Electrical drilling and production systems and methods

The invention claimed is: 1. A drilling system, comprising: a rig; and a subsea wellhead assembly configured to perform a plurality of drilling functions; wherein the subsea wellhead assembly comprises: a wellhead; a blowout preventer stack; and a lower marine riser package (LMRP), wherein an electrical power supply on the rig is connected to the subsea wellhead assembly via an electrical cable, which provides electric power from the rig to the subsea wellhead assembly, wherein the plurality of drilling functions of the subsea wellhead assembly is effected electrically and without supply of hydraulic fluid from the rig and using the electric power supplied from the rig via the electric cable as each of the plurality of drilling functions is performed, wherein the electrical power supplied from the rig is bifurcated at the subsea wellhead assembly, wherein the subsea wellhead assembly includes at least one remote operating vehicle (ROV) charging port configured to receive power from a ROV for charging a subsea power supply for the blowout preventer stack, and wherein at least one drilling function of the plurality of drilling functions is electrically actuating a blowout preventer component of the blowout preventer stack. 2. The drilling system of claim 1 , wherein the rig is not connected to the subsea wellhead assembly so as to supply the hydraulic fluid to the subsea wellhead assembly. 3. The drilling system of claim 1 , wherein the plurality of drilling functions comprises actuating a valve or a connector of the blowout preventer stack of the subsea wellhead assembly. 4. The drilling system of claim 1 , wherein the plurality of drilling functions comprises actuating a shear ram blowout preventer component to shear a drillpipe. 5. A drilling system, comprising: a rig; a subsea wellhead assembly configured to perform multiple drilling functions, wherein the subsea wellhead assembly comprises: a wellhead; a blowout preventer stack; and a lower marine riser package (LMRP), the blowout preventer stack having electrically actuated blowout preventers, wherein the rig is coupled to the subsea wellhead assembly but is not connected so as to provide hydraulic control fluid from the rig to the subsea wellhead assembly to enable the multiple drilling functions, wherein an electrical power supply on the rig is connected to the subsea wellhead assembly via an electrical cable, which provides power from the rig to the subsea wellhead assembly, wherein the subsea wellhead assembly includes at least one remote operating vehicle (ROV) charging port configured to receive power from a ROV for charging a subsea power supply for the blowout preventer stack, and wherein electrical power supplied from the rig is converted to a plurality of different voltages by circuitry of the subsea wellhead assembly. 6. The drilling system of claim 5 , wherein the electrical cable also carries data communication between the subsea wellhead assembly and the rig. 7. The drilling system of claim 5 , wherein the blowout preventer stack is a lower blowout preventer stack configured to perform a first subset of the multiple drilling functions, and wherein the LMRP is configured to perform a second subset of the multiple drilling functions. 8. The drilling system of claim 7 , wherein the lower blowout preventer stack is configured to perform each drilling function of the first subset of the multiple drilling functions without the hydraulic control fluid. 9. The drilling system of claim 7 , wherein the LMRP is configured to perform each drilling function of the second subset of the multiple drilling functions without the hydraulic control fluid. 10. The drilling system of claim 5 , wherein none of the drilling functions performed by the subsea wellhead assembly are effected with hydraulic control fluid. 11. A method of operating a subsea wellhead assembly the method comprising: receiving command signals from a rig at a controller of the subsea wellhead assembly; supplying electrical power from a power supply on the rig to the subsea wellhead assembly via an electrical cable; and bifurcating the electrical power supplied from the rig at the subsea wellhead assembly; effecting, via the controller, drilling functions of the subsea wellhead assembly; wherein the subsea wellhead assembly is an all-electric subsea wellhead assembly configured to operate without hydraulic control fluid and effecting the drilling functions of the subsea wellhead assembly includes electrically effecting the drilling functions without use of the hydraulic control fluid from the rig and using the electrical power supplied from the rig via the electric cable as the drilling functions are performed, wherein the subsea wellhead assembly comprises: a wellhead; a blowout preventer stack; and a lower marine riser package (LMRP), wherein receiving the command signals from the rig at the controller of the subsea wellhead assembly comprises receiving the command signals at a lower blowout preventer stack controller, wherein the subsea wellhead assembly includes at least one remote operating vehicle (ROV) charging port configured to receive power from a ROV for charging a subsea power supply for the blowout preventer stack, and wherein the electrical power supplied from the rig is bifurcated at the subsea wellhead assembly. 12. The method of claim 11 , wherein electrically effecting the drilling functions without use of the hydraulic control fluid includes issuing control signals from the controller to switching circuitry to direct power to electric actuators of the subsea wellhead assembly to effect the drilling functions. 13. The method of claim 11 , wherein receiving the command signals from the rig at the controller of the subsea wellhead assembly further comprises receiving the command signals at the LMRP. 14. The method of claim 11 , further comprising wirelessly communicating the command signals from the rig to the subsea wellhead assembly, and communicating the command signals over a cabled connection from the rig to the subsea wellhead assembly.