Time-Domain Modeling of Low-Frequency Noise in Deep-Submicrometer MOSFET

Author

Hamid, Nor Hisham ; Murray, Alan F. ; Roy, Scott

Author_Institution

Univ. Teknologi PETRONAS, Trononh

Volume

55

Issue

1

fYear

2008

Firstpage

245

Lastpage

257

Abstract

1/f noise and random telegraph signal (RTS) noise are increasingly dominant sources of low-frequency noise as the MOSFET enters the nanoscale regime. In this study, 1/f noise and RTS noise in the n-channel MOSFET are modelled in the time domain for efficient implementation in transient circuit simulation. A technique based on sum-of-sinusoids models 1/f noise while a Monte Carlo based technique is used to generate RTS noise. Low-frequency noise generated using these models exhibits the correct form of noise characteristics as predicted by theory, with noise parameters from standard 0.35-mum and 35-nm CMOS technology. Implementation of the time-domain model in SPICE shows the utility of the noisy MOSFET model in simulating the effect of low-frequency noise on the operation of deep-submicrometer analog integrated circuits.

Keywords

1/f noise; CMOS integrated circuits; Monte Carlo methods; SPICE; integrated circuit modelling; time-varying networks; 1/f noise; CMOS technology; Monte Carlo technique; SPICE; deep submicrometer MOSFET; low frequency noise; random telegraph signal noise; size 0.35 mum; size 35 nm; sum of sinusoids models; time domain modeling; transient circuit simulation; Analog multiplier; Nanoscale MOSFETs, , , ,; analogue multiplier; flicker noise; low-frequency noise; nanoscale MOSFETs; random telegraph signal (RTS) noise;

fLanguage

English

Journal_Title

Circuits and Systems I: Regular Papers, IEEE Transactions on

Publisher

ieee

ISSN

1549-8328

Type

jour

DOI

10.1109/TCSI.2007.910543

Filename

4378218