Analysis of asymmetric TEM cell and its optimum design of electric field distribution

Author(s): X.-D. Cai and J.-Y. Li
DOI: 10.1049/ip-h-2.1989.0036

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Author(s): X.-D. Cai ¹ and J.-Y. Li ²
- Affiliations: 1: Department of Electromagnetic Fields Engineering, University of Electronic Science and Technology of China, Chengdu, China
  2: Mechanical Engineering Department, Beijing University of Posts and Telecommunications, Beijing, China
Source: Volume 136, Issue 3, June 1989, p. 191 – 194
DOI: 10.1049/ip-h-2.1989.0036 , Print ISSN 0950-107X, Online ISSN 2053-907X

By using the Green's function/variational formulation with a new form of charge distribution, expressions for the characteristic impedance and electric (E-) field are obtained for an asymmetric TEM cell. The main details of a series of computer programs to implement an optimum design of the E-field distribution are presented in this paper.

References

1. 1)
  - J.C. Tippet , D.C. Chang . Characteristic impedance of a rectangular coaxial line with offset inner conductor. IEEE Trans. , 876 - 883
2. 2)
  - B.N. Das , A. Mohan . TEM cell in absence of walls parallel to the septum. IEEE Trans. , 58 - 63
3. 3)
  - H.J. Riblet . The characteristic impedance of a family of rectangular coaxial structure with off-centred strip inner conductor. IEEE Trans. , 294 - 298
4. 4)
  - Y. Tanaka , T. Honma , I. Kaji . A three dimension analysis for symmetric TEM cells by the mixed boundary element method based on both constant and linear elements. Trans. IECE Japan (section E) , 474 - 479
5. 5)
  - R.F. Harrington . (1961) , Time-harmonic electromagnetic field.
6. 6)
  - P.F. Willson , D.C. Chang , M.T. Ma . (1981) , Excitation of a TEM cell by a vertical electric hertzian dipole.
7. 7)
  - L.N. Dworsky . (1979) , Modern transmission line theory and applications.
8. 8)
  - Crowford, M.L.: `Improved techniques and instrumentation for EMC measurement', IEEE International Symposium on EMC, p. 369–374.
9. 9)
  - Y. Tanaka , T. Honma , I. Kaji . A boundary-element analysis of TEM cells in three dimensions. IEEE Trans. , 179 - 184
10. 10)
  - Crowford, M.L., Workman, J.L.: `Asymmetric versus symmetric TEM cells for EMI measurements', IEEE International Symposium on EMC, 1978, p. 204–210.
11. 11)
  - M.L. Crowford . Generation of standard EM field using TEM transmission cells. IEEE Trans. , 189 - 195
12. 12)
  - R.E. Collin . (1960) , Field theory of guided waves.
13. 13)
  - J.C. Tippet , D.C. Chang . Radiation characteristics of electrically small devices in a TEM transmission cell. IEEE Trans. , 134 - 140
14. 14)
  - M.L. Crowford , J.L. Workman , C.L. Thomas . Generation of EM susceptibility test field using a large absorber-loaded TEM cell. IEEE Trans. , 225 - 230
15. 15)
  - J.C. Tippet , D.C. Chang . A new approximation for the capacitance of a rectangular coaxial-strip transmission line. IEEE Trans. , 602 - 604
16. 16)
  - E. Yamashita , K. Atsuki . Strip line with rectangular outer conductor and three dielectric layers. IEEE Trans. , 238 - 244

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Erratum: Analysis of asymmetric TEM cell and its optimum design of electric field distribution

Analysis of asymmetric TEM cell and its optimum design of electric field distribution

Analysis of asymmetric TEM cell and its optimum design of electric field distribution

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