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Study of a flexible payload for S-band mobile broadcasting to multiple shaped beams

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P. Angeletti; P. Gabellini; N. Gatti
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Abstract:

A feasibility study for a satellite multimedia broadcasting mobile system (S-MBMS) operating in S-band (2170-2200 MHz) was recently performed by the European Space Agency...Show More

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Abstract:

A feasibility study for a satellite multimedia broadcasting mobile system (S-MBMS) operating in S-band (2170-2200 MHz) was recently performed by the European Space Agency (ESA). The target coverage was defined to consist of multiple-shaped-beams coinciding with European countries or language homogeneous areas. Considering the noticeable effective aperture required in S-band from the geostationary orbit, the most promising antenna architecture is based on large-size deployable-reflectors fed by complex arrays (array fed reflector - AFR). The key payload element is the high power section which provides RF power generation and distribution to feeds with appropriate amplitude and phase to realize differently shaped beams. Several configurations with different amplitude and phase beamforming constraints can be considered as suitable candidates. The outcome of the undertaken design and optimization activity is a promising architectural solution showing a high degree of coverage reconfigurability as well as an almost full freedom in power-to-beam allocation.
Published in: 2007 IEEE Antennas and Propagation Society International Symposium
Date of Conference: 09-15 June 2007
Date Added to IEEE Xplore: 06 December 2007
ISBN Information:

ISSN Information:

DOI: 10.1109/APS.2007.4396209
Conference Location: Honolulu, HI, USA
References is not available for this document.
Contents

Introduction

A feasibility study for a Satellite Multimedia Broadcasting Mobile System (S-MBMS) operating in S-band (2170–2200 MHz) was recently performed by the European Space Agency (ESA) [1]. The target coverage was defined to consist of multiple-shaped-beams coinciding with European countries or language homogeneous areas. Considering the noticeable effective aperture required in S-band from the geostationary orbit, the most promising antenna architecture is based on large-size deployable-reflectors fed by complex arrays (Array Fed Reflector - AFR). The key payload element is the high power section which provides RF power generation and distribution to feeds with appropriate amplitude and phase to realize differently shaped beams. Several configurations with different amplitude and phase beamforming constraints can be considered as suitable candidates. The outcome of the undertaken design and optimization activity is a promising architectural solution showing a high degree of coverage reconfigurability as well as an almost full freedom in power-to-beam allocation.

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1.
P. Angeletti, R. De Gaudenzi and R. Rinaldo, "Study of a Multimedia Broadcasting Mobile Satellite System Mission for the European -BUS Platform", 24th AIAA Int. Communications Satellite Systems Conference, 2006.
CrossRef Google Scholar
2.
G. L. Scialino et al., "Presentation of Reflector Dish Development Activities and Achieved Performances", 28th ESA Antenna Workshop, 2005.
Google Scholar
3.
Multibeam antenna feed device, Sep. 1990.
Google Scholar
4.
A. G. Roederer and M Sabbadini, "A Novel Semi-Active Multibeam Antenna Concept", IEEE APS International Symposium Digest, pp. 1884-1887, 1990.
CrossRef Google Scholar
5.
A. G. Roederer, "Semi-Active Multimatrix Reflector Antennas", Electromagnetics, vol. 15, pp. 123-132, 1995.
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