Improved MESFET/pHEMT Models and Their Comprehensive Comparison With Standard Ones

conference paper

English

In the paper, we suggest several new updates to the equations that ordinarily describe the MESFETs and pHEMTs in both DC and time domains. We have composed some novel forms of the equations that are especially convenient for accurate describing transconductance voltage dependences, which is important for realistic modeling the low noise amplifiers with pHEMTs including calculations of their IP3 points. In other words, the attention is not only directed to the precision of the equation themselves, but also to the accuracy of the derivatives of them with respect to both gate-source and gate-drain voltages (up to the third order). The paper contains comprehensive comparisons of our recently updated models with our previous one and many others; two pHEMTs have been used for comparisons: the first working from 1 GHz up to 18 GHz, and the second operating at the frequencies greater than 100 GHz. Both DC characteristics and high-frequency s-parameters have been compared, and the comparisons show that the precision of our model modifications is at least comparable with the model like TriQuint ones.

MESFET; pHEMT; modeling; computer-aided design; characterization; parameter extraction; s-parameters; transconductance; phase shift; Bessel differential equation; IP3 point; low noise amplifier.

DOBEŠ, J.; GRÁBNER, M.; BIOLKOVÁ, V.

11. 11. 2019

IEEE

USA

978-1-7281-2939-6

2019 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS)

149

152

4

https://ieeexplore.ieee.org/document/8953098