First Iteration Communications Circuit for a Long-Lived In-situ Solar System Explorer (LLISSE)
2020 IEEE AEROSPACE CONFERENCE (AEROCONF 2020)(2020)
关键词
differential amplifiers,phase noise,oscillation frequency,buffer amplifiers,on-off keying modulation,Venus lander,SiC-based communication circuit,Venus temperature,high temperature probe station,simulated Venusian environment,low frequency transmission,low power consumption,JFET technology,bias circuit,Keysight Advance Design Systems,Earth days,corrosive atmosphere,dense atmosphere,harsh environment,NASA Glenn Research Center SiC JFET technology,Venus Long-Lived In-situ Solar System Explorer lander,iteration communication system circuitry,LLISSE,first iteration communications circuit,temperature 293.0 K to 298.0 K,frequency 2.0 MHz,temperature 460.0 degC,frequency 5.0 MHz,time 60.0 d,pressure 1344 psi,SiC
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