Abstract
Existing spaceborne radiometer receivers, particularly below 40GHz, have typically utilized analog direct detection, but recently have been pushing toward heterodyne systems with digital signal processing to deal with the problem of radio frequency interference (RFI). But, radar and radiometer receivers have yet to be integrated in an optimized manner for spaceborne systems. Fast sampling analog-to-digital converters (ADCs) have been evolving to where we can consider in the 2025 time frame digitizing broad IF signals containing the desired radar signal, natural brightness emission and extraneous man-made RF signals (e.g. RFI) which can then be distributed and processed by radar and radiometer specific digital processors. In this way, a common RF front-end architecture can interface with an agile reconfigurable backend and can be used across several systems (e.g. small, large class sensors). In this study, we designed and demonstrated a multi-purpose receiver that can serve both the needs for the radar and radiometer, first focusing on Ka-band.
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