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Article title RESEARCH AND TESTING OF AESA TRANSMISSION COMPLEXES TO ENSURE THE TACTICAL AND TECHNICAL CHARACTERISTICS OF THE RADAR
Authors D. D. Stupin, A. J. Perlov, A. V. Mavrin
Section SECTION III. RADIO ENGINEERING AND COMMUNICATION
Month, Year 03, 2018 @en
Index UDC 621.396.967.2
DOI
Abstract The role of transmitting complexes based on AESA in providing the parameters of the radiation pattern of modern long-range radar is shown. The characteristics of beamforming for big AESA with the use of broadband chirp signals. The causes of the factors that adversely affect the energy potential of the radar are indicated. On a concrete example of the transmitting complex of modern radar, new technical solutions in the diagram system of broadband AESA are shown. A key element in providing the radiation parameters are delay line chips installed in the power amplification units. To ensure a high mounting accuracy temporal distribution of the developed system, temperature control circuits. An urgent problem in the creation of multi-channel systems AESA is the need for a large volume of measurements in a short time. At the same time, due to the large number of measured channels of the complex, it is necessary to solve the problem of providing multi-channel and high-precision measurement of characteristics. To ensure the rapid assessment of the characteristics, a measuring system has been developed that provides an automated assessment of the characteristics of transmitting complexes without radiation of signals into the ether. Proposed new methodology for calibration of transmission channels by computer-aided alignment of phase distribution. The relevance of the use of an automated system during the setup and testing of systems at the radar manufacturer is shown. Proposals have been developed for a typical structure of the measuring system that provides rapid and reliable evaluation of new samples of transmitting complexes in an automated mode. The created measuring system for a specific application in the creation of multi-channel radar systems of new generation can significantly reduce the time and resource costs for the stages of configuration and testing.

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Keywords Radar station transmitting complex; delay line; radiation pattern.
References 1. Stupin D.D. Vozmozhnosti raspoznavaniya situacii v zone deнstviya RLS nablyudeniya kosmicheskiлh ob"ektov pri ispol'zovanii kogerentnyлh signalov bol'shoн dlitel'nosti [Possibilities of recognition of the situation in the area of operation of the space object observation radar with the use of coherent signals of great duration], Izvestiya YUFU. Tekhnicheskie nauki [Izvestiya SFedU. Engineering Sciences], 2012, No. 3 (128), pp. 119-126.
2. Boev S.F. Upravlenie riskami proektirovaniya i sozdaniya radiolokacionnykh stanciy dal'nego obnaruzheniya. Moscow: Izd-vo MGTU im. N.E. Baumana, 2017, 430 p.
3. Boev S.F., Rahmanov A.A. Metod povysheniya ehffektivnosti vnedreniya novyh tekhnologij pri sozdanii RLS novogo pokoleniya [A method to improve the efficiency of introducing new technologies in the development of a new generation radar], Izvestiya YUFU. Tekhnicheskie nauki [Izvestiya SFedU. Engineering Sciences], 2015, No. 1 (162), pp. 73-81.
4. Spravochnik po radiolokacii [Handbook of radar], ed. by M.I. Skolnika: Trans. with English under the general ed. B.C. Verby. In 2 book. Book 2. Moscow: Tekhnosfera, 2014, 680 p.
5. Barton D.K., Leonov S.A. Radar technology encyclopedia. Boston, Artech House, 1997, 511 с.
6. Skolnik M. Radar handbook.Third Edition. The McGraw-Hill Companies, 2008, 1351 с.
7. Boev S.F., Haĭbutov K.E. Obosnovanie konceptual'nogo proektirovaniya ryada razvitiya RLS dal'nego obnaruzheniya na osnove platformennogo podhoda [The rationale for the conceptual design development of a number of early-warning radar based on platform approach], Vestnik Yaroslavskogo zenitnogo raketnogo uchilishcha protivovozdushnoĭ oborony: Sb. nauchnyh trudov [The bulletin of the Yaroslavl school of antiaircraft missile defense], 2014, No. 17,
pp. 53-62.
8. Boev S.F., Rakhmanov A.A. Metodologicheskie osnovy upravleniya sozdaniem vysokoinformativnykh unificirovannykh RLS raketno-kosmicheskoĭ oborony [Methodological bases of management of the establishment of highly informative unified radar stations missile space defense], Radiopromyshlennost' [Radio industry], 2016, No. 1, pp. 6-13.
9. Boev S.F., Sloka V.K., Rahmanov A.A. Sistema modul'no-parametricheskogo proektirovaniya radiolokacionnyh stanciĭ dal'nego obnaruzheniya novogo pokoleniya OAO «RTI», Istoriya otechestvennoĭ radiolokacii [System of modular parametric design of early-warning radar stations of the new generation of RTI Group OJSC, History of radar station], ed. by
S.V. Hohlova. Moscow: Stolichnaya ehnciklopediya, 2015, pp. 407-414.
10. Boev S.F. Sistema razvedki i preduprezhdeniya o vozdushno-kosmicheskom napadenii: osnovnye problemy sozdaniya i puti ikh resheniya [Intelligence and warning of air and space attack: the main problems of creation and their solutions], Sbornik nauchnykh trudov «Perspektivy razvitiya RLS dal'nego obnaruzheniya i integrirovannykh sistem i kompleksov informatsionnogo obespecheniya VKO» [Collection of scientific papers "prospects for the de- velopment of long-range radar and integrated systems, and systems of information support of the East Kazakhstan region"]. Moscow, 2013.
11. Boev S.F., Stupin D.D., Kochkarov A.A. Obespechenie gosudarstvennoy bezopasnosti v kontekste vzaimosvyazi oboronnykh, tekhnogennykh i sotsial'nykh ugroz [The provision of public security in the context of the relationship of the defence, technological and social threats], Materialy 6-y Vserossiyskoy mul'tikonferentsii po problemam upravleniya [Materials of the 6th all-Russian multiconference on governance]. Rostov-on-Don, 2013, Vol. 4, pp. 86-89.
12. Boev S.F., Sloka V.K. Evolyutsiya radioelektroniki i radiotekhniki v superradiolokatsii [The evolution of electronics and radio engineering in superradiance], Intellekt & tekhnologii [Intel- ligence & technology], 2014, No. 2 (8), pp. 48-55.
13. Boev S.F., Kazantsev A.M., Pankratov V.A. Osobennosti konstruirovaniya sovremennykh superradiolokatorov [Features modern design superradiation], Sbornik trudov 56-y nauchnoy konferentsii MFTI: Vserossiyskoy nauchnoy konferentsii «Aktual'nye problemy fundamental'nykh i prikladnykh nauk v sovremennom informatsionnom obshchestve», Vserossiyskoy molodezhnoy nauchno-innovatsionnoy konferentsii «Fizikomatematicheskie nauki: aktual'nye problemy i ikh resheniya» [Proceedings of the 56th scientific conference of MIPT: all-Russian scientific confer- ence "Actual problems of fundamental and applied Sciences in the modern information society", all-Russian youth scientific innovation conference "physical and mathematical Sciences: current problems and their solutions"], 2013, pp. 180-182.
14. Boev S.F., Rakhmanov A.A., Sloka V.K. Printsipy i podkhody k proektirovaniyu i sozdaniyu RLS dal'nego obnaruzheniya novogo pokoleniya [Features modern design superradiation], Sbornik materialov 9-y vserossiyskoy nauchno-prakticheskoy konferentsii «Perspektivnye sistemy i zadachi upravleniya» [The collection of materials of the 9th all-Russian scientific- practical conference "future of the system and control problems"]. Taganrog, 2014, pp. 5-7.
15. Boev S.F. Innovatsionnye resheniya pri razrabotke stantsiy dal'nego obnaruzheniya metrovogo diapazona [Innovative solutions in the development of early warning stations meter band], Sb.k nauchnykh trudov «Radiotekhnicheskie tekhnologii v priborostroenii» [Collection of scientific papers "Radio technology in instrumentation"]. Tuapse, 2013.
16. Perlov A.J., Altashin A.N., Ermakov A.M. Obespechenie tochnosti ustanovki cifrovyлh liniн zaderzhki v RLS s krupnoaperturnymi FAR [Ensuring the accuracy of the installation of digital delay lines in the radar with large-aperture phased arrays], Vserossiskaya Nauchno-tekhnicheskaya konferentsiya molodykh uchenykh i inzhenerov “Mintsevskie chteniya” [All-Russian Conference of Young Designers and Engineers “Mints Readings”. ]. Moscow, 2015, pp. 51-57.
17. State Standard 15.201-2000. Sistema razrabotki i postanovki produkcii na proizvodstvo. Produkciya proizvodstvenno-tekhnicheskogo naznacheniya. Poryadok razrabotki i postanovki produkcii na proizvodstvo [System of product development and launching into manufacture. Products of industrial and technical designation. Procedure of product development and launching into manufacture]. Moscow, Standartinform Publ., 2008, 15 p.
18. Boev S.F. Novye tekhnologii – osnova perspektiv razvitiya RLS dal'nego obnaruzheniya [New technologies as the basis for the development of the long-range radar], Sbornik trudov XII otraslevoy nauchno-prakticheskoy konferentsii Ministerstva promyshlennosti i torgovli Rossiyskoy Federatsii «Aktual'nye voprosy radioelektronnoy promyshlennosti» [Proceedings of the XII sectoral scientific-practical conference of the Ministry of industry and trade of the Russian Federation "Topical issues of radio-electronic industry]. Moscow, 2013.
19. Boev S.F. Kontseptual'naya osnova sistemy avtomatizirovannogo eskizno-tekhnicheskogo proektirovaniya perspektivnykh RLS DO [Conceptual framework of the system for automated thumbnail of the technical design advanced radar system TO], Vestnik komp'yuternykh i informatsionnykh tekhnologiy [Journal of computer and information technology], 2014, No. 8,
pp. 3-10.
20. Boev S.F., Rakhmanov A.A., Sloka V.K. Unifitsirovannaya platforma sozdaniya ryada radiolokatsionnykh stantsiy dal'nego obnaruzheniya novogo pokoleniya [Unified platform for the creation of a number of radar stations in the far detection of a new generation], Sbornik materialov II vserossiyskoy nauchno-tekhnicheskoy konferentsii «RTI Sistemy RKO-2014» [Proceedings of the II all-Russian scientific-technical conference "RTI Systems CSC-2014"], 2014.

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