Investigation of TID and Dynamic Burn-In-Induced $V_{{T}}$ Shift on RTG4 Flash-Based FPGA
IEEE Transactions on Nuclear Science(2018)
摘要
RTG4 total ionizing dose (TID) tolerance is investigated postdynamic burn-in (DBI). A VT shift of the programmed Pflash cell is observed post-DBI and is due to programming voltage degradation resulting from the DAC aging. TID testing performed post-DBI shows DBI has minimum impact on RTG4 C-flash TID tolerance since it is dominated by Nflash VT shift. The programmed Pflash VT shift is the dominant...
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关键词
Field programmable gate arrays,Testing,Aerodynamics,Reliability,Temperature measurement,Switches,Military standards
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