Motor controller electronics arrangements with actively cooled feeder cables

What is claimed is: 1. An electronics assembly, including, a motor controller electronics arrangement, comprising: a housing enclosing a solid-state switch array; a cold plate arranged within the housing and in thermal communication with the solid-state switch array; a feeder cable electrically connected to the solid-state switch array; and a coolant jacket extending about the feeder cable and separated from the switch arrangement by the housing, wherein the feeder cable is in liquid communication with the cold plate to limit communication of heat from the feeder cable to an interior of the housing. 2. The electronics assembly of claim 1 , further comprising a coolant supply conduit fluidly coupling the coolant jacket to the cold plate. 3. The electronics assembly of claim 1 , further comprising a coolant return conduit fluidly coupling the coolant jacket to the cold plate. 4. The electronics assembly of claim 1 , further comprising a liquid coolant circulating between the coolant jacket and the cold plate. 5. The electronics assembly of claim 1 , wherein the feeder cable comprises: an electric motor portion; a motor controller portion connected to the electric motor portion; and an intermediate portion connected the motor controller portion to the electric motor portion, wherein the electric motor portion of the feeder cable is spaced apart from the motor controller portion of the feeder cable by the intermediate portion of the feeder cable. 6. The electronics assembly of claim 1 , wherein the coolant jacket is spaced apart from the housing. 7. The electronics assembly of claim 1 , wherein the coolant jacket has a coolant inlet and a coolant outlet, and wherein the coolant inlet separates the coolant outlet from the housing along the feeder cable. 8. The electronics assembly of claim 7 , further comprising a coolant supply conduit fluidly coupling the coolant inlet to the cold plate. 9. The electronics assembly of claim 7 , further comprising a coolant return conduit fluidly coupling the coolant outlet to the cold plate. 10. The electronics assembly of claim 7 , further comprising a liquid coolant traversing the coolant jacket and in thermal communication with the feeder cable through the coolant jacket. 11. The electronics assembly of claim 1 , further comprising a source terminal electrically connected to the feeder cable by the switch arrangement. 12. The electronics assembly of claim 1 , further comprising: a pump fluidly coupling the cold plate to the coolant jacket; and a heat exchanger fluidly coupling the coolant jacket to the cold plate. 13. The electronics assembly of claim 1 , further comprising an electric motor electrically connected to the switch arrangement by the feeder cable. 14. The electronics assembly of claim 1 , wherein the feeder cable is an A-phase feeder cable, wherein the coolant jacket is an A-phase coolant jacket, and further comprising: a B-phase feeder cable electrically connected to the solid-state switch array; and a B-phase coolant jacket extending about the B-phase feeder cable, wherein the B-phase coolant jacket is separated from the solid-state switch array by the housing and is in liquid communication with the cold plate. 15. An electrical system, comprising: an electric motor; the electronics assembly as recited in claim 1 , wherein the feeder cable is electrically connected to the electric motor; and a power source electrically connected to the feeder cable by the solid-state switch array. 16. The electrical system of claim 15 , wherein the electronics assembly further comprises: a coolant supply conduit fluidly coupling the coolant jacket to the cold plate; a coolant return conduit fluidly coupling the coolant jacket to the cold plate; and a liquid coolant circulating between the coolant jacket and the cold plate. 17. The electrical system of claim 15 , wherein the coolant jacket has a coolant inlet and a coolant outlet, and wherein the coolant inlet separates the coolant outlet from the housing along the feeder cable, the motor controller electronics arrangement further comprising: a pump fluidly coupling the cold plate to the coolant jacket; and a heat exchanger fluidly coupling the coolant jacket to the cold plate. 18. A method of cooling a feeder cable, comprising: at a housing enclosing a solid-state switch array, a cold plate arranged within the housing and in thermal communication with the solid-state switch array, and a feeder cable electrically connected to the solid-state switch array and having a coolant jacket extending thereabout that is separated from the solid-state switch array by the housing and in liquid communication with the cold plate, generating heat with supply power flowing through the feeder cable; flowing liquid coolant to the coolant jacket from the cold plate; communicating heat from the feeder cable to the liquid coolant as the liquid coolant traverses the coolant jacket; and returning the liquid coolant to the cold plate. 19. The method of claim 18 , further comprising actively circulating the liquid coolant through the coolant jacket and along the feeder cable using a pump fluidly coupling the coolant jacket to the cold plate. 20. The method of claim 18 , wherein the feeder cable has a proximal portion and a distal portion, the proximal portion connecting the distal portion to the housing, the method further comprising flowing the liquid coolant outward from the housing to maintain the proximal portion at lower temperature than the distal portion of the feeder cable.