All-Operation-Regime Characterization and Modeling of Drain Current Variability in Junctionless and Inversion-Mode FDSOI Transistors
D. Bosch, J.P. Colinge, G. Ghibaudo, X. Garros, Sylvain Barraud, J. Lacord, B. Sklénard, Laurent Brunet, P. Batude, C. Fenouillet-Béranger, J. Cluzel, R. Kies, Jean‐Michel Hartmann, C. Vizioz, G. Audoit, F. Balestra, F. Andrieu
Abstract
We evidence a unique feature of junctionless Fully-Depleted Silicon-On-Insulator (JL FDSOI) transistors: the presence of both bulk and accumulation conduction renders standard VT-variability studies incomplete. For JL transistors, we rather propose an original analysis of the (local and global) variability in all-operation-regimes, from subthreshold to accumulation. We evidence that the current variability around VT is highly sensitive to back-bias VB and film thickness (tsi) uniformity. We demonstrate experimentally for the first time up to 70% lower drain current (ID) local variability for Junctionless Accumulation Mode (JAM) vs. inversion mode (IM) at 1V gate voltage (VG), L=18nm gate length and W=20nm width. This is attributed to the impurity screening, lowering the impact of Random Dopant Fluctuations variability.