Decades of research and development and rapid growth in computer capability have built up a firm foundation for FDTD techniques to be applied to many practical problems.īased on FDTD, this dissertation develops a stable CO-simulation method to perform a full-wave simulation of a hybrid EM system consisting of lumped elements and distributed structures. It is a full-wave simulation method that solves the Maxwell's equations in time domain directly. The finite-difference time-domain (FDTD) technique receives growing attention in the area of EM system analysis and simulation due to its simplicity, flexibility and robustness. It is necessary to explore the interaction between the field and electronic components during a transient process when field effects are more significant. In this situation, a full-wave simulation tool is desired for the analysis and design of high-speed and non-linear EM systems. In high-frequency ranges, the present electronic design automation software has limited capabilities to model electromagnetic (EM) systems where there are strong field effects influencing their characteristics.
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