Welding power supply with controlled auxiliary power

The invention claimed is: 1. A welding system, comprising: a plurality of auxiliary power loads; a plurality of interconnection cables; a welding power supply unit for controlling the plurality of auxiliary power loads and adjusting power received by the plurality of auxiliary power loads, wherein the welding power supply unit comprises: an auxiliary power supply for generating controlled and regulated auxiliary output power configured to supply power to the plurality of auxiliary power loads, wherein the auxiliary power supply comprises a detection circuitry to measure at least a voltage from the auxiliary output power; a control circuitry for independent adjustment or stabilization of the power received at the plurality of auxiliary power loads; a bidirectional communication line coupled between the auxiliary power supply and the control circuitry to communicate at least the voltage measured by the detection circuitry to the control circuitry, wherein the plurality of interconnection cables connects the auxiliary power supply to the plurality of auxiliary power loads, the plurality of interconnection cables comprising: an integrated feedback communication line, an output communication line, and an integrated detection sensor for detecting or measuring an electrical parameter of the auxiliary output power received by one or more of the plurality of auxiliary power loads, the integrated detection sensor coupled between the one or more of the plurality of auxiliary power loads and the auxiliary power supply via the output or feedback communication lines, and wherein the control circuitry includes a main board comprising a processor connected to an operator interface including an input device and a memory for executing software instructions for routines, the processor communicating software instructions to the control circuitry configured to: compare the electrical parameter delivered from the auxiliary power supply based on a measurement of the electrical parameter from the detection circuitry to a parameter received by the one or more of the plurality of auxiliary power loads based on a measurement from the integrated detection sensor; determine parameters relating to the interconnect cable based on the comparison; and automatically adjust or stabilize the auxiliary output power delivered to one or more of the plurality of auxiliary power loads from the auxiliary power supply based on the comparison between the measurements of the detection circuitry and the integrated detection sensor to offset dissipated power or improve efficiency of a welding operation. 2. The system of claim 1 , wherein the control circuitry is configured to apply a correction factor to an output voltage supplied from the auxiliary power supply to the auxiliary power load based at least in part on the determined parameters relating to the interconnection cable. 3. The system of claim 1 , wherein the control circuitry is configured to operate in a mode wherein the control circuitry determines the parameters relating to the interconnection cable at predetermined time intervals. 4. The system of claim 1 , wherein the control circuitry is configured to operate in a mode wherein the control circuitry determines the parameters relating to the interconnection cable upon startup of the welding power supply unit, upon connection of the interconnection cable to the auxiliary power supply, upon activation of an input device on an operator interface of the welding power supply unit, or a combination thereof. 5. The system of claim 1 , wherein the control circuitry is configured to determine the parameters relating to the interconnection cable based at least in part on information input by an operator. 6. The system of claim 5 , wherein the information comprises a length of the interconnection cable, a type of the interconnection cable, a type of a welding process, or a combination thereof, input by the operator. 7. The system of claim 1 , wherein the control circuitry comprises software instructions for controlling an output voltage of the auxiliary power supply based on the determined parameters relating to the interconnection cable. 8. The system of claim 1 , wherein the control circuitry comprises circuitry for performing analog or digital adjustment of an output voltage of the auxiliary power supply based on the determined parameters relating to the interconnection cable. 9. The system of claim 1 , wherein the auxiliary power load comprises at least one of: a welding wire feeder, a welding remote control, or a user interface device. 10. A welding system, comprising: a plurality of auxiliary power loads; a plurality of interconnection cables; a welding power supply unit for controlling the plurality of auxiliary power loads and adjusting power received by the plurality of auxiliary power loads, wherein the welding power supply unit comprises: an auxiliary power supply for generating controlled and regulated auxiliary output power configured to supply power to the plurality of auxiliary power loads, wherein the auxiliary power supply comprises a detection circuitry to measure at least a voltage from the auxiliary output power; a control circuitry for independent adjustment or stabilization of the power received at the plurality of auxiliary power loads; a bidirectional communication line coupled between the auxiliary power supply and the control circuitry to communicate at least the voltage measured by the detection circuitry to the control circuitry, wherein the plurality of interconnection cables connects the auxiliary power supply to the plurality of auxiliary power loads, the plurality of interconnection cables comprising: an integrated feedback communication line, an output communication line, and an integrated detection sensor for detecting or measuring an electrical parameter of the auxiliary output power received by one or more of the plurality of auxiliary power loads, the integrated detection sensor coupled between the one or more of the plurality of auxiliary power loads and the auxiliary power supply via the output or feedback communication lines, and wherein the control circuitry includes a main board comprising a processor connected to an operator interface including an input device and a memory for executing software instructions for routines, the processor communicating software instructions to the control circuitry configured to: detect the voltage from the auxiliary output power delivered from the auxiliary power supply based on the measurement of the voltage from the detection circuitry; detect a received voltage by the one or more of the plurality of auxiliary power loads from the auxiliary power supply based on a measurement of the received voltage from the integrated detection sensor; compare the voltage from the auxiliary output power delivered from the auxiliary power supply based on the measurement of the voltage from the detection circuitry to the received voltage by the one or more of the plurality of auxiliary power loads based on the integrated detection sensor; and automatically apply a correction factor to an output voltage from the auxiliary power supply based on the comparison between the voltages measured by the detection circuitry and the integrated detection sensor to offset dissipated power or improve efficiency of a welding operation. 11. The system of claim 10 , wherein the correction factor to the output voltage from the auxiliary power supply is based at least in part on a calculation of a resistance in the interconnection cable between the detection circuitry and the integrated detection sensor. 12. The system of claim 10 , wherein the control