Showing posts with label LFN. Show all posts
Showing posts with label LFN. Show all posts

Jul 26, 2017

[paper] A Compact Model for the Statistics of the Low-Frequency Noise of MOSFETs With Laterally Uniform Doping

M. Banaszeski da Silva, H. P. Tuinhout, A. Zegers-van Duijnhoven, G. I. Wirth and A. J. Scholten
"A Compact Model for the Statistics of the Low-Frequency Noise of MOSFETs With Laterally Uniform Doping" 
in IEEE TED, vol. 64, no. 8, pp. 3331-3336, Aug. 2017.
doi: 10.1109/TED.2017.2713301

Abstract: In this paper, we develop a compact physics-based statistical model for random telegraph noise-related low-frequency noise in bulk MOSFETS with laterally uniform doping. The proposed model is suited for modern compact device models, such as PSP, BSIM, and EKV. With our proposed model, one can calculate the expected value and the variability of the noise as a function of bias and device parameters. We validate the model through numerous experimental results from different CMOS nodes, down to 40 nm [read more...]

Jul 4, 2017

[paper] A Compact Model for the Statistics of the Low-Frequency Noise of MOSFETs With Laterally Uniform Doping

A Compact Model for the Statistics of the Low-Frequency Noise of MOSFETs With Laterally Uniform Doping
M. Banaszeski da Silva; H. P. Tuinhout; A. Zegers-van Duijnhoven; G. I. Wirth; A. J. Scholten;
in IEEE Transactions on Electron Devices, vol.PP, no.99, pp.1-6
doi: 10.1109/TED.2017.2713301

Abstract: In this paper, we develop a compact physics-based statistical model for random telegraph noise-related low-frequency noise in bulk MOSFETS with laterally uniform doping. The proposed model is suited for modern compact device models, such as PSP, BSIM, and EKV. With our proposed model, one can calculate the expected value and the variability of the noise as a function of bias and device parameters. We validate the model through numerous experimental results from different CMOS nodes, down to 40 nm. [read more...]