Time domain modeling of a microwave Schottky diode

## Abstract The paper concerns the problem of modelling of silicon and silicon carbide power Schottky diodes. The SPICE built‐in isothermal model of silicon diodes and the electrothermal model of silicon carbide Schottky diodes proposed by Infineon Technologies are investigated and modified. The qu

A physics-based model for the C᎐V characteristics of an integrated planar Schottky ¨aractor doide in the microwa¨e band is presented. The model takes into account the influences of the distributed channel series resistance introduced by the planar structure, the distributed junction capacitance, the

Scattering parameters of microstrip ring resonators with ) and without slits that are either edge or side coupled to the feedlines are simulated by the FDTD method. The strip conductors on the de¨ice can either be infinitely thin or finite in thickness. The simulations predict the occurrence of reso

In this article, a recurrent neural network (RNN) method is employed for dynamic time-domain modeling of both linear and nonlinear microwave circuits. An automated RNN modeling technique is proposed to efficiently determine the training waveform distribution and internal RNN structure during the off

## Abstract The paper presents a global time domain simulation of a microwave rectenna studied for wireless energy transfer. The novelty of the work is to take into account both distributed electromagnetic parts of the antenna and the rectifier circuit including lumped elements. From a 3D finite el