Abstract
To adjust the stabilization systems that ensure the operation of the angular position or rate sensor based on the effect of nuclear magnetic resonance, it is required to choose the criteria for the quality assessing of sensor’s operation. The article presents the criteria of the quality of the angular sensor operating as a self-oscillation system. It is shown that the accuracy of the angular sensor increases when the proposed criteria are met.
Highlights
An angular position or rate sensor based on the effect of nuclear magnetic resonance allows measuring angular displacements
Minimum value of the AGC gain factor, this criterion can be presented in the form of min(K AGC ) ≠ 0
The above criteria allow for assessment of the quality of the angular sensor as a whole
Summary
An angular position or rate sensor based on the effect of nuclear magnetic resonance (hereinafter referred to as the angular sensor) allows measuring angular displacements. When adjusting each of the above-mentioned stabilization systems, it is necessary to determine their impact on the quality of the angular sensor operation and on the accuracy of its information signal. To determine the accuracy of the angular sensor, it is necessary to carry out long-term measurements, which complicates and slows down the process of adjusting the stabilization systems. An urgent task is to formalize the criteria that determine the quality of the angular sensor operation without assessing the accuracy of its information signal production in order to adjust the parameters of its stabilization systems.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
