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Articles

Prediction of the maximum electric field level inside a metallic cavity using a quality factor estimation

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Pages 1468-1477 | Received 19 Feb 2014, Accepted 19 May 2014, Published online: 26 Jun 2014

References

  • Hill D. Electromagnetic fields in cavities: deterministic and statistical theories. New York (NY): IEEE Press; 2009.
  • IEC61000-4-21. Electromagnetic compatibility – part 4–21: testing and measurement techniques – reverberation chamber test methods. 2nd ed. Geneva: International Electrotechnical Commission; 2011.
  • RTCA. Environmental conditions and test procedures for airborne equipment. Section 20: radio frequency susceptibility (radiated and conducted). G ed. Washington (DC): Radio Technical Commission for Aeronautics; 2010.
  • Junqua I, Parmantier JP, Ridel M. Modeling of high frequency coupling inside oversized structures by asymptotic and PWB methods. In: International conference on electromagnetics in advanced applications ICEAA; Torino; 2011.
  • Martorelli V, Kazik J, Galgani G, Guidi R. An OCT based modeling tool to fast evaluate statistical EM field distribution inside enclosure-like environments. In: International conference on electromagnetics in advanced applications ICEAA; Torino; 2011.
  • Gutierrez GG, Alvarez J, Pascual-Gil E, Bandinelli M, Guidi R, Martorelli V, Pantoja MF, Cabello MR, Garcia SG. HIRF virtual testing on the C-295 aircraft: on the application of a pass/fail criterion and the FSV method. IEEE Trans. Electromagn. Compat. Forthcoming 2014.
  • Tait G, Hatfield M, Corder O, Rodriguez M, Bernard B. Electromagnetic complex cavity characterization of the F-22 aircraft main weapons bay. In: International symposium on electromagnetic compatibility EMC; Austin (TX); 2009.
  • Gifuni A. On the measurement of the absorption cross section and material reflectivity in a reverberation chamber. IEEE Trans. Electromagn. Compat. 2009;51:1047–1050.
  • Junqua I. Penetration des ondes em haute frequence dans des systemes: Analyse et evaluation par l’approche power balance [Penetration of high frequency electromagnetic waves inside systems: Analysis and assessment by power balance approach] [PhD dissertation]. Lille: Lille University; 2010.
  • Burger W, Holloway C, Remley K. Proximity and orientation influence on Q-factor with respect to large-form-factor loads in a reverberation chamber. In: International symposium on electromagnetic compatibility EMC Europe; Brugge; 2013. p. 369–374.
  • van de Beek S, Remley K, Holloway C, Ladbury JM, Leferink F. Characterizing large-form-factor devices in a reverberation chamber. In: International symposium on electromagnetic compatibility EMC Europe; Brugge; 2013. p. 375–380.
  • Wu G, Zhang XG, Liu B. A hybrid method for predicting the shielding effectiveness of rectangular metallic enclosures with thickness apertures. J. Electromagn. Waves Appl. 2010;24:1157–1169.
  • Romero SF, Santamaria R, Cancela MA. High power antenna specifically designed for reverberation chambers use. In: Antennas and Propagation Society International Symposium IEEE; Honolulu (HI); 2007.
  • Ma M. Understanding reverberating chambers as an alternative facility for EMC testing. J. Electromagn. Waves Appl. 1988;2:339–351.
  • Lehman T. A statistical theory of electromagnetic fields in complex cavities. Vol. 494, EMP Interaction Note; Albuquerque (NM): Electrical and Computer Engineering Department of the University of New Mexico; 1993.
  • Ladbury J. Evaluation of the nasa langley mode-stirred facility. TN 1508 ed. Boulder (CO): National Institute of Standards and Technology; 1999.
  • Arnaut L. Measurement uncertainty in reverberation chambers – i. sample statistics. 2nd ed. Teddington: National Physical Laboratory; 2008.
  • Bruns C, Vahldieck R. A closer look at reverberation chamber – 3D simulation and experimental verification. IEEE Trans. Electromagn. Compat. EMC. 2005;47:612–626.
  • Holloway C, Shah H, Pirkl J, Young W, Hill D, Ladbury J. Reverberation chamber techniques for determining the radiation and total efficiency of antennas. IEEE Trans. Antennas Propag. 2012;60:1758–1770.
  • Richardson RE. Reverberant microwave propagation. NSWCDD/TR-08/127 Dahlgren Division Naval Surface Warfare Center; 2008.

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