Table-look-up modeling of microwave electron devices needs data interpolation algorithms with specific requirements. In the paper, an original data approximating formula is adopted in the framework of a well-known LUTbased nonlinear device model. Accurate intermodulation distortion prediction for highly linear power amplifier design is proven to be strongly dependent on the data interpolation/ approximation. The proposed procedure provides more accurate reconstruction of sampled functions and related derivatives than conventional splines. The LUT-based model is shown to provide accurate predictions of the third order intermodulation product even at extremely low levels
A detailed procedure to learn a nonlinear model together with its first-order derivative data is pre...
Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of "traps" (i...
A previously proposed look-up-Table based mathematical approach for the modeling of microwave active...
Table-look-up modeling of microwave electron devices needs data interpolation algorithms with spec...
Table-look-up modeling of microwave electron devices needs data interpolation algorithms with specif...
A new procedure is presented for the analytical representation of electron device characteristics on...
This paper describes a mathematical model which has been adopted for the large-signal performance pr...
Empirical electron device models based on lumped equivalent circuits are usually identified through...
none8Large-signal dynamic modelling of III-V FETs cannot be simply based on dc i/v characteristics,...
A new approach to the approximation of nonlinear characteristics for look-up table based electron de...
A general-purpose, technology-independent behavioral model is adopted for the intermodulation perfor...
A new companding function is proposed for non-uniform indexation of a quadratically interpolated LUT...
AbstractHigh-fidelity electromagnetic (EM) simulation is a very accurate but computationally expensi...
This paper demonstrates how the Poly Harmonic Distortion (PHD) modelling framework is effective in i...
A new quasi-two-dimensional physical model is described for microwave LDMOS power transistors. This ...
A detailed procedure to learn a nonlinear model together with its first-order derivative data is pre...
Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of "traps" (i...
A previously proposed look-up-Table based mathematical approach for the modeling of microwave active...
Table-look-up modeling of microwave electron devices needs data interpolation algorithms with spec...
Table-look-up modeling of microwave electron devices needs data interpolation algorithms with specif...
A new procedure is presented for the analytical representation of electron device characteristics on...
This paper describes a mathematical model which has been adopted for the large-signal performance pr...
Empirical electron device models based on lumped equivalent circuits are usually identified through...
none8Large-signal dynamic modelling of III-V FETs cannot be simply based on dc i/v characteristics,...
A new approach to the approximation of nonlinear characteristics for look-up table based electron de...
A general-purpose, technology-independent behavioral model is adopted for the intermodulation perfor...
A new companding function is proposed for non-uniform indexation of a quadratically interpolated LUT...
AbstractHigh-fidelity electromagnetic (EM) simulation is a very accurate but computationally expensi...
This paper demonstrates how the Poly Harmonic Distortion (PHD) modelling framework is effective in i...
A new quasi-two-dimensional physical model is described for microwave LDMOS power transistors. This ...
A detailed procedure to learn a nonlinear model together with its first-order derivative data is pre...
Low-frequency (LF) dispersive phenomena due to device self-heating and/or the presence of "traps" (i...
A previously proposed look-up-Table based mathematical approach for the modeling of microwave active...