DocumentCode
1268418
Title
An accurate photonic capacitance model for GaAs MESFETs
Author
Navarro, Cesar ; Zamanillo, José-María ; Sanchez, A.M. ; Puente, Antonio Tazón ; García, Jose Luis ; Lomer, M. ; López-Higuera, José Miguel
Author_Institution
Dept. of Commun. Eng., Cantabria Univ., Santander, Spain
Volume
50
Issue
4
fYear
2002
fDate
4/1/2002 12:00:00 AM
Firstpage
1193
Lastpage
1197
Abstract
A new set of pseudoempirical equations is presented in order to simulate the optical and bias dependencies of GaAs MESFET junction capacitances, which is valid for the whole I-V plane. The variations induced in the small-signal equivalent circuit by the optical illumination are extracted from on-wafer scattering parameter measurements. New linear and quasi-logarithmic variations versus the incident optical power are shown for gate-drain and gate-source (Cgd and Cgs) capacitances. Furthermore, experimental results are in very good agreement with the simulated values for a wide range of optical power and bias conditions. Large signal MESFET models show a better fit with measured S-parameters than those previously published, leading to a greater degree of confidence in the design of photonic monolithic microwave integrated circuits
Keywords
III-V semiconductors; S-parameters; Schottky gate field effect transistors; capacitance; equivalent circuits; gallium arsenide; microwave field effect transistors; microwave measurement; microwave photonics; semiconductor device measurement; semiconductor device models; GaAs; MESFETs; bias dependencies; gate-drain capacitances; gate-source capacitances; junction capacitances; linear variations; monolithic microwave integrated circuits; on-wafer scattering parameter measurements; optical dependencies; photonic capacitance model; pseudoempirical equations; quasi-logarithmic variations; small-signal equivalent circuit; Capacitance; Circuit simulation; Equations; Equivalent circuits; Gallium arsenide; Integrated circuit modeling; MESFETs; Optical scattering; Photonic integrated circuits; Scattering parameters;
fLanguage
English
Journal_Title
Microwave Theory and Techniques, IEEE Transactions on
Publisher
ieee
ISSN
0018-9480
Type
jour
DOI
10.1109/22.993424
Filename
993424
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