The paper presents concept of design and realization of the new class of printed antenna structures which consist of a linear axial array of dipoles, subreflector, feed network and a bal-un, all printed on a common dielectric substrate. The array is positioned on the axis focus of the cylindrical-parabolic reflector. Use of the reflector enables reducing back side radiation and shaping beamwidth in H-plane thus obtaining higher gain while the printed subreflector gives the possibility of achieving additional gain. Besides, by using dipoles with pentagonal shape that operate on the second resonance, enhanced bandwidth of the array has been accomplished. Four variants of such arrays have been realized: two of them with 8 radiating elements for the frequency range around 26 GHz - one with uniform and the other with tapered feed distribution, featuring gains of 27.5 dBi and 25.7 dBi, respectively. The latter has the side lobe suppression of 28 dB in E-plane. Two other arrays that are inten...ded for ranges around 23 GHz and 60 GHz have 16 radiating elements, uniform feed distribution and measured gains of 33 dBi and 34 dBi, respectively. Bandwidths of all realized model for S11 less than -10 dB is around 30 %. In all cases agreement between simulated and measured results is very good.
TY - JOUR
AU - Nešić, Aleksandar
AU - Radnovic, Ivana
AU - Milijic, Marija
AU - Micic, Zoran
AU - Nešić, Dušan
PY - 2013
UR - https://cer.ihtm.bg.ac.rs/handle/123456789/1340
AB - The paper presents concept of design and realization of the new class of printed antenna structures which consist of a linear axial array of dipoles, subreflector, feed network and a bal-un, all printed on a common dielectric substrate. The array is positioned on the axis focus of the cylindrical-parabolic reflector. Use of the reflector enables reducing back side radiation and shaping beamwidth in H-plane thus obtaining higher gain while the printed subreflector gives the possibility of achieving additional gain. Besides, by using dipoles with pentagonal shape that operate on the second resonance, enhanced bandwidth of the array has been accomplished. Four variants of such arrays have been realized: two of them with 8 radiating elements for the frequency range around 26 GHz - one with uniform and the other with tapered feed distribution, featuring gains of 27.5 dBi and 25.7 dBi, respectively. The latter has the side lobe suppression of 28 dB in E-plane. Two other arrays that are intended for ranges around 23 GHz and 60 GHz have 16 radiating elements, uniform feed distribution and measured gains of 33 dBi and 34 dBi, respectively. Bandwidths of all realized model for S11 less than -10 dB is around 30 %. In all cases agreement between simulated and measured results is very good.
PB - Soc Microelectronics, Electron Components Materials-Midem, Ljubljjana
T2 - Informacije Midem-Journal of Microelectronics Electronic Components and Materials
T1 - Cylindrical-parabolic reflector with printed antenna structures
VL - 43
IS - 2
SP - 97
EP - 102
UR - Conv_2992
ER -
@article{
author = "Nešić, Aleksandar and Radnovic, Ivana and Milijic, Marija and Micic, Zoran and Nešić, Dušan",
year = "2013",
abstract = "The paper presents concept of design and realization of the new class of printed antenna structures which consist of a linear axial array of dipoles, subreflector, feed network and a bal-un, all printed on a common dielectric substrate. The array is positioned on the axis focus of the cylindrical-parabolic reflector. Use of the reflector enables reducing back side radiation and shaping beamwidth in H-plane thus obtaining higher gain while the printed subreflector gives the possibility of achieving additional gain. Besides, by using dipoles with pentagonal shape that operate on the second resonance, enhanced bandwidth of the array has been accomplished. Four variants of such arrays have been realized: two of them with 8 radiating elements for the frequency range around 26 GHz - one with uniform and the other with tapered feed distribution, featuring gains of 27.5 dBi and 25.7 dBi, respectively. The latter has the side lobe suppression of 28 dB in E-plane. Two other arrays that are intended for ranges around 23 GHz and 60 GHz have 16 radiating elements, uniform feed distribution and measured gains of 33 dBi and 34 dBi, respectively. Bandwidths of all realized model for S11 less than -10 dB is around 30 %. In all cases agreement between simulated and measured results is very good.",
publisher = "Soc Microelectronics, Electron Components Materials-Midem, Ljubljjana",
journal = "Informacije Midem-Journal of Microelectronics Electronic Components and Materials",
title = "Cylindrical-parabolic reflector with printed antenna structures",
volume = "43",
number = "2",
pages = "97-102",
url = "Conv_2992"
}
Nešić, A., Radnovic, I., Milijic, M., Micic, Z.,& Nešić, D.. (2013). Cylindrical-parabolic reflector with printed antenna structures. in Informacije Midem-Journal of Microelectronics Electronic Components and Materials
Soc Microelectronics, Electron Components Materials-Midem, Ljubljjana., 43(2), 97-102.
Conv_2992
Nešić A, Radnovic I, Milijic M, Micic Z, Nešić D. Cylindrical-parabolic reflector with printed antenna structures. in Informacije Midem-Journal of Microelectronics Electronic Components and Materials. 2013;43(2):97-102.
Conv_2992 .
Nešić, Aleksandar, Radnovic, Ivana, Milijic, Marija, Micic, Zoran, Nešić, Dušan, "Cylindrical-parabolic reflector with printed antenna structures" in Informacije Midem-Journal of Microelectronics Electronic Components and Materials, 43, no. 2 (2013):97-102,
Conv_2992 .
