Accession Number : AD0884457
Title : Micro-Electrostatic Gyro (MESG) Development.
Descriptive Note : Final rept. Dec 70-Apr 71,
Corporate Author : AUTONETICS ANAHEIM CA
Personal Author(s) : Andrews, A. P.
Report Date : APR 1971
Pagination or Media Count : 140
Abstract : The Micro-Electrostatic Gyro (MESG) is a whole-angle, two-axis instrument which is suitable for strapdown applications. The rotor of the MESG is a 1 cm solid beryllium sphere supported by electrostatic forces within an evacuated spherical envelope. Electrostatic bearing torques cause the rotor to precess in inertial space. Previous studies has shown that the resulting drift rates could be calibrated with respect to a suitable mathematical model of the torques, and the model could then be used to predict the drift rate. The objectives of this study were: (1) to evaluate design improvements in the suspension electronics, (2) to perform drift rate calibration tests during which the rotor spin axis changed orientation with respect to local gravity, (3) to conduct a search of the literature relative to electrostatic gyros and strapdown systems, and (4) to develop a drift rate simulation program for the MESG. Approximately 170 gyro drift test hours were recorded and evaluated, with the resulting rms drift rate residuals ranging from 0.02 to 0.05 deg/hr per axis, and with comparable repeatability from turn-on to turn-on. A test plan was prepared for evaluating the MESG under varying thermal, dynamic, and electrical environmental conditions. A systematic search and collection of technical reports on MESG-related technologies was conducted, and a gyro simulator program was prepared for determining the stable and nonstable drift rate characteristics of the MESG as functions of the design characteristics of the MESG and its suspension electronics. (Author)
Descriptors : *GYROSCOPES, ELECTROSTATICS, SUSPENSION DEVICES, ELECTROSTATIC FIELDS, SPHERES, BERYLLIUM, TORQUE, MATHEMATICAL MODELS, DRIFT, CALIBRATION, SIMULATORS.
Subject Categories : Machinery and Tools
Electricity and Magnetism
Distribution Statement : APPROVED FOR PUBLIC RELEASE