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Journal Antennas №7 for 2016 г.
Article in number:
Modeling on-board microstrip antenna
Keywords:
on-board antennas
satellite
microstrip antennas
antenna efficiency
voltage standing-wave ratio
Authors:
E.V. Ovchinnikova - Ph. D. (Eng.), Associate Professor, Moscow Aviation Institute (National Research University). E-mail: oea8888@gmail.com
S.G. Kondrat\'eva - Ph. D. (Eng.), Assistant, Moscow Aviation Institute (National Research University). E-mail: kondratieff89@yandex.ru
V.S. Bocharov - Head of Laboratory, JSC «Research Institute for Electromechanics» (Istra, Moscow region). E-mail: otd24@niiem.ru
A.G. Generalov - Head of Sector, JSC «Research Institute for Electromechanics» (Istra, Moscow region). E-mail: otd24@niiem.ru
E.V. Gadzhiev - Senior Research Scientist, JSC «Research Institute for Electromechanics» (Istra, Moscow region). E-mail: otd24@niiem.ru
Abstract:
Antenna matching in operating band is the one of the main task in designing antenna systems. It is necessary take into account placement spacecraft antenna on the surface spacecraft when we speak about spacecraft antenna matching. Antenna position concerning transmitter or receiver define requirements to cable system.
At present, there is an active process of miniaturization of the whole space technology, including on-board equipment. Design small-size, low-profile antenna system for small spacecrafts is the modern and actual task.
In this paper the method of parametric optimization on-board microstrip antenna matching is presented. Frequency characteristics of difference types microstrip antennas are defined.
Pages: 10-22
References
- Voskresenskijj D.I., Gostjukhin V.L., Maksimov V.M., Ponomarjov L.I. Ustrojjstva SVCH i antenny. M.: Radiotekhnika. 2008.
- Vinogradov A.JU., Kabetov R.V., Somov A.M. Ustrojjstva SVCH i malogabaritnye antenny. M.: Gorjachaja linija-Telekom. 2012.
- Problemy antennojj tekhniki / Pod red. L.D. Bakhrakha, D.I. Voskresenskogo. M.: Radio i svjaz. 1989.
- Sevastjanov N.N., Branec V.N., Panchenko V.A.i dr. Analiz sovremennykh vozmozhnostejj sozdanija malykh kosmicheskikh apparatov dlja distancionnogo zondirovanija Zemli // Trudy Moskovskogo fiziko-tekhnicheskogo instituta. Dolgoprudnyjj: GOUVPO «Moskovskijj fiziko-tekhnicheskijj institut». 2009. T. 1. № 3. S. 14−22.
- Makridenko L.A., Bojarchuk K.A. Mikrosputniki. Tendencija razvitija. Osobennosti rynka i socialnoe znachenie. Voprosy ehlektromekhaniki // Trudy NPP VNIIEHM. 2005. T. 102. S. 12−27.
- Bocharov V.S., Generalov A.G., Gadzhiev EH.V. Miniatjurizacija bortovykh antenno-fidernykh ustrojjstv kosmicheskikh apparatov // Materialy nauchno-tekhnich. seminara «Perspektivy razvitija antenno-fidernykh ustrojjstv letatelnykh apparatov». Istra: OAO «NIIEHM».2013. S. 51−54.
- Gadzhiev EH.V. Puti postroenija malogabaritnykh, nevystupajushhikh bortovykh antenno-fidernykh sistem kosmicheskikh apparatov. Trudy MAI. 2014. № 76. S. 13.
- Vejjcel A.V., Vejjcel V.A., Tatarnikov D.V. Apparatura vysokotochnogo pozicionirovanija po signalam globalnykh navigacionnykh sputnikovykh sistem: Vysokotochnye antenny. Specialnye metody povyshenija tochnosti pozicionirovanija. M.: MAI-PRINT. 2010.
- Panchenko B.A., Nefjodov E.I. Mikropoloskovye antenny. M.: Radio i svjaz. 1986.
- Zajavka na izobretenie № 2014137527 ot 16.09.2014 g. Sposob sozdanija mikropoloskovykh antenn metrovogo diapazona i ustrojjstvo, realizujushhee ehtot sposob. Bocharov V.S., Generalov A.G., Gadzhiev EH.V.
- Constantine A. Balanis. Antenna theory: analysis and design. Ed.2-nd. Wiley-Interscience. 1997. 959 p.
- Bocharov V.S., Generalov A.G., Gadzhiev EH.V. Razrabotka prjamougolnojj mikropoloskovojj antenny metrovogo diapazona (150 MGc) dlja primenenija na kosmicheskom apparate «Ionosfera» // Voprosy ehlektromekhaniki. Trudy VNIIEHM. 2013. T. 136. № 5. S. 15−18.
- Bocharov V.S., Generalov A.G., Gadzhiev EH.V. Razrabotka prjamougolnojj mikropoloskovojj antenny decimetrovogo diapazona dlja primenenija na kosmicheskom apparate «Ionosfera» // Trudy MAI. 2013. № 65. S. 34.
- Patent na poleznuju model № 152427 ot 16.09.2014 g. Mikropoloskovaja antenna metrovogo diapazona s krugovojj poljarizaciejj. Bocharov V.S., Generalov A.G., Gadzhiev EH.V.
- Gadzhiev EH.V. Modelirovanie bortovykh antenn SVCH kosmicheskikh apparatov // Antenny. 2013. № 9 (196). S. 65−68.
- Bocharov V.S., Generalov A.G., Gadzhiev EH.V. Vybor diehlektrika podlozhki mikropoloskovojj antenny pri postroenii miniatjurnojj antenny // Antenny. 2014. № 12 (211). S. 38−44.
- Jin J. The finite element method in electromagnetic. Edition 2-nd . N.-Y.: John Wiley & Sons Inc. 2002.