论文信息 - The magnetic field and induced current arising from a cylindrical shell loop with an unbalanced current

The magnetic field and induced current arising from a cylindrical shell loop with an unbalanced current

Abstract This paper addresses the magnetic field and induced current associated with a cylindrical shell loop under the excitation of an unbalance current source. An equivalent circuit theory is introduced to describe the coupling effect when the cylindrical shell loop is formed. Close-form expressions of the circuit component parameters are derived, as well as the induced current and magnetic field. An experimental validation of the theory is presented. It is demonstrated that an electrically “isolated” cylindrical shell has no shielding effect, and effective shielding results if an opposite electric current flows along the cylindrical shell. Any additional resistance introduced in the loop will degrade the shielding performance.

Yaping Du | Li Da Xu | Q. B. Zhou

[1] John Burnett,et al. Power-frequency magnetic shielding of heavy-current conductors by rectangular shields , 1999 .

[2] H. Knoepfel. Magnetic Fields: A Comprehensive Theoretical Treatise for Practical Use , 2000 .

[3] J. F. Hoburg. Principles of quasistatic magnetic shielding with cylindrical and spherical shields , 1995 .

[4] Xiao-Bang Xu,et al. A simple computational method for predicting magnetic field in the vicinity of a three-phase underground cable with a fluid-filled steel-pipe enclosure , 1994 .

[5] L. Hasselgren,et al. Geometrical aspects of magnetic shielding at extremely low frequencies , 1995 .

[6] M. Ianoz,et al. EMC Analysis Methods and Computational Models , 1996 .

[7] B. A. Clairmont,et al. Comparisons of measured and calculated power frequency magnetic shielding by multilayered cylinders , 1997 .

[8] Yaping Du,et al. Magnetic shielding principles of linear cylindrical shield at power-frequency , 1996, Proceedings of Symposium on Electromagnetic Compatibility.

[9] Reinaldo Perez. Handbook of electromagnetic compatibility , 1995 .