论文信息 - Finite Element Simulations of Parasitic Capacitances Related to Multiple-Gate Field-Effect Transistors Architectures

Finite Element Simulations of Parasitic Capacitances Related to Multiple-Gate Field-Effect Transistors Architectures

In this paper, the impact of important geometrical parameters such as source and drain thickness, fin spacing, spacer width, etc. on the parasitic fringing capacitance component of multiple-gate field-effect transistors (MuGFET) is deeply analyzed using finite element simulations. Several architectures such as single gate, FinFETs (double gate), triple-gate represented by Pi-gate MOSFETs are simulated and compared in terms of channel and fringing capacitances for the same occupied die area. Simulations highlight the great impact of diminishing the spacing between fins for MuGFETs and the trade-off between the reduction of parasitic source and drain resistances and the increase of fringing capacitances when selective epitaxial growth (SEG) technology is introduced. The impact of these technological solutions on the transistor cut-off frequencies is also discussed.

B. Iniguez | O. Moldovan | D. Lederer | J.-P. Raskin

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