Title :
Measurement-Based Non-Quasi-Static Large-Signal FET Model Using Artificial Neural Networks
Author :
Xu, Jianjun ; Gunyan, Daniel ; Iwamoto, Masaya ; Cognata, Alex ; Root, David E.
Author_Institution :
Agilent Technol. Inc., Santa Rosa, CA
Abstract :
A new measurement-based FET model is presented which combines non-quasi-static dynamics formulated with constitutive relations derived using adjoint and conventional artificial neural networks (ANN). The new model features smoother constitutive relations than spline-based methods while maintaining the non-quasi-static dynamics for accurate distortion simulations. Additionally, this work demonstrates, for the first time, the construction of an adjoint-trained ANN-based "high-frequency drain current" constitutive relation (accounting for dispersion due to traps and thermal effects in III-V FETs), along with drain and gate terminal charges from measured bias-dependent data. The model is implemented in Agilent ADS and validated with nonlinear measurements on a 0.25mum GaAs pHEMT device
Keywords :
III-V semiconductors; gallium arsenide; high electron mobility transistors; microwave field effect transistors; neural nets; semiconductor device measurement; semiconductor device models; 0.25 micron; GaAs; adjoint artificial neural networks; high-frequency drain current; intermodulation distortion; large-signal FET model; measurement-based FET model; microwave FET; nonlinear measurements; nonquasistatic FET model; nonquasistatic dynamics; pHEMT device; semiconductor device modeling; spline-based methods; Artificial neural networks; Current measurement; Dispersion; Distortion measurement; FETs; Gallium arsenide; III-V semiconductor materials; Nonlinear distortion; Spline; Time measurement; Intermodulation distortion; Microwave FETs; Neural networks; Semiconductor device modeling;
Conference_Titel :
Microwave Symposium Digest, 2006. IEEE MTT-S International
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-9541-7
Electronic_ISBN :
0149-645X
DOI :
10.1109/MWSYM.2006.249594
