The Sardinia Space Communication Asset: Performance of the Sardinia Deep Space Antenna X-Band Downlink Capability

Valente, G.; Iacolina, M. N.; Ghiani, Riccardo; Saba, Andrea; Serra, G.; Urru, Enrico; Montisci, Giorgio; Mulas, S.; Asmar, S. W.; Pham, Timothy; Vicente, Javier de; Viviano, Salvatore

doi:10.1109/access.2022.3183745

Cited by 7 publications

(3 citation statements)

References 18 publications

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“…A comparison of the G/T sys with some antennas in K-Band with the proposed system is given in TABLE III 23,24 . Also, FIG.…”

Section: G/t Sys Estimate Of the Systemmentioning

confidence: 99%

A High-Sensitivity Cryogenic Radio Receiver: Design, Performance and Polarization Analysis

Mohammadian,

McCulloch,

Gilles

et al. 2024

Preprint

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Large reflector antennas are subjected to testing for calibration accuracy and precision, ensuring signal reception sensitivity and consistent performance across an extended frequency range. In this paper, we introduce a cryogenic radio receiver which is placed on a 5.3 m reflector with a gain of 60.19 dB. This antenna serves as the reference antenna for holographic calibration measurements with the measured G/Tsys ~42 dB/K. The receiver provides a bandwidth of 2 GHz (21-23 GHz), the receiver's noise temperature is 19.55, and The polarization conversion yields an Axial Ratio (AR) of less than 1.3 dB.

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“…A comparison of the G/T sys with some antennas in K-Band with the proposed system is given in TABLE III 23,24 . Also, FIG.…”

Section: G/t Sys Estimate Of the Systemmentioning

confidence: 99%

A High-Sensitivity Cryogenic Radio Receiver: Design, Performance and Polarization Analysis

Mohammadian,

McCulloch,

Gilles

et al. 2024

Preprint

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“…Finally, the SRT, located in the southern part of the island of Sardinia (Italy), is the largest Italian parabolic dish with a 64 m diameter and one of the most-advanced radio telescopes in the world. The SRT is co-managed by the Italian Space Agency (ASI), named the Sardinia Deep Space Antenna (SDSA) due its activities, and is equipped with an X-band receiver for deep space and Near-Earth activities [22]. In 2024, all three Italian radio telescopes will be equipped with new tri-band K-Q-W receivers capable of acquiring simultaneously the frequency bands 18-26, 33-50, and 80-116 GHz [23].…”

Section: Facilitiesmentioning

confidence: 99%

Toward a European Facility for Ground-Based Radar Observations of Near-Earth Objects

Pupillo,

Righini,

Orosei

et al. 2023

Remote Sensing

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In this work, we present the preliminary results of radar observations of Near-Earth Objects (NEOs) carried out by European radio telescopes in the framework of the European Space Agency (ESA) project “NEO observation concepts for radar systems”, aimed at deriving the functional requirements of a planetary radar system, evaluating the available European assets to perform NEO radar observations, and carrying out test radar campaigns. In the first part of the project, we executed the performance analysis of a possible European planetary radar system. Instrumental features, as much as issues like the impact of weather conditions on signal propagation at different radio frequencies, were considered. This paper focused on the test campaigns, performed in the years 2021–2022 in collaboration with the Jet Propulsion Laboratory (JPL), which led to the observation of several asteroids including 2021 AF8, (4660) Nereus, and 2005 LW3, which allowed us to derive astrometric measurements, as well as to measure physical properties, such as rotation periods, and observe how one of the targets is actually a binary asteroid. The obtained results demonstrated that European radio astronomical dishes, although employed only as receivers (in bistatic or multistatic configurations) and for a limited amount of time, are able to provide a significant contribution to the constitution of a European network to increase the opportunities for NEO monitoring and studies, if a transmitting antenna—equipped with a suitable high-power transmitter—were made available.

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“…In this paper, we present the design, development, and testing of a new power supply PCB with remote control capabilities, named GAIA, specifically developed to bias the LNAs of the Sardinia Radio Telescope (SRT) [5], [6], [7] and the Sardinia Deep Space Antenna (SDSA) [8] receivers.…”

Section: Introductionmentioning

confidence: 99%

A New Monitor and Control Power Supply PCB for Biasing LNAs of Large Radio Telescopes Receivers

et al. 2023

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The biasing of low noise amplifiers (LNA) is of paramount importance for the receivers of large radio telescopes. High stability, optimal trade-off between gain and noise figure, remote control, and mitigation of the radio frequency interferences (RFIs) are all desirable features in the choice of the electronic board devoted to power supply the LNAs. In this paper, we propose the design and characterization of a multilayer printed circuit board (PCB), named GAIA, able to meet all the aforementioned requirements. The GAIA board is a 3-Unit, four-layer, rack-mountable, programmable PCB for the remote biasing of the LNAs, with monitor and control capabilities, specifically designed to operate in the receivers of the 64-m diameter Sardinia Radio Telescope (SRT). We describe the architecture, layout, and measurements of the GAIA board. Our results show that the GAIA power supply provides high stability of the output bias voltages and, in comparison with the old analogic biasing board used so far in the SRT receivers, it shows comparable or better frequency stability, other than a remarkable mitigation of the RFIs.INDEX TERMS Low noise amplifiers, power supply board, printed circuit board, radio frequency interference, radio telescopes, receivers.

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The Sardinia Space Communication Asset: Performance of the Sardinia Deep Space Antenna X-Band Downlink Capability

Cited by 7 publications

References 18 publications

A High-Sensitivity Cryogenic Radio Receiver: Design, Performance and Polarization Analysis

A High-Sensitivity Cryogenic Radio Receiver: Design, Performance and Polarization Analysis

Toward a European Facility for Ground-Based Radar Observations of Near-Earth Objects

A New Monitor and Control Power Supply PCB for Biasing LNAs of Large Radio Telescopes Receivers

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