System and method for providing welding type power on multiple outputs

The invention claimed is: 1. A welding type system for providing welding type power, comprising: a process selection input; a welding type power circuit, including a shared power circuit that produces the welding type power, a first controllable switch having a first control input connected to receive the welding type power from the shared power circuit, and a second controllable switch having a second control input and connected to receive the welding type power from the shared power circuit; a shared output terminal connected to receive the welding type power from the shared power circuit; a first process output terminal, connected to the first controllable switch such that when the first controllable switch is closed the first process output terminal receives the welding type power from the shared power circuit and the welding type power is provided across the shared output terminal and the first process output terminal, and such that when the first controllable switch is open the first process output terminal does not receive the welding type power from the shared power circuit; a second process output terminal, connected to the second controllable switch such that when the second controllable switch is closed the second process output terminal receives the welding type power from the shared power circuit and the welding type power is provided across the shared output terminal and the second process output terminal, and such that when the second controllable switch is open the second process output terminal does not receive the welding type power from the shared power circuit; and a controller, connected to receive the process selection input, and having a process selection module responsive to the process selection input and having a first control output having an enable state and a disable state, wherein the first control output is connected to the first control input, and having a second control output having the enable state and the disable state, wherein the second control output is connected to the second control input, wherein no more than one process selection input; a welding type power circuit, including a shared power circuit that produces the welding type power, a first controllable switch having a first control input connected to receive the welding type power from the shared power circuit, and a second controllable switch having a second control input and connected to receive the welding type power from the shared power circuit; a shared output terminal connected to receive the welding type power from the shared power circuit; a first process output terminal, connected to the first controllable switch such that when the first controllable switch is closed the first process output terminal receives the welding type power from the shared power circuit and the welding type power is provided across the shared output terminal and the first process output terminal, and such that when the first controllable switch is open the first process output terminal does not receive the welding type power from the shared power circuit; a second process output terminal, connected to the second controllable switch such that when the second controllable switch is closed the second process output terminal receives the welding type power from the shared power circuit and the welding type power is provided across the shared output terminal and the second process output terminal, and such that when the second controllable switch is open the second process output terminal does not receive the welding type power from the shared power circuit; and a controller, connected to receive the process selection input, and having a process selection module responsive to the process selection input and having a first control output having an enable state and a disable state, wherein the first control output is connected to the first control input, and having a second control output having the enable state and the disable state, wherein the second control output is connected to the second control input, wherein no more than one of the first control output and the second control output can be in the enable state at any one time, wherein the process selection module includes a of the first control output and the second control output can be in the enable state at any one time. 2. The welding type system of claim 1 wherein the shared output terminal is a work terminal. 3. The welding type system of claim 2 , further comprising at least one of a work inductor connected between the shared output terminal and the shared power circuit, and a high frequency starting coil connected between the first process output terminal and the first controllable switch. 4. The welding type system of claim 2 wherein the first process output terminal is a push and twist style receptacle and the second process output terminal is connectable to a wire feeder, and wherein the first process output terminal provides at least one of a stick output and a tig output, and wherein the second process output terminal provides a MIG output, and wherein the process selection input is a user input for selecting at least one of at least MIG, tig and stick. 5. The welding type system of claim 2 wherein the first controllable switch and the second controllable switch are one of semiconductor devices, electro mechanical devices, and vacuum tubes. 6. The welding type system of claim 5 wherein the user input is at least one of a selection switch, a selection knob, buttons, a selection menu, a touch screen, and a selection program. 7. The welding type system of claim 2 wherein the process selection input is responsive to at least one of a signal indicative of a working connection being made to at least one of the first process output terminal and the second process output terminal, a trigger, a foot pedal, or a finger tip control. 8. The welding type system of claim 2 wherein the shared power circuit includes a preregulator having a boost circuit, an inverter, a transformer, and a rectifier, wherein an output of the boost circuit is connected to a boosted bus, and an input of the inverter is connected to the boosted bus, an output of the inverter is connected to an input of the transformer, and an output of the transformer is connected to an input of the rectifier, and an output of the rectifier is connected to the first controllable switch and the second controllable switch. 9. The welding type system of claim 1 , further comprising a polarity selection input, wherein: the first controllable switch and the second controllable switch are connected to receive a first polarity of the welding type power from the shared power circuit; the welding type power circuit further comprises a third controllable switch having a third control input and connected to receive a second polarity of the welding type power from the shared power circuit, and a fourth controllable switch having a fourth control input and connected to receive the second polarity of the welding type power from the shared power circuit; and the controller is further connected to receive the polarity selection input and the controller further includes a polarity selection module responsive to the polarity input, and further having a third control output responsive to the polarity selection module and having the enable state and the disable state, wherein the third control output is connected to the third control input, and having a fourth control output responsive to the polarity selection module and having the enable state and the disable state, wherein the fourth output is connected to the fourth control input, wherein no more than one of the third control output and the fourth control output can be in the enable state at any one time.