초록 ▼

An aircraft automatic flight control system includes a pair of fast, limited authority inner loop actuators (12, 13) responsive to signals (52-55) indicative of aircraft attitude (68, 69) or other flight parameters such as airspeed (84), the inner loop being recentered by an outer loop actuator (37)

An aircraft automatic flight control system includes a pair of fast, limited authority inner loop actuators (12, 13) responsive to signals (52-55) indicative of aircraft attitude (68, 69) or other flight parameters such as airspeed (84), the inner loop being recentered by an outer loop actuator (37) responsive to attitude or other aircraft parameter-indicating signals (54, 55). Commands (40) applied to the outer loop are applied in a lagged fashion (58, 59) in opposite direction so as to drive the inner loop actuators (12, 13) back toward the center of their authority. The rate of response of the outer loop (FIG. 2, FIG. 5) is adaptive in dependence upon airspeed (93, 96, 212, 213) and in response to magnitude of inner loop input (101, FIG. 2). An integral gain (41), pulsed (39), open loop drive of the outer loop actuator (37) and outer loop automatic shutdown (38) are disclosed.

대표청구항 ▼

1. A system for automatically positioning aerodynamic surfaces in a control axis of an aircraft, comprising: a sensor responsive to a parameter of aircraft flight related to said control axis for providing a parameter signal indicative of the magnitude thereof; a fast, inner loop actuator for ch

1. A system for automatically positioning aerodynamic surfaces in a control axis of an aircraft, comprising: a sensor responsive to a parameter of aircraft flight related to said control axis for providing a parameter signal indicative of the magnitude thereof; a fast, inner loop actuator for changing the position of said aerodynamic surfaces across a limited authority range of positions which is a fraction of the total permissible range of positions thereof; a slow, outer loop actuator connected to said inner loop actuator for adjusting the position of said inner loop actuator relative to the position of said control surfaces throughout a full authority range of positions equal to the total permissible range of positions thereof, to thereby reposition the center of said limited authority range relative to said full authority range; and signal processing means for providing a reference signal indicative of a desired magnitude of said parameter, and responsive to said sensor, for providing to said inner loop actuator a proportional command signal indicative of the magnitude and sense of the difference between said parameter signal and said reference signal to adjust the position of said control surfaces in a first direction, depending on the sense of said difference, to cause said parameter signal to approach equality with said reference signal, and for providing, to said inner loop actuator, a rate command signal indicative of the magnitude and sense of the rate of change of said parameter signal to adjust the position of said control surfaces in a second direction, depending on the sense of said rate of change, to cause the rate of change of said parameter signal to approach nil, for providing to said outer loop actuator an outer loop command signal indicative of the magnitude and sense of the difference between said parameter signal and said reference signal to adjust the position of said inner loop actuator and therefore of said control surfaces in said first direction, and for providing an inner loop recentering signal to said inner loop actuator in dependence on the magnitude and sense of said outer loop command signal but of a sense to adjust the position of said control surfaces in a direction opposite to said first direction by substantially the same amount as said outer loop actuator adjusts the position of said inner loop actuator and therefore of said control surfaces, whereby the position of said inner loop actuator is adjusted to be substantially at the center of said limited authority range without significant perturbation of the position of said control surfaces. 2. A system according to claim 1 characterized by said signal processing means comprising means for providing a first signal indicative of the magnitude of said difference and for providing said outer loop command signal in a manner to adjust the position of said outer loop actuator at a first rate with respect to time in response to said first signal being below a threshold magnitude, and for providing said outer loop command signal in a manner to adjust the position of said outer loop actuator at a second rate with respect to time higher than said first rate in response to said first signal being of a magnitude in excess of said threshold magnitude. 3. A system according to claim 1 characterized by said signal processing means comprising means for providing a first signal indicative of the magnitude of said difference, for providing a second signal indicative of the magnitude of said rate of change of said parameter signal, and for providing said outer loop command signal in a manner to adjust the position of said inner loop actuator at a first rate with respect to time in response to the summation of said first signal and said second signal being below a threshold magnitude, and for providing said outer loop command signal in a manner to adjust the position of said inner loop actuator at a second rate with respect to time higher than said first rate in response to the summation of said first signal and said second signal being of a magnitude in excess of said threshold magnitude. 4. A system according to claim 3 characterized by said signal processing means comprising means for providing said second signal as the lag of said rate. 5. A system according to claim 1 wherein said parameter is attitude of said aircraft with respect to level about a normally horizontal axis thereof, including means to sense the magnitude of airspeed of said aircraft, further characterized by said signal processing means comprising means for providing said outer loop command signal in a manner to adjust the position of said outer loop actuator at a first rate with respect to time in response to said airspeed being below a threshold magnitude, and for providing said outer loop command signal in a manner to adjust the position of said outer loop actuator at a second rate with respect to time higher than said first rate in response to said airspeed being of a magnitude in excess of said threshold magnitude.