Matrix-type FDTD method for hybrid circuits

## Abstract In this paper, hybrid circuits with lumped elements, including a capacitor, inductor, and diode, are analyzed with the finite‐difference time‐domain (FDTD) method, and alternative algorithms for FDTD simulations of those elements are proposed, respectively. An integral formulation for t

A new hybrid TLM-FDTD algorithm for solving di!usion problems is described. The method utilizes the transmission line model to de"ne the time step and the FDTD's leap-frog algorithm to determine the voltages and currents of the network analogue of the di!usion equation. Unlike the standard TLM metho

spacings considered, 0.045 and 0.09, the highest effective diversity gain is achieved when the source impedance (on transmit) is equal to the complex conjugate of the input impedance of the embedded dipole element. We have also shown that if we try to maximize the radiation efficiency, the increased

## Abstract A circuit model for the package‐to‐chip power grid interface is presented for use in conjunction with the finite‐difference time‐domain (FDTD) simulation of on‐chip power‐grid switching. A numerical scheme is proposed for the integration of the hybrid circuit/FDTD model, the stability o

A hybrid-hybrid matrix method is described that quantitatively analyzes 3D NOE-NOE NMR data. Experimental 3D data are merged with simulated 3D data to create a hybrid 3D NOENOE spectrum. This is then deconvoluted into a 2D hybrid NOESY spectrum. The deconvoluted, 2D hybrid NOESY spectrum can then be