Combined active stick and control boost actuator system

What is claimed is: 1. A combined active stick and control boost actuator system for a control surface, the system comprising: a control stick engaged to a mechanical flight control structure having a linkage configured to move the control surface; a mechanical interconnect connected to the linkage and having a control stick connection whereby motion of the control stick translates the mechanical interconnect; an integrated actuator separably connected to the mechanical interconnect intermediate the control stick connection and the linkage; a stick force sensor configured to provide an input force signal responsive to force exerted on the control stick; a flight control system receiving the input force signal and adapted to provide an actuator position control signal to the integrated actuator the flight control system including a servo loop receiving the input force signal from the stick force sensor, an actuator force signal provided by an actuator force sensor, a control surface force signal provided by a control surface force sensor and feedback from a position loop using an actuator position signal from an actuator position sensor, and summing a true control surface force and a true stick force to provide an actuator force signal whereby said integrated actuator moves to a prescribed position in accordance with a force feel profile, said flight control system further adapted to provide a disconnect signal to the integrated actuator, said integrated actuator adapted to disconnect from the mechanical interconnect responsive to the disconnect signal. 2. The combined active stick and control boost actuator system as defined in claim 1 wherein the integrated actuator comprises an electric motor, said flight control system includes an actuator controller to provide the actuator position control signal and said actuator position control signal comprises a motor current. 3. The combined active stick and control boost actuator system as defined in claim 2 wherein the integrated actuator is connected to the mechanical interconnect with a mechanical coupler, and the integrated actuator further comprises a clutch intermediate the motor and mechanical coupler, said clutch operable to disconnect the motor from the mechanical coupler responsive to the disconnect signal. 4. The combined active stick and control boost actuator system as defined in claim 3 further comprising a second integrated actuator having a second motor and connected to the mechanical interconnect with a second mechanical coupler, and the second integrated actuator further comprising a second clutch intermediate the second motor and second mechanical coupler, said second clutch operable to disconnect the motor from the second mechanical coupler responsive to the disconnect signal. 5. The combined active stick and control boost actuator system as defined in claim 3 further wherein the flight control system is further adapted to issue the disconnect signal responsive to a jam determination. 6. The combined active stick and control boost actuator system as defined in claim 5 wherein the input force signal exceeding a threshold results in the jam determination. 7. The combined active stick and control boost actuator system as defined in claim 5 further comprising a control surface force sensor providing a control surface force signal wherein a motor output current as indicated by the actuator position control signal exceeding a maximum anticipated control surface force signal plus a maximum anticipated input force signal results in the jam determination. 8. The combined active stick and control boost actuator system as defined in claim 1 wherein the integrated actuator comprises: at least one hydraulic cylinder having an actuation rod attached to a mechanical coupler connected to the mechanical interconnect; and, an electro hydraulic servo valve (EHV) receiving the actuator position control signal and controlling pressure from a hydraulic pump through a shutoff-bypass valve connected to the at least one hydraulic cylinder. 9. The combined active stick and control boost actuator system as defined in claim 8 wherein the integrated actuator further comprises a power control valve and a shutoff-bypass valve, said power control valve receiving the disconnect signal to releases pressure from the shutoff-bypass valve inducing transition from a normal operating position to a shutoff-bypass position thereby allowing free translation of the actuation rod within the at least one hydraulic cylinder. 10. The combined active stick and control boost actuator system as defined in claim 9 further comprising a second power control valve and a second shutoff-bypass valve, said second power control valve receiving a second disconnect signal and operable to releases pressure from the second shutoff-bypass valve inducing transition from a normal operating position to a shutoff-bypass position. 11. The combined active stick and control boost actuator system as defined in claim 9 wherein the at least one hydraulic cylinder comprises a first hydraulic cylinder and a second hydraulic cylinder, the EHV receiving a first actuator position control signal and controlling pressure from a first hydraulic pump through the shutoff-bypass valve connected to the first hydraulic cylinder and a second EHV receiving a second actuator position control signal and controlling pressure from a second hydraulic pump though a second bypass valve connected to the second hydraulic cylinder, a second power control valve and a second shutoff-bypass valve, said second power control valve receiving a second disconnect signal and operable to release pressure from the second shutoff-bypass valve inducing transition from a normal operating position to a shutoff-bypass position. 12. The combined active stick and control boost actuator system as defined in claim 1 further comprising an autopilot connected to provide an autopilot control input to the flight control system, said flight control system further adapted to provide the actuator position control signal to the integrated actuator responsive to the autopilot control input whereby said integrated actuator moves to the prescribed position. 13. The combined active stick and control boost actuator system as defined in claim 1 further comprising an unmanned air vehicle (UAV) controller connected to provide a UAV control input to the flight control system, said flight control system further adapted to provide the actuator position control signal to the integrated actuator responsive to the UAV control input whereby said integrated actuator moves to the prescribed position. 14. A combined active stick and control boost actuator system for a control surface, the system comprising: a control stick engaged to a mechanical flight control structure having a linkage configured to move the control surface; a mechanical interconnect to the linkage and having a control stick connection whereby motion of the control stick translates the mechanical interconnect; an integrated actuator separably connected to the mechanical interconnect intermediate the control stick connection and the linkage; a stick force sensor configured to provide an input force signal responsive to force exerted on the control stick; a flight control system receiving the input force signal and adapted to provide an actuator position control signal to the integrated actuator whereby said integrated actuator moves to a prescribed position in accordance with a force feel profile, said flight control system further adapted to provide a disconnect signal to the integrated actuator, said integrated actuator adapted to disconnec