Field analysis of penetrable conductive shields by the finite-difference time-domain method with impedance network boundary conditions (INBC's)

Impedance network boundary conditions (INBC's) are implemented in the finite-difference time-domain (FDTD) method to analyze the electromagnetic field around penetrable shield structures. The shield region is eliminated from the computational domain and the INBC's are applied on the new boundary surfaces, i.e,, shield surfaces, to take into account the field discontinuity produced by the shield. The INBC's represent an important extension of the well-known surface impedance boundary conditions (SIBC's) since the INBC's model accurately the coupling of the electromagnetic fields through penetrable shields and lead to a significant reduction of the number of the FDTD unknowns. The INBC expressions are given analytically in both frequency and time domains, and the INBC implementation in a FDTD code is discussed. The proposed INBC-FDTD method is numerically efficient because the resulting convolution integrals are recursively solved, Furthermore, approximate time-constant INBC's are proposed which are valid for many practical applications, The analysis of transient electromagnetic fields around penetrable conductive shields in simple test configurations are presented and compared with the analytical solutions.