Methods for welding with a power supply with output rectifier and phase shift double forward converter

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A method of providing welding type power comprising: receiving input power in a forward converter; switching the forward converter to provide a converter output current; rectifying the converter output current to provide at least a part of a welding type output current, wherein rectifying includes providing a first rectified current through a first rectified current path that includes a first cathode current path and a first anode current path, wherein when the first rectified current flows in the first cathode current path it creates a first cathode magnetic field, and wherein when the first rectified current flows in the first anode current path it creates a first anode magnetic field; and at least partially cancelling the first anode magnetic field with the first cathode magnetic field. 2. The method of claim 1 , wherein the first rectified current path is a freewheeling current path and wherein rectifying further includes providing a forward current through at least one forward current path, wherein the forward current path includes a forward cathode current path and a forward anode current path, wherein when the forward current flows in the forward cathode current path it creates a forward cathode magnetic field, and wherein when the forward current flows in the forward anode current path it creates a forward anode magnetic field at least partially cancelling the forward anode magnetic field with the forward cathode magnetic field. 3. The method of claim 2 , further comprising cancelling the first anode magnetic field with the first cathode magnetic field and cancelling the forward anode magnetic field with the forward cathode magnetic field. 4. The method of claim 3 , wherein providing the first rectified current through the first cathode current path includes providing the first rectified current at least partially through the forward cathode current path, and wherein providing the first rectified current through the first anode current path includes providing the first rectified current at least partially through the forward anode current path. 5. The method of claim 4 , wherein providing the forward current through the forward cathode current path includes providing the forward current at least partially through the first cathode current path, and wherein providing the forward current through the forward anode current path includes providing the forward current at least partially through the first anode current path. 6. The method of claim 5 , further comprising receiving the input power in a second forward converter; switching the second forward converter to provides a second converter output current; wherein the forward converter and the second forward converter are arranged as a phase staggered dual forward converter, and wherein switching the forward converter and switching the second forward converter includes switching to provide a combined phase staggered dual forward converter output current; rectifying the second converter output current to provide at least a second part of the welding type output current, wherein rectifying the second converter output current includes providing a second rectified current through a second rectified current path that includes a second freewheeling cathode current path and a second freewheeling anode current path, wherein when the second rectified current flows in the second freewheeling cathode current path it creates a second cathode magnetic field, and wherein when the second rectified current flows in the second freewheeling anode current path it creates a second anode magnetic field; at least partially cancelling the second freewheeling anode magnetic field with the second freewheeling cathode magnetic field; wherein rectifying the second converter output current further includes providing the second rectified current through a second forward cathode current path and a second forward anode current path, wherein when the second forward current flows in the second forward cathode current path it creates a second forward cathode magnetic field, and wherein when the second forward current flows in the second forward anode current path it creates a second forward anode magnetic field; at least partially cancelling the second forward anode magnetic field with the second forward cathode magnetic field; wherein the first anode current path, the forward anode current path, the second freewheeling anode current path, and the second forward anode current path are at least partially shared; and wherein the first cathode current path, the forward cathode current path, the second freewheeling cathode current path, and the second forward cathode current path are at least partially shared. 7. The method of claim 6 , wherein providing the first rectified current through the first cathode current path and the forward cathode current path includes providing the first rectified current through a first layer of at least one of a laminated bus and printed circuit board, and wherein providing the second rectified current through the second freewheeling cathode current path and the second forward cathode current path includes providing the first rectified current through the first layer of the at least one of a laminated bus and printed circuit board, and wherein providing the first rectified current through the first anode current path and the forward anode current path includes providing the first rectified current through a second layer of the at least one of a laminated bus and printed circuit board, and wherein providing the second rectified current through the second freewheeling anode current path and the second forward anode current path includes providing the second rectified current through the second layer of the at least one of a laminated bus and printed circuit board. 8. The method power supply of claim 7 , wherein providing the first rectified current through the forward cathode current path and providing the second rectified current through the second freewheeling cathode current path includes providing the first rectified current and the second rectified current through multiple collection points.