Control of an electrical power system responsive to sensing a ground fault

What is claimed is: 1. An electrical power system comprising: a differential bus; a power converter coupled to the differential bus; and a controller configured to: control the power converter based on a first target value for the differential bus at least in part by controlling a differential voltage on the differential bus based on the first target value; sense that a ground fault has occurred in the electrical power system while controlling the power converter based on the first target value; and responsive to sensing that the ground fault has occurred, control the power converter based on a second target value for the differential bus at least in part by controlling a single-ended voltage of the differential bus based on the second target value, the second target value being different than the first target value. 2. The electrical power system of claim 1 , further comprising an electric generator, wherein the controller is further configured to: control a terminal voltage of the electric generator based on a third target value for the terminal voltage; and responsive to sensing that the ground fault has occurred, control the terminal voltage of the electric generator to a fourth target value for the terminal voltage, the fourth target value being different than the third target value. 3. The electrical power system of claim 1 , wherein the controller is configured to sense that the ground fault has occurred at least in part by sensing that the ground fault has occurred on the differential bus. 4. The electrical power system of claim 1 , wherein the power converter circuit comprises a three-level power converter coupled to the differential bus, the three-level power converter circuit including a positive rail of the differential bus, a negative rail of the differential bus, and a ground rail, and wherein the controller is configured to control the three-level power converter at least in part by controlling a difference between a voltage level on the positive rail and a voltage level on the ground rail. 5. The electrical power system of claim 4 , wherein controller is configured to control the three-level power converter to achieve a first single-ended voltage target for the difference between the positive rail and the ground rail, and wherein controller is configured to control the three-level power converter to achieve a second single-ended voltage target for a difference between the negative rail and the ground rail. 6. The electrical power system of claim 1 , further comprising a set of multiphase lines coupled to the power converter, wherein the controller is configured to sense that the ground fault has occurred at least in part by sensing that the ground fault has occurred on the set of multiphase lines. 7. The electrical power system of claim 1 , wherein the controller is a first controller, and wherein the power converter is a first power converter, the electrical power system further comprising: a second power converter coupled to the differential bus; and a second controller configured to control the second power converter based on the first target value for the differential bus, wherein the first controller is further configured to, responsive to sensing that the ground fault has occurred, communicate an alert signal to the second controller, and wherein the second controller is further configured to, responsive to receiving the alert signal from the first controller, control the second power converter based on the second target value. 8. The electrical power system of claim 1 , wherein the controller is configured to control the power converter based on the first target value at least in part by controlling the power converter based on a first power limit for the differential bus, and wherein the controller is configured to control the power converter based on the second target value at least in part by controlling the differential bus based on a second power limit, the second power limit being different than the first power limit. 9. The electrical power system of claim 1 , wherein the second target value is less than the first target value. 10. The electrical power system of claim 1 , wherein the controller is configured to monitor the single-ended voltage by at least monitoring: a difference between a positive rail of the differential bus and a ground rail; or a difference between a negative rail of the differential bus and the ground rail. 11. The electrical power system of claim 1 , wherein the power converter circuit comprises a three-level power converter coupled to the differential bus, the three-level power converter circuit including a positive rail of the differential bus, a negative rail of the differential bus, and a ground rail, and wherein the controller is configured to control the three-level power converter at least in part by controlling a difference between a voltage level on the negative rail and a voltage level on the ground rail. 12. A method for controlling an electrical power system, the method comprising: controlling, by a controller of the electrical power system, a power converter of the electrical power system based on a first target value for a differential bus of the electrical power system at least in part by controlling a differential voltage on the differential bus based on the first target value, the differential bus being coupled to the power converter; sensing, by the controller, that a ground fault has occurred in the electrical power system while controlling the power converter based on the first target value; and responsive to sensing that the ground fault has occurred, controlling, by the controller, the power converter based on a second target value for the differential bus at least in part by controlling a single-ended voltage of the differential bus based on the second target value, the second target value being different than the first target value. 13. The method of claim 12 , wherein the power converter comprises a three-level power converter coupled to the differential bus, the three-level power converter including a positive rail of the differential bus, a negative rail of the differential bus, and a ground rail, and wherein controlling the three-level power converter comprises controlling a difference between a voltage level on the positive rail and a voltage level on the ground rail. 14. The method of claim 12 , further comprising: controlling a terminal voltage of an electric generator of the electrical power system based on a third target value for the terminal voltage; and responsive to sensing that the ground fault has occurred, controlling the terminal voltage of the electric generator based on a fourth target value for the terminal voltage, the fourth target value being different than the third target value. 15. The method of claim 12 , further comprising, responsive to sensing that the ground fault has occurred, communicating an alert signal to a second controller, wherein the second controller is further configured to, responsive to receiving the alert signal from the first controller, control the second power converter based on the second target value. 16. The method of claim 12 , wherein controlling the power converter based on the first target value comprises controlling the power converter based on a first power limit for the differential bus, and wherein controlling the power converter based on the second target value comprises controlling the differential bus based on a second power limit, the second power limit being different than the first power limit.