Aircraft Stability and Control Augmentation and agumentation.pdfInner-Loop Stability and Control •...
Transcript of Aircraft Stability and Control Augmentation and agumentation.pdfInner-Loop Stability and Control •...
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Aircraft Stability and Control Augmentation
Prepared
by
A.Kaviyarasu
Assistant Professor
Department of Aerospace Engineering
Madras Institute Of Technology
Chromepet, Chennai
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Inner-Loop Stability and Control• The dynamic stability characteristics of aircraft have been
improved during the past 50 years using a variety of inner-loop feedback control systems.
• Inner loop simply refers to the fact that these systems arerepresented as the inner loop in a block diagramrepresentation when married with outer-loop autopilotmodes such as attitude hold.
• Inner-loop feedback control systems has been grouped intothree broad categories. stability augmentation systems,control augmentation systems and fly-by-wire systems.
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Stability augmentation systems (SAS)• Stability augmentation systems (SAS) were the first feedback
control system designs intended to improve dynamic stabilitycharacteristics of an aircraft.
• It is also referred as dampers, stabilizers, and stability augmenters.
• Aircraft such as the F-104, T-37, T-38, and F-4 had SAS.
• These systems generally feedback an aircraft motion parameter,such as pitch rate, to provide a control deflection that opposed themotion and increased damping characteristics.
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• The SAS had to be integrated with the primary mechanical control systemof the aircraft consisting of the stick, pushrods, cables, and bellcranksleading to the control surface or the hydraulic actuator that activated thecontrol surface.
• The control authority (percentage of full surface deflection available) ofSAS was generally limited to about 10%.
• One problem with SAS was the fact that the feedback loop provided acommand that opposed pilot control inputs. As a result, the aircraftbecame less responsive for a given stick input.
• This was typically addressed with the addition of a washout filter in thefeedback loop that attenuated the feedback signal for constant values ofthe aircraft motion parameter
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Simplified SAS
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• Another concern was the limited authority of the SAS actuator that wasnecessitated by safety-of-flight requirements.
• SAS sensors and computers were normally non redundant or dualredundant and thus did not approach the system reliability of themechanical flight control system.
• Although ,SAS was effective in improving aircraft flying qualities.
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McDonnell Douglas F-4 Northrop-T38
Cessna T37LockheedF-104
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Control Augmentation Systems• The next step in the evolution of aircraft feedback control system was
control augmentation systems (CAS).
• With a CAS, a pilot stick input is provided to the flight control system intwo ways
– through the mechanical system– through the CAS electrical path.
• The CAS design eliminated the SAS problem of pilot inputs being opposedby the feedback loop.
• Aircraft such as the A-7, F-111, F-14, and F-15 have CAS
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A-7 D/E Corsair II F-111 AardvarkMedium Tactical/ Strategic Bomber
Grumman F-14 McDonnell Douglas F-15
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Simplified CAS
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• Additional reliability was designed into CAS so that the control authoritycould be increased (to approximately 50%). With a CAS, the aircraftdynamic response is typically well-damped, and control response isscheduled with the control system gains to maintain desirablecharacteristics throughout the flight envelope.
• CAS provided dramatic improvements in aircraft handling qualities. Bothdynamic stability and control response characteristics could be tailoredand optimized to the mission of the aircraft.
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Fly by wire system
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• Based on the excellent handling qualities achieved with CAS, the nextlogical step in feedback control systems development was to remove themechanical control system and provide the CAS full authority. Suchsystems are known as fly-by-wire (FBW) systems.
• This major advantage of using wire system is its reliability. It achieve thereliability by using triple and quad redundancy component along withself testing software.
• Aircraft such as the F-16, C-17, and F-22 have FBW system. In the case ofthe F-22, another term, fly-by-light, is sometimes used to indicate thatfiber-optic links are used rather than wire.
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Fighting Falcon-F16 Boeing C17 Globe master
Lockheed martin_F-22A
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• The full authority provided by FBW allows verysignificant tailoring of stability and controlcharacteristics.
• This ability has led to FBW systems with severalfeedback parameters and weighting of feedback gainsbased on flight condition and other parameters.
• Block diagrams for FBW systems can become complexbecause of the number of feedback sensors involved.
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• Some of the typical “inner loop” systems are– Yaw damper– Pitch damper– Roll damper– Angle of attack feedback– Load factor feedback
• Some of the typical “outer loop” systems are– Pitch attitude hold– Altitude hold– Bank angle hold– Heading hold
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Thank you