Automotive power supply, upfitter module architectures, and user defined load shedding related to same

What is claimed is: 1. A power system of a vehicle comprising: one or more controllers programmed to receive input of a user defining a priority order of upfitter loads and, responsive to a magnitude of current associated with power from the vehicle being supplied to the upfitter loads approaching a predefined threshold, sequentially discontinue supply of the power to the upfitter loads of lowest priority among the priority order of the upfitter loads such that the magnitude remains less than the predefined threshold. 2. The power system of claim 1 , wherein the one or more controllers are further programmed to receive input of the user defining a priority order of vehicle loads and, responsive to the magnitude approaching the predefined threshold, sequentially discontinue supply of power to the vehicle loads of lowest priority among the priority order of the vehicle loads such that the magnitude remains less than the predefined threshold. 3. The power system of claim 2 , wherein some of the vehicle loads have a priority order lower than some of the upfitter loads. 4. The power system of claim 1 , wherein the one or more controllers are further programmed to generate an alert responsive to the magnitude approaching the predefined threshold. 5. The power system of claim 4 , wherein the one or more controllers are further programmed to forward the alert to a display screen or phone. 6. The power system of claim 1 further comprising an upfitter module, wherein the one or more controllers are in communication with the upfitter module. 7. The power system of claim 6 further comprising a power distribution center, wherein the upfitter module is connected to an output of the power distribution center and componentry of the output defines the predefined threshold. 8. The power system of claim 7 , wherein the componentry is a field effect transistor. 9. A method comprising: responsive to a magnitude of current associated with power from a vehicle being supplied to upfitter loads approaching a predefined threshold, discontinuing supply of power to vehicle loads according to a user defined priority order of the vehicle loads such that the vehicle loads of lowest priority among the priority order of the vehicle loads are sequentially shed to maintain the magnitude less than the predefined threshold. 10. The method of claim 9 further comprising, responsive to the magnitude approaching the predefined threshold, discontinuing supply of the power to the upfitter loads according to a user defined priority order of the upfitter loads such that the upfitter loads of lowest priority among the priority order of the upfitter loads are sequentially shed to maintain the magnitude less than the predefined threshold. 11. The method of claim 10 , wherein some of the vehicle loads have a priority order lower than some of the upfitter loads. 12. The method of claim 9 further comprising generating an alert responsive to the magnitude approaching the predefined threshold. 13. The method of claim 12 further comprising forwarding the alert to a display screen or phone. 14. The method of claim 9 , wherein the predefined threshold is defined by a rating of a field effect transistor of a power output connected with the upfitter loads. 15. A vehicle comprising: a power distribution center including an output; an upfitter module connected to the output; and one or more controllers programmed to, responsive to a magnitude of current associated with power from the vehicle supplied to upfitter loads, that are connected with the power distribution center via the upfitter module, approaching a predefined threshold, discontinue supply of the power to the upfitter loads according to a user defined priority order of the upfitter loads such that the upfitter loads of lowest priority among the priority order of the upfitter loads are sequentially shed to prevent the magnitude from exceeding the predefined threshold. 16. The vehicle of claim 15 , wherein the one or more controllers are further programmed to, responsive to the magnitude approaching the predefined threshold, discontinue supply of power to vehicle loads according to a user defined priority order of the vehicle loads such that the vehicle loads of lowest priority among the priority order of the vehicle loads are sequentially shed to prevent the magnitude from exceeding the predefined threshold. 17. The vehicle of claim 16 , wherein some of the vehicle loads have a priority order lower than some of the upfitter loads. 18. The vehicle of claim 15 , wherein the one or more controllers are further programmed to generate an alert responsive to the magnitude approaching the predefined threshold. 19. The vehicle of claim 18 , wherein the one or more controllers are further programmed to forward the alert to a display screen or phone. 20. The vehicle of claim 15 , wherein the power output includes a field effect transistor having a rating that defines the predefined threshold.