Parametric analysis of frequency-selective signal transducer impedance converter optoelectronic sensors

Authors

  • M. V. Vistak Lviv National Medical University. D.Galytskogo
  • R. L. Holiaka National University "Lviv Polytechnic"
  • Z. M. Mykytiuk National University "Lviv Polytechnic"

Keywords:

optoelectronic sensors, signal converters, parametric analysis

Abstract

The issues of further development of frequency-selective optoelectronic sensor’s signal converters are considered. The basis of the proposed solutions of signal converter is the impedance converter which provides the inductive nature of the impedance of the photosensitive sensor load circuit and, hence, the suppression of DC component of the photocurrent. On the basis of parametric analysis using SPICE models the possibility of resonance characteristics formation of selective signal converter’s on the falling band of the operational amplifier’s frequency characteristic.

Author Biographies

M. V. Vistak, Lviv National Medical University. D.Galytskogo

Cand. Sc. (Ph.-M.)., assistant professor of biophysics

R. L. Holiaka, National University "Lviv Polytechnic"

Professor electronic devices

Z. M. Mykytiuk, National University "Lviv Polytechnic"

Professor electronic devices

References

1. A Photodiode-Based Low-Cost Telemetric Lidar for the Continuous Monitoring of Urban Particulate Matter / M. D. Guasta, M. Baldi, F. Castagnoli. // Photodiodes — Communications, Bio-Sensings, Measurements and High-Energy Physics. Edited by Jin-Wei Shi. — 2011. — 284 P.
2. Оптические химические сенсоры (микро- и наносистемы) для анализа жидкостей /
С. Б. Саввин, В. В. Кузнецов, С. В. Шереметьев, А. В. Михайлова.// Рос. хим. ж.
(Ж. Рос. хим. об-ва им. Д.И. Менделеева). — 2008, т. LII. — № 2. C. 7—16.
3. CNY70. Reflective Optical Sensor with Transistor Output. Document Number: 83751. Vishay Semiconductors. — 2012. — 11 P. [Електронний ресурс] — Режим доступу : www.vishay.com.
4. Spreeta-R TSPR2KXY-R. Refractive Index Sensor. Product Bulletin. Texas Instruments Inc. — 2003. 2 P. [Електронний ресурс] — Режим доступу : www.spreeta.com.
5. Fritz Schuermeyer. Photometry and Radiometry. — 2000. CRC Press LLC. 39 P. [Електронний ресурс] — Режим доступу : http://www.engnetbase.com.
6. Кабацкий В. Н. Оптические сенсоры газов на основе полупроводниковых источников ИК-излучения // Технология и конструирование в электронной аппаратуре — 2008. — № 4 (76). С. 30—35.
7. Sets for the analysis of gases and liquids. Photodiode amplifier with TEC AMP24-10. IBSG Co. Ltd. — 2014. [Електронний ресурс] — Режим доступу : www.ibsg.ru.
8. Мікросхемотехніка. Підручник за ред. З. Ю. Готри / Гельжинський І. І., Голяка Р. Л.,
Готра З. Ю., Марусенкова Т. А. — Львів Ліга-прес. — 2015. — 492 с.
9. Generalized Gyrator Theory / R. Y. Barazarte, G. G. Gonzalez, M. Ehsani // IEEE Transactions on Power Electronics. — 2010. Vol. 25, No. 7. PP. 1832—1837.
10. Transimpedance amplifier with high sensitivity E909.07.ELMOS Semiconductor AG. Data Sheet. — 2014. [Електронний ресурс] — Режим доступу : http://www.elmos.com.
11. US Patent 06359517. Stephen F Colaco. Photodiode transimpedance circuit — 2002. [Електронний ресурс] — Режим доступу: http://patent.ipexl.com/US/06359517.html.
12. MICRO-CAP. Electronic Circuit Analysis Program. Spectrum Software. — 2014. — 8 p. [Електронний ресурс] — Режим доступу : http://www.spectrum-soft.com

Downloads

Abstract views: 303

Published

2015-07-20

How to Cite

[1]
M. V. Vistak, R. L. Holiaka, and Z. M. Mykytiuk, “Parametric analysis of frequency-selective signal transducer impedance converter optoelectronic sensors”, Опт-ел. інф-енерг. техн., vol. 29, no. 1, pp. 137–144, Jul. 2015.

Issue

Section

Optical And Optical-Electronic Sensors And Converters In Control And Environmental Monitoring Systems

Metrics

Downloads

Download data is not yet available.