Comprehensive Noise Characterization and Modeling for 65-nm MOSFETs for Millimeter-Wave Applications
Microwave Theory and Techniques, IEEE Transactions(2010)
摘要
Using an external tuner-based method, this paper demonstrates a complete millimeter-wave noise characterization and modeling up to 60 GHz for 65-nm MOSFETs for the first time. Due to channel length modulation, the channel noise continues to increase and remains the most important noise source in the millimeter-wave band. Our experimental results further show that, with the downscaling of channel length, the gate resistance has more serious impact on the high-frequency noise parameters than the substrate resistance even in the millimeter-wave frequency.
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关键词
rf,millimeter-wave applications,semiconductor device models,gate resistance,noise,size 65 nm,channel length modulation,semiconductor device noise,millimeter-wave noise characterization,millimeter-wave frequency,substrate resistance,high-frequency noise parameters,external tuner-based method,mosfet,millimeter wave,noise measurement,scattering parameters,noise figure,high frequency,radio frequency
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