Dynamic body potential variation in FD SOI MOSFETs operated in deep non-equilibrium regime: Model and applications

Bawedin, Maryline; Cristoloveanu, Sorin; Flandre, Denis

doi:10.1016/j.sse.2009.12.004

Dynamic body potential variation in FD SOI MOSFETs operated in deep non-equilibrium regime: Model and applications

Bawedin, Maryline

;

Cristoloveanu, Sorin

;

Flandre, Denis

;et.al.

(2010) Solid-State Electronics — Vol. 54, n° 2, p. 104-114 (2010)

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Authors

Bawedin, MarylineUCLouvain
Author
Cristoloveanu, Sorin
Author
Flandre, DenisUCLouvain
Author
et. al.

Abstract

Even in fully-depleted (FD) SOI MOSFETs, the floating-body potential variations may lead to strong transient effects on the current characteristics. A physics-based model, enabling the fast computing of the potential variation with time, is proposed in this paper. The model is validated, for a wide range of technological parameters and biases, by 2D numerical simulations. This model reproduces the experimental data and clarifies the physics mechanisms responsible for the transient variations of gate and drain currents. Relevant applications in the field of EEPROM and capacitorless floating-body DRAM memories are addressed.

Affiliations

UCLouvain
UCLouvainEPL/EPL - Ecole Polytechnique de Louvain

Citations

APA
Chicago
FWB

Bawedin, M., Cristoloveanu, S., Flandre, D., & et al. (2010). Dynamic body potential variation in FD SOI MOSFETs operated in deep non-equilibrium regime: Model and applications. Solid-State Electronics, 54(2), 104-114. https://doi.org/10.1016/j.sse.2009.12.004 (Original work published 2010)