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THE UNIVERSITY OF BIRMINGHAM. PHAROS PHased Arrays for Reflector Observing Systems. Faraday Prototype. Test runs at WSRT repeated in July and October this year Good results on the final run: Full match between simulation and measurements!. Faraday Prototype.
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THE UNIVERSITY OF BIRMINGHAM PHAROSPHased Arrays for Reflector Observing Systems
Faraday Prototype • Test runs at WSRT repeated in July and October this year • Good results on the final run:Full match between simulation and measurements!
Faraday Prototype • More details reported next week …….
RECAP PHAROS System Parameters • Frequency range 4 - 8 GHz (optimal for 4.0 - 7.0 GHz) • Number of antenna elements 2x (14 x 13) = 364 • Number of beams 4, with 13 elements per beam • Polarisation single • Tsys < 20 K
Beam-former beam- former power splitters LNAs
Advanced technology MMIC run • 70nm GaAs mHEMT run executed • Designs from, MECSA/INAF, ASTRON and CSIRO • LNAs, 0.4GHz - - 100GHz • Vectormods, phaseshifter
Summary progress • Antenna array: prototyping completed, to be ordered • MMICs: Produced tested and available • Cryostat: design completed, to be ordered • Waiting for BF finalization • Beamformer: prototyping completed, final design needed • Control and Calibration: principle design done
Summary progress, constraints • UMAN progress on hold for 4 months due to priority shift • UMAN design/production and test of the BF on the critical path due to (too) late start: direct impact on schedule • Delay causes project efficiency problems (€?)
Summary progress, euros • MECSA: completion expected within budget • ASTRON: manhour costs overrun expected • INAF: no budget constraints • UBIR: no budget constraints • TCfA: no budget constraints • UMAN: tbd