Welding system and method of welding

What is claimed is: 1. A power supply system for an electric arc welding process, said power supply system comprising: a first power supply module on a first frame, the first power supply module comprising: an input stage having an AC input and a first fixed DC output signal; a second stage in the form of an unregulated DC to DC converter, unregulated by a feedback signal from the electric arc welding process, having an input connected to said first fixed DC output signal, a network of switches switched at a high frequency with a given duty cycle to convert said input into a first internal AC signal, an isolation transformer with a primary winding driven by said first internal AC signal and a secondary winding for creating a second internal AC signal; and a smoothing choke and a rectifier to convert said second internal AC signal into a second fixed DC output signal of said second stage with a magnitude related to said duty cycle of said switches; and a second power supply module on a second frame that is separate from the first frame, the second power supply module comprising: a third stage comprising switching circuitry configured to convert said second fixed DC output signal to a welding output for welding in said process, wherein the second power supply module is operatively connected to receive at least one of a voltage feedback signal of the welding output and a current feedback signal of the welding output at the second frame that is separate from the first frame, and regulate the welding output based on the at least one of a voltage feedback signal of the welding output and a current feedback signal of the welding output. 2. The power supply system of claim 1 , wherein the second power supply module is located in a wire feeder housing remote from the first power supply module. 3. The power supply system of claim 1 , wherein said input stage includes a rectifier and a power factor correcting converter. 4. The power supply system of claim 1 , wherein said third stage includes a chopper with a power switch operated at a given frequency. 5. The power supply system of claim 4 , wherein said chopper is a dual mode chopper with a first polarity path with a first power switch and a first polarity switch and a second polarity path with a second power switch and a second polarity switch, wherein the first polarity path and the second polarity path are opposite polarity paths between an electrode and a workpiece, and the dual mode chopper is selectively operable in any one of an AC mode, a DC positive mode, and a DC negative mode. 6. The power supply system of claim 5 , including a controller within said second power supply module with a first mode alternately operating said chopper between first and second polarity paths and a second mode operating said chopper in only one of said polarity paths. 7. The power supply system of claim 1 , wherein said third stage includes a circuit, located at the second frame, with a power switch to perform an STT welding process. 8. A power supply system for an electric arc welding process, said power supply system comprising: a first power supply module including: an input stage having an AC input and a first fixed DC output signal; a second stage in the form of an unregulated DC to DC converter, unregulated by a feedback signal from the electric arc welding process, having an input connected to said first fixed DC output signal, a network of switches switched at a high frequency with a given duty cycle to convert said input into a first internal high frequency AC signal, an isolation transformer with a primary winding driven by said first internal high frequency AC signal and a secondary winding for creating a second internal high frequency AC signal; and a smoothing choke and a rectifier to convert said second internal high frequency AC signal into a second fixed DC output signal of said second stage, said second stage having a fixed relationship between input and output voltages of the second stage; and a second power supply module on a dedicated support structure separate from the first power supply module, wherein the second power supply module comprises: a third stage comprising switching circuitry configured to convert said second fixed DC output signal to a welding output for welding in said process, wherein the second power supply module is operatively connected to receive at least one of a voltage feedback signal of the welding output and a current feedback signal of the welding output, and regulate the welding output based on the at least one of a voltage feedback signal of the welding output and a current feedback signal of the welding output. 9. The power supply system of claim 8 , wherein the second power supply module is located in a wire feeder housing remote from the first power supply module. 10. The power supply system of claim 8 , wherein said third stage includes a rectifier and a power factor correcting converter. 11. The power supply system of claim 8 , wherein said third stage includes a chopper with a power switch operated at a given frequency. 12. The power supply system of claim 11 , wherein said chopper is a dual mode chopper with a first polarity path with a first power switch and a first polarity switch and a second polarity path with a second power switch and a second polarity switch, wherein the first polarity path and the second polarity path are opposite polarity paths between an electrode and a workpiece, and the dual mode chopper is selectively operable in any one of an AC mode, a DC positive mode, and a DC negative mode. 13. The power supply system of claim 12 , including a controller within said second power supply module with a first mode alternately operating said chopper between first and second polarity paths and a second mode operating said chopper in only one of said polarity paths. 14. The power supply system of claim 8 , wherein said power conversion module includes a circuit with a power switch to perform an STT welding process. 15. The power supply system of claim 8 , wherein said given duty cycle is adjustable. 16. The power supply system of claim 8 , wherein said input stage has a power factor correcting converter which is a buck+boost converter.