The Room Temperature Multi-Channel Heterodyne Receiver Section of the PHAROS2 Phased Array Feed

This paper describes the design, fabrication, and test results of a room temperature multi-channel heterodyne receiver operating across the 2.3–8.2 GHz radio frequency (RF) band. Such a “Warm Section” (WS) receiver is part of phased arrays for reflector observing systems 2 (PHAROS2), a C-band phased...

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Veröffentlicht in:	Electronics (Basel) 2019-06, Vol.8 (6), p.666
Hauptverfasser:	Navarrini, Alessandro, Scalambra, Alessandro, Rusticelli, Simone, Maccaferri, Andrea, Cattani, Alessandro, Perini, Federico, Ortu, Pierluigi, Roda, Juri, Marongiu, Pasqualino, Saba, Andrea, Poloni, Marco, Ladu, Adelaide, Schirru, Luca
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Sprache:	eng
Schlagworte:	Amplification Antenna arrays Antennas C band Conversion Design Digitization Fiber optics Field programmable gate arrays Intermediate frequencies Low noise Modules Noise Optical communication Optics Phased arrays Radio astronomy Radio frequency Receivers & amplifiers Room temperature Transmitters Wave division multiplexing Wavelength division multiplexing
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creator	Navarrini, Alessandro Scalambra, Alessandro Rusticelli, Simone Maccaferri, Andrea Cattani, Alessandro Perini, Federico Ortu, Pierluigi Roda, Juri Marongiu, Pasqualino Saba, Andrea Poloni, Marco Ladu, Adelaide Schirru, Luca
description	This paper describes the design, fabrication, and test results of a room temperature multi-channel heterodyne receiver operating across the 2.3–8.2 GHz radio frequency (RF) band. Such a “Warm Section” (WS) receiver is part of phased arrays for reflector observing systems 2 (PHAROS2), a C-band phased array feed (PAF) demonstrator with digital beamformer for radio astronomy application. The WS receiver is cascaded to the PHAROS2 cryostat, which includes an array of Vivaldi antennas with low noise pre-amplification stages. The WS can handle up to 32 RF signals and, for each of them, realizes the operations of filtering, RF amplification and down-conversion from the RF to the 375–650 MHz intermediate frequency (IF). Also, the WS incorporates an IF-to-optical signal conversion through analogue wavelength division multiplexing IF over fiber (IFoF) and fiber-optic transmitters (OTXs). The 32-channel WS receiver consists of four eight-channel WS RF/IF modules, one local oscillator (LO) splitter module and one monitoring and control module, all hosted in a standard 6U × 19-inch rack.
doi_str_mv	10.3390/electronics8060666
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subjects	Amplification Antenna arrays Antennas C band Conversion Design Digitization Fiber optics Field programmable gate arrays Intermediate frequencies Low noise Modules Noise Optical communication Optics Phased arrays Radio astronomy Radio frequency Receivers & amplifiers Room temperature Transmitters Wave division multiplexing Wavelength division multiplexing
title	The Room Temperature Multi-Channel Heterodyne Receiver Section of the PHAROS2 Phased Array Feed
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