The use of SPICE lumped circuits as sub-grid models for FDTD analysis

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

The finite-difference time-domain method FDTD is widely applied for the analysis of ¨arious microwa¨e circuits. In this letter, an important aspect of an internal resisti¨e source modeling is emphasized for reducing the number of time steps required for the FDTD calculation to con¨erge, especially f

## Abstract In this paper, the performance of the resistive voltage source (RVS) model used for the FDTD analysis of microstrip circuits is evaluated. It is found that, when the actual physical impedance of a microstrip line is used for assigning a constant value of __R~s~__ into the corresponding