A system and methods for redundant current-sum feedback control of an actuator system is presented. An actuator comprises actuation coils configured to actuate the actuator, and an actuation coil current sensor senses a measured total coil current comprising a sum of coil currents of each of the act
A system and methods for redundant current-sum feedback control of an actuator system is presented. An actuator comprises actuation coils configured to actuate the actuator, and an actuation coil current sensor senses a measured total coil current comprising a sum of coil currents of each of the actuation coils. Actuator coil controllers control the actuation coils based on a commanded total coil current and the measured total coil current.
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1. A redundant current-sum feedback actuator system comprising: an actuator comprising a plurality of actuation coils configured to actuate the actuator;at least one actuation coil current sensor configured to determine a measured total coil current, the measured total coil current comprising a sum
1. A redundant current-sum feedback actuator system comprising: an actuator comprising a plurality of actuation coils configured to actuate the actuator;at least one actuation coil current sensor configured to determine a measured total coil current, the measured total coil current comprising a sum of coil currents flowing through each of the plurality of actuation coils; anda plurality of actuator coil controllers each configured to independently control a respective actuation coil of the plurality of actuation coils based on a current sum-difference between a desired total coil current and the measured total coil current. 2. The redundant current-sum feedback actuator system of claim 1, wherein each of the plurality of actuator coil controllers comprises a current amplifier, and wherein each of the plurality of actuator coil controllers is configured to: determine a command for a respective current amplifier based on the current sum-difference; andprovide the command to the current amplifier to control the actuator. 3. The redundant current-sum feedback actuator system of claim 1, wherein the desired total coil current comprises a difference between a desired actuator output and a measured actuator output. 4. The redundant current-sum feedback actuator system of claim 3, further comprising a plurality of independent outer control loops each configured to: receive the desired actuator output and the measured actuator output; anddetermine the desired total coil current based on the desired actuator output and the measured actuator output. 5. The redundant current-sum feedback actuator system of claim 1, configured such that an erroneous current through one of the plurality of actuation coils causes an opposing current to flow in another one of the plurality of actuation coils and creates a magnetic flux opposing the erroneous current. 6. The redundant current-sum feedback actuator system of claim 1, wherein the actuation coil current sensor is electrically independent from the plurality of actuator coil controllers, such that an electrical anomaly affecting one or more of the plurality of actuator coil controllers does not corrupt the determining of the measured total coil current. 7. The redundant current-sum feedback actuator system of claim 6, wherein the at least one actuation coil current sensor comprises a plurality of sensor coils each configured to receive an actuator current that flows through a respective one of the plurality of actuation coils, and wherein the at least one actuation coil current sensor is configured to determine the measured total coil current by summing magnetic flux generated by the plurality of sensor coils. 8. The redundant current-sum feedback actuator system of 6, wherein the at least one actuation coil current sensor is configured to derive the measured total coil current using the plurality of actuation coils. 9. The redundant current-sum feedback actuator system of claim 1, wherein each of the plurality of actuator coil controllers is configured to provide a control current, and wherein each control current directly affects the other control currents electromagnetically, such that an erroneous control current is actively and immediately opposed by the other control currents. 10. A redundant current-sum feedback actuator controller comprising: an inner feedback control loop configured to: receive a desired total coil current and a measured total coil current, the measured total coil current comprising a sum of coil currents flowing through each of a plurality of actuation coils, andindependently control a respective actuation coil of the plurality of actuation coils based on a current sum-difference between a desired total coil current and the measured total coil current. 11. The redundant current-sum feedback actuator controller of claim 10, wherein the desired total coil current comprises a difference between a desired actuator output and a measured actuator output. 12. The redundant current-sum feedback actuator controller of claim 11, further comprising an outer feedback control loop configured to: receive the desired actuator output and the measured actuator output; anddetermine the desired total coil current based on the desired actuator output and the measured actuator output. 13. The redundant current-sum feedback actuator controller of claim 10, further comprising: a sensor coil configured to receive an actuator current that flows through another one of the plurality of actuation coils that the inner feedback control loop is not controlling and generate a magnetic flux in a core, anda magnetic flux sensor configured to sense the generated magnetic flux,wherein the measured total coil current is determined based at least on the sensed magnetic flux. 14. The redundant current-sum feedback actuator controller of claim 10, wherein the redundant current-sum feedback actuator controller controls an aircraft flight control surface. 15. A method for suppressing non-optimality in an actuator control system, the method comprising: determining a measured total coil current, the measured total coil current comprising a sum of coil currents flowing through each of a plurality of actuation coils of an actuator, andindependently controlling the plurality of actuation coils with a plurality of actuator coil controllers based on a current-sum difference between a desired total coil current the measured total coil current. 16. The method of claim 15, wherein the desired total coil current comprises a difference between a desired actuator output and a measured actuator output. 17. The method of claim 16, further comprising: receiving the desired actuator output and the measured actuator output; anddetermining the desired total coil current based on the desired actuator output and the measured actuator output. 18. The method of claim 15, further comprising deriving the measured total coil current using the plurality of actuation coils. 19. The method of claim 15, wherein determining the measured total coil current comprises: receiving, by each of a plurality of sensor coils, an actuator current that actuates a respective actuation coil of the plurality of actuation coils; andsumming magnetic flux generated by the plurality of sensor coils. 20. The method of claim 15, wherein the actuator comprises an actuator for an aircraft flight control surface.
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이 특허에 인용된 특허 (4)
Hirvonen, Jukka Matti, Apparatus and method for backup control in a distributed flight control system.
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