论文信息 - Geometrical aspects of magnetic shielding at extremely low frequencies

Geometrical aspects of magnetic shielding at extremely low frequencies

The magnetic shielding effectiveness for closed and open shield structures is studied at extremely low frequencies. Analytical solutions are used for simple geometries, while more complex structures are evaluated using a finite-element method. Both highly conductive and ferromagnetic materials are studied, and their different shielding behavior is shown. Ferromagnetic shields give good results for small and closed shields and they also give a large field attenuation at close range to the source for open shield geometries. Highly conductive materials, on the other hand, are found to be suitable for large shield sizes. The attenuation is, however, reduced in the close vicinity of the source. Comparisons of numerical results with analytical calculations and measurements confirmed the high accuracy of the finite-element model. >

L. Hasselgren | J. Luomi

[1] Louis Vessot King,et al. XXI.Electromagnetic shielding at radio frequencies , 1933 .

[2] S. Levy,et al. Electromagnetic Shielding Effect of an Infinite Plane Conducting Sheet Placed between Circular Coaxial Coils , 1936, Proceedings of the Institute of Radio Engineers.

[3] H. Kaden. Wirbelströme und Schirmung in der Nachrichtentechnik , 1959 .

[4] J. Ronald Moser. Low-Frequency Shielding of a Circular Loop Electromagnetic Field Source , 1967 .

[5] Peter R. Bannister,et al. New Theoretical Expressions for Predicting Shielding Effectiveness for the Plane Shield Case , 1968 .

[6] Peter R. Bannister. Further Notes for Predicting Shielding Effectiveness for the Plane Shield Case , 1969 .

[7] R. Mittra,et al. Coupling between Two Arbitrarily Oriented Dipoles through Multilayered Shields , 1984, IEEE Transactions on Electromagnetic Compatibility.

[8] Kjell Hansson Mild,et al. External power frequency magnetic field-induced jitter on computer monitors , 1993, Behav. Inf. Technol..

[9] Y. Hamnerius,et al. Calculation of magnetic shielding of a substation at power frequency using FEM , 1994 .