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11 June 2007 Low frequency gate noise modeling of ultrathin oxide MOSFETs
F. Martinez, M. Valenza
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Proceedings Volume 6600, Noise and Fluctuations in Circuits, Devices, and Materials; 66001O (2007) https://doi.org/10.1117/12.726920
Event: SPIE Fourth International Symposium on Fluctuations and Noise, 2007, Florence, Italy
Abstract
An analytical model for 1/f gate noise is developed and applied to the simulation and the characterization of ultra-thin MOSFETs. The proposed model is based on oxide trapping mechanisms and uses the concept of equivalent flat band voltage fluctuations. The developed model reproduces experimental behaviors. The power spectral density of flat band voltage fluctuation extracted from gate current low frequency noise is compared to one extracted from drain low frequency noise. Moreover, we have performed 1/f gate current noise for various drain voltage, and we show that there is no impact of the drain current noise on the gate current noise. We also investigate RTS noise observed on the gate leakage current. Finally, we present the characterization of the gate to drain overlap leakage current and its influence on gate current noise level.
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F. Martinez and M. Valenza "Low frequency gate noise modeling of ultrathin oxide MOSFETs", Proc. SPIE 6600, Noise and Fluctuations in Circuits, Devices, and Materials, 66001O (11 June 2007); https://doi.org/10.1117/12.726920
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KEYWORDS
Oxides
Transistors
Data modeling
Interfaces
Field effect transistors
Dielectrics
Instrument modeling
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