Autopilot/flight director stall protection system
First Claim
1. A method for preventing an aircraft under autopilot control from stalling, the autopilot establishing a set of flight control parameters to seek a selected flight condition of the aircraft, said method comprising the steps of:
- selecting a nominal maximum allowable angle of attack for the aircraft;
selecting a trigger angle of attack above the nominal maximum allowable angle of attack;
monitoring an actual angle of attack of the aircraft;
comparing the actual angle of attack to the trigger angle of attack;
if the actual angle of attack of the aircraft exceeds the trigger angle of attack, producing a first stall signal;
supplying the first stall signal to an electronic flight controller; and
in response to the first stall signal, overriding the set of flight control parameters with the flight controller by supplying a revised set of flight control parameters to seek a revised flight condition.
1 Assignment
0 Petitions
Accused Products
Abstract
In an aircraft under autopilot control, a stall protection system overrides established autopilot parameters in response to a monitored angle of attack for the aircraft exceeding a trigger angle of attack. The trigger angle of attack is established with reference to a stick shaker angle of attack for the aircraft. When the aircraft exceeds the trigger angle of attack, the stall protection system produces an error signal causing the autopilot to seek an angle of attack 1 degree below the stick shaker angle of attack. Initially, the stall protection system provides a boost command to the error signal to accelerate the response of the aircraft to the error signal. The boost command is produced by a driving signal generator that selects one of four driving signals in response to monitored flap angle and impact pressure.
38 Citations
17 Claims
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1. A method for preventing an aircraft under autopilot control from stalling, the autopilot establishing a set of flight control parameters to seek a selected flight condition of the aircraft, said method comprising the steps of:
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selecting a nominal maximum allowable angle of attack for the aircraft; selecting a trigger angle of attack above the nominal maximum allowable angle of attack; monitoring an actual angle of attack of the aircraft; comparing the actual angle of attack to the trigger angle of attack; if the actual angle of attack of the aircraft exceeds the trigger angle of attack, producing a first stall signal; supplying the first stall signal to an electronic flight controller; and in response to the first stall signal, overriding the set of flight control parameters with the flight controller by supplying a revised set of flight control parameters to seek a revised flight condition. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for providing an override control signal for an autopilot in an aircraft under autopilot control in response to the autopilot establishing a set of flight control parameters to seek a selected flight condition of the aircraft, where the established set of flight control parameters causes the aircraft to approach a stall condition, comprising the steps of:
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selecting a first angle of attack below a stall angle of attack as a nominal maximum angle of attack; selecting a trigger angle of attack above the first angle of attack; selecting a second angle of attack below the first angle of attack; monitoring an actual angle of attack of the aircraft; comparing the actual angle of attack to the trigger angle of attack; and if the actual angle of attack of the aircraft exceeds the trigger angle of attack, producing an overriding signal to the autopilot corresponding to a revised set of flight control parameters, the revised set of flight control parameters corresponding to the second angle of attack. - View Dependent Claims (12, 13, 14)
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15. A apparatus for producing a stall override signal in an aircraft having an autopilot, comprising:
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a flight angle of attack monitor producing an electrical signal corresponding to a monitored flight angle of attack; a target signal generator having a control input, the target signal generator producing a target signal corresponding to a target angle of attack equal to a maximum allowable angle of attack in response to a first control signal at the control input and to a reduced allowable angle of attack less than the maximum allowable angle of attack in response to a second control signal at the control input; an error signal generator having a first input coupled to receive the electrical signal from the flight angle of attack monitor and a second input coupled to receive the target signal from the target signal generator, the error signal generator producing an error signal corresponding to the difference between the target angle of attack and the monitored flight angle of attack in response to the target signal and the electrical signal from the flight angle of attack monitor; a logic circuit coupled to receive the error signal, the logic circuit having a control output coupled to the control input of the target signal generator, the logic circuit producing the second control signal in response to the error signal indicating that the monitored flight angle of attack exceeds the target angle of attack; and an override signal generator connected to receive the error signal and the second control signal, the override signal generator producing the stall override signal in response to the second control signal and the error signal. - View Dependent Claims (16, 17)
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Specification