Circuits containing multiple nonlinear elements are typically solved by means of iterative techniques. Recently, Wave Digital Filters (WDFs) have demonstrated good performance for the simulation of circuits containing a high number of nonlinearities. In particular, the vast majority of the approaches available in the literature consider WDFs characterized by reciprocal lossless connection networks. In this article, we provide, instead, a comparison of iterative methods for the solution of WDFs characterized by non-lossless junctions with involutory scattering matrices, e.g., connection networks absorbing nullors. We run different tests at different amplitudes and frequencies, unveiling and giving insights into the trade-off between convergence speed and simulation time.
A Comparison of Iterative Methods for the Solution of Nonlinear WDFs with Non-Lossless Junctions
Giampiccolo, Riccardo;Bernardini, Alberto
2025-01-01
Abstract
Circuits containing multiple nonlinear elements are typically solved by means of iterative techniques. Recently, Wave Digital Filters (WDFs) have demonstrated good performance for the simulation of circuits containing a high number of nonlinearities. In particular, the vast majority of the approaches available in the literature consider WDFs characterized by reciprocal lossless connection networks. In this article, we provide, instead, a comparison of iterative methods for the solution of WDFs characterized by non-lossless junctions with involutory scattering matrices, e.g., connection networks absorbing nullors. We run different tests at different amplitudes and frequencies, unveiling and giving insights into the trade-off between convergence speed and simulation time.| File | Dimensione | Formato | |
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A_Comparison_of_Iterative_Methods_for_the_Solution_of_Nonlinear_Wave_Digital_Filters.pdf
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