Features of formation of information signals of resonant measuring converters with aperture and probe sensing elements
DOI:
https://doi.org/10.30837/rt.2018.3.194.21Abstract
The effect of changing the interaction conditions of the aperture or probe sensitive elements of resonant measurement converters (RMC) with the objects of investigation on the process of formation of basic information signals is analyzed. The obtained experimental results allow us to state that the analytical relationships used to describe the influence of the parameters of the investigated objects on the quality factor and the resonance frequency of the RMC and a priori assume the invariability of its connection with the measuring system are not observed in practice.References
Wei T. Scanning tip microwave near-field microscope / T. Wei, X.D. Xiang, W.G. Wallace-Freedman, P.G. Schultz // Applied Physics Letters. – 1996. – Vol. 68, N 24. – pp. 3506-3508.
Gao C. High spatial resolution quantitative microwave impedance microscopy by scanning tip microwave near-field microscope / C. Gao, T. Wei, F. Duewer, Y. Lu, X.D. Xiang // Applied Physics Letters. – 1997. – Vol. 71, N 13. – pp. 1872-1874.
Інтелектуальні вимірювальні системи на основі мікроелектронних датчиків нового покоління / Я. І. Лепіх, Ю. О. Гордієнко, С. В. Дзядевич та ін. ; за ред. Я. І. Лепіха. – Одеса : Астропринт, 2011. – 352 с.
Лисовский, В.В. Теория и практика высокочастотного контроля влажности сельскохозяйственных материалов.– Минск : УОБГАТУ, 2005. – 292 с.
Chen L.F. Microwave Electronics: Measurement and Materials Characterization / L.F. Chen, C.K. Ong, C.P. Neo, V.V. Varadan, V.k. Varadan – John Willy & Sons, Ltd, 2004. – 537 p.
Створення мікроелектронних датчиків нового покоління для інтелектуальних систем : монографія / Я. І. Лепіх, Ю. О. Гордієнко, С. В. Дзядевич та ін. ; за ред. Я. І. Лепіха. – Одеса : Астропринт, 2010. – 296 с.
Scanning Probe Microscopy: Electronic and Electromechanical Phenomena at the Nanoscale / Edited by S. Kalinin, A. Gruverman. – Springer Science Business Media, LLC, 2007. – 980 p.
Nyfors E.G. Cylindrical microwave resonator sensors for measuring materials under flow. – Dissertation for degree of Doctor of Science in Technology. Helsinki University of Technology, 2000. – 181 p.
Федюнин П.А. Микроволновая термовлагометрия / П.А. Федюнин, Д.А. Дмитриев, А.А. Воробьев, В.Н. Чернышов ; под ред. П.А. Федюнина – Москва : Машиностроение-1, 2004. – 208с.
Слипченко Н.И. Физические основы ближнеполевой СВЧ диагностики материалов и сред : дис. … д-ра физ.-мат. наук : 01.04.01 / Сумской государственный университет. – Сумы, 2008. – 351с.
Bondarenko I.N., Gordienko Yu. Ye., Slipchenko N. I. Biological objects parameters meter based on microwave microscope with coaxial resonant sensor // Proc. of the 10-th International Conference “Modern problems of radio engineering, telecommunications and computer science” (TCSET 2010), Ukraine. Lviv-Slavske, Feb. 23-27, 2010.
Bondarenko I.N., Vasiliev Yu.S., Prokaza A.M. Analysis of resonant transducer characteristics for scanning microwave microscopy // Proc. of 21st International Crimean Conference Microwave & Telecommunication Technology (CriMiCo'2011), pp. 665–666.
Бондаренко И.Н. Измерительные преобразователи на основе резонансных волноводных регулярных структур / И.Н. Бондаренко, Ю.С. Васильев, А.М. Проказа, С.И. Троицкий // Радиотехника. – Вып. 167. – С. 129-134.
Бондаренко И.Н. Измерительный преобразователь на основе цилиндрического резонатора на виде колебаний Н011 / И.Н. Бондаренко, Ю.С. Васильев, А.А. Камышан, С.И. Троицкий // Радиоэлектроника и информатика. – 2011. – № 2. – С. 3-5.
Bondarenko I.N. High-Q modes in irregular hybrid structures / I.N. Bondarenko, A.V. Galich, S.I. Troitski // Telecommunications and Radio Engineering. – 2013. – N 19. – Р. 1747-1753.
Bondarenko I.N. Microstrip resonant sensors for scanning microwave microscopy / I.N. Bondarenko, A.V. Galich // Proc. of the 12-th International Conference “Modern problems of radio engineering, telecommunications and computer science” (TCSET 2014), Ukraine. Lviv-Slavske, Feb. 25-March 1, 2014. – pp. 145-147. 1
Bondarenko I.N., Galich A.V., Troitski S.I. About some features of formation information signals of the resonance measuring converters // Proc. of 24th International Crimean Conference Microwave & Telecommunication Technology (CriMiCo'2014). – Р. 908-909.
Bondarenko I.N., Galich A.V. Microstrip resonant sensors // Proc. of 24th International Crimean Conference Microwave & Telecommunication Technology (CriMiCo'2014), pp. 984-985.
Bondarenko I.N., Galich A.V. Measuring resonant transducers on the basis of microstrip structures // Telecommunications and Radio Engineering. – 2015. – vol. 74, N 9. – Р.807-814,.
Bondarenko I.N., Galich A.V. Resonant irregular hybrid structures // Proc. of the 13-th International Conference “Modern problems of radio engineering, telecommunications and computer science” (TCSET 2016), Ukraine. Lviv-Slavske, Feb. 23-26, 2016. – Р. 183-185.
Менде Ф.Ф. Сверхпроводящие и охлаждаемые резонансные системы / Ф.Ф. Менде, И.Н. Бондаренко, А.В. Трубицын – Киев : Наук. думка, 1976. – 272 с.
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