Detail publikace

Directive Dielectric Resonator Antenna

Originální název

Directive Dielectric Resonator Antenna

Anglický název

Directive Dielectric Resonator Antenna

Jazyk

en

Originální abstrakt

Relatively directive, single element, linearly polarized, dielectric resonator antenna for the ISM band applications (5.8 GHz) is presented in the paper. Its operation is based on the excitation of higher order modes inside a cylindrical dielectric resonator antenna of low relative permittivity material (εr= 6.15) fed by an aperture coupled microstrip line. The behavior of the mode properties inside the resonator is studied and geometry providing maximum gain is determined. Measurement results are given and compared with simulations results obtained in CST Microwave Studio in order to confirm the correct operation of the antenna.

Anglický abstrakt

Relatively directive, single element, linearly polarized, dielectric resonator antenna for the ISM band applications (5.8 GHz) is presented in the paper. Its operation is based on the excitation of higher order modes inside a cylindrical dielectric resonator antenna of low relative permittivity material (εr= 6.15) fed by an aperture coupled microstrip line. The behavior of the mode properties inside the resonator is studied and geometry providing maximum gain is determined. Measurement results are given and compared with simulations results obtained in CST Microwave Studio in order to confirm the correct operation of the antenna.

Dokumenty

BibTex


@inproceedings{BUT125115,
  author="Michal {Mrnka} and Zbyněk {Raida}",
  title="Directive Dielectric Resonator Antenna",
  annote="Relatively directive, single element, linearly polarized, dielectric resonator antenna for the ISM band applications (5.8 GHz) is presented in the paper. Its operation is based on the excitation of higher order modes inside a cylindrical dielectric resonator antenna of low relative permittivity material (εr= 6.15) fed by an aperture coupled microstrip line. The behavior of the mode properties inside the resonator is studied and geometry providing maximum gain is determined. Measurement results are given and compared with simulations results obtained in CST Microwave Studio in order to confirm the correct operation of the antenna.",
  booktitle="Proceedings of the 22 Conference STUDENT EEICT 2016",
  chapter="125115",
  howpublished="online",
  year="2016",
  month="april",
  pages="303--307",
  type="conference paper"
}