The method of adapted radiating boundaries (ARB) is an efficient tool for the numerical time domain modeling of electromagnetic interaction between complex structures at some distance. The electromagnetic interaction between the structures is described via discrete time domain Green's functions. The electromagnetic field inside the structures is modeled using the space discretizing TLM method. The ARB method is applied to the modeling of coupled spiral inductors. Numerical results obtained with the ARB method are compared with results from the pure TLM metho
Abstract — The modeling of RF integrated structures with fine metallic details using time-domain sim...
The Transmission Line Matrix (TLM) numerical algorithm, based on the discrete Huygens' principle, ha...
A two-step methodology for predicting the radiated fields from lines radiating in the presence of co...
The method of adapted radiating boundaries (ARB) is an efficient tool for the numerical time domain ...
The novel method of Adapted Radiating Boundaries (ARB) is a very fast and powerful tool for the fiel...
This contribution deals with the application of the Method of Moment-Finite Difference Time Domain (...
Modern RF devices are built on a variety of technologies for a wide array of functionalities (cellul...
A unified reciprocity-based modeling approach for analyzing electromagnetic fields in dispersive par...
International audienceThe present paper is devoted on time-frequency radiated coupling modelling bet...
An accurate analysis and modeling of slot coupled patch antennas is proposed in this work. Two time-...
A method of computation based on the finite element method was used to solve axisymmetrical electrom...
International audienceThis paper presents an analysis of time-domain electromagnetic (EM) field coup...
Abstract—The consideration of electromagnetic interac-tion between spurious modes in metal packages ...
In the design of complex electronic systems, such as electric vehicles, electromagnetic coupling bet...
Several methodologies are presented in this work to facilitate the modeling of electromagnetic field...
Abstract — The modeling of RF integrated structures with fine metallic details using time-domain sim...
The Transmission Line Matrix (TLM) numerical algorithm, based on the discrete Huygens' principle, ha...
A two-step methodology for predicting the radiated fields from lines radiating in the presence of co...
The method of adapted radiating boundaries (ARB) is an efficient tool for the numerical time domain ...
The novel method of Adapted Radiating Boundaries (ARB) is a very fast and powerful tool for the fiel...
This contribution deals with the application of the Method of Moment-Finite Difference Time Domain (...
Modern RF devices are built on a variety of technologies for a wide array of functionalities (cellul...
A unified reciprocity-based modeling approach for analyzing electromagnetic fields in dispersive par...
International audienceThe present paper is devoted on time-frequency radiated coupling modelling bet...
An accurate analysis and modeling of slot coupled patch antennas is proposed in this work. Two time-...
A method of computation based on the finite element method was used to solve axisymmetrical electrom...
International audienceThis paper presents an analysis of time-domain electromagnetic (EM) field coup...
Abstract—The consideration of electromagnetic interac-tion between spurious modes in metal packages ...
In the design of complex electronic systems, such as electric vehicles, electromagnetic coupling bet...
Several methodologies are presented in this work to facilitate the modeling of electromagnetic field...
Abstract — The modeling of RF integrated structures with fine metallic details using time-domain sim...
The Transmission Line Matrix (TLM) numerical algorithm, based on the discrete Huygens' principle, ha...
A two-step methodology for predicting the radiated fields from lines radiating in the presence of co...