IEEE Transactions on Electromagnetic Compatibility

Issue 4 • Nov. 1974

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Displaying Results 1 - 11 of 11
  • Table of contents

    Publication Year: 1974, Page(s): c1
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  • IEEE Electromagnetic Compatibility Group

    Publication Year: 1974, Page(s): c2
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  • Generation of Standard EM Fields Using TEM Transmission Cells

    Publication Year: 1974, Page(s):189 - 195
    Cited by:  Papers (289)  |  Patents (3)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (2832 KB)

    A new technique developed at the National Bureau of Standards (NBS) for establishing standard, uniform, electromagnetic (EM) fields in a shielded environment is described. The technique employs transverse electromagnetic (TEM) transmission cells that operate as 50 Ω impedance-matched systems. A uniform TEM field is established inside a cell at any frequency of interestbelow that for which ... View full abstract»

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  • The Response of a Two-Wire Transmission Line Excited by the Nonuniform Electromagnetic Fields of a Nearby Loop

    Publication Year: 1974, Page(s):196 - 200
    Cited by:  Papers (4)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (880 KB)

    Equations are derived for the currents in the load of a two-wire transmission line illuminated by the nonuniform fields of a small coplanar loop. Since the derived equations contain complicated integrals requiring machine computation, an approximate solution, which is applicable to most coupling geometries and which greatly reduces the computational effort, is also developed. In a numerical exampl... View full abstract»

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  • Shielding Properties of Thick Conducting Cylindrical Shells

    Publication Year: 1974, Page(s):201 - 204
    Cited by:  Papers (11)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (473 KB)

    The shielding properties of a thick cylindrical shell of finite conductivity is presented. The analysis uses straightforward separation of variables methods via cylindrical harmonic functions. The results show that significant attenuation of the incident fields are achieved for thick cylindrical shields thus demonstrating that the resonances noted in earlier work using thin shell models can be all... View full abstract»

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  • Electromagnetic Field Penetration into a Spherical Cavity

    Publication Year: 1974, Page(s):205 - 208
    Cited by:  Papers (16)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (731 KB)

    A plane wave is symmetrically incident on a spherical shell with a circular aperture. The fields inside and outside the cavity are expanded in terms of spherical vector wave functions and the modal coefficients are found by application of the least squares method to the boundary conditions. Computed data are obtained and the results exhibited in the form of amplitude curves of the interior and ape... View full abstract»

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  • Evaluation of the Surface Integral Occurring in the E-Field Integral Equations for Wire Antennas

    Publication Year: 1974, Page(s):209 - 210
    Cited by:  Papers (1)
    Request permission for commercial reuse | Click to expandAbstract | PDF file iconPDF (262 KB)

    The method for performing an exact surface integration for the E-field integral equations is outlined, and a comparison with the often used thin-wire approximation is made. It is found that for pulse type basis functions, the thin-wire kernel is valid for cell sizes greater than about eight wire radii, with an overall error in the kernel less than one percent. View full abstract»

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  • Contributors

    Publication Year: 1974, Page(s): 211
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  • 1974 Index IEEE Transactions on Electromagnetic Compatibility Vol. EMC-16

    Publication Year: 1974, Page(s):211b - 211d
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  • G-EMC Policy

    Publication Year: 1974, Page(s): 211f
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  • Institutional listings

    Publication Year: 1974, Page(s): 211g
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Aims & Scope

IEEE Transactions on Electromagnetic Compatibility publishes original and significant contributions related to all disciplines of electromagnetic compatibility (EMC) and relevant methods to predict, assess and prevent electromagnetic interference (EMI) and increase device/product immunity.

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Meet Our Editors

Editor-in-Chief
Prof. Ing. Antonio Orlandi 
University of L'Aquila
Email: antonio.orlandi@univaq.it