AC light emitting diode and AC LED drive methods and apparatus

What is claimed is: 1. A lighting system comprising: an LED circuit having at least one LED; a bridge rectifier; at least one capacitor; a driver connected to the bridge rectifier; the driver, bridge rectifier, at least one capacitor and at least one LED circuit all mounted on a reflective substrate, the driver providing rectified AC voltage and current to the LED circuit, the driver having an input of a first rectified AC voltage and a first frequency from a mains power source. 2. The lighting system of claim 1 having a voltage regulator with feedback voltage regulator circuitry. 3. The lighting system of claim 1 , wherein the driver further includes power factor correction circuitry. 4. The lighting system of claim 1 , wherein the substrate is a heat sinking material. 5. A lighting system comprising: an LED circuit having at least one LED; a bridge rectifier; at least one capacitor; a driver; the driver, bridge rectifier, at least one capacitor and LED circuit all being mounted on a reflective substrate; the driver having an input of a first rectified AC voltage and current from the bridge rectifier and the driver providing a second rectified AC voltage and current to the LED circuit, the at least one capacitor connected to the at least one LED and smoothing the rectified AC voltage waveform. 6. The lighting system of claim 5 having a voltage regulator with feedback voltage regulator circuitry. 7. The lighting system of claim 5 , wherein the driver further includes power factor correction circuitry. 8. The lighting system of claim 5 , wherein the substrate is a heat sinking material. 9. The lighting system of claims 5 having a dimmer coupled to the driver. 10. A lighting system comprising: an LED circuit having at least one LED mounted on a reflective substrate; a driver having a bridge rectifier; the driver having an input of a first AC voltage and a first frequency and a high frequency inverter stage output of a second AC voltage and a second frequency, wherein the second frequency is a relatively higher frequency, and the second AC voltage at the second frequency is provided the bridge rectifier and the bridge rectifier provides DC voltage and DC current to the LED circuit; further wherein the driver includes a voltage regulator which regulates the provided DC voltage and DC current to the LED circuit at a relatively constant level so long as the total output wattage of the driver is not exceeded. 11. The lighting system of claim 10 having a dimmer coupled to the driver, wherein the dimmer includes integrated circuitry that allows for control of the amount of the DC voltage and DC current to the LED circuit. 12. The lighting system of claim 10 wherein the relatively fixed constant level of the DC voltage is 12V or more. 13. The lighting system of claim 10 , wherein the driver further includes power factor correction circuitry. 14. The lighting system of claim 10 , wherein the bridge rectifier and the LED circuit are packaged together on a single substrate. 15. The lighting system of claim 10 , wherein the substrate includes is a heat sink material. 16. A lighting system comprising: an LED circuit having at least one LED; a bridge rectifier; a driver including the bridge rectifier; the driver having an input of a first AC voltage and a first frequency and an output of a pulsed DC voltage rectified at a pulsed second frequency, wherein the second frequency is a relatively higher frequency, and the pulsed DC voltage is provided to the LED circuit; further wherein the driver includes a voltage regulator which regulates the pulsed DC voltage and current when one or more LED circuits are added to or subtracted from the lighting system. 17. The lighting system of claim 16 , wherein the voltage regulator is feedback voltage regulator circuitry. 18. The lighting system of claim 16 , wherein the driver further includes power factor correction circuitry. 19. The lighting system of claim 16 , wherein the bridge rectifier and the LED circuit are packaged together on a single substrate. 20. The lighting system of claim 16 , wherein the substrate includes a heat sink material. 21. The lighting system of claims 16 having a dimmer coupled to the driver, wherein the dimmer includes integrated circuitry that allows for adjustability of the level of the pulsed voltage and/or current. 22. A lighting system comprising: at least one LED circuit having at least two LEDs connected together in series and mounted on a reflective substrate, the at least one LED circuit being capable of emitting light during both a positive phase and a negative phase of an AC power supply; a driver connected to the at least one LED circuit, the driver providing AC voltage and current to the at least one LED circuit, the driver having an input of a first AC voltage and a first frequency and an output of a second AC voltage and a second frequency, wherein the second AC voltage is a relatively fixed voltage and the second frequency is a relatively higher frequency than the first frequency when connected to the at least one LED circuit; the driver being capable of sensing changes to the load when connected to the at least one LED circuit, and the driver being capable of adjusting the frequency and/or AC voltage output of the driver to a desired relatively fixed value in response to changes to the load, wherein the driver and the at least one LED circuit form a driven circuit and the driver and the at least one LED circuit being configured such that one or more additional LED circuits can be added to or subtracted from the driven circuit without significantly affecting a pre-determined desired output range of light from any pre-existing or remaining LED circuit so long as the total wattage output of the driver is not exceeded. 23. A lighting system comprising: at least one LED circuit having at least two LEDs connected together in series and mounted on a reflective substrate, the at least one LED circuit being capable of emitting light during both a positive phase and a negative phase of a rectified AC power supply; a driver connected to the at least one LED circuit, the driver providing rectified constant voltage and/or current to the at least one LED circuit, the driver having an input of a first AC voltage and a first frequency from mains power and a high frequency inverter stage output of a second AC voltage and a second frequency which is relatively higher than the first frequency, wherein the second AC voltage is rectified into a relatively fixed DC voltage; the driver being capable of sensing changes to the load when connected to the at least one LED circuit, and the driver being capable of adjusting the frequency and/or voltage output of the driver to a desired relatively fixed value in response to changes to the load, wherein the driver and the at least one LED circuit form a driven circuit and the driver and the at least one LED circuit being configured such that one or more additional LED circuits can be added to or subtracted from the driven circuit so long as the total wattage output of the driver is not exceeded. 24. A lighting system comprising: at least one LED circuit having at least two LEDs connected together in series and mounted on a reflective substrate; at least one bridge rectifier; a driver connected to the least one bridge rectifier, the driver providing AC voltage and AC current to the at least one bridge re