Fast full-wave analysis of conductor-loaded rectangular cavity resonators using surface integral equation and moment method

A recently developed technique for rapid calculation of the Green's functions in a rectangular cavity combined with a Surface Integral Equation formulation and Method of Moments (SIE-MoM) is applied for full-wave modeling of arbitrarily oriented conducting objects inside a rectangular enclosure. In a multiply-coupled-resonator structure, each rectangular cavity with apertures of arbitrary shape and orientation on its walls is modeled by a Generalized Admittance Matrix (GAM) obtained through SIE-MoM. Both combline and dual-mode disk resonators with tuning screw are considered for demonstration of the new approach and a remarkable computational efficiency is observed. A commercial EM simulator is used to verify the numerical results with excellent agreement.