Low-noise detector with RFI mitigation capability for the Aquarius L-band scatterometer
Big Sky, MT(2009)
摘要
The upcoming Aquarius sea-surface salinity mission has tight requirements on backscatter measurement accuracy and stability at L-band frequencies (1.26 GHz). These requirements have driven the development of new capabilities in the scatterometer's backend detector electronics, which are the focus of this paper. Topics include the development of flight-grade hardware aboard the scatterometer for radio frequency interference (RFI) detection and mitigation, and analog/digital electronics design techniques used to reduce system noise and achieve highly linear power detection over a wide dynamic range. We also summarize the approach taken to test the scatterometer's processing and control functions at the level of the integrated Aquarius flight instrument, and present some recent results from the integrated testing campaign.
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关键词
backscatter,oceanographic equipment,oceanographic techniques,radiofrequency interference,remote sensing by radar,seawater,aquarius l-band scatterometer,aquarius sea-surface salinity mission,l-band frequency,rfi mitigation,backend detector electronics,backscatter measurement accuracy,electronics design,flight grade hardware,frequency 1.26 ghz,linear power detection,low noise detector,radio frequency interference detection,radio frequency interference mitigation,system noise reduction,radio frequency interference,digital receiver,field-programmable gate array (fpga),noise reduction,radar target simulator,square-law detection,integration testing,detectors,hardware,l band frequency,l band,field programmable gate array,testing,noise,stability,radar
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