A flight control system for an aircraft, in which control commands are transmitted between a flight control module and at least one actuator of a movable flight surface, the flight control module including at least one first and one second computer, each computer being adapted for computing, for eac
A flight control system for an aircraft, in which control commands are transmitted between a flight control module and at least one actuator of a movable flight surface, the flight control module including at least one first and one second computer, each computer being adapted for computing, for each actuator, a control command established according to at least one predetermined law for control of the flight surface controlled by the actuator. Each actuator including at least two logic units adapted for receiving commands originating from all the computers, each logic unit being adapted for: comparing the commands received between them, and according to the result of the comparison, choosing in accordance with a predetermined logic common to all the actuators, a computer, referred to as master computer, whose control command is validated for execution by the actuator considered; and transmitting, to all the computers, a master computer choice information item; and in that each computer is adapted for self-determining as being a master computer or otherwise as being a computer referred to as slave, on the basis of master computer choice information items received from all the actuators, a sole master computer among all the computers finally being determined.
대표청구항▼
1. A flight control system for an aircraft, in which control commands are transmitted between a flight control module and at least one actuator of a movable flight surface of the aircraft, the system comprising: at least one first and at least one second computer in the flight control module, each o
1. A flight control system for an aircraft, in which control commands are transmitted between a flight control module and at least one actuator of a movable flight surface of the aircraft, the system comprising: at least one first and at least one second computer in the flight control module, each of the at least one first and second computers configured to compute, for each actuator, a control command established according to at least one predetermined law for control of the flight surface controlled by the actuator;each actuator includes at least two logic units configured to receive orders originating from all the computers of the flight control module, and each logic unit is configured to:compare the commands received between the at least two logic units, and according to the result of the comparison, choose in accordance with a predetermined logic common to all the actuators, a master computer, whose control command is validated for execution by the actuator considered; andtransmit, to all the computers, a master computer choice information item,wherein each computer of the flight control module is configured to determine whether it is a master computer or a slave computer, on the basis of master computer choice information items received from all the actuators, and a sole master computer is determined from among all the computers. 2. The flight control system according to claim 1, in which each computer of the flight control module includes a verification unit configured to verify, for each actuator, the coherence of the master computer choice information items obtained respectively from each of the logic units of the actuator considered, and if the information items are not coherent, to ignore these information items. 3. The flight control system according to claim 1, wherein if the choice of the master computer made by each logic unit of a given actuator is the same, the control command of the master computer chosen is executed by the actuator, otherwise the actuator is disabled. 4. The flight control system according to claim 3, wherein each computer includes a control string including at least one integrator, each computer configured to, when it is self-determined as being a slave computer, synchronize the integrator of its control string with that of the master computer that is finally determined. 5. The flight control system according to claim 1, wherein each comparison of commands concerns commands originating from computers computing their control command according to a different program. 6. The flight control system according to claim 1, wherein the logic units of each actuator are configured to, when all still operational computers are computing the control command according to a same program, send a request for software reconfiguration to one of the still operational computers so that it may function according to a program different from that of the other still operational computers. 7. The flight control system according to claim 1, wherein the logic units of each actuator consist of a control unit and a monitoring unit for monitoring the control unit. 8. The flight control system according to claim 7, wherein both the control unit and the monitoring unit are connected to the at least one first computer and to the at least one second computer. 9. The flight control system according to claim 7, wherein one of the control unit and the monitoring unit is only connected to the at least one first computer and the other unit is only connected to the second computer, the control and monitoring units also being connected to one another. 10. An aircraft equipped with a flight control system according to claim 1.
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이 특허에 인용된 특허 (4)
Matsui, Gen; Tanaka, Teruaki; Yamamoto, Tsuyoshi, Actuator control apparatus.
Kovalan, Mark A.; Singer, Mark Clifford; Johnson, Douglas R., System and method for maintaining system integrity in control systems having multi-lane computational differences.
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