Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of "traps" (i.e., surface state densities and bulk spurious energy levels) must be taken into account in the large-signal dynamic modeling of III-V field-effect transistors when accurate performance predictions are pursued, since these effects cause important deviations between direct current (dc) and dynamic drain current characteristics. In this paper, a new model for the accurate characterization of these phenomena above their cutoff frequencies is presented, which is able to fully exploit, in the identification phase, large-signal current-voltage (I-V) measurements carried out under quasi-sinusoidal regime using a recently proposed setup. Detailed exp...
Large-signal dynamic modelling of 111-V FETs cannot he simply based on DC i/v characteristics, when...
The need for both linear and efficient pseudomorphic high electron-mobility transistors (pHEMTs) for...
Large-signal dynamic modelling of III-V FETs cannot be simply based on DC i/v characteristics, when...
Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of "traps" (i...
none8Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of “trap...
Large-signal dynamic modelling of III-V FETs cannot be simply based on dc i/v characteristics, when ...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps an...
Large-signal dynamic modelling of III-V FETs cannot be simply based on DC i/v characteristics when ...
none5Large-signal dynamic modelling of III-V FETs cannot be simply based on DC i/v characteristics ...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps an...
none6Low-frequency dispersive phenomena due to self-heating and/or “traps” (that is, surface-state d...
In the paper is shown that,when devices are strongly affected by low-frequency dispersion effects, s...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps...
A general-purpose, technology-independent behavioral model is adopted for the intermodulation perfor...
Low-frequency dispersive phenomena due to self-heating and/or traps (that is, surface-state densitie...
Large-signal dynamic modelling of 111-V FETs cannot he simply based on DC i/v characteristics, when...
The need for both linear and efficient pseudomorphic high electron-mobility transistors (pHEMTs) for...
Large-signal dynamic modelling of III-V FETs cannot be simply based on DC i/v characteristics, when...
Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of "traps" (i...
none8Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of “trap...
Large-signal dynamic modelling of III-V FETs cannot be simply based on dc i/v characteristics, when ...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps an...
Large-signal dynamic modelling of III-V FETs cannot be simply based on DC i/v characteristics when ...
none5Large-signal dynamic modelling of III-V FETs cannot be simply based on DC i/v characteristics ...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps an...
none6Low-frequency dispersive phenomena due to self-heating and/or “traps” (that is, surface-state d...
In the paper is shown that,when devices are strongly affected by low-frequency dispersion effects, s...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps...
A general-purpose, technology-independent behavioral model is adopted for the intermodulation perfor...
Low-frequency dispersive phenomena due to self-heating and/or traps (that is, surface-state densitie...
Large-signal dynamic modelling of 111-V FETs cannot he simply based on DC i/v characteristics, when...
The need for both linear and efficient pseudomorphic high electron-mobility transistors (pHEMTs) for...
Large-signal dynamic modelling of III-V FETs cannot be simply based on DC i/v characteristics, when...