대표
청구항
▼
We claim: 1. A satellite power generation and control system, comprising: a first power bus configured to supply one or more loads rated to operate at a first voltage magnitude; a second power bus configured to supply one or more loads rated to operate at a second voltage magnitude that is greater than the first voltage magnitude; an energy storage flywheel; a motor/generator coupled to the energy storage flywheel and including at least first stator windings and second stator windings coupled to the first power bus and the second power bus, respectively...
We claim: 1. A satellite power generation and control system, comprising: a first power bus configured to supply one or more loads rated to operate at a first voltage magnitude; a second power bus configured to supply one or more loads rated to operate at a second voltage magnitude that is greater than the first voltage magnitude; an energy storage flywheel; a motor/generator coupled to the energy storage flywheel and including at least first stator windings and second stator windings coupled to the first power bus and the second power bus, respectively, the motor/generator configured to operate in either (i) a motor mode, whereby electrical energy from the first power bus, the second power bus, or both power buses is converted to rotational kinetic energy and supplied to the energy storage flywheel or (ii) a generate mode, whereby rotational kinetic energy from the energy storage flywheel is converted to electrical energy and supplied to the first power bus, the second power bus, or both power buses; and a motor/generator controller adapted to receive one or more command signals and operable, in response thereto, to control operation of the motor/generator in either the motor mode or the generate mode, to thereby selectively supply electrical power to, or draw electrical power from, the first power bus, the second power bus, or both power buses. 2. The system of claim 1, further comprising: a solar array coupled to the first and second power buses and operable to convert light energy into electrical energy, the solar array movable between a stowed state, in which the solar array can supply the electrical energy at a first maximum voltage magnitude, and a deployed state, in which the solar array can supply the electrical energy at a second maximum voltage magnitude that is greater than the first maximum voltage magnitude. 3. The system of claim 1, further comprising: two or more additional energy storage flywheels; two or more additional motor/generators, each additional motor/generator coupled to, and associated with, one of the additional energy storage flywheels, each of the additional motor/generators including at least first stator windings and second stator windings adapted to couple to the first power bus and the second power bus, respectively, and configured to operate in either (i) a motor mode, whereby electrical energy from the first power bus, the second power bus, or both power buses is converted to rotational kinetic energy and supplied to its associated energy storage flywheel or (ii) a generate mode, whereby rotational kinetic energy from its associated energy storage flywheel is converted to electrical energy and supplied to the first power bus, the second power bus, or both power buses; and two or more additional motor/generator controllers, each additional motor/generator controller associated coupled to, and associated with, one of the additional motor/generators, each additional motor/generator controller adapted to receive the one or more command signals and operable, in response thereto, to control operation of its associated motor/generator in either the motor mode or the generate mode, to thereby selectively supply electrical power to, or draw electrical power from, the first power bus, the second power bus, or both power buses. 4. The system of claim 3, wherein: each motor/generator is further configured to supply a plurality of signals, each signal representative of a motor/generator operational parameter; and each motor/generator controller is coupled to receive a plurality of motor/generator operational parameter signals from each of the motor/generators and is operable, in response thereto, to control its associated motor/generators in either the motor mode or the generate mode, to thereby regulate first power bus voltage, second power bus voltage, or both power bus voltages, and substantially equally share electrical load between the motor/generators. 5. The system of claim 1, further comprising: a main controller operable to supply the command signals to the motor/generator controller. 6. The system of claim 1, further comprising: a battery coupled to at least one of the first power bus or the second power bus, to thereby selectively supply electrical power thereto, or draw electrical power therefrom. 7. The system of claim 1, further comprising: one or more magnetic bearings rotationally mounting the energy storage flywheel; and a magnetic bearing controller coupled to receive bearing command signals and operable, in response thereto, to supply position control signals to the magnetic bearings. 8. An integrated power and attitude control system, comprising: a gimbal frame; an energy storage flywheel rotationally mounted in the gimbal frame; a main controller coupled to receive at least a torque command signal and a power command signal and operable, in response thereto, to supply (i) a gimbal angular velocity command based at least in part on the torque command signal and (ii) a flywheel acceleration command based at least in part on the torque command signal and the power command signal; one or more actuators coupled to receive the gimbal angular velocity command from the controller and operable, in response thereto, to move the gimbal frame at the commanded angular velocity; a first power bus configured to supply one or more loads rated to operate at a first voltage magnitude; a second power bus configured to supply one or more loads rated to operate at a second voltage magnitude that is greater than the first voltage magnitude; a motor/generator coupled to the energy storage flywheel and including at least first stator windings and second stator windings coupled to the first power bus and the second power bus, respectively, the motor/generator configured to operate in either (i) a motor mode, whereby electrical energy from the first power bus, the second power bus, or both power buses, is converted to rotational kinetic energy and supplied to the energy storage flywheel or (ii) a generate mode, whereby rotational kinetic energy from the energy storage flywheel is converted to electrical energy and supplied to the first power bus, the second power bus, or both power buses; and a motor/generator controller coupled to receive the flywheel acceleration command and operable, in response thereto, to control operation of the motor/generator in either the motor mode or the generate mode, to thereby selectively supply electrical power to, or draw electrical power from, the first power bus, the second power bus, or both power buses, to thereby accelerate the energy storage flywheel at the commanded flywheel acceleration. 9. The system of claim 8, wherein the controller comprises: a gimbal control circuit coupled to receive the torque command signal and operable, in response thereto, to supply the gimbal angular velocity command. 10. The system of claim 8, further comprising: a battery coupled to at least one of the first power bus or the second power bus, to thereby selectively supply electrical power thereto, or draw electrical power therefrom. 11. The system of claim 8, wherein the flywheel system further includes: one or more magnetic bearings rotationally mounting the energy storage flywheel in the gimbal frame; and a magnetic bearing controller coupled to receive bearing command signals and operable, in response thereto, to supply position control signals to each of the magnetic bearings, wherein the main controller is further operable to selectively supply the bearing command signals to the magnetic bearing controller. 12. The system of claim 8, further comprising: one or more solar arrays coupled to the first and second power buses and operable to convert light energy into electrical energy, the one or more solar arrays movable between a stowed position, in which the one or more solar arrays can supply the electrical energy at a first maximum voltage magnitude, and a deployed position, in which the one or more solar arrays can supply the electrical energy at a second maximum voltage magnitude that is greater than the first maximum voltage magnitude. 13. The system of claim 12, further comprising: one or more array actuators coupled to the one or more solar arrays, the one or more array actuators coupled to receive actuation command signals and operable, upon receipt thereof, to supply a drive force that moves the one or more solar arrays between the stowed and deployed positions, wherein the main controller supplies the actuation commands to the one or more array actuators. 14. The system of claim 8, further comprising: an attitude sensor adapted to mount on a vehicle and configured to sense vehicle attitude relative to a reference and supply a position feedback signal to the controller, wherein the controller is responsive to the position feedback signal to thereby adjust at least the gimbal angular velocity command signal to achieve the commanded torque. 15. The system of claim 14, wherein: the vehicle has multiple degrees of freedom; the controller is operable to supply independent gimbal angular velocity commands and independent flywheel acceleration commands for at least each of the vehicle degrees of freedom; and the system further comprises: two or more additional gimbals, two or more additional energy storage flywheels, each additional energy storage flywheel rotationally mounted in one of the additional gimbals, two or more additional motor/generators, each additional motor/generator coupled to, and associated with, one of the additional energy storage flywheels, each of the additional motor/generators including at least first stator windings and second stator windings adapted to couple to the first power bus and the second power bus, respectively, and configured to operate in either (i) a motor mode, whereby electrical energy from the first power bus, the second power bus, or both power buses is converted to rotational kinetic energy and supplied to its associated energy storage flywheel or (ii) a generate mode, whereby rotational kinetic energy from its associated energy storage flywheel is converted to electrical energy and supplied to the first power bus, the second power bus, or both power buses; and two or more additional motor/generator controllers, each additional motor/generator controller associated coupled to, and associated with, one of the additional motor/generators, each additional motor/generator controller coupled to receive flywheel acceleration commands and operable, in response thereto, to control operation of its associated motor/generator in either the motor mode or the generate mode, to thereby selectively supply electrical power to, or draw electrical power from, the first power bus, the second power bus, or both power buses, to thereby accelerate the energy storage flywheel at the commanded flywheel acceleration.
