We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
MULTIFUNCTIONAL FIBEROPTIC SENSORS FOR SPACE INFRASTRUCTURE.
- Authors
Mikhailov, Petr; Ualiyev, Zhomart; Kabdoldina, Assem; Smailov, Nurzhigit; Khikmetov, Askar; Malikova, Feruza
- Abstract
Sensors used in rocket and space technology are subject to extreme external influences in terms of temperature, vibration, and shock. Therefore, the choice of the type of sensors is justified precisely by the resistance to such factors, as well as the ability to ensure the temporal and parametric stability of measurements. A new type of sensors – fiber-optic ones – meets these conditions. The basis for the selection and further improvement of such sensors were such requirements as minimum power consumption, high accuracy and stability of measurements, the ability to combine several measurements in one sensor. It is noted that for space infrastructure the factor of the possibility of simultaneous measurement of several parameters with one sensor is one of the important quality indicators. This is due to the possibility of reducing the number of sensors themselves, which reduces the mass and size parameters of space technology. This applies, first of all, to measurements of pressure and temperature, since they, in aggregate, account for at least 40 % of all measurements in space products. The path of choosing the types of methods and sensor designs led to the combination of the amplitude conversion method and optical communication in one sensor. In this case, amplitude modulation of pressure and temperature is carried out by a microelectromechanical unit (module), and the modulated optical signal is transmitted by an optical module. Such a modular composition of the sensor makes it possible to dispense with optical analyzers (interrogators) and carry out further processing based on standard interfaces. A limitation of the proposed methods and designs is the need for microelectromechanical structures that measure certain physical quantities. Such structures for fiber-optic sensors are not mass-produced; therefore, their manufacture can be established at instrument-making enterprises with microelectronic equipment.
- Subjects
DETECTORS; AMPLITUDE modulation; PHYSICAL constants; SPACE vehicles; ASTRONAUTICS; OPTICAL communications
- Publication
Eastern-European Journal of Enterprise Technologies, 2021, Vol 113, Issue 5, p80
- ISSN
1729-3774
- Publication type
Article
- DOI
10.15587/1729-4061.2021.242995