论文信息 - FORCE FEEDBACK VERSUS ACCELERATION FEEDBACK IN ACTIVE VIBRATION ISOLATION

FORCE FEEDBACK VERSUS ACCELERATION FEEDBACK IN ACTIVE VIBRATION ISOLATION

This paper compares the force feedback and acceleration feedback implementation of the sky-hook damper when it is used to isolate a flexible structure from a disturbance source. It is shown that the use of a force sensor produces always alternating poles and zeros in the open-loop transfer function between the force actuator and the force sensor, which guarantees the stability of the closed loop. On the contrary, the acceleration feedback produces alternating poles and zeros only when the flexible structure is stiff compared to the isolation system; this property is lost when the flexible modes of the sensitive payload interfere with the isolation system.

[1] Dean Karnopp,et al. Comparative Study of Optimization Techniques for Shock and Vibration Isolation , 1969 .

[2] C. Crede. Vibration and shock isolation , 1951 .

[3] R. A. Laskin,et al. Future Payload Isolation and Pointing System Technology , 1986 .

[4] André Preumont,et al. Vibration Control of Active Structures: An Introduction , 2018 .

[5] J. R. Velman,et al. Active Local Vibration Isolation Applied to a Flexible Space Telescope , 1980 .