Wyniki wyszukiwania - Biblioteka Nauki

1

Improving the accuracy of the NDIR-based CO2 sensor for breath analysis

100%

Prokopiuk A. , Bielecki Z. , Wojtas J.

Metrology and Measurement Systems

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2021

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tom Vol. 28, nr 4

803--812

EN

The paper presents an analysis and practical study of the temperature and pressure influence on a non-dispersive infrared (NDIR) sensor for measuring the concentration of carbon dioxide in human breath. This sensor is used for monitoring patients’ carbon dioxide (CO2) in the exhaled air. High precision and accuracy of CO2 concentration measurements are essential in air sampling systems for breath analysers. They, however, require an analysis of the influence of the human exhaled air pressure and temperature on the NDIR CO2 sensor. Therefore, analyses of the changes in concentration were carried out at a pressure from 986 mbar to 1027 mbar and a temperature from 20°C to 36°C. Finally, corresponding correction coefficients were determined which allow to reduce the relative uncertainty of CO2 sensor measurements results from 19% to below 5%.

2

Review of peak signal detection methods in nanosecond pulses monitoring

88%

Achtenberg K. , Mikołajczyk J. , Szabra D. , Prokopiuk A. , Bielecki Z.

Metrology and Measurement Systems

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2020

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tom Vol. 27, nr 2

203--218

EN

The paper is a review of analog and digital electronics dedicated to monitor nanosecond pulses. Choosing the optimal peak detector construction depends on many factors for example precision, complexity, or costs. The work shows some virtues and limitations of selected peak detection methods, for example standard peak detector with rectifier, sample and hold circuit with triggering units and ADC fast acquisition. However, the main attention is paid to problems of results from effective triggering signal for sample and hold operation. The obtained results allow for designing a peak detector construction as an alternative for costly and very complex fast acquisition systems based on ADC and FPGA technologies.

3

Peak detection unit for Free-Space-Optics receiver

88%

Achtenberg K. , Mikołajczyk J. , Szabra D. , Prokopiuk A. , Bielecki Z.

Metrology and Measurement Systems

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2019

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tom Vol. 26, nr 2

377--385

EN

The paper presents verification of a peak detection method cooperating with infrared radiation detector module applications. The work has been divided into parts including SPICE simulations and presentation of results obtained with the constructed prototype. The design of the peak detector dedicated to applications with very short pulses requires a different approach than that for standard solutions. It is mainly caused due to the ratio of pulse width and time period. In the described application this ratio is less than 10%. The paper shows testing of an analogue circuit which is capable to be inserted in these applications.

4

Optical Wireless Communications Operated at Long-Wave Infrared Radiation

75%

Mikolajczyk J. , Szabra D. , Prokopiuk A. , Achtenberg K. , Wojtas J. , Bielecki Z.

International Journal of Electronics and Telecommunications

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2020

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tom Vol. 66, No. 2

383--387

EN

This paper presents some construction analysis and test results of a Free Space Optics system operating at the wavelength of 9.35 μm. In the system, a quantum cascade laser and a photoreceiver with mercury cadmium telluride photodetectors were used. The main parameters of these elements were discussed taking into account a data link operation. It also provides to determine a data range for various weather conditions related to scattering and scintillation. The results of numerical analyses defined the properties of currently available FSO technologies working in the near infrared or in the short infrared range of spectrum versus the performances of the developed system. The operation of this system was verified in three different test environments. The obtained results may also contain important issues related to the practical application of any FSO system.

5

System laserowej transmisji danych w otwartej przestrzeni wykorzystujący okno transmisyjne 8-12 µm

75%

Mikołajczyk J. , Szabra D. , Prokopiuk A. , Achtenberg K. , Wojtas J. , Bielecki Z.

Elektronika : konstrukcje, technologie, zastosowania

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2019

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tom Vol. 60, nr 11

4--8

PL

W pracy przedstawiono analizę właściwości oraz opis konstrukcji laserowego systemu transmisji danych (ang. Free Space Optics – FSO). System ten stanowi unikalne rozwiązanie technologii FSO ze względu na zakres widmowy wykorzystywanego promieniowania, który pracuje w przedziale długości fal 8-12 μm. Opisano również zaimplementowane rozwiązania optomechaniczne, które zwiększyły zakres funkcjonalności tego urządzenia. Przedstawiono wyniki wstępnych badań transmisji sygnałów przy użyciu opracowanych głowic nadawczo- odbiorczych w warunkach rzeczywistych na odległości ok. 800 m. Na podstawie parametrów tych głowic przeprowadzono również analizę zasięgu opracowanego kanału FSO ze szczególnym uwzględnieniem zjawiska scyntylacji. Otrzymane wyniki pokazały, że zaprojektowana głowica nadawczo-odbiorcza może zostać zastosowana do transmisji danych na odległości do 2 km.

EN

The paper presents some performance analysis and description of the design Free Space Optical data link. This link is a unique device due to the used spectral range of radiation – the wavelength of 8-12 μm. The implemented optomechanical designs to increase its functionality were also described. The results of preliminary outdoor tests of the developed FSO transceiver at a distance ca. 800 m are presented. Based on its parameters, an analysis of the data link range in the case of scintillation was also performed. The obtained results showed that the designed FSO transceiver can be used for data transmission at the distances up to 2 km.

6

Wybrane zastosowania układów detekcji promieniowania optycznego w nowoczesnych systemach optoelektronicznych

63%

Mikołajczyk J. , Prokopiuk A. , Szabra D. , Pietrzyk B. , Nowakowski M. , Achtenberg K. , Bielecki Z. , Wojtas J.

Elektronika : konstrukcje, technologie, zastosowania

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2019

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tom Vol. 60, nr 1

16--22

PL

Artykuł dotyczy wybranych wyników prac badawczo-rozwojowych realizowanych w Zespole Detekcji Sygnałów Optycznych IOE WAT. Prace te dotyczą głównie fotoodbiorników na różne zakresy widmowe, ultraczułych analizatorów gazów do wykrywania materiałów wybuchowych i biomarkerów chorób w ludzkim oddechu oraz bezpiecznych łączy laserowych w otwartej przestrzeni. W pracy opisano przykładowe układy detekcji promieniowania optycznego z zakresu od ultrafioletu do dalszej podczerwieni, które powstały w ramach prac statutowych i projektów badawczo-rozwojowych. Szczególną uwagę zwrócono na aspekty aplikacyjne uzyskanych wyników wskazując jednocześnie właściwości technologii, dla których zostały one zaprojektowane.

EN

The article presents a brief description of research and development works carried out by Group of Optical Signal Detection at the Institute of Optoelectronics, MUT. These activities mainly concern the construction of photoreceivers operated in various spectral ranges, ultra-sensitive gas analyzers for detection of explosives and diseases biomarkers in human breath, and free space optical data link. Some exemplary detection systems of radiation spectra from ultraviolet to longer infrared, which were designed as a part of academic works or R&D projects, are described. Some practical aspects of these results for some optoelectronic technologies are discussed.