IEEE Access (Jan 2020)

An Assessment of the Statistical Distribution of Random Telegraph Noise Time Constants

  • Mehzabeen Mehedi,
  • Kean Hong Tok,
  • Jian Fu Zhang,
  • Zhigang Ji,
  • Zengliang Ye,
  • Weidong Zhang,
  • John S. Marsland

DOI
https://doi.org/10.1109/ACCESS.2020.3028747
Journal volume & issue
Vol. 8
pp. 182273 – 182282

Abstract

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As transistor sizes are downscaled, a single trapped charge has a larger impact on smaller devices and the Random Telegraph Noise (RTN) becomes increasingly important. To optimize circuit design, one needs assessing the impact of RTN on the circuit and this can only be accomplished if there is an accurate statistical model of RTN. The dynamic Monte Carlo modelling requires the statistical distribution functions of both the amplitude and the capture/emission time (CET) of traps. Early works were focused on the amplitude distribution and the experimental data of CETs were typically too limited to establish their statistical distribution reliably. In particular, the time window used has been often small, e.g. 10 sec or less, so that there are few data on slow traps. It is not known whether the CET distribution extracted from such a limited time window can be used to predict the RTN beyond the test time window. The objectives of this work are three fold: to provide the long term RTN data and use them to test the CET distributions proposed by early works; to propose a methodology for characterizing the CET distribution for a fabrication process efficiently; and, for the first time, to verify the long term prediction capability of a CET distribution beyond the time window used for its extraction.

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