Journal ArticleDOI
FD-TD modeling of digital signal propagation in 3-D circuits with passive and active loads
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In this paper, the authors discuss full-wave modeling of electronic circuits in three dimensions using the finite-difference time-domain (FD-TD) solution of Maxwell's equations.Abstract:Â
Most existing computer-aided circuit design tools are limited when digital clock speeds exceed several hundred MHz. These tools may not deal effectively with the physics of UHF and microwave electromagnetic wave energy transport along metal surfaces such as ground planes or in the air away from metal paths that are common at or above this frequency range. In this paper, we discuss full-wave modeling of electronic circuits in three dimensions using the finite-difference time-domain (FD-TD) solution of Maxwell's equations. Parameters such as stripline complex line impedance, propagation constant, capacitance per unit length and inductance per unit length can be easily computed as a function of frequency. We also discuss FD-TD Maxwell's equations computational modeling of lumped-circuit loads and sources in 3-D, including resistors and resistive voltage sources, capacitors, inductors, diodes, and transistors. We believe that this approach will be useful in simulating the large-signal behavior of very high-speed nonlinear analog and digital devices in the context of the full-wave time-dependent electromagnetic field. >read more
Citations
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Journal ArticleDOI
Simulation of high-speed interconnects
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Dual-frequency planar inverted-F antenna
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Effects of inductance on the propagation delay and repeater insertion in VLSI circuits
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Microwave imaging via space-time beamforming: experimental investigation of tumor detection in multilayer breast phantoms
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Three-dimensional FDTD analysis of a pulsed microwave confocal system for breast cancer detection: design of an antenna-array element
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References
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Journal ArticleDOI
Numerical solution of initial boundary value problems involving maxwell's equations in isotropic media
Abstract: Maxwell's equations are replaced by a set of finite difference equations. It is shown that if one chooses the field points appropriately, the set of finite difference equations is applicable for a boundary condition involving perfectly conducting surfaces. An example is given of the scattering of an electromagnetic pulse by a perfectly conducting cylinder.
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Absorbing Boundary Conditions for the Finite-Difference Approximation of the Time-Domain Electromagnetic-Field Equations
TL;DR: In this paper, highly absorbing boundary conditions for two-dimensional time-domain electromagnetic field equations are presented for both two-and three-dimensional configurations and numerical results are given that clearly exhibit the accuracy and limits of applicability of these boundary conditions.
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Numerical Solution of Steady-State Electromagnetic Scattering Problems Using the Time-Dependent Maxwell's Equations
Allen Taflove,M.E. Brodwin +1 more
TL;DR: In this paper, a numerical method for the solution of the electromagnetic fields within an arbitrary dielectric scatterer of the order of one wavelength in diameter is described, and an error of less than /spl plusmn/10 percent in locating and evaluating the standing wave peaks within the cylinder is achieved for a program execution time of 1 min.
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Extending the two-dimensional FDTD method to hybrid electromagnetic systems with active and passive lumped elements
TL;DR: In this paper, the authors extended the FDTD method to include distributed electromagnetic systems with lumped elements (a hybrid system) and voltage and current sources, and derived FDTD equations that include nonlinear elements like diodes and transistors.
Journal ArticleDOI
Review of the formulation and applications of the finite-difference time-domain method for numerical modeling of electromagnetic wave interactions with arbitrary structures
TL;DR: The basis and applications of the finite-difference time -domain (FD-TD) numerical modeling approach for Maxwell's equations are reviewed, providing highly accurate modeling predictions for a wide variety of electromagnetic wave interaction problems.