The article deals with the design and features of manufacturing a Coriolis vibrating gyroscope (CVG, angular rate sensor) with a metal resonator. Piezoelectric elements are used to excite and detect oscillations of the resonator.The design of the resonator is very important, because the technical characteristics of the CVG mainly depend on the resonator. For the production of a high-quality metal resonator with predetermined properties, a good choice is the precision alloy of 21NKMT-VI. Elimination of defects in the manufacture of the resonator, which lead to a variety of frequencies and variability, is achieved by balancing. The basic method is balancing in the 4th form of the distribution of mass defects. Calibration of the CVG with the electronics unit is the final stage of the CVG manufacturing, which results in: providing a resonance tuning condition for the sensing element, determining the feedback coefficients of the oscillation retention loop, determining the metrological characteristics of the CVG, and obtaining the correction function of the output signal from various parameters after the test complex.When determining the correction function, the fact was taken into account that the signals for suppressing the quadrature and coriolis components are not absolutely independent. When the node signal is demodulated to quadrature and coriolis components, it is necessary to analyze the signal passed through piezoelectric elements, amplifiers and ADC. Each of these elements adds a temperature-dependent phase shift to the node signal. This phase shift can be taken into account, but not with absolute accuracy. Therefore, the output signal of the CVG should be considered as a linear combination of signals of the quadrature and coriolis components of the compensation signal. To reduce the noise of the output signal, it is possible to use various types of noise suppressing filtersThe results of tests of the CVG confirming its competitiveness in comparison with the commercial analogue. The electronic control module can be designed using the Russian element base.
The article describes the methods and test results of a solid-wave gyroscope (SVG) — an angular rate sensor (ARS), developed at the Department of Control Devices, Tula State University and manufactured by the serial plant of JSC "Michurinsky Plant" Progress "according to the technology it worked out. The metal resonator SVG-ARS is made of an elinvar alloy and has a cylindrical structure of different thickness, the lower part of which, with a smaller wall thickness, acts as a suspension for the upper cylinder, the resonator itself, which has a conical shape, providing better vibration localization at its end edge. Technological manufacturing defects, different frequencies and variability, are eliminated by balancing " by mass" based on the removal of excess metal at certain points on the end edge of the resonator. The electronic module provides the second mode of primary and secondary oscillations of the resonator edge arising during rotation and creates a signal to compensate for the Coriolis and quadrature components of the output signal at the nodes. The maximum amplitudes of the excitation and compensation signals do not exceed 10 V. Therefore, at large values of mechanical influences, the compensation circuit may not work out the increased signal and the SVG-ARS loses its operability. The total processing time of the compensation signal does not exceed 1 μs. The maximum power consumption of the electronic module is not more than 4 W. When testing for mechanical and temperature effects, the norms were used that are typical for similar devices (angular rate sensors) used on board aircraft. The tests were carried out on the bench equipment of a specialized enterprise. The stability of the zero signal and the scale factor was determined under the simultaneous action of the measured speed and temperature on the SVG-ARS. The values of the random walk and the instability of the zero signal were obtained from the Allan deviation plots. Their values provide a basis for the conclusion about the possibility of using the developed SVG for several hours on board dynamic aircraft in orientation, stabilization and navigation systems. It was found that SVG-ARS possesses impact strength and restores its measuring ability after impact. Tests for vibration resistance revealed resonance frequencies and frequency rangesin which the tested VTG-DUS sample can be used without significant modification. The results of vibration tests can be used to refine the design and control electronics for the operating conditions of a particular aircraft.
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