Straightforward modeling of dynamic I-V characteristics for microwave FETs

This work presents a straightforward approach aimed at modeling the dynamic I–V characteristics of microwave active solid‐state devices. The drain‐source current generator represents the most significant source of nonlinearity in a transistor and, therefore, its correct modeling is fundamental to pr...

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Veröffentlicht in:	International journal of RF and microwave computer-aided engineering 2014-01, Vol.24 (1), p.109-116
Hauptverfasser:	Avolio, Gustavo, Schreurs, Dominique M. M.-P., Raffo, Antonio, Crupi, Giovanni, Caddemi, Alina, Vannini, Giorgio, Nauwelaers, B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Accuracy I-V characteristics Mathematical models microwave transistor Microwaves Nonlinear dynamics nonlinear measurements nonlinear models Nonlinearity Radio frequencies Semiconductor devices Waveforms
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container_title	International journal of RF and microwave computer-aided engineering
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creator	Avolio, Gustavo Schreurs, Dominique M. M.-P. Raffo, Antonio Crupi, Giovanni Caddemi, Alina Vannini, Giorgio Nauwelaers, B.
description	This work presents a straightforward approach aimed at modeling the dynamic I–V characteristics of microwave active solid‐state devices. The drain‐source current generator represents the most significant source of nonlinearity in a transistor and, therefore, its correct modeling is fundamental to predict accurately the current and voltage waveforms under large‐signal operation. The proposed approach relies on using a small set of low‐frequency time‐domain waveform measurements combined with numerical optimization‐based estimation of the nonlinear model parameters. The procedure is applied to a gallium nitride HEMT and silicon FinFET. The effectiveness of the modeling procedure in terms of prediction accuracy and generalization capability is demonstrated by validation of the extracted models under operating conditions different than the ones used for the parameters estimation. Good agreement between measurements and model simulations is achieved for both technologies and in both low‐ and high‐frequency range. © 2013 Wiley Periodicals, Inc. Int J RF and Microwave CAE 24:109–116, 2014.
doi_str_mv	10.1002/mmce.20719
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The proposed approach relies on using a small set of low‐frequency time‐domain waveform measurements combined with numerical optimization‐based estimation of the nonlinear model parameters. The procedure is applied to a gallium nitride HEMT and silicon FinFET. The effectiveness of the modeling procedure in terms of prediction accuracy and generalization capability is demonstrated by validation of the extracted models under operating conditions different than the ones used for the parameters estimation. Good agreement between measurements and model simulations is achieved for both technologies and in both low‐ and high‐frequency range. © 2013 Wiley Periodicals, Inc. 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subjects	Accuracy I-V characteristics Mathematical models microwave transistor Microwaves Nonlinear dynamics nonlinear measurements nonlinear models Nonlinearity Radio frequencies Semiconductor devices Waveforms
title	Straightforward modeling of dynamic I-V characteristics for microwave FETs
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