Piezoresistivity Materials Database
The Piezoresistivity materials database is included with the MEMS Module and contains the following materials:
Material
p-Silicon (single-crystal, lightly doped)
n-Silicon (single-crystal, lightly doped)
p-Silicon (polycrystalline, lightly doped)
n-Silicon (polycrystalline, lightly doped)
All materials define the following material properties needed for modeling the piezoresistance effect:
Material Property
Description
D
Elasticity matrix
DVo
Elasticity matrix, Voigt notation
ρ
Density
εr
Relative permittivity
σ
Electrical conductivity
Π
Piezoresistive coupling matrix
ml
Elastoresistive coupling matrix
Both the electrical conductivity and the piezoresistive or elastoresistive coupling matrix are strong functions of the material dopant density. The material models include appropriate functions, although the piezoresistive and elastoresistive matrices scale only with the conductivity, which is appropriate only at lower dopant densities (below approximately 1016 cm3). The low doping level piezoresistance and elastoresistance values are based on those given in Ref. 1. The conductivity is computed from an empirical functional fit to experimental data given in equation 8 of Ref. 2. Data on the piezoresistance properties of Silicon at higher doping levels is available in Ref. 3 and Ref. 4. Because this data does not include all components of the coupling matrix, it is not included in the material models.
The dopant density must be entered for the material as a model input in the piezoresistive or conductive material node. It can be entered as a constant value or as an expression (for example, a spatially varying function could be used).