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A SIMPLE AND CHEAP METHOD OF MET GEOPHONES AND SEISMIC ACCELEROMETERS TEMPERATURE SENSITIVITY STABILIZATION IN A WIDE TEMPERATURE BAND

Dmitry Zaitsev, Anastasiya Fokina, Egor V. Egorov

First published: 2020-09-20https://doi.org/10.5593/sgem2020/1.2/s05.053View metrics

Abstract

In this paper, we propose a mathematical model and an appropriate algorithm that allows one-time measurement of the frequency response and phase response of the MET sensor under normal conditions to construct a complex transfer function of the MET at any other temperatures from the allowable range of -35 + 55 °C with the experimental accuracy not worse than a few percent. This model and the algorithm for setting up and selecting thermocompression circuits of electronic amplification and filtration circuits introduced into production practice significantly reduce the operating time of the device setup (long-term and expensive temperature measurements and verification in thermal cameras are no longer required), respectively reducing the production cost. Most importantly, the proposed method significantly improves the quality of temperature compensation due to the automated selection of individual ratings, which reduces the spread of sensitivity parameters from device to device and its stability at the temperature range edges.

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Publication details

Title
A SIMPLE AND CHEAP METHOD OF MET GEOPHONES AND SEISMIC ACCELEROMETERS TEMPERATURE SENSITIVITY STABILIZATION IN A WIDE TEMPERATURE BAND
Authors
Dmitry Zaitsev, Anastasiya Fokina, Egor V. Egorov
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 20th International Multidisciplinary Scientific GeoConference Proceedings SGEM 2020, Science and Technologies in Geology, Exploration And Mining
Publisher
STEF92 Technology
Year
2020
Pages
411-418
SWS Citekey
Zaitsev20205411418
ISSN
1314-2704
ISBN
978-619-7603-05-7
Language
en
Publication type
Conference Paper
Keywords
References15
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  6. Antonov A.N., Shabalina A.S., Razin A.Y., Avdyukhina S. Y., Egorov I.V., Agafonov V.M., Low-Frequency Seismic Node Based on Molecular-Electronic Transfer Sensors for Marine and Transition Zone Exploration, Journal of atmospheric and oceanic technology, Volume 34, Issue 8, 1 August 2017, Pages 1743-1748.

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  10. Yifei Xu, Wendy J. Lin, Marisa Gliege, Ryan Gunckel, Zuofeng Zhao, Hongyu Yu, and Lenore L. Dai, A Dual Ionic Liquid-Based Low-Temperature Electrolyte System ,The Journal of Physical Chemistry B, 2018 122 (50), 12077-12086

  11. Wendy J. Lin, Yifei Xu, Shaun MacDonald, Ryan Gunckel, Zuofeng Zhaob, Lenore L. Dai, Tailoring intermolecular interactions to develop a low-temperature electrolyte system consisting of 1-butyl-3-methylimidazolium iodide and organic solvents, RSC Adv., 2019, 9, 36796–36807

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  13. Huang, H., Liang, M., Tang, R. J. O., and Yu, H.: Molecular Electronic Transducer-Based Low-Frequency Accelerometer Fabricated With Post-CMOS Compatible Process Using Droplet as Sensing Body, IEEE Electr. Device L., 34, 1304–1306, 2013.

  14. Agafonov V., Shabalina A., Ma D., Krishtop V., Modeling and experimental study of convective noise inelectrochemical planar sensitive element of MET motion sensor, Sensors and Actuators A, 293 (2019), 259–268.

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Number of times cited according to Crossref: 2

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