Compehensive Nonlinear Modelling of Dispersive Heterstructure Field Effect Transistors and their MMIC Applications (PDF)
(Sprache: Englisch)
A custom HFET model was developed and applied in the design of several MMIC applica- tions. The model is expressly dedicated to microwave circuit design. Its analytical nonlinear equations provide a compromise between physical interpretability, numerical...
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A custom HFET model was developed and applied in the design of several MMIC applica- tions. The model is expressly dedicated to microwave circuit design. Its analytical nonlinear equations provide a compromise between physical interpretability, numerical efficiency and global validity. As an essential part of the overall model, the COBRA expression features a highly efficient and accurate description of complex HFET drain current characteristics. A modification was introduced to include the reduction of drain current due to the self-heating effect as well as for improved description of gain compression. A new approach to frequency dispersion modelling extends the model’s validity range from the microwave- down to the low-frequency and DC regimes. The proposed dispersion model relies on conventional device characterisation techniques and standard parameter ex- traction procedures. The inclusion of multiple dispersion time constants and exponentially decaying step responses accurately reflects the physical nature of individual dispersion ef- fects, providing a correct description of transitions between dispersion regimes both in the time- and frequency domain. As a consequence, the model allows for accurate assessment of dynamic (gain, matching, intermodulation etc.), static (e.g. biasing, power consumption) as well as combined (e.g. PAE, self-biasing) figures of merit during the design phase. Addition- ally, the simulation error introduced by neglecting frequency dispersion when using purely static or dynamic drain current models, can be evaluated. A unified capacitance model approach defines the frame for sets of charge-conservative expressions for gate capacitance characteristics. The final equations employed here resemble in composition the Curtice IV model, e.g. in terms of transition from linear- to saturated- and from sub-threshold- to active voltage regimes. The universal validity of the model was demonstrated by applying it to several different HEMT technologies, encompassing both state-of-the-art GaAs pHEMT low-noise and power processes, high-frequency InP pHEMTs as well as novel concepts such as the strained-Si/SiGe mHEMT. Both the nonlinear capacitance and dispersion models proved to apply very well to all HEMT technologies.
Bibliographische Angaben
- 2006, 160 Seiten, Englisch
- Verlag: Cuvillier Verlag
- ISBN-10: 3736919239
- ISBN-13: 9783736919235
- Erscheinungsdatum: 28.06.2006
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- Größe: 3.34 MB
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Englisch
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