IEEE Journal of the Electron Devices Society (Jan 2018)

Characterization and Compact Modeling of Nanometer CMOS Transistors at Deep-Cryogenic Temperatures

  • Rosario M. Incandela,
  • Lin Song,
  • Harald Homulle,
  • Edoardo Charbon,
  • Andrei Vladimirescu,
  • Fabio Sebastiano

DOI
https://doi.org/10.1109/JEDS.2018.2821763
Journal volume & issue
Vol. 6
pp. 996 – 1006

Abstract

Read online

Cryogenic characterization and modeling of two nanometer bulk CMOS technologies (0.16-μm and 40-nm) are presented in this paper. Several devices from both technologies were extensively characterized at temperatures of 4 K and below. Based on a detailed understanding of the device physics at deep-cryogenic temperatures, a compact model based on MOS11 and PSP was developed. In addition to reproducing the device dc characteristics, the accuracy and validity of the compact models are demonstrated by comparing time- and frequency-domain simulations of complex circuits, such as a ring oscillator and a low-noise amplifier, with the measurements at 4 K.

Keywords