Dynamic profile of a prototype pivoted proof-mass actuator
Abstract
A prototype of a linear inertial reaction actuation (damper) device employing a flexure-pivoted reaction (proof) mass is discussed. The mass is driven by an electromechanic motor using a dc electromagnetic field and an ac electromagnetic drive. During the damping process, the actuator dissipates structural kinetic energy as heat through electromagnetic damping. A model of the inertial, stiffness and damping properties is presented along with the characteristic differential equations describing the coupled response of the actuator and structure. The equations, employing the dynamic coefficients, are oriented in the form of a feedback control network in which distributed sensors are used to dictate actuator response leading to a specified amount of structural excitation or damping.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- August 1981
- Bibcode:
- 1981STIN...8133450M
- Keywords:
-
- Actuators;
- Electromechanical Devices;
- Large Space Structures;
- Pivots;
- Structural Vibration;
- Vibration Damping;
- Contour Sensors;
- Differential Equations;
- Feedback Control;
- Inertia;
- Kinetic Energy;
- Prototypes;
- Instrumentation and Photography