Design features of thermal flow sensors for biomedical purposes

Authors

  • S.V. Pavlov Vinnytsia National Technical University
  • Waldemar Wójcik Lublin University of Technology
  • R.L. Holyaka Lviv Polytechnic National University
  • R.L. Holyaka Lviv Polytechnic National University
  • N.V. Titova National University "Odesa Polytechnic
  • L.E. Nykyforova National University of Bioresources and Nature Management of Ukraine
  • O.D. Azarov Vinnytsia National Technical University
  • M.F. Tereshchenko National Technical University of Ukraine "Ihor Sikorsky Kyiv Polytechnic Institute"
  • V.V. Kholin Photonika Plus PE, Cherkasy
  • M.F. Bogomolov National Technical University of Ukraine "Ihor Sikorsky Kyiv Polytechnic Institute"
  • O.S. Komarova National Technical University of Ukraine "Ihor Sikorsky Kyiv Polytechnic Institute"

DOI:

https://doi.org/10.31649/1681-7893-2022-44-2-66-81

Keywords:

thermal flow sensors, signal converters, electronics for biomedical electronics.

Abstract

It is shown that thermal flow sensors are characterized by high structural and technological compatibility with biomedical equipment and,  compared to other types of flow sensors, they most  fully meet the requirements for this equipment. The developed signal converters fully meet the requirements for modern biomedical equipment and  energy-saving low-voltage electronics (unipolar 3V  power supply), provide a negligible thermal effect on  the flow environment and are implemented on the  latest element base - high-precision CMOS railto-
rail operational amplifiers, bidirectional multiplexers  of the type ADG, ADuC type microconverters,  powerful D-MOS HEX FET transistors, etc

Author Biographies

S.V. Pavlov, Vinnytsia National Technical University

Ph.D., Professor of the Department of Biomedical Engineering and Optical-Electronic Systems, Vinnytsia National Technical University

Waldemar Wójcik , Lublin University of Technology

Ph.D., professor, director of the Institute of Electronics and Information Technologies, Lublin University of Technology, Honorary Professor of VNTU, VNMU named after M. Pirogov

R.L. Holyaka, Lviv Polytechnic National University

Ph.D., professor of the Department of Electronic Devices and Information and Computer Technologies, Lviv Polytechnic National University

R.L. Holyaka, Lviv Polytechnic National University

Ph.D., professor of the Department of Electronic Devices and Information and Computer Technologies, Lviv Polytechnic National University

N.V. Titova, National University "Odesa Polytechnic

Ph.D., Professor, Head of the Department of Biomedical Engineering, Odesa Polytechnic National University

L.E. Nykyforova, National University of Bioresources and Nature Management of Ukraine

Ph.D., professor of the Department of Automation and Robotic Systems named after Academician I.I. Martynenko, National University of Bioresources and Nature Management of Ukraine

O.D. Azarov, Vinnytsia National Technical University

Honored Worker of Education of Ukraine, Doctor of Technical Sciences, Professor, Head of the Computer Engineering Department, Vinnytsia National Technical University

M.F. Tereshchenko, National Technical University of Ukraine "Ihor Sikorsky Kyiv Polytechnic Institute"

Ph.D., Associate Professor of the Department of Production, National Technical University of Ukraine "Ihor Sikorskyi Kyiv Polytechnic Institute"

V.V. Kholin, Photonika Plus PE, Cherkasy

Ph.D., director of Photonika Plus PE, Cherkasy

M.F. Bogomolov, National Technical University of Ukraine "Ihor Sikorsky Kyiv Polytechnic Institute"

Ph.D., Associate Professor of the Department of Biomedical Engineering, National Technical University of Ukraine "Ihor Sikorskyi Kyiv Polytechnic Institute

O.S. Komarova , National Technical University of Ukraine "Ihor Sikorsky Kyiv Polytechnic Institute"

graduate student, National Technical University of Ukraine "Kyiv Polytechnic Institute named after Igor Sikorskyi", research associate of PE "Fotonika Plus", Cherkasy

References

Highly linear Microelectronic Sensors Signal Converters Based on Push-Pull Amplifier Circuits / edited by Waldemar Wojcik and Sergii Pavlov, Monograph, (2022) NR 181, Lublin, Comitet Inzynierii Srodowiska PAN, 283 Pages. ISBN 978-83-63714-80-2.

E. L. Upp, Paul J. LaNasa. Fluid flow measurement: a practical guide to accurate flow measurement. – Gulf Professional Publishing. 2002. – 264 p.

B.W. van Oudheusden. Silicon thermal flow sensors // Sensors and Actuators A: Phys. – 1992. № 30. – PP. 5–26.

M. Ashauer, H. Glosch, F. Hedrich, N. Hey, H. Sandmaier, W. Lang. Thermal flow sensor for liquids and gases based on combinations of two principles // Sensors and Actuators A. – 1999. Vol. 73. – PP. 7-13.

F. Jiang, Y.-C. Tai, C.-M. Ho, R. Karan, M. Garstenauer. Theoretical and experimental studies of micromachined hot-wire anemometers // International Electron Devices Meeting (IEDM), San Francisco, December 11–14. – 1994. PP. 139-142.

J.J. van Baar, R.W. Wiegerink, T.S.J. Lammerink, G.J.M. Krijnen, M. Elwenspoek. Micromachined structures for the thermal measurements of fluid and flow parameters // J. Micromech. Microeng. – 2001. – № 11. – PP. 311–318.

Ellis Menga, Po-Ying Li, Yu-Chong Tai. A biocompatible Parylene thermal flow sensing array // Sensors and Actuators A. – 2008. № 144. –PP. 18–28.

J. Desing Lindgren. Sensor communication technology towards ambient intelligence // Measurement Science and Technology. – 2005. – Vol. 16. – PP. 37-46.

S. Dusad, S.N. Diggavi., Al-Dhahir N., Calderbank A.R. Diversity Embedded Codes: Theory and Practice // IEEE Journal of selected topics in signal processing. – 2008. – Vol. 2. № 2.– PP. 202-219.

S. Naffziger. Microprocessors of the future: Commodity or engine growth? // Solid-State Circuits Magazine, IEEE. – 2009. – Vol. 1. № 1.– PP. 76-82.

Intelligent instrumentation products. The Handbook of Personal Computer. Instrumentation for Data Acquisition. Test. Measurement and Control. – Burr-Brown Corp. and Intelligent Instrumentation Inc, 1989.

John Brignell, Neil While. Intelligent Sensor System. – Institute of Physics Publishing Bristol and Philadelphia. IOP Publishing. 1996.

J. Lunze. Notion of the state in systems theory and artificial intelligence // Intelligent Systems Engineering. 1994. – Vol. 3. № 4.– PP. 201-210.

Fei-Yue Wang. Intelligent Systems in a Connected World // Intelligent Systems Engineering. 2009. – Vol. 24. № 1.– PP. 2-4.

Xiao Fan Wang, Guanrong Chen. Complex networks: small-world, scale-free and beyond // Circuits and Systems Magazine, IEEE. – 2003. – Vol. 3. № 1.– PP. 6- 20.

B. Ayazifar. Can we make signals and systems intelligible, interesting, and relevant? // Circuits and Systems Magazine, IEEE. – 2009. – Vol. 9, № 1.– PP. 16- 18.

Collins Luke. Cut the cord // Electronics. – 2007. – Vol. 5. № 6.– PP. 42-46.

E.Y. Song, Kang Lee. Understanding IEEE 1451-Networked smart transducer interface standard - What is a smart transducer//Instrumentation & Measurement Magazine, IEEE.– 2008.– Vol.11. № 2. – PP. 11-17.

Sevenhans Jan, Craninckx Jan. Europe's Analog Design Experts Convened at 16th AACD Workshop // Solid-State Circuits Newsletter, IEEE. – 2007. – Vol. 12. № 3. – P.30.

Nauta Bram. Analog IC Design at the University of Twente // Solid-State Circuits Newsletter, IEEE. – 2007. – Vol. 12. № 1. – PP. 5-10.

Gang Liu, Haldi P., Tsu-Jae King Liu, Niknejad A.M. Fully Integrated CMOS Power Amplifier With Efficiency Enhancement at Power Back-Off // Journal of Solid-State Circuits, IEEE. – 2008. – Vol. 43. № 3. – PP.600-609.

L. Ferreira, T. Pimenta, R. Moreno. CMOS implementation of precise sample-and-hold circuit with self-correction of the offset voltage // Circuits, Devices and Systems, IEE Proceedings. – 2005. – Vol. 152. № 5. – PP. 451- 455.

Lu Chih-Wen A Rail-To-Rail Class-AB Amplifier With an Offset Cancellation for LCD Drivers // Journal of Solid-State Circuits, IEEE. – 2009. – Vol. 44. № 2.– PP. 525-537.

R. Rashidzadeh, R. Muscedere, M. Ahmadi, W. C Miller. A Delay Generation Technique for Narrow Time Interval Measurement // Instrumentation and Measurement, IEEE. – 2009. – Vol. 58. № 7. – PP. 2245-2252.

B.R. Lin, C.L. Huang. Analysis and implementation of a novel soft-switching pulse-width modulation converter // Power Electronics, IET. – 2009. – Vol. 2. № 1.– PP. 90-101.

Zero-Drift Single-Supply Rail-to-Rail Input/Output Operational Amplifier AD8551/52/54. Data sheet. [Electronic resource]: www.analog.com.

General-Purpose CMOS Rail-to-Rail Amplifiers AD8541/42/44. Data sheet. [Electronic resource]: www.analog.com.

Sensors of electromagnetic radiation for biotechnical research / G.S. Tymchyk, V.I. Skytsyuk, M.A Weintraub, T.R. Klochko - K.: MP Lesya, 2004. - 64 p.

Applied laser medicine // H. Bermen, H. Muller. - M: Interexper, 1997.

Z.Yu. Gotra, R.L. Holyaka, S.S. Kulenko, V.E. Erashok. Controller of the temperature regime of thermo-anemometric flow sensors // Elektronika i svyaz. – 2009. – No. 2-3. - P.22-27.

Z.Yu. Gotra, R.L. Holyaka, S.V. Pavlov, S.S. Kulenko. Principles of electrothermal modeling of electronic circuits with dynamic self-heating of elements // Electronics. Bulletin of the Lviv Polytechnic National University. - 2009. - No. 646. - P.57-65. Z.Yu. Gotra, R.L. Holyaka, S.V. Pavlov, S.S. Kulenko. Microelectronic thermal flow sensors in biomedical research // Measuring and computing technology in technological processes. – 2008. – No. 2. – P. 122 – 128.

Z.Yu. Gotra, R.L. Holyaka, S.V. Pavlov, S.S. Kulenko, O.V. Manus Differential thermometer with high resolution // Technology and construction in electronic equipment. - 2009. - No. 6 (84). - P. 19 - 23.З.Ю.

Information Technology in Medical Diagnostics //Waldemar Wójcik, Andrzej Smolarz, July 11, 2017 by CRC Press - 210 Pages.

Mohamed Gad-el-Hak. Flow Control: Passive, Active, and Reactive Flow Management. – Cambridge University Press. 2000. – 421 p.

W. Wójcik, S. Pavlov, M. Kalimoldayev. Information Technology in Medical Diagnostics II. London: (2019). Taylor & Francis Group, CRC Press, Balkema book. – 336 Pages.

Highly linear Microelectronic Sensors Signal Converters Based on Push-Pull Amplifier Circuits / edited by Waldemar Wojcik and Sergii Pavlov, Monograph, (2022) NR 181, Lublin, Comitet Inzynierii Srodowiska PAN, 283 Pages. ISBN 978-83-63714-80-2.

Analog microcircuit technology of measuring and sensor devices / [ed. Z. Gotry, R. Holyaka]. — Lviv: Ed. State University "Lviv Polytechnic", 1999. — 364 p.

Sergii Pavlov, Oleg Avrunin, Oleksandr Hrushko and etc. System of three-dimensional human face images formation for plastic and reconstructive medicine // Teaching and subjects on bio-medical engineering Approaches and experiences from the BIOART-project Peter Arras and David Luengo (Eds.), 2021, Corresponding authors, Peter Arras and David Luengo. Printed by Acco cv, Leuven (Belgium). - 22 P. ISBN: 978-94-641-4245-7.

Vasyl V. Kukharchuk, Sergii V. Pavlov, Volodymyr S. Holodiuk, Valery E. Kryvonosov, Krzysztof Skorupski, Assel Mussabekova, and Gaini Karnakova. 2022. "Information Conversion in Measuring Channels with Optoelectronic Sensors" Sensors 22, no. 1: 271. https://doi.org/10.3390/s22010271

O.G. Avrunin, Y.V. Nosova, S.V. Pavlov, N.O Shushliapina, and etc. Research Active Posterior Rhinomanometry Tomography Method for Nasal Breathing Determining Violations. Sensors 2021, 21, 8508. doi: https://doi.org/10.3390/s21248508, https://www.mdpi.com/1424-8220/21/24/8508.

O.G. Avrunin, Y.V. Nosova, S.V. Pavlov, and etc. Possibilities of Automated Diagnostics of Odontogenic Sinusitis According to the Computer Tomography Data. Sensors 2021, 21, 1198. https://doi.org/10.3390/ s21041198.

Vasyl V. Kukharchuk, Sergii V. Pavlov, Samoil Sh. Katsyv, and etc. “Transient analysis in 1st order electrical circuits in violation of commutation laws”, PRZEGLĄD ELEKTROTECHNICZNY, ISSN 0033-2097, R. 97 NR 9/2021, p. 26-29, doi: https://doi.org/10.15199/48.2021.09.05.

Sensors of electric magnetic radiation for bioengineering research / G. S. Tymchyk; V. I. Skytsiuk, M. A. Waintraub, T. R. Klochko. – K. : S.E. Lesia, 2004. – 64 p.

O. V. Osadchuk Microelectronic frequency converters on the base of the transistor structures with negative resistance / O. V. Osadchuk. – Vinnytsia: UNIVERSUM- Vinnytsia, 2000. – 303 p.

ADuC824. MicroConverter, Dual-channel 16-/24-Bit ADCs with Embedded FLASH MCU.. Analog Devices, Inc. [Electronic resource]: http://www.analog.com.

Downloads

Abstract views: 173

Published

2023-01-20

How to Cite

[1]
S. . Pavlov, “Design features of thermal flow sensors for biomedical purposes ”, Опт-ел. інф-енерг. техн., vol. 44, no. 2, pp. 66–81, Jan. 2023.

Issue

Section

Biomedical Optical And Electronic Systems And Devices

Metrics

Downloads

Download data is not yet available.