An efficient parameter extraction algorithm for MOS transistor models
Journal article, 1992
A general, direct parameter extraction algorithm that uses a small number of data points has been developed for MOS transistor models. This extraction algorithm has been tested using two transistor models in SPICE, MOS3, and BSIM. The basic idea of the algorithm is to use only one data point for each transistor parameter. Appropriate selection of the data points ensures physically reasonable values of most extracted parameters. Analytical expressions or rapidly converging numerical equations are used to calculate the parameters. Interaction between different parameters are taken into account. Good agreement between measured and simulated data is obtained from only 15 and 25 data points for MOS3 and BSIM, respectively. The total extraction time for a single transistor is around 40 s for MOS3 and 1 min for BSIM.
Circuit simulation
Equations
Production control
MOSFETs
Integrated circuit modeling
SPICE
Data mining
Semiconductor device modeling
Parameter extraction
Threshold voltage
Author
Peter R. Karlsson
Department of Solid State Electronics
Kjell Jeppson
Department of Solid State Electronics
Department of Microelectronics and Nanoscience
IEEE Transactions on Electron Devices
0018-9383 (ISSN) 15579646 (eISSN)
Vol. 39 9 2070 - 2076Subject Categories
Electrical Engineering, Electronic Engineering, Information Engineering
DOI
10.1109/16.155879