PHIMO_FeCAP Compact Model 1.0.1
The PHIMO_FeCAP model describes both the quasi-static and non-quasi-static switching of ferroelectric capacitance, featuring the major loop, minor loops with turning points, as well as the dynamic nucleation limited switching.
Listed in Compact Models
Additional materials available
Version 1.0.1 - published on 26 Jun 2023 doi:10.21981/FADT-SQ43 - cite this
Licensed under NEEDS Modified CMC License according to these terms
Description
A dynamic compact model for ferroelectric (FE) capacitance is presented in this document. The model is derived based on the essential physics of multidomain variations and switching dynamics beyond a phenomenological model. A quasi-static core module is derived from the state transition under voltage forces, with a Gaussian distribution of coercive fields. The minor loops are supported considering the physics of domain interactions without empirical scaling. An extension to capture the dynamic switching is then derived with the relaxation approximation. The compact FE model reproduces the saturation loop, minor loops, and frequency-dependent polarizations of measured FE capacitances with clear physics origins. The model implementation is carried out for circuit simulations.
Model Release Components
- PHIMO_FeCAP Compact Model 1.0.1 Verilog-A(ZIP | 5 KB)
- PHIMO_FeCAP Compact Model 1.0.1 Benchmarks(ZIP | 4 KB)
- PHIMO_FeCAP Compact Model 1.0.1 Parameters(PDF | 207 KB)
- PHIMO_FeCAP Compact Model 1.0.1 Manual(PDF | 1 MB)
- License terms
Cite this work
Researchers should cite this work as follows:
- Ning Feng; Ning Ji; Hao Li; Lining Zhang (2023). PHIMO_FeCAP Compact Model. nanoHUB. doi:10.21981/FADT-SQ43