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Peak detection unit for Free-Space-Optics receiver

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
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.
Rocznik
Strony
377--385
Opis fizyczny
Bibliogr. 22 poz., rys., wykr.
Twórcy
  • Military University of Technology, Institute of Optoelectronics, Gen. W. Urbanowicza 2, 00-908 Warsaw, Poland
  • Military University of Technology, Institute of Optoelectronics, Gen. W. Urbanowicza 2, 00-908 Warsaw, Poland
  • Military University of Technology, Institute of Optoelectronics, Gen. W. Urbanowicza 2, 00-908 Warsaw, Poland
  • Military University of Technology, Institute of Optoelectronics, Gen. W. Urbanowicza 2, 00-908 Warsaw, Poland
  • Military University of Technology, Institute of Optoelectronics, Gen. W. Urbanowicza 2, 00-908 Warsaw, Poland
Bibliografia
  • [1] Rogalski, A., Bielecki, Z., Mikolajczyk, J. (2017). Detection of optical radiation. Handbook of Optoelectronics, Second Edition: Concepts, Devices, and Techniques, 1, 65-124.
  • [2] Mikolajczyk, J., Bielecki, Z., Stacewicz, T., Smulko, J., Wojtas, J., Szabra, D., Lentka, Ł., Prokopiuk, A., Magryta, P. (2010). Detection of gaseous compounds with different techniques. Metrol. Meas. Syst., 17(4), 537-547.
  • [3] Wojtas, J., Bielecki, Z., Stacewicz, T., Mikolajczyk, J., Medrzycki, R., Rutecka, B. (2011). Application of quantum cascade lasers in nitric oxide and nitrous oxide detection. Acta Phys. Pol. A, 120, 794-797.
  • [4] Wojtas, J., Mikolajczyk, J., Nowakowski, M., Rutecka, B., Medrzycki, R., Bielecki, Z. (2011). Applying CEAS method to UV, VIS, and IR spectroscopy sensors. Bull. Polish Acad. Sci. Tech. Sci., 59, 415-418.
  • [5] Mikolajczyk, J., Bielecki, Z., Bugajski, M., Piotrowski, J., Wojtas, J., Gawron, W., Szabra, D. (2010). Analysis of free-space optics development. Metrol. Meas. Syst., 17(4), 537-547.
  • [6] Al-zubaidi, N.S., Al-dahash, J.A., Jassim, J.M., Ali, R.N. (2009). Optical Repeater for free-space laser communication System. J. kerbala Univ., 7, 178-184.
  • [7] Juarez, J.C., Sluz, J.E., Young, D.W. (2011). Optical Automatic Gain Controller for High-Bandwidth Free-Space Optical Communication Links. Appl. lasers Sens. Free Sp. Commun., 7-9.
  • [8] Barna, A., Bohus, J. (2015). Active stabilization of the beam pointing of a high - power KrFlaser system. Metrol. Meas. Syst., 22(2), 165-172.
  • [9] Rogalski, A. (2011). Recent progress in infrared detector technologies. Infrared Phys. Technol., 54, 136-154.
  • [10] Brillant, A. (2008). Laser Power and Temperature Control Loops. In Digital and Analog Fiber Optic Communications for CATV and FTTx Applications, 591-625.
  • [11] Henniger, H., Wilfert, O. (2015). An Introduction to Free-space Optical Communications. An Introduction to Free-space Optical Communications.
  • [12] Takahashi, H., Kodama, S., Kawarabayashi, J., Iguchi, T., Nakazawa, M. (1993). A new pulse height analysis system based on fast ADC digitizing technique. IEEE Trans. Nucl. Sci., 40, 626-629.
  • [13] Andrews, L.C. (2004). Field Guide to Atmospheric Optics.
  • [14] Sousa, I., Queluz, M.P., Rodrigues, A. (2017). An Efficient Visibility Prediction Framework for Free-Space Optical Systems. Wirel. Pers. Commun., 96, 3483-3498.
  • [15] Singh, A., Dubey, S.K. (2013). Design and Simulation of FPGA based Digital System for Peak Detection and Counting., 3, 804-807.
  • [16] Feng, L., Zhang, Q., Liu, X., Zuo, L., Yang, A. (2014). A method of peak detecting for nanosecond pulse in optical performance monitoring system. China Commun., 11, 78-82.
  • [17] Wright, J. (1992). Peak Detectors Gain in Speed and Performance. Appl. Note.
  • [18] Barna, A., Földes, I.B., Gingl, Z., Mingesz, R. (2013). Compact energy measuring system for short pulse lasers. Metrol. Meas. Syst., 20, 183-190.
  • [19] Krehlik, P., Śliwczyński, Ł. (2002). High-speed peak detector uses ECL comparator. Design Ideas-September.
  • [20] National Instruments. (2010). NI Multisim Fundamentals.
  • [21] MAX9600.Dual ECL and Dual/Quad PECL, 500ps, Ultra-High-Speed Comparators. Datasheet for Maxim. (2002).
  • [22] Dragos, D. (2011). AN1353 Op Amp Rectifiers, Peak Detectors and Clamps. Technology, 1-16.
Uwagi
EN
1. This research was supported by The Polish National Centre for Research and Development, grant DOB-BIO8/01/01/2016.
PL
2. Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e812b159-558e-4c5e-8681-c29f5e21ba6d
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