Shielding effectiveness of enclosure with thick multiple apertures

## Abstract In this paper, we employ the hybrid finite difference–moment method to predict the shielding effectiveness (SE) of a metallic enclosure with multiple apertures. The numerical results for various aperture configurations using the hybrid technique are presented and validated. It is found

## Abstract In this study, radiated immunity and emission of a metallic box with apertures have been evaluated through a fast approach. The influence of printed circuit boards inside the enclosure has been studied and also the effect of placing conductive polymer sheets in the housing to characteri

noise, and thermal noise. Since the APD output is mostly modeled as a Gaussian process, Gaussian approximation is employed for the analysis. For the purpose of mathematical simplicity, chip synchronization between the users is assumed. The error performance of the MWOOC system is compared with that

To predict electromagnetic field distribution inside a loaded enclosure with the aperture, we present a hybrid formulation which combines method of moments and finite element method. To predict efficiency of the method, the shielding effectiveness of an empty enclosure is compared with the literatur

## Abstract Electrostatic discharge (ESD) on the metallic enclosure of electronic products normally generates unwanted radiated electromagnetic interference (EMI). The radiated EMI penetrates through the apertures on the enclosure and then couples to the circuitries inside the enclosure. This may c