Standard
Single antenna receivers for advanced satellite T/R systems. / Bartolucci, G.; Giannini, F.; Leuzzi, G. et al.
Electrotechnical Conference, 1989. Proceedings. 'Integrating Research, Industry and Education in Energy and Communication Engineering', MELECON '89., Mediterranean. IEEE, 1989. p. 493-496.
Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Conference contribution/Paper › peer-review
Harvard
Bartolucci, G, Giannini, F, Leuzzi, G
, Paoloni, C & Ruggieri, M 1989,
Single antenna receivers for advanced satellite T/R systems. in
Electrotechnical Conference, 1989. Proceedings. 'Integrating Research, Industry and Education in Energy and Communication Engineering', MELECON '89., Mediterranean. IEEE, pp. 493-496.
https://doi.org/10.1109/MELCON.1989.50089
APA
Bartolucci, G., Giannini, F., Leuzzi, G.
, Paoloni, C., & Ruggieri, M. (1989).
Single antenna receivers for advanced satellite T/R systems. In
Electrotechnical Conference, 1989. Proceedings. 'Integrating Research, Industry and Education in Energy and Communication Engineering', MELECON '89., Mediterranean (pp. 493-496). IEEE.
https://doi.org/10.1109/MELCON.1989.50089
Vancouver
Author
Bartolucci, G. ; Giannini, F. ; Leuzzi, G. et al. /
Single antenna receivers for advanced satellite T/R systems. Electrotechnical Conference, 1989. Proceedings. 'Integrating Research, Industry and Education in Energy and Communication Engineering', MELECON '89., Mediterranean. IEEE, 1989. pp. 493-496
Bibtex
@inproceedings{54948c825d0f4ebeb6cfba35e142bde6,
title = "Single antenna receivers for advanced satellite T/R systems",
abstract = "Three active antenna systems have been synthesized for 14-spot European coverage in the down-link range 12.5-12.75 GHz: far-field multibeam antenna, a near-field multibeam antenna, and a direct radiating phased array. The block diagram for all the three antenna systems is shown, assuming that a single antenna is utilized for both transmission and reception. Through a set of diplexers, both receiver and transmitter modules use the shared feeds. The use of a single antenna for both transmission and reception has been shown to be attractive in terms of size and weight reduction. These features conflict, however, with the thermal and interconnecting issues that can arise in practical systems. The transmitter topology and complexity seem important points in the feasibility of the integration with the receiver. In particular, the number and allocation of the power amplifiers are quite critical.",
author = "G. Bartolucci and F. Giannini and G. Leuzzi and C. Paoloni and M. Ruggieri",
year = "1989",
month = apr,
day = "1",
doi = "10.1109/MELCON.1989.50089",
language = "English",
pages = "493--496",
booktitle = "Electrotechnical Conference, 1989. Proceedings. 'Integrating Research, Industry and Education in Energy and Communication Engineering', MELECON '89., Mediterranean",
publisher = "IEEE",
}
RIS
TY - GEN
T1 - Single antenna receivers for advanced satellite T/R systems
AU - Bartolucci, G.
AU - Giannini, F.
AU - Leuzzi, G.
AU - Paoloni, C.
AU - Ruggieri, M.
PY - 1989/4/1
Y1 - 1989/4/1
N2 - Three active antenna systems have been synthesized for 14-spot European coverage in the down-link range 12.5-12.75 GHz: far-field multibeam antenna, a near-field multibeam antenna, and a direct radiating phased array. The block diagram for all the three antenna systems is shown, assuming that a single antenna is utilized for both transmission and reception. Through a set of diplexers, both receiver and transmitter modules use the shared feeds. The use of a single antenna for both transmission and reception has been shown to be attractive in terms of size and weight reduction. These features conflict, however, with the thermal and interconnecting issues that can arise in practical systems. The transmitter topology and complexity seem important points in the feasibility of the integration with the receiver. In particular, the number and allocation of the power amplifiers are quite critical.
AB - Three active antenna systems have been synthesized for 14-spot European coverage in the down-link range 12.5-12.75 GHz: far-field multibeam antenna, a near-field multibeam antenna, and a direct radiating phased array. The block diagram for all the three antenna systems is shown, assuming that a single antenna is utilized for both transmission and reception. Through a set of diplexers, both receiver and transmitter modules use the shared feeds. The use of a single antenna for both transmission and reception has been shown to be attractive in terms of size and weight reduction. These features conflict, however, with the thermal and interconnecting issues that can arise in practical systems. The transmitter topology and complexity seem important points in the feasibility of the integration with the receiver. In particular, the number and allocation of the power amplifiers are quite critical.
U2 - 10.1109/MELCON.1989.50089
DO - 10.1109/MELCON.1989.50089
M3 - Conference contribution/Paper
SP - 493
EP - 496
BT - Electrotechnical Conference, 1989. Proceedings. 'Integrating Research, Industry and Education in Energy and Communication Engineering', MELECON '89., Mediterranean
PB - IEEE
ER -