Add to ORKGOverview of the main electron device empirical modeling approaches and characterization techniques
none6Theoretical and practical issues concerning the non-linear dynamic modelling of electron device...
none8Large-signal dynamic modelling of III-V FETs cannot be simply based on dc i/v characteristics,...
A teclinology-independent, mathematical approach is proposed for the look-up-table based nonlinear m...
Overview of the main electron device empirical modeling approaches and characterization techniques
It is well known that low-frequency dispersive effects cause important deviations between static (dc...
In this thesis, three years are enclosed of research activity in the topic of non linear characteri...
The modeling and characterization of nonlinear microwave devices and systems like power amplifiers,...
This paper presents a new modeling approach accounting for the nonlinear description of low-frequenc...
none6When dealing with microwave electron device modeling, robust device characterization typically ...
Low-frequency dispersive phenomena due to self-heating and charge trapping in GaN and GaAs- based FE...
In this letter, a simple and efficient approach for the modeling of low-frequency dispersive phenome...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps an...
In this paper, a simple and efficient approach for the modeling of low-frequency dispersive phenomen...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps...
Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of "traps" (i...
none6Theoretical and practical issues concerning the non-linear dynamic modelling of electron device...
none8Large-signal dynamic modelling of III-V FETs cannot be simply based on dc i/v characteristics,...
A teclinology-independent, mathematical approach is proposed for the look-up-table based nonlinear m...
Overview of the main electron device empirical modeling approaches and characterization techniques
It is well known that low-frequency dispersive effects cause important deviations between static (dc...
In this thesis, three years are enclosed of research activity in the topic of non linear characteri...
The modeling and characterization of nonlinear microwave devices and systems like power amplifiers,...
This paper presents a new modeling approach accounting for the nonlinear description of low-frequenc...
none6When dealing with microwave electron device modeling, robust device characterization typically ...
Low-frequency dispersive phenomena due to self-heating and charge trapping in GaN and GaAs- based FE...
In this letter, a simple and efficient approach for the modeling of low-frequency dispersive phenome...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps an...
In this paper, a simple and efficient approach for the modeling of low-frequency dispersive phenomen...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps...
Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of "traps" (i...
none6Theoretical and practical issues concerning the non-linear dynamic modelling of electron device...
none8Large-signal dynamic modelling of III-V FETs cannot be simply based on dc i/v characteristics,...
A teclinology-independent, mathematical approach is proposed for the look-up-table based nonlinear m...