein the alternator includes a dual-voltage alternator system, and wherein the power supply circuit is configured to provide electrical power to a first electric device at a first voltage and to provide electrical power to a second electric device at a second voltage. 7. The electrical power system of claim 6 , wherein the first voltage is greater than the second voltage, wherein the first electric device is a high-powered electric device, and wherein the second electric device is a low-powered electric device. 8. The electrical power system of claim 7 , wherein the first electric device includes an electric motor. 9. The electrical power system of claim 8 , wherein the electric motor is configured to cause rotation of a rotating drum of the header. 10. The electrical power system of claim 8 , wherein the electric motor is configured to adjust a height of the header relative to the combine. 11. The electrical power system of claim 7 , wherein the second electric device includes a lamp mounted on the header. 12. A method of providing power to an electric device mounted on a header of a combine harvester, the method comprising: rotating a header backshaft, the header backshaft being mechanically coupled to a drive mechanism of the combine harvester to cause rotation of the header backshaft and being mechanically coupled to a working element of the header, wherein rotation of the header backshaft drives operation of the working element of the header; generating electrical power by an alternator positioned on the header and mechanically coupled to the header backshaft, wherein rotation of the header backshaft is converted to electrical power by the alternator; and transferring the electrical power from the alternator to one or more electric devices mounted on the header using a power supply circuit. 13. The method of claim 12 , further comprising converting AC power from the alternator to DC power that is provided to the one or more electric device mounted on the header using an inverter of the power supply circuit. 14. The method of claim 12 , further comprising: charging a battery positioned on the header by transferring electrical power from the alternator to the batter; and smoothing the electrical power provided to the one or more electrical devices by controllably supplementing electrical power form the alternator with stored electrical power from the battery using the power supply circuit. 15. The method of claim 12 , wherein transferring the electrical power from the alternator to the one or more electric devices includes transferring the electrical power from the alternator to a plurality of LED lamps mounted on the header. 16. The method of claim 12 , wherein generating electrical power by the alternator positioned on the header and mechanically coupled to the header backshaft includes generating electrical power at a first voltage and generating electrical power at a second voltage, the first voltage being greater than the second voltage. 17. The method of claim 16 , wherein transferring electrical power from the alternator to the one or more electric devices includes: transferring the electrical power at the first voltage to a high-powered electric device; and simultaneously transferring the electrical power at the second voltage to a low-powered electric device. 18. The method of claim 17 , wherein the first electric device includes an electric motor coupled to a rotating drum of the header, the method further comprising: operating the electric motor using the electrical power from the alternator at the first voltage to control rotation of the rotating drum of the header. 19. The method of claim 17 , wherein the first electric device includes an electric motor configured to adjust a height of the header relative to the combine harvester, the method further comprising: operating the electric motor using the electrical power from the alternator at the first voltage to adjust the height of the header. 20. The method of claim 17 , wherein the second electric device includes a plurality of LED lamps, the method further comprising: controllably operating the plurality of LED lamps using the electrical power from the alternator at the second voltage.