In this paper, we propose to derive an analytical model for the doped symmetric double-gate (DG) MOSFET that is valid in all regions of operation. We show that doping the silicon channel can be converted in an equivalent silicon thickness and threshold vol ...
An explicit charge-based compact model for lightly doped FinFETs is proposed. This design-oriented model is valid and continuous in all operating regimes (subthreshold, linear, and saturation) for channel lengths (L) down to 25 nm, Fin widths (W-Si) down t ...
A physics-based compact model including short-channel effects (SCEs) is presented for undoped (or lightly doped) symmetric double-gate (DG) MOSFETs. Our approach allows an accurate description of the device behavior down to 60 nm with a simple set of equat ...
Bond graphs represent a convenient tool for physical system analysis. While it is one part of the job to establish a pertinent bond graph model, it is another important part of the job to take advantage of this bond graph. A simulation tool is involved and ...
