Add to ORKGAbstract—In this paper Low Frequency (LF) parasitic effects are assessed through three kinds of measurements. It is shown that LF S-parameters measurements allow to extract the thermal impedance of Heterojunction Bipolar Transistors (HBTs) and to put dispersive effects of AlGaN/GaN High Electron Mobility Transistors (HEMTs) into evidence. Large signal (RF pulsed and two tone intermodulation) confirm the impact of those parasitic effects on performances of Power Amplifiers. Keywords-thermal, parasitic; traps; pulses; two-tone intermodulation. I
International audienceThe third-order intermodulation distortion in AlGaN/GaN high electron mobility...
It is well known that low-frequency dispersive effects cause important deviations between static (dc...
In this paper a new active bias network (ABN) for the technology- independent characterization of lo...
International audienceIn this paper Low Frequency (LF) parasitic effects are assessed through three ...
Some aspects of microwave transistor behavior are emerging as significant factors in applications in...
An AlGaN/GaN HEMT- and an InAlAs/InGaAs mHEMT technology, both with a gate-length of 100 nm, are inv...
International audienceRF GaN power technologies are emerging for future equipment in the defence, sp...
Ce document porte sur le développement d’un nouveau banc de mesure pour la caractérisation de l’impé...
In modern submicrometer transistors, the influence of the internal base and emitter series resistanc...
International audienceReliability in GaN based devices still motivates numerous studies because the ...
A methodology to systematically study hot carrier and soft breakdown effects on RF circuits is propo...
International audienceFrequency dispersion of transconductance and output conductance in AlInN/GaN h...
International audienceA theoretical analysis using two-tone simulations and practical measurements o...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps an...
A physical basis for large-signal HBT modeling was established in terms of transit times using a Mon...
International audienceThe third-order intermodulation distortion in AlGaN/GaN high electron mobility...
It is well known that low-frequency dispersive effects cause important deviations between static (dc...
In this paper a new active bias network (ABN) for the technology- independent characterization of lo...
International audienceIn this paper Low Frequency (LF) parasitic effects are assessed through three ...
Some aspects of microwave transistor behavior are emerging as significant factors in applications in...
An AlGaN/GaN HEMT- and an InAlAs/InGaAs mHEMT technology, both with a gate-length of 100 nm, are inv...
International audienceRF GaN power technologies are emerging for future equipment in the defence, sp...
Ce document porte sur le développement d’un nouveau banc de mesure pour la caractérisation de l’impé...
In modern submicrometer transistors, the influence of the internal base and emitter series resistanc...
International audienceReliability in GaN based devices still motivates numerous studies because the ...
A methodology to systematically study hot carrier and soft breakdown effects on RF circuits is propo...
International audienceFrequency dispersion of transconductance and output conductance in AlInN/GaN h...
International audienceA theoretical analysis using two-tone simulations and practical measurements o...
The modeling of low-frequency dispersive effects due to surface state densities, deep level traps an...
A physical basis for large-signal HBT modeling was established in terms of transit times using a Mon...
International audienceThe third-order intermodulation distortion in AlGaN/GaN high electron mobility...
It is well known that low-frequency dispersive effects cause important deviations between static (dc...
In this paper a new active bias network (ABN) for the technology- independent characterization of lo...