DocumentCode
805696
Title
Noise source modeling for cyclostationary noise analysis in large-signal device operation
Author
Bonani, Fabrizio ; Guerrieri, Simona Donati ; Ghione, Giovanni
Author_Institution
Dipt. di Elettronica & INFM, Unita Torino Politecnico, Politecnico di Torino, Italy
Volume
49
Issue
9
fYear
2002
fDate
9/1/2002 12:00:00 AM
Firstpage
1640
Lastpage
1647
Abstract
Starting from the analysis of fundamental noise sources in large-signal (LS) periodic operation, a system theory approach is proposed for the modeling of colored noise sources in devices and circuits driven in LS conditions. According to this interpretation, colored sources are generated by low-pass filtering and amplitude modulation of a white unit Gaussian process. The order of the modulation and filtering steps leads to two different (albeit coincident in small-signal conditions) LS noise sources. Through the analysis of GR noise in physics-based device simulation, it is shown that only one modulation scheme (based on low-pass filtering followed by amplitude modulation) is consistent with the fundamental approach. This result also applies to 1/f noise mechanisms when 1/f fluctuations derive from population fluctuations
Keywords
1/f noise; Gaussian noise; current density; semiconductor device models; semiconductor device noise; superconducting microwave devices; white noise; 1/f noise mechanisms; amplitude modulation; colored noise sources; cyclostationary noise analysis; large-signal device operation; low-pass filtering; microwave devices; modeling; modulation scheme; periodic operation; physics-based device simulation; population fluctuations; semiconductor device modeling; semiconductor device noise; white unit Gaussian process; Amplitude modulation; Circuit noise; Colored noise; Filtering; Fluctuations; Low pass filters; Microscopy; Noise generators; Noise level; Semiconductor device noise;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/TED.2002.802638
Filename
1027853
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