By Salvatore Celozzi, Rodolfo Araneo, Giampiero Lovat

The definitive reference on electromagnetic protecting fabrics, configurations, techniques, and analysesThis reference presents a accomplished survey of techniques for the aid of the electromagnetic box degrees in prescribed parts. After an creation and an summary of accessible fabrics, it discusses figures of advantage for protecting configurations, the protecting effectiveness of stratified media, numerical equipment for safeguarding analyses, apertures in planar steel monitors, enclosures, and cable protecting. modern and finished, Electromagnetic Shielding:Explores new and leading edge recommendations in electromagnetic shieldingPresents a severe method of electromagnetic protecting that highlights the bounds of formulations in line with plane-wave sourcesAnalyzes features now not typically thought of in electromagnetic defensive, similar to the results of the content material of the protective enclosuresIncludes references on the finish of every bankruptcy to facilitate extra studyThe final 3 chapters speak about frequency-selective protecting, protective layout strategies, and unusual methods of shielding—areas ripe for extra examine. this is often an authoritative, hands-on source for training telecommunications and electric engineers, in addition to researchers in and academia who're excited by the layout and research of electromagnetic protecting buildings.

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Electromagnetic Shielding (Wiley Series in Microwave and Optical Engineering)

The definitive reference on electromagnetic protective fabrics, configurations, techniques, and analysesThis reference offers a entire survey of ideas for the aid of the electromagnetic box degrees in prescribed components. After an creation and an summary of obtainable fabrics, it discusses figures of benefit for safeguarding configurations, the protecting effectiveness of stratified media, numerical equipment for protecting analyses, apertures in planar steel monitors, enclosures, and cable defensive.

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Magnetic materials can be divided in soft materials (low-coercive field) and hard materials (high-coercive field), which are primarily used for permanent magnets. Soft magnetic materials may be further divided into four broad families: electrical steels, iron-nickel (FeNi) or iron-cobalt (FeCo) alloys, ferrites, and amorphous metals. In the shielding of power-frequency magnetic fields, Fe–(Ni, Co) are generally used; noticeable commercial members of the family are Mumetal, Permalloy, and Permendur.

37, pp. 1248– 1253, 2004. [35] S. Shinagawa, Y. Kumagai, and K. Urabe. ’’ J. , vol. 6, no. 3, pp. 185–190, May 1999. 40 SHIELDING MATERIALS [36] S. Shinagawa, Y. Kumagai, H. Umehara, and P. Jenvanitpanjakul. ’’ Proc. Internat. Conf. Electromagn. Interfer. Compat. ‘99, 6–8 Dec. 1999, pp. 372–375, 1999. [37] J. A. Carrazana-Garcia, M. A. Lopez-Quintela, and J. R. Rey. ’’ IEEE Trans. , vol. 31, no. 6, pp. 3126–3130, Nov. 1995. [38] C. Caloz and T. Itoh. Electromagnetic Metamaterials, Transmission Line Theory and Microwave Applications.

Shokooh-Saremi. ’’ J. Phys. D: Appl. , vol. 37, pp. 1248– 1253, 2004. [35] S. Shinagawa, Y. Kumagai, and K. Urabe. ’’ J. , vol. 6, no. 3, pp. 185–190, May 1999. 40 SHIELDING MATERIALS [36] S. Shinagawa, Y. Kumagai, H. Umehara, and P. Jenvanitpanjakul. ’’ Proc. Internat. Conf. Electromagn. Interfer. Compat. ‘99, 6–8 Dec. 1999, pp. 372–375, 1999. [37] J. A. Carrazana-Garcia, M. A. Lopez-Quintela, and J. R. Rey. ’’ IEEE Trans. , vol. 31, no. 6, pp. 3126–3130, Nov. 1995. [38] C. Caloz and T. Itoh. Electromagnetic Metamaterials, Transmission Line Theory and Microwave Applications.

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