WIDEBAND DIGITAL RECEIVER/PULSE ANALYZER

The experience of development of a digital receiver/pulse analyzer is described. The measuring set has a modular structure and consists of three functionally independent systems: Radio Frequency Tuner, Digital Pulse Analyzer, and Data Record and Storage System. The ultra-wideband Tuner operates with...

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Дата:	2015
Автори:	Vynogradov, V. V., Volkov, V. A., Kozhyn, R. V., Sosnytskiy, S. V., Vavriv, D. M., Vasilyev, O. Y., Bulakh, E. V., Usik, P. V., Kuzin, A. I.
Формат:	Стаття
Мова:	rus
Опубліковано:	Видавничий дім «Академперіодика» 2015
Теми:	wideband digital receiver digital signal processing time-and-frequency analysis широкополосный приемник цифровая обработка сигналов частотно-временной анализ широкосмуговий приймач цифрова обробка сигналів частотно-часовий аналіз
Онлайн доступ:	http://rpra-journal.org.ua/index.php/ra/article/view/1212
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Назва журналу:	Radio physics and radio astronomy

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Radio physics and radio astronomy

id	oai:ri.kharkov.ua:article-1212
record_format	ojs
institution	Radio physics and radio astronomy
collection	OJS
language	rus
topic	wideband digital receiver digital signal processing time-and-frequency analysis широкополосный приемник цифровая обработка сигналов частотно-временной анализ широкосмуговий приймач цифрова обробка сигналів частотно-часовий аналіз
spellingShingle	wideband digital receiver digital signal processing time-and-frequency analysis широкополосный приемник цифровая обработка сигналов частотно-временной анализ широкосмуговий приймач цифрова обробка сигналів частотно-часовий аналіз Vynogradov, V. V. Volkov, V. A. Kozhyn, R. V. Sosnytskiy, S. V. Vavriv, D. M. Vasilyev, O. Y. Bulakh, E. V. Usik, P. V. Kuzin, A. I. WIDEBAND DIGITAL RECEIVER/PULSE ANALYZER
topic_facet	wideband digital receiver digital signal processing time-and-frequency analysis широкополосный приемник цифровая обработка сигналов частотно-временной анализ широкосмуговий приймач цифрова обробка сигналів частотно-часовий аналіз
format	Article
author	Vynogradov, V. V. Volkov, V. A. Kozhyn, R. V. Sosnytskiy, S. V. Vavriv, D. M. Vasilyev, O. Y. Bulakh, E. V. Usik, P. V. Kuzin, A. I.
author_facet	Vynogradov, V. V. Volkov, V. A. Kozhyn, R. V. Sosnytskiy, S. V. Vavriv, D. M. Vasilyev, O. Y. Bulakh, E. V. Usik, P. V. Kuzin, A. I.
author_sort	Vynogradov, V. V.
title	WIDEBAND DIGITAL RECEIVER/PULSE ANALYZER
title_short	WIDEBAND DIGITAL RECEIVER/PULSE ANALYZER
title_full	WIDEBAND DIGITAL RECEIVER/PULSE ANALYZER
title_fullStr	WIDEBAND DIGITAL RECEIVER/PULSE ANALYZER
title_full_unstemmed	WIDEBAND DIGITAL RECEIVER/PULSE ANALYZER
title_sort	wideband digital receiver/pulse analyzer
title_alt	ШИРОКОПОЛОСНЫЙ ЦИФРОВОЙ ПРИЕМНИК-АНАЛИЗАТОР ИМПУЛЬСОВ ШИРОКОСМУГОВИЙ ЦИФРОВИЙ ПРИЙМАЧ-АНАЛІЗАТОР ІМПУЛЬСІВ
description	The experience of development of a digital receiver/pulse analyzer is described. The measuring set has a modular structure and consists of three functionally independent systems: Radio Frequency Tuner, Digital Pulse Analyzer, and Data Record and Storage System. The ultra-wideband Tuner operates within 0.4 to 18 GHz. The high performance Pulse Analyzer detects up to 2 million pulses per second in real time. The Data Recording System is capable of recording raw data and results of processing for as long as 40 min at the rate of up to 3 GB/s. This measuring set is perfectly suitable for usage in radiolocation, radioastronomy, spectroscopy, in the systems for radioemission monitoring and in within the measuring-calibrating equipment.Key words: wideband digital receiver, digital signal processing, time-and-frequency analysisManuscript submitted 17.04.2015Radio phys. radio astron. 2015, 20(2): 168-179REFERENCES1. 2006. Russia's Arms and Technologies XXI Encyclopedia: Volume XIII, Control, Communication and Radio Electronic Warfare Systems. Moscow. Russia: Publ. House Arms and Technologies. 2. TSUI, J. B., 1986. Microwave Receivers with Electronic Warfare Applications. New York: Wiley-Interscience. 3. RYABOV, V. B., VAVRIV, D. M., ZARKA, P., RYABOV, B. P., KOZHIN, R. V., VINOGRADOV, V. V. and DENIS, L., 2010. Alow-noise, high-dynamic-range, digital receiver for radio astronomy applications: an efficient solution for observing radio-bursts from Jupiter, the Sun, pulsars, and other astrophysical plasmas below 30 MHz. Astron. Astrophys. vol. 510, id. A16. DOI: https://doi.org/10.1051/0004-6361/200913335 4. KOZHIN, R. V., VINOGRADOV, V. V. and VAVRIV, D. M., 2007. Lownoise, high dynamic range digital receiver/spectrometer for radio astronomy applications. In: Proceedings of the 6-th Int. Symp. MSMW'07. Kharkiv, Ukraine, June 25-30, 2007, pp.736–738. 5. NAMGOONG, W., 2003. Channelized Digital Ultrawideband Receive. IEEE Trans. Wireless Commun. vol. 2, no. 3, pp. 502–510. DOI: https://doi.org/10.1109/TWC.2003.811177 6. VASILYEV, O. Y., KUZIN, A. I., KRAVTSOV, A. A., BULAKH, E. V., VINOGRADOV V. V. and VAVRIV, D. M., 2014. Multifunctional Digital Receiver-Spectrometer. Radio Phys. Radio Astron. – vol. 19, no. 3, pp. 276–289 (in Russian). 7. ZAHIRNIAK, D. R., SHARPIN, D. L. and FIELDS, T. W., 1998. A Hardware-Efficient, Multirate, Digital Channelized Receiver Architecture. IEEE Trans. Aerosp. Electron. Syst. vol. 34, no. 1, pp. 137–152. DOI: https://doi.org/10.1109/7.640270 8. LOPEZ-RISUENO, G., GRAJAL, J. and SANZ-OSORIO, A., 2005. DigitalChannelized Receiver Based on Time-Frequency Analysis for Signal Interception. IEEE Tran. Aerosp. Electron. Syst. vol. 41, no. 3, pp. 879–898. DOI: https://doi.org/10.1109/TAES.2005.1541437 9. VOLKOV, V. A., VAVRIV, D. M., BULAKH, E. V. and KRAVTSOV, A. A. , 2014. High sensitivity 0.5 to 19.5 GHz receiver with 1.1-GHz instantaneous bandwidth. Radio Phys. Radio Astron. vol. 19, no. 4, pp. 375–380. 10. V VOLKOV, V. A., VAVRIV, D. M., BULAKH E., V. and KRAVTSOV, A. A., 2014. Broadband Low-Noise Receiver Front-End with Ultrawide Bandwidth. In: Proceedings of the 20th International Conference on Microwaves, Radar and Wireless Communications (MIKON 2014). Gdansk, Poland, 16-18 June, 2014, vol. 2, pp. 675–678. DOI: https://doi.org/10.1109/MIKON.2014.6899983 11. KENYON, T., 2002. High Performance Data Network Design: Design Techniques and Tools.USA: Digital Press. 12. PLAVEC, F., FORT, B., VRANESIC, Z. G. and BROWN, S. D., 2005. Experiences with Soft-Core Processor Design. In: Proceedings of the 19th IEEE International Parallel and Distributed Processing Symposium (IPDPS'05). Denver, Co, USA, April 3-8, 2005, pp. 167b. DOI: https://doi.org/10.1109/ipdps.2005.209 13. DURAN, B. S. and ODELL P. L., 1974. Claster Analysis. A Survey. Berlin – Heildelberg -New York: Springer-Verlag 14. CARPENTIERI, E. and CUOMO, S., 2008. An adaptive threshold algorithm for detection of pulse radar signals. Radar Conference, RADAR '08, IEEE. Rome, Italy, 26-30 May 2008. DOI: https://doi.org/10.1109/RADAR.2008.4720754 15. ALY, O. A. M., OMAR, A. S., and ELSHERBENY, A. Z., 2006. Detection and localization of RF radar pulses in noise environments using wavelet packet transform and higher order statistics. Prog. Electromagn. Res. vol. 58. pp. 301–317. DOI: https://doi.org/10.2528/PIER05070204
publisher	Видавничий дім «Академперіодика»
publishDate	2015
url	http://rpra-journal.org.ua/index.php/ra/article/view/1212
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spelling	oai:ri.kharkov.ua:article-12122017-05-12T11:56:19Z WIDEBAND DIGITAL RECEIVER/PULSE ANALYZER ШИРОКОПОЛОСНЫЙ ЦИФРОВОЙ ПРИЕМНИК-АНАЛИЗАТОР ИМПУЛЬСОВ ШИРОКОСМУГОВИЙ ЦИФРОВИЙ ПРИЙМАЧ-АНАЛІЗАТОР ІМПУЛЬСІВ Vynogradov, V. V. Volkov, V. A. Kozhyn, R. V. Sosnytskiy, S. V. Vavriv, D. M. Vasilyev, O. Y. Bulakh, E. V. Usik, P. V. Kuzin, A. I. wideband digital receiver; digital signal processing; time-and-frequency analysis широкополосный приемник; цифровая обработка сигналов; частотно-временной анализ широкосмуговий приймач; цифрова обробка сигналів; частотно-часовий аналіз The experience of development of a digital receiver/pulse analyzer is described. The measuring set has a modular structure and consists of three functionally independent systems: Radio Frequency Tuner, Digital Pulse Analyzer, and Data Record and Storage System. The ultra-wideband Tuner operates within 0.4 to 18 GHz. The high performance Pulse Analyzer detects up to 2 million pulses per second in real time. The Data Recording System is capable of recording raw data and results of processing for as long as 40 min at the rate of up to 3 GB/s. This measuring set is perfectly suitable for usage in radiolocation, radioastronomy, spectroscopy, in the systems for radioemission monitoring and in within the measuring-calibrating equipment.Key words: wideband digital receiver, digital signal processing, time-and-frequency analysisManuscript submitted 17.04.2015Radio phys. radio astron. 2015, 20(2): 168-179REFERENCES1. 2006. Russia's Arms and Technologies XXI Encyclopedia: Volume XIII, Control, Communication and Radio Electronic Warfare Systems. Moscow. Russia: Publ. House Arms and Technologies. 2. TSUI, J. B., 1986. Microwave Receivers with Electronic Warfare Applications. New York: Wiley-Interscience. 3. RYABOV, V. B., VAVRIV, D. M., ZARKA, P., RYABOV, B. P., KOZHIN, R. V., VINOGRADOV, V. V. and DENIS, L., 2010. Alow-noise, high-dynamic-range, digital receiver for radio astronomy applications: an efficient solution for observing radio-bursts from Jupiter, the Sun, pulsars, and other astrophysical plasmas below 30 MHz. Astron. Astrophys. vol. 510, id. A16. DOI: https://doi.org/10.1051/0004-6361/200913335 4. KOZHIN, R. V., VINOGRADOV, V. V. and VAVRIV, D. M., 2007. Lownoise, high dynamic range digital receiver/spectrometer for radio astronomy applications. In: Proceedings of the 6-th Int. Symp. MSMW'07. Kharkiv, Ukraine, June 25-30, 2007, pp.736–738. 5. NAMGOONG, W., 2003. Channelized Digital Ultrawideband Receive. IEEE Trans. Wireless Commun. vol. 2, no. 3, pp. 502–510. DOI: https://doi.org/10.1109/TWC.2003.811177 6. VASILYEV, O. Y., KUZIN, A. I., KRAVTSOV, A. A., BULAKH, E. V., VINOGRADOV V. V. and VAVRIV, D. M., 2014. Multifunctional Digital Receiver-Spectrometer. Radio Phys. Radio Astron. – vol. 19, no. 3, pp. 276–289 (in Russian). 7. ZAHIRNIAK, D. R., SHARPIN, D. L. and FIELDS, T. W., 1998. A Hardware-Efficient, Multirate, Digital Channelized Receiver Architecture. IEEE Trans. Aerosp. Electron. Syst. vol. 34, no. 1, pp. 137–152. DOI: https://doi.org/10.1109/7.640270 8. LOPEZ-RISUENO, G., GRAJAL, J. and SANZ-OSORIO, A., 2005. DigitalChannelized Receiver Based on Time-Frequency Analysis for Signal Interception. IEEE Tran. Aerosp. Electron. Syst. vol. 41, no. 3, pp. 879–898. DOI: https://doi.org/10.1109/TAES.2005.1541437 9. VOLKOV, V. A., VAVRIV, D. M., BULAKH, E. V. and KRAVTSOV, A. A. , 2014. High sensitivity 0.5 to 19.5 GHz receiver with 1.1-GHz instantaneous bandwidth. Radio Phys. Radio Astron. vol. 19, no. 4, pp. 375–380. 10. V VOLKOV, V. A., VAVRIV, D. M., BULAKH E., V. and KRAVTSOV, A. A., 2014. Broadband Low-Noise Receiver Front-End with Ultrawide Bandwidth. In: Proceedings of the 20th International Conference on Microwaves, Radar and Wireless Communications (MIKON 2014). Gdansk, Poland, 16-18 June, 2014, vol. 2, pp. 675–678. DOI: https://doi.org/10.1109/MIKON.2014.6899983 11. KENYON, T., 2002. High Performance Data Network Design: Design Techniques and Tools.USA: Digital Press. 12. PLAVEC, F., FORT, B., VRANESIC, Z. G. and BROWN, S. D., 2005. Experiences with Soft-Core Processor Design. In: Proceedings of the 19th IEEE International Parallel and Distributed Processing Symposium (IPDPS'05). Denver, Co, USA, April 3-8, 2005, pp. 167b. DOI: https://doi.org/10.1109/ipdps.2005.209 13. DURAN, B. S. and ODELL P. L., 1974. Claster Analysis. A Survey. Berlin – Heildelberg -New York: Springer-Verlag 14. CARPENTIERI, E. and CUOMO, S., 2008. An adaptive threshold algorithm for detection of pulse radar signals. Radar Conference, RADAR '08, IEEE. Rome, Italy, 26-30 May 2008. DOI: https://doi.org/10.1109/RADAR.2008.4720754 15. ALY, O. A. M., OMAR, A. S., and ELSHERBENY, A. Z., 2006. Detection and localization of RF radar pulses in noise environments using wavelet packet transform and higher order statistics. Prog. Electromagn. Res. vol. 58. pp. 301–317. DOI: https://doi.org/10.2528/PIER05070204 УДК 621.396.96В статье описан опыт разработки цифрового приемника-анализатора импульсов. Измерительный комплекс имеет модульную структуру и состоит из трех функционально езависимых подсистем: радиочастотного тюнера, цифрового нализатора импульсов и системы записи и хранения данных. Сверхширокополосный тюнер охватывает диапазон частот от 0.4 до 18 ГГц. Высокопроизводительный анализатор импульсов регистрирует до 2 миллионов импульсов в секунду в реальном времени. Система записи способна записывать в течение 40 мин необработанные данные и результаты обработки на скорости до 3 ГБ/с. Данный комплекс идеально подходит для использования в радиолокации, радиоастрономии, спектроскопии, а так же в системах мониторинга радиоэфира и в измерительно-калибровочной аппаратуре.Ключевые слова: широкополосный приемник, цифровая обработка сигналов, частотно-временной анализСтатья поступила в редакцию 17.04.2015Radio phys. radio astron. 2015, 20(2): 168-179СПИСОК ЛИТЕРАТУРЫ1. Russia’s Arms and Technologies XXI Encyclopedia: Volume XIII, Control, Communication and Radio Electronic Warfare Systems. – Moscow: Publishing House Arms and Technologies, 2006. – 696 p.2. Tsui J. B. Microwave Receivers with Electronic Warfare Applications – New York^ Wiley-Interscience, 1986. – 460 p.3. Ryabov V. B., Vavriv D. M., Zarka P., Ryabov B. P., Kozhin R. V., Vinogradov V. V., and Denis L. A low-noise, high-dynamic-range, digital receiver for radio astronomy applications: an efficient solution for observing radio-bursts from Jupiter, the Sun, pulsars, and other astrophysical plasmas below 30 MHz // Astron. Astrophys. – 2010. – Vol. 510. – id. A16. – DOI: 10.1051/0004-6361/200913335.4. Kozhin R. V., Vinogradov V. V., and Vavriv D. M. Lownoise, high dynamic range digital receiver/spectrometer for radio astronomy applications // Proceedings of the 6-th Int. Symp. MSMW’07, June 25-30, 2007. – Kharkiv (Ukraine). – 2007. – P.736–738.5. Namgoong W. Channelized Digital Ultrawideband Receive // IEEE Trans. Wireless Commun. – 2003. – Vol. 2, No. 3. – P. 502–510.6. Vasilyev O. Y., Kuzin A. I., Kravtsov A. A., Bulakh E. V., Vinogradov V. V., and Vavriv D. M. Multifunctional Digital Receiver-Spectrometer // Radiofizika i Radioastronomia. – 2014. – Vol. 19, No. 3. – P. 276–289 (in Russian).7. Zahirniak D. R., Sharpin D. L., and Fields T. W. A Hardware-Efficient, Multirate, Digital Channe1ized Receiver Architecture // IEEE Trans. Aerosp. Electron. Syst. – 1998. – Vol. 34, No. 1. – P. 137–152.8. Lopez-Risueno G., Grajal J., and Sanz-Osorio A. Digital Channelized Receiver Based on Time-Frequency Analysis for Signal Interception // IEEE Tran. Aerosp. Electron. Syst. – 2005. – Vol. 41, No. 3. – P. 879–898.9. Volkov V. A., Vavriv D. M., Bulakh E. V., and Kravtsov A. A. High sensitivity 0.5 to 19.5 GHz receiver with 1.1-GHz instantaneous bandwidth // Radiofizika i Radioastronomia. – 2014. –Vol. 19, No. 4. – P. 375–380.10. Volkov V. A., Vavriv D. M., Bulakh E. V., and Kravtsov A. A. Broadband Low-Noise Receiver Front-End with Ultrawide Bandwidth // Proceedings of the 20th International Conference on Microwaves, Radar and Wireless Communications (MIKON 2014), June 16-18, 2014. Vol. 2 – Gdansk (Poland). – 2014. – P. 675–678.11. Kenyon T. High Performance Data Network Design: Design Techniques and Tools. – Digital Press, 2002. – 480 p.12. Plavec F., Fort B., Vranesic Z. G., and Brown S. D. Experiences with Soft-Core Processor Design // Proceedings of the 19th IEEE International Parallel and Distributed Processing Symposium (IPDPS’05), April 3-8, 2005. – Denver, Co (USA). – 2005. – P. 167b.13. Дюран Б., Оделл П. Кластерный анализ. – М.: Статистика, 1977. – 128 с.14. Carpentieri E. and Cuomo S. An adaptive threshold algorithm for detection of pulse radar signals // Radar Conference, RADAR ‘08, IEEE 26-30, May, 2008. – Rome (Italy). – 2008. – DOI: 10.1109/RADAR.2008.4720754.15. Aly O. A. M., Omar A. S. and Elsherbeny A. Z. Detection and localization of RF radar pulses in noise environments using wavelet packet transform and higher order statistics // Progress In Electromagnetics Research, PIER – 2006. – Vol. 58 – P. 301–317. Описується досвід розробки цифрового приймача-аналізатора імпульсів. Вимірювальний комплекс має модульну структуру та складається із трьох функціонально незалежних підсистем: радиочастотного тюнера, цифрового аналізатора імпульсів та системи запису і зберігання даних. Надширокосмуговий тюнер охоплює діапазон частот від 0.4 до 18 ГГц. Високопродуктивний аналізатор імпульсів реєструє до 2 мільйонів імпульсів за секунду в реальному часі. Система запису здатна записувати протягом 40 хв необроблені дані та результати обробки на швидкості до 3 ГБ/с. Даний комплекс ідеально підходить для використання в радіолокації, радіоастрономії, спектроскопії, а також в системах моніторингу радіоефіру та в вимірювально-калібрувальній апаратурі.Ключові слова: широкосмуговий приймач, цифрова обробка сигналів, частотно-часовий аналізСтаття надійшла до редакції 17.04.2015Radio phys. radio astron. 2015, 20(2): 168-179СПИСОК ЛІТЕРАТУРИ1. Russia’s Arms and Technologies XXI Encyclopedia: Volume XIII, Control, Communication and Radio Electronic Warfare Systems. – Moscow: Publishing House Arms and Technologies, 2006. – 696 p.2. Tsui J. B. Microwave Receivers with Electronic Warfare Applications – New York^ Wiley-Interscience, 1986. – 460 p.3. Ryabov V. B., Vavriv D. M., Zarka P., Ryabov B. P., Kozhin R. V., Vinogradov V. V., and Denis L. A low-noise, high-dynamic-range, digital receiver for radio astronomy applications: an efficient solution for observing radio-bursts from Jupiter, the Sun, pulsars, and other astrophysical plasmas below 30 MHz // Astron. Astrophys. – 2010. – Vol. 510. – id. A16. – DOI: 10.1051/0004-6361/200913335.4. Kozhin R. V., Vinogradov V. V., and Vavriv D. M. Lownoise, high dynamic range digital receiver/spectrometer for radio astronomy applications // Proceedings of the 6-th Int. Symp. MSMW’07, June 25-30, 2007. – Kharkiv (Ukraine). – 2007. – P.736–738.5. Namgoong W. Channelized Digital Ultrawideband Receive // IEEE Trans. Wireless Commun. – 2003. – Vol. 2, No. 3. – P. 502–510.6. Vasilyev O. Y., Kuzin A. I., Kravtsov A. A., Bulakh E. V., Vinogradov V. V., and Vavriv D. M. Multifunctional Digital Receiver-Spectrometer // Radiofizika i Radioastronomia. – 2014. – Vol. 19, No. 3. – P. 276–289 (in Russian).7. Zahirniak D. R., Sharpin D. L., and Fields T. W. A Hardware-Efficient, Multirate, Digital Channe1ized Receiver Architecture // IEEE Trans. Aerosp. Electron. Syst. – 1998. – Vol. 34, No. 1. – P. 137–152.8. Lopez-Risueno G., Grajal J., and Sanz-Osorio A. Digital Channelized Receiver Based on Time-Frequency Analysis for Signal Interception // IEEE Tran. Aerosp. Electron. Syst. – 2005. – Vol. 41, No. 3. – P. 879–898.9. Volkov V. A., Vavriv D. M., Bulakh E. V., and Kravtsov A. A. High sensitivity 0.5 to 19.5 GHz receiver with 1.1-GHz instantaneous bandwidth // Radiofizika i Radioastronomia. – 2014. –Vol. 19, No. 4. – P. 375–380.10. Volkov V. 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S. and Elsherbeny A. Z. Detection and localization of RF radar pulses in noise environments using wavelet packet transform and higher order statistics // Progress In Electromagnetics Research, PIER – 2006. – Vol. 58 – P. 301–317. Видавничий дім «Академперіодика» 2015-07-07 Article Article application/pdf http://rpra-journal.org.ua/index.php/ra/article/view/1212 10.15407/rpra20.02.168 РАДИОФИЗИКА И РАДИОАСТРОНОМИЯ; Vol 20, No 2 (2015); 168 RADIO PHYSICS AND RADIO ASTRONOMY; Vol 20, No 2 (2015); 168 РАДІОФІЗИКА І РАДІОАСТРОНОМІЯ; Vol 20, No 2 (2015); 168 2415-7007 1027-9636 10.15407/rpra20.02 rus http://rpra-journal.org.ua/index.php/ra/article/view/1212/848 Copyright (c) 2015 RADIO PHYSICS AND RADIO ASTRONOMY

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