HIGH SENSITIVITY 0.5 TO 19.5 GHZ RECEIVER WITH 1.1-GHZ INSTANTANEOUS BANDWIDTH

HIGH SENSITIVITY 0.5 TO 19.5 GHZ RECEIVER WITH 1.1-GHZ INSTANTANEOUS BANDWIDTH

A wideband high sensitivity microwave receiver operating within 0.5 to 19.5 GHz and providing a 1.1-GHz instantaneous bandwidth is described. The receiver shows a noise figure as low as 10 dB and the input third-order intercept point up to 10 dBm as well. Also, the receiver is characterized by a low...

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Datum:2015
Hauptverfasser: Volkov, V. A., Vavriv, D. M., Bulakh, E. V., Kravtsov, A. A.
Format: Artikel
Sprache:English
Veröffentlicht: Видавничий дім «Академперіодика» 2015
Schlagworte:
receiver
wideband
low-noise
microwave
Online Zugang:http://rpra-journal.org.ua/index.php/ra/article/view/1196
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Radio physics and radio astronomy
id rpra-journalorgua-article-1196
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institution Radio physics and radio astronomy
baseUrl_str
datestamp_date 2017-06-27T12:29:05Z
collection OJS
language English
topic receiver
wideband
low-noise
microwave
spellingShingle receiver
wideband
low-noise
microwave
Volkov, V. A.
Vavriv, D. M.
Bulakh, E. V.
Kravtsov, A. A.
HIGH SENSITIVITY 0.5 TO 19.5 GHZ RECEIVER WITH 1.1-GHZ INSTANTANEOUS BANDWIDTH
topic_facet receiver
wideband
low-noise
microwave
приемник
широкополосный
малошумящий
СВЧ
приймач
широкосмуговий
малошумлячий
НВЧ
format Article
author Volkov, V. A.
Vavriv, D. M.
Bulakh, E. V.
Kravtsov, A. A.
author_facet Volkov, V. A.
Vavriv, D. M.
Bulakh, E. V.
Kravtsov, A. A.
author_sort Volkov, V. A.
title HIGH SENSITIVITY 0.5 TO 19.5 GHZ RECEIVER WITH 1.1-GHZ INSTANTANEOUS BANDWIDTH
title_short HIGH SENSITIVITY 0.5 TO 19.5 GHZ RECEIVER WITH 1.1-GHZ INSTANTANEOUS BANDWIDTH
title_full HIGH SENSITIVITY 0.5 TO 19.5 GHZ RECEIVER WITH 1.1-GHZ INSTANTANEOUS BANDWIDTH
title_fullStr HIGH SENSITIVITY 0.5 TO 19.5 GHZ RECEIVER WITH 1.1-GHZ INSTANTANEOUS BANDWIDTH
title_full_unstemmed HIGH SENSITIVITY 0.5 TO 19.5 GHZ RECEIVER WITH 1.1-GHZ INSTANTANEOUS BANDWIDTH
title_sort high sensitivity 0.5 to 19.5 ghz receiver with 1.1-ghz instantaneous bandwidth
title_alt ВЫСОКОЧУВСТВИТЕЛЬНЫЙ ПРИЕМНИК ДИАПАЗОНА ЧАСТОТ 0.5–19.5 ГГЦ С МГНОВЕННОЙ ПОЛОСОЙ ПРИЕМА 1.1 ГГЦ
ВИСОКОЧУТЛИВИЙ ПРИЙМАЧ ДІАПАЗОНУ ЧАСТОТ 0.5–19.5 ГГЦ З МИТТЄВОЮ СМУГОЮ ПРИЙОМУ 1.1 ГГЦ
description A wideband high sensitivity microwave receiver operating within 0.5 to 19.5 GHz and providing a 1.1-GHz instantaneous bandwidth is described. The receiver shows a noise figure as low as 10 dB and the input third-order intercept point up to 10 dBm as well. Also, the receiver is characterized by a low spurious response and extremely low residual phase noise, too. Essential design principles of the receiver are given and discussed.Keywords: receiver, wideband, low-noise, microwaveManuscript submitted 09.09.2014Radio phys. radio astron. 2014, 19(4): 375-380 REFERENCES1. NERI, F., 2006. Introduction to Electronic Defense Systems, 2nd ed. Artech House. 2. TSUI, J., 2005. Microwave Receivers With Electronic Warfare Applications. Corrected Reprint, Raleigh, NC: SciTech Publishing. 3. Multi-Carrier and Spread Spectrum Systems: From OFDM and MC-CDMA to LTE and WiMAX, 2nd Ed. – John Wiley & Sons Inc., 2008. 4. GOLDSMITH, A., 2005. Wireless Communications. New York: Cambridge University Press. 5. REMBOVSKY, A., ASHIKHMIN, A., KOZMIN, V., and SMOLSKIY, S. M., 2009. Radio Monitoring. Dordrecht, Heidelberg, London, New York: Springer. 6. SIMON, M., OMURA, J., SCHOLTZ, R., and LEVITT, B., 2001. Spread Spectrum Communications Handbook. New York, Chicago, San Francisco, Lisbon, London, Madrid, Mexico City, Milan, New Delhi, San Juan, Seoul, Singapore, Sydney, Toronto: McGraw-Hill Professional. 7. WICKS, M. C., MOKOLE, E. L., BLUNT, S. D., SCHNEIBLE, R. S., and AMUSO, V. J., 2011. Principles of Waveform Diversity and Design. Raleigh, NC: SciTech Publishing. 8. BEZVESILNIY, O. O., VAVRIV, D. M., VINOGRADOV, V. V., VOLKOV, V. A., and KOZHIN, R. V., 2012.Synthetic Aperture Radar Systems for Light-Weight Aircrafts. Uspehi sovremennoy radioelektroniki. no.12, pp. 53–61, (in Russian). 9. RUDERSDORFER, R., 2014. Radio Receiver Technology: Principles, Architectures and Applications. John Wiley & Sons Inc. 10. DRENTEA, C., 2010. Modern Communications Receiver Design and Technology. Artech House. 11. MARKI, F. and MARKI, C. T3 Mixer Primer, App. Note. Morgan Hill, CA: Marki Microwave. 12. TEPPATI, V., FERRERO, A., and SAYED, M., 2013. editors, Modern RF and Microwave Measurement. Techniques. New York: Cambridge University Press.       
publisher Видавничий дім «Академперіодика»
publishDate 2015
url http://rpra-journal.org.ua/index.php/ra/article/view/1196
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spelling rpra-journalorgua-article-11962017-06-27T12:29:05Z HIGH SENSITIVITY 0.5 TO 19.5 GHZ RECEIVER WITH 1.1-GHZ INSTANTANEOUS BANDWIDTH ВЫСОКОЧУВСТВИТЕЛЬНЫЙ ПРИЕМНИК ДИАПАЗОНА ЧАСТОТ 0.5–19.5 ГГЦ С МГНОВЕННОЙ ПОЛОСОЙ ПРИЕМА 1.1 ГГЦ ВИСОКОЧУТЛИВИЙ ПРИЙМАЧ ДІАПАЗОНУ ЧАСТОТ 0.5–19.5 ГГЦ З МИТТЄВОЮ СМУГОЮ ПРИЙОМУ 1.1 ГГЦ Volkov, V. A. Vavriv, D. M. Bulakh, E. V. Kravtsov, A. A. receiver; wideband; low-noise; microwave приемник; широкополосный; малошумящий; СВЧ приймач; широкосмуговий; малошумлячий; НВЧ A wideband high sensitivity microwave receiver operating within 0.5 to 19.5 GHz and providing a 1.1-GHz instantaneous bandwidth is described. The receiver shows a noise figure as low as 10 dB and the input third-order intercept point up to 10 dBm as well. Also, the receiver is characterized by a low spurious response and extremely low residual phase noise, too. Essential design principles of the receiver are given and discussed.Keywords: receiver, wideband, low-noise, microwaveManuscript submitted 09.09.2014Radio phys. radio astron. 2014, 19(4): 375-380 REFERENCES1. NERI, F., 2006. Introduction to Electronic Defense Systems, 2nd ed. Artech House. 2. TSUI, J., 2005. Microwave Receivers With Electronic Warfare Applications. Corrected Reprint, Raleigh, NC: SciTech Publishing. 3. Multi-Carrier and Spread Spectrum Systems: From OFDM and MC-CDMA to LTE and WiMAX, 2nd Ed. – John Wiley & Sons Inc., 2008. 4. GOLDSMITH, A., 2005. Wireless Communications. New York: Cambridge University Press. 5. REMBOVSKY, A., ASHIKHMIN, A., KOZMIN, V., and SMOLSKIY, S. M., 2009. Radio Monitoring. Dordrecht, Heidelberg, London, New York: Springer. 6. SIMON, M., OMURA, J., SCHOLTZ, R., and LEVITT, B., 2001. Spread Spectrum Communications Handbook. New York, Chicago, San Francisco, Lisbon, London, Madrid, Mexico City, Milan, New Delhi, San Juan, Seoul, Singapore, Sydney, Toronto: McGraw-Hill Professional. 7. WICKS, M. C., MOKOLE, E. L., BLUNT, S. D., SCHNEIBLE, R. S., and AMUSO, V. J., 2011. Principles of Waveform Diversity and Design. Raleigh, NC: SciTech Publishing. 8. BEZVESILNIY, O. O., VAVRIV, D. M., VINOGRADOV, V. V., VOLKOV, V. A., and KOZHIN, R. V., 2012.Synthetic Aperture Radar Systems for Light-Weight Aircrafts. Uspehi sovremennoy radioelektroniki. no.12, pp. 53–61, (in Russian). 9. RUDERSDORFER, R., 2014. Radio Receiver Technology: Principles, Architectures and Applications. John Wiley & Sons Inc. 10. DRENTEA, C., 2010. Modern Communications Receiver Design and Technology. Artech House. 11. MARKI, F. and MARKI, C. T3 Mixer Primer, App. Note. Morgan Hill, CA: Marki Microwave. 12. TEPPATI, V., FERRERO, A., and SAYED, M., 2013. editors, Modern RF and Microwave Measurement. Techniques. New York: Cambridge University Press.        Описывается широкополосный высокочувствительный свервысокочастотный приемник, способный принимать сигналы в диапазоне 0.5÷19 ГГц с мгновенной полосой 1.1 ГГц. Приемник имеет коэффициент шума не превышающий 10 дБ и точку интермодуляции 3-го порядка по входу, достигающую +10 дБм. Приемник отличается также малым уровнем внутренних паразитных сигналов и крайне низкими значениями внутренних фазовых шумов. Приведены и обсуждаются основные принципы построения приемника.Ключевые слова: приемник, широкополосный, малошумящий, СВЧСтатья поступила в редакцию 09.09.2014Radio phys. radio astron. 2014, 19(4): 375-380СПИСОК ЛИТЕРАТУРЫ 1. Neri F. Introduction to Electronic Defense Systems, 2nd ed. – Artech House, 2006.2. Tsui J. Microwave Receivers With Electronic Warfare Applications. Corrected Reprint. – Raleigh, NC: SciTech Publishing, 2005.3. Multi-Carrier and Spread Spectrum Systems: From OFDM and MC-CDMA to LTE and WiMAX, 2nd Ed. – JohnWiley & Sons Inc., 2008.4. Goldsmith A. Wireless Communications. – New York: Cambridge University Press, 2005.5. Rembovsky A., Ashikhmin A., Kozmin V., and SmolskiyS. M. Radio Monitoring. – Dordrecht, Heidelberg, London, New York: Springer, 2009.6. Simon M., Omura J., Scholtz R., and Levitt B. SpreadSpectrum Communications Handbook. – New York, Chicago, San Francisco, Lisbon, London, Madrid, Mexico City, Milan, New Delhi, San Juan, Seoul, Singapore, Sydney, Toronto: McGraw-Hill Professional, 2001.7. Wicks M. C., Mokole E. L., Blunt S. D., Schneible R. S., and Amuso V. J. Principles of Waveform Diversity andDesign. – Raleigh, NC: Sci Tech Publishing, 2011.8. Bezvesilniy O. O., Vavriv D. M., Vinogradov V. V., Volkov V. A., and Kozhin R. V. Synthetic Aperture Radar Systems for Light-Weight Aircrafts // Uspehi sovremennoy radioelektroniki. – 2012. – No. 12. – P. 53–61, (in Russian).9. Rudersdorfer R. Radio Receiver Technology: Principles, Architectures and Applications. – John Wiley & Sons Inc., 2014.10. Drentea C. Modern Communications Receiver Design and Technology. – Artech House, 2010.11. Marki F. and Marki C. T3 Mixer Primer, App. Note. – Morgan Hill, CA: Marki Microwave.12. Teppati V., Ferrero A., and Sayed M., editors, Modern RF and Microwave Measurement Techniques. – New York: Cambridge University Press, 2013.    Описується широкосмуговий високочутливий надвисокочастотний приймач сигналів у діапазоні 0.5÷19 ГГц з миттєвою смугою 1.1 ГГц. Приймач має коефіцієнт шуму не вище 10 дБ та точку інтермодуляції 3-го порядку на вході, що досягає +10 дБм. Приймач характеризується також малимрівнем внутрішніх паразитних сигналів та вкрай низькими фазовими шумами. Наводяться та дискутуються основні принципи побудови приймача.Ключові слова: приймач, широкосмуговий, малошумлячий, НВЧСтаття надійшла до редакції 09.09.2014Radio phys. radio astron. 2014, 19(4): 375-380 СПИСОК ЛІТЕРАТУРИ1. Neri F. Introduction to Electronic Defense Systems, 2nd ed. – Artech House, 2006.2. Tsui J. Microwave Receivers With Electronic Warfare Applications. Corrected Reprint. – Raleigh, NC: SciTech Publishing, 2005.3. Multi-Carrier and Spread Spectrum Systems: From OFDM and MC-CDMA to LTE and WiMAX, 2nd Ed. – JohnWiley & Sons Inc., 2008.4. Goldsmith A. Wireless Communications. – New York: Cambridge University Press, 2005.5. Rembovsky A., Ashikhmin A., Kozmin V., and SmolskiyS. M. Radio Monitoring. – Dordrecht, Heidelberg, London, New York: Springer, 2009.6. Simon M., Omura J., Scholtz R., and Levitt B. SpreadSpectrum Communications Handbook. – New York, Chicago, San Francisco, Lisbon, London, Madrid, Mexico City, Milan, New Delhi, San Juan, Seoul, Singapore, Sydney, Toronto: McGraw-Hill Professional, 2001.7. Wicks M. C., Mokole E. L., Blunt S. D., Schneible R. S., and Amuso V. J. Principles of Waveform Diversity andDesign. – Raleigh, NC: Sci Tech Publishing, 2011.8. Bezvesilniy O. O., Vavriv D. M., Vinogradov V. V., Volkov V. A., and Kozhin R. V. Synthetic Aperture Radar Systems for Light-Weight Aircrafts // Uspehi sovremennoy radioelektroniki. – 2012. – No. 12. – P. 53–61, (in Russian).9. Rudersdorfer R. Radio Receiver Technology: Principles, Architectures and Applications. – John Wiley & Sons Inc., 2014.10. Drentea C. Modern Communications Receiver Design and Technology. – Artech House, 2010.11. Marki F. and Marki C. T3 Mixer Primer, App. Note. – Morgan Hill, CA: Marki Microwave.12. Teppati V., Ferrero A., and Sayed M., editors, Modern RF and Microwave Measurement Techniques. – New York: Cambridge University Press, 2013.   Видавничий дім «Академперіодика» 2015-01-13 Article Article application/pdf http://rpra-journal.org.ua/index.php/ra/article/view/1196 10.15407/rpra19.04.375 РАДИОФИЗИКА И РАДИОАСТРОНОМИЯ; Vol 19, No 4 (2014); 375 RADIO PHYSICS AND RADIO ASTRONOMY; Vol 19, No 4 (2014); 375 РАДІОФІЗИКА І РАДІОАСТРОНОМІЯ; Vol 19, No 4 (2014); 375 2415-7007 1027-9636 10.15407/rpra19.04 en http://rpra-journal.org.ua/index.php/ra/article/view/1196/832 Copyright (c) 2014 RADIO PHYSICS AND RADIO ASTRONOMY

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