| Summary: | Background. Modern sensors as sources of information determine the level of quality of informationmeasuring
and control systems of complex industrial-technological objects, especially in such science-intensive fields as
power engineering, aviation, rocket-space technology, weapons and military equipment, etc. One of the tasks in the development
of rocket-space systems is the measurement and control of movements of mechanical systems. The existing
displacement sensors are not capable of simultaneous measurement of angular and linear movements. To solve this
problem a displacement sensor was developed, which has extended functionality and is able to measure linear and angular
movements simultaneously. Materials and methods. The amplitude-logic method of processing modulated signals
from a raster displacement sensor was used in this work. In the course of the work, a design diagram of a multifunctional
displacement sensor and a schematic diagram of the secondary converter were developed. Results. As a result of the conducted
research, the possibility of creating a multifunctional displacement sensor capable of working in a wide temperature
range of 20 ÷ 600 ℃, capable of simultaneously measuring linear and angular movements was confirmed.
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