Detail publikace

Broadband Small Patch Antenna Array for Ka-band Application

Originální název

Broadband Small Patch Antenna Array for Ka-band Application

Anglický název

Broadband Small Patch Antenna Array for Ka-band Application

Jazyk

en

Originální abstrakt

In the paper, we developed a relatively broadband high-gain small antenna array composed of two layers. The antenna operates at about 27.0 GHz (Ka-band). First, we designed a bottom layer composed of 2x2 patches with an inset feed. Then, we added a second layer with parasitic patches to obtain better impedance and radiation properties. Since the antenna was required to be fed through a waveguide, we had to design and supplement the antenna structure by a transition waveguide to microstrip line. The final structure was fabricated and obtained measured results were compared with simulations.

Anglický abstrakt

In the paper, we developed a relatively broadband high-gain small antenna array composed of two layers. The antenna operates at about 27.0 GHz (Ka-band). First, we designed a bottom layer composed of 2x2 patches with an inset feed. Then, we added a second layer with parasitic patches to obtain better impedance and radiation properties. Since the antenna was required to be fed through a waveguide, we had to design and supplement the antenna structure by a transition waveguide to microstrip line. The final structure was fabricated and obtained measured results were compared with simulations.

BibTex


@inproceedings{BUT99143,
  author="David {Wolanský} and Petr {Všetula} and Zbyněk {Raida} and Jan {Puskely}",
  title="Broadband Small Patch Antenna Array for Ka-band Application",
  annote="In the paper, we developed a relatively broadband high-gain small antenna array composed of two layers. The antenna operates at about 27.0 GHz (Ka-band). First, we designed a bottom layer composed of 2x2 patches with an inset feed. Then, we added a second layer with parasitic patches to obtain better impedance and radiation properties. Since the antenna was required to be fed through a waveguide, we had to design and supplement the antenna structure by a transition waveguide to microstrip line. The final structure was fabricated and obtained measured results were compared with simulations.",
  booktitle="7th EUROPEAN CONFERENCE ON ANTENNAS AND PROPAGATION",
  chapter="99143",
  howpublished="electronic, physical medium",
  year="2013",
  month="april",
  pages="893--896",
  type="conference paper"
}