Active suspension system

What is claimed is: 1. A suspension system comprising: a top mount; a bottom mount; a rigid housing; an air spring that transfers force of a first load path between the top mount and the bottom mount, the air spring including a pressurized cavity containing pressurized gas that transfers the force of the first load path; and a linear actuator that transfers force of a second load path between the top mount and the bottom mount in parallel to the first load path, the linear actuator including a motor having a rotor and a stator that are contained in the pressurized cavity; wherein the stator is in contact with an inner surface of the rigid housing and the rigid housing defines at least part of the pressurized cavity and transfers the force of the second load path. 2. The suspension system according to claim 1 , wherein the rigid housing is coupled to the top mount with an isolator that seals the pressurized cavity and transfers the force of the second load path between the rigid housing and the top mount. 3. The suspension system according to claim 2 , wherein the linear actuator and the rigid housing form a first piston assembly of the air spring movable relative to the bottom mount, and the top mount forms a second piston assembly of the air spring movable relative to the bottom mount. 4. The suspension system according to claim 3 , wherein effective piston areas of the first piston assembly and the second piston assembly are approximately equal. 5. The suspension system according to claim 3 , wherein the rigid housing is coupled to the bottom mount with a flexible membrane that seals the pressurized cavity and permits the first piston assembly to move relative to the bottom mount, and the isolator permits the second piston assembly to move relative to the rigid housing. 6. The suspension system according to claim 5 , wherein the pressurized cavity is defined by the top mount, the isolator, the rigid housing, the flexible membrane, and the bottom mount. 7. The suspension system according to claim 5 , further comprising a second rigid housing coupled to the bottom mount, wherein the flexible membrane is connected to the rigid housing and the second rigid housing to couple the rigid housing to the bottom mount, and the second rigid housing defines a lower chamber of the pressurized cavity. 8. The suspension system according to claim 1 , wherein the rigid housing is a first rigid housing, and the suspension system further includes a second rigid housing that surrounds the first rigid housing, wherein the first rigid housing is coupled to the second rigid housing with an upper isolator and a lower isolator by which the force of the second load path is transferred therebetween. 9. The suspension system according to claim 1 , wherein the rigid housing is a first rigid housing, and the suspension system further includes a second rigid housing surrounded by the first rigid housing, wherein the second rigid housing is coupled to the linear actuator and the first rigid housing to transfer the force of the second load path therebetween. 10. The suspension system according to claim 1 , wherein the pressurized cavity includes an upper chamber and a lower chamber, wherein the pressurized gas flows between the upper chamber and the lower chamber is at least one of around or through the linear actuator. 11. The suspension system according to claim 10 , wherein the rigid housing is spaced radially apart from and surrounds the linear actuator to define a circumferential gap therebetween, wherein the pressurized gas flows between the upper chamber and the lower chamber through the circumferential gap. 12. The suspension system according to claim 10 , wherein pressurized gas flows between the upper chamber and the lower chamber through an inner housing of the linear actuator. 13. The suspension system according to claim 10 , wherein the upper chamber of the pressurized cavity is disposed above the motor and the lower chamber of the pressurized cavity is disposed below the motor. 14. The suspension system according to claim 1 , wherein the linear actuator is a ball screw actuator having a ball nut and a shaft, wherein torque is selectively applied to the ball nut by a motor to apply the force of the second load path to the shaft. 15. The suspension system according to claim 14 , wherein the linear actuator includes a ball spline that prevents rotation of the shaft relative to the rigid housing. 16. A suspension system comprising: a spring configured to form a first load path between a vehicle body of a vehicle and an unsprung component of the vehicle; a ball-screw actuator configured to form a second load path between the vehicle body and the unsprung component in parallel to the first load path, the ball-screw actuator comprising: a shaft; a housing; a motor coupled to the housing and having a stator and a rotor; a ball nut to which the motor applies torque to transfer force of the second load path between the housing and the shaft; a ball spline that applies torque to the shaft to prevent rotation thereof relative to the housing; wherein the housing, the stator, and the ball spline are coupled to each other to form a stationary assembly, and the rotor and the ball nut are coupled to each other to form a rotating assembly that is rotatably supported and axially fixed to the stationary assembly with a thrust bearing. 17. The suspension system according to claim 16 , wherein the thrust bearing is coupled to the ball nut and the housing. 18. The suspension system according to claim 16 , wherein the rotating assembly is further rotatably supported by the housing with another bearing coupled to the housing and the rotor. 19. The suspension system according to claim 18 , wherein the other bearing is spaced apart from and positioned axially above the thrust bearing. 20. The suspension system according to claim 19 , wherein the stator is positioned axially between the thrust bearing and the other bearing. 21. The suspension system according to claim 16 , wherein the spring is one of a coil spring or an air spring. 22. The suspension system according to claim 16 , wherein the housing is an inner housing, and the suspension system further includes an outer housing to which the inner housing is coupled and which surrounds the inner housing, the motor, and the ball nut. 23. The suspension system according to claim 22 , wherein the inner housing is coupled to the outer housing with a first tube isolator positioned above the stator. 24. The suspension system according to claim 23 , wherein the inner housing is coupled to the outer housing with a second tube isolator positioned below at least a portion of the stator. 25. The suspension system according to claim 16 , wherein the spring is an air spring. 26. The ball screw actuator according to claim 25 , wherein the housing defines a pressurized cavity, and an isolator seals the pressurized cavity. 27. A ball screw actuator comprising: a housing; a motor positioned in the housing, the housing surrounding the motor and including cooling passages for receiving a fluid for cooling the motor; a shaft that moves axially within the housing; a ball nut to which the motor applies torque for transferring axial force between the housing and the shaft; a ball spline that transfers torque between the housing and the shaft to prevent rotation therebetween;