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A novel implementation of perturbation technique for better integration of NUTL with periodic geometry

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Abstract
In this work, a novel implementation of the perturbative technique (PT) recently proposed in [1] for the solution of nonuniform transmission-lines (NUTLs) is presented. Unlike the original PT, the proposed method provides a 2n-port Sparameter representation of the NUTL under analysis, which can be afterwards used in combination with different terminal conditions and/or cascaded with other 2n-port networks. As an application example, an interdigital tabbed microstrip line terminated in SMA connectors and involving a bend discontinuity is solved by the proposed technique. The obtained predictions are validated versus those provided by a full-wave solver.

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MLA
Liu, X., et al. “A Novel Implementation of Perturbation Technique for Better Integration of NUTL with Periodic Geometry.” Asia Pacific Electromagnetic Compatibility Symposium (APEMC 2020), Proceedings, 2020.
APA
Liu, X., Grassi, F., Spadacini, G., Vande Ginste, D., & Pignari, S. A. (2020). A novel implementation of perturbation technique for better integration of NUTL with periodic geometry. In Asia Pacific Electromagnetic Compatibility Symposium (APEMC 2020), Proceedings. Sydney, Australia.
Chicago author-date
Liu, X., F. Grassi, G. Spadacini, Dries Vande Ginste, and S.A. Pignari. 2020. “A Novel Implementation of Perturbation Technique for Better Integration of NUTL with Periodic Geometry.” In Asia Pacific Electromagnetic Compatibility Symposium (APEMC 2020), Proceedings.
Chicago author-date (all authors)
Liu, X., F. Grassi, G. Spadacini, Dries Vande Ginste, and S.A. Pignari. 2020. “A Novel Implementation of Perturbation Technique for Better Integration of NUTL with Periodic Geometry.” In Asia Pacific Electromagnetic Compatibility Symposium (APEMC 2020), Proceedings.
Vancouver
1.
Liu X, Grassi F, Spadacini G, Vande Ginste D, Pignari SA. A novel implementation of perturbation technique for better integration of NUTL with periodic geometry. In: Asia Pacific Electromagnetic Compatibility Symposium (APEMC 2020), Proceedings. 2020.
IEEE
[1]
X. Liu, F. Grassi, G. Spadacini, D. Vande Ginste, and S. A. Pignari, “A novel implementation of perturbation technique for better integration of NUTL with periodic geometry,” in Asia Pacific Electromagnetic Compatibility Symposium (APEMC 2020), Proceedings, Sydney, Australia, 2020.
@inproceedings{8648616,
  abstract     = {In this work, a novel implementation of the perturbative technique (PT) recently proposed in [1] for the solution
of nonuniform transmission-lines (NUTLs) is presented. Unlike
the original PT, the proposed method provides a 2n-port Sparameter representation of the NUTL under analysis, which
can be afterwards used in combination with different terminal
conditions and/or cascaded with other 2n-port networks. As
an application example, an interdigital tabbed microstrip line
terminated in SMA connectors and involving a bend discontinuity
is solved by the proposed technique. The obtained predictions are
validated versus those provided by a full-wave solver.},
  author       = {Liu, X. and Grassi, F. and Spadacini, G. and Vande Ginste, Dries and Pignari, S.A.},
  booktitle    = {Asia Pacific Electromagnetic Compatibility Symposium (APEMC 2020), Proceedings},
  language     = {eng},
  location     = {Sydney, Australia},
  pages        = {3},
  title        = {A novel implementation of perturbation technique for better integration of NUTL with periodic geometry},
  url          = {https://apemc2020.org/},
  year         = {2020},
}