Stability and command augmentation system for an aircraft, and stabilization and control method of an aircraft

The invention claimed is: 1. A stability and command augmentation system for an aircraft, comprising: a first member moveable by a pilot input device to a first position defining a first input; a second member moveable to a second position associated with a second input; and an adder device configured to add said first and second inputs, and supply an output signal defining a command for an element to be controlled of said aircraft; a casing; a first and a second piston integrally movable with one another inside said casing and operatively connected to said second member; and control means configured to exert a first force on said first piston and a second force on said second piston; said second force being, in use, independent of said first force; said control means further comprising: a first valve configured to exert said first force on said first piston; and at least a second valve configured to exert said second force on said second piston; said casing defining a first chamber and a second chamber; said first piston sealingly sliding within said first chamber and said second piston sealingly sliding within said second chamber; said first valve being selectively controllable to create a first differential pressure value in first portions of said first chamber arranged at respective opposite ends of said first piston; said second valve being selectively controllable to create a second differential pressure value in second portions of said second chamber arranged at respective opposite ends of said second piston; said system further comprising a rod sliding inside said casing, on which said first and second pistons are fixed and integrally movable with said second member; said system further comprising an adjustable limit device for the travel of said second member between a first and a second stop position; at least one of said first and second stop positions being selectively adjustable; said adjustable limit device comprising: an internally threaded cylinder having an axis orthogonal to the axis of said rod, said rod passing through said internally threaded cylinder, said internally threaded cylinder being arranged with play inside an unloaded portion of said rod; and a threaded head screwed on said cylinder. 2. The system according to claim 1 , wherein said control means is electronically connectable to a flight control system to receive a command associated with said second input signal and is programmed to move said second member on the basis of said command. 3. The system according to claim 2 , further comprising a digital bus designed to transmit said command to said control means. 4. The system according to claim 2 , wherein said control means comprises a first control unit programmed to control said first valve and a second control unit programmed to control said second valve. 5. The system according to claim 4 , wherein said control means comprises a third backup control unit. 6. The system according to claim 5 , wherein said limit device is carried on said casing. 7. The system of claim 1 , further comprising an actuator configured to control the position of said second member and to determine said second input; said actuator comprising said casing, said first and second pistons and said control means. 8. The system of claim 7 , wherein said control means comprises: said first valve and said second valve; said first control unit being programmed to control said first valve associated with said first piston; said second control unit being programmed to control said second valve associated with said second piston; and said backup control unit to be used in the event of failure of one of said first control unit and second control unit. 9. The system of claim 8 , further comprising: a third and a fourth valve comprising, each, a pair of respective first and second inlets and a respective outlet; a first line fluidly connected to an environment containing an operative fluid under pressure and to said respective first and second inlets; a second line fluidly connected to a second environment at a discharge pressure and to said first and second inlets of said respective third valve and said fourth valve, and comprising a bypass fluidly connected to a further inlet of respective first and second valves. 10. The system of claim 9 , wherein each third and fourth valve is selectively moveable: to a respective first position, where each of said third valve and said fourth valve fluidly connects respective said first inlet and said respective outlet, and discharges said second inlet; and to a respective second position, where each of said third valve and said fourth valve discharges respective said first inlet, and fluidly connects connected said respective outlet and said second inlet. 11. The system of claim 10 , wherein said first control unit is programmed to control said third valve associated with said first piston, and in that said second control unit is programmed to control said fourth valve associated with said second piston. 12. An aircraft comprising: at least one pilot-operable flight control; at least one element to be controlled; at least one actuator operatively connected to said element to be controlled and said at least one flight control; a flight control system; and at least one stability and command augmentation system comprising: a first member moveable by a pilot input device to a first position defining a first input; a second member moveable to a second position associated with a second input; an adder device configured to add said first and second inputs, and supply an output signal defining a command for an element to be controlled of said aircraft; a casing; a first and a second piston integrally movable with one another inside said casing and operatively connected to said second member; and control means configured to exert a first force on said first piston and a second force on said second piston; said second force being, in use, independent of said first force; said control means further comprising: a first valve configured to exert said first force on said first piston; and at least a second valve configured to exert said second force on said second piston; said casing defining a first chamber and a second chamber; said first piston sealingly sliding within said first chamber and said second piston sealingly sliding within said second chamber; said first valve being selectively controllable to create a first differential pressure value in first portions of said first chamber arranged at respective opposite ends of said first piston; said second valve being selectively controllable to create a second differential pressure value in second portions of said second chamber arranged at respective opposite ends of said second piston; said system further comprising a rod sliding inside said casing, on which said first and second pistons are fixed and integrally movable with said second member; said system further comprising an adjustable limit device for the travel of said second member between a first and a second stop position; at least one of said first and second stop positions being selectively adjustable; said adjustable limit device comprising: an internally threaded cylinder having an axis orthogonal to the axis of said rod, said rod passing through said internally threaded cylinder, said internally threaded cylinder being arranged with play inside an unloaded portion of said rod; and a threaded head screwed on said cylinder. 13. The aircraft of claim 12 , wherein said control means is electronically connectable to said flight control system to r