The search for the ultimate gimbal
Abstract
The need for higher accuracy in pointing systems continues to grow. Fundamental limitations are inherent in the components used for gimbals. This paper discusses some developments which are expected to make it possible to achieve higher accuracy and stability. Ironless armature torque motors are described which exhibit zero hysteresis and no preferred position. Non-contacting signal and power transfer devices to eliminate friction and cable-wrap torques have also been developed. Magnetic bearings can eliminate the last remaining source of erratic frictional effects. Controllers using Kalman estimation techniques can accommodate constant residual effects.
- Publication:
-
Guidance and Control Conference
- Pub Date:
- February 1979
- Bibcode:
- 1979guco.conf..453S
- Keywords:
-
- Gimbals;
- Magnetic Suspension;
- Spacecraft Control;
- Torque Motors;
- Accuracy;
- Antifriction Bearings;
- Armatures;
- Control Stability;
- Instrumentation and Photography