Suscripción a Biblioteca: Guest
Portal Digitalde Biblioteca Digital eLibros Revistas Referencias y Libros de Ponencias Colecciones
Telecommunications and Radio Engineering
SJR: 0.202 SNIP: 0.2 CiteScore™: 0.23

ISSN Imprimir: 0040-2508
ISSN En Línea: 1943-6009

Volumes:
Volumen 78, 2019 Volumen 77, 2018 Volumen 76, 2017 Volumen 75, 2016 Volumen 74, 2015 Volumen 73, 2014 Volumen 72, 2013 Volumen 71, 2012 Volumen 70, 2011 Volumen 69, 2010 Volumen 68, 2009 Volumen 67, 2008 Volumen 66, 2007 Volumen 65, 2006 Volumen 64, 2005 Volumen 63, 2005 Volumen 62, 2004 Volumen 61, 2004 Volumen 60, 2003 Volumen 59, 2003 Volumen 58, 2002 Volumen 57, 2002 Volumen 56, 2001 Volumen 55, 2001 Volumen 54, 2000 Volumen 53, 1999 Volumen 52, 1998 Volumen 51, 1997

Telecommunications and Radio Engineering

DOI: 10.1615/TelecomRadEng.v77.i17.10
pages 1485-1495

INFLUENCE OF EXCITATION METHOD ON THE INTEGRAL CHARACTERISTICS OF THE CIRCULAR PATCH MONOPOLE ANTENNAS

Sergey Pogarsky
V.N. Karazin Kharkov National University
Leonid M. Lytvynenko
Institute of Radio Astronomy, National Academy of Sciences of Ukraine, 4 Mystetstv St., Kharkiv 61002, Ukraine
D. V. Mayboroda
V. Karazin National University of Kharkiv, 4 Svobody Sq., Kharkiv 61022, Ukraine
A. V. Poznyakov
V. Karazin National University of Kharkiv, 4, Svobody Square, Kharkiv, 61077, Ukraine

SINOPSIS

The paper presents the results of influence of circular-patch monopole antennas excitation methods on their integral characteristics. The results are obtained by use of Finite Element Method (FEM). The obtained data show that method of excitation of monopole microstrip structures has significant influence on their integral characteristics. The results of investigations of three methods of excitation of monopole microstrip antennas with a complex configuration of radiators are presented. The spectral characteristics, matching characteristics with external circuits, the pattern characteristics are presented. The obtained results show that monopole microstrip resonators with complex configuration of radiators can be successfully used to provide the necessary integral parameters and to form the required parameters of radiated fields.

REFERENCIAS

  1. Lytvynenko, L.N., Pogarsky, S.A., Mayboroda D.V., and Poznyakov, A.V., (2017) , Microstrip antenna with complex configuration of radiators, 11-th International Conference on Antenna Theory and Techniques, ICATT 2017, Kyiv, Ukraine, (http: // doi.org/10.1109.

  2. Labadie, N.R., Sharma, S.K., and Rebeiz, G.M., (2014) , A Circularly Polarized Multiple Radiating Mode Microstrip Antenna for Satellite Receive Applications, IEEE Trans. Antennas Propag., 62, pp. 3490-3500. (DOI: 10.1109/TAP.2014.2320860).

  3. Pan, Y.M., Zheng, S.Y., and Hu, B.J., (2014) , Wideband and Low-Profile Omnidirectional Circularly Polarized Patch Antenna, IEEE Trans. Antennas Propag., 62, pp. 4347-4351. (DOI: 10.1109/TAP.2014.2323412).

  4. Bahl, I.J., Stuchly, S.S., and Stuchly, M.A., (1980) , A new microstrip radiator for medical applications, IEEE Trans. Microw. Theory Tech., 28, pp. 1464-1469. (DOI: 10.1109/TMTT.1980.1130268).

  5. Wolf, I., (1972) , Microstrip bandpass filters using degenerate modes of a microstrip ring resonators, Electron. Lett., 8(12), pp. 302-303.(DOI: 10.1049/el:19720223).

  6. Khilla, A.-M., (1981) , Simple design of x-junction microstrip circulators, Electron. Lett., 17(19), pp. 681-682. (DOI: 10.1049/el:19810476).

  7. Khilla, A.-M., (1981) , Analysis of wide-band microstrip circulators by point-matching technique, IEEE MTT-S International Microwave Symposium Digest, Los Angeles, USA. (DOI: 10.1109/MWSYM.1981.1129899).

  8. Monthasuwan, J., Saetiaw, C., and Thongsopa, C., (2013) , Curved rectangular patch array antenna using flexible copper sheet for small missile application, Int. J. of Electrical, Energetic, Electronic and Comm. Eng., 7(11), pp. 1420-1424. (DOI: scholar.waset.org/1999.5/17411).

  9. Silin, R.A. and Sazonov, V.P., (1966) , Slowing Down Systems, Moscow, Russia: Sov. Radio, (in Russian). (http://www.twirpx.com/file/247574).

  10. Maiboroda, D.V. and Pogarsky, S.A., (2014) , On the choice of optimal topology of a reflecting module based upon the circular-disk microstrip structure, Telecommunications and Radio Engineering, 73(19), pp. 1713-1726. (DOI: 10.1615/TelecomRadEng.v73.i19.20).

  11. Mayboroda, D.V. and Pogarsky, S.A., (2016) , Optimization of the integral parameters of disk microstrip antennas with radiators of complex geometry, Telecommunications and Radio Engineering, 75(19), pp. 1713-1726. (DOI: 10.1615/TelecomRadEng.v75.i9.10).

  12. Mayboroda, D.V. and Pogarsky, S.A., (2016) , Tunable circular microstrip antenna with additional shorting-vias elements, Patent UA, no.107847. (http://uapatents.com/7-107847-perestroyuvana- diskova-mikrosmuzhkova-antena-z-dodatkovimi-zakorochuvalnimi-elementami.html).

  13. Mayboroda, D.V. and Pogarsky S.A., (2016) , Disk microstrip antenna with log-periodic radiators, Patent UA, no. 112248. (http://uapatents.com/8-112248-diskova-mikrosmuzhkova-antena-z- logoperiodichnimi-viprominyuvachami.html).


Articles with similar content:

OPTIMIZATION OF THE INTEGRAL PARAMETERS OF DISK MICROSTRIP ANTENNAS WITH RADIATORS OF COMPLEX GEOMETRY
Telecommunications and Radio Engineering, Vol.75, 2016, issue 9
D. V. Mayboroda, Sergey Pogarsky
Prediction of the Resonance Condition of Metamaterial Emitters and Absorbers Using LC Circuit Model
International Heat Transfer Conference 15, Vol.42, 2014, issue
Zhuomin M. Zhang, Atsushi Sakurai, Bo Zhao
CHARACTERISTICS OF A BROADBAND PLANAR DISK-SLOT ANTENNA: A NUMERICAL ANALYSIS
Telecommunications and Radio Engineering, Vol.77, 2018, issue 13
Т. А. Tsaliyev, S. V. Siden
MUTUAL COUPLING BETWEEN ANTENNAS USED AS ELEMENTS OF A PHASED ANTENNA ARRAY FOR THE DECAMETRIC WAVE RADIO TELESCOPE
Telecommunications and Radio Engineering, Vol.75, 2016, issue 4
P. L. Tokarsky, S. N. Yerin
THE SURFACE WAVE METHOD USED FOR DETECTION OF DANGEROUS FLUIDS CONTAINED IN ISOLATED PLASTIC AND GLASS VESSELS
Telecommunications and Radio Engineering, Vol.75, 2016, issue 18
N. A. Nurimbetov, K. N. Balabekov, Alexey A. Vertiy, S. S. Sautbekov, Yurii Konstantinovich Sirenko, Ar. Sabyrov, As. Sabyrov