Detail publikace

Vivaldi Antenna for RF Energy Harvesting

Originální název

Vivaldi Antenna for RF Energy Harvesting

Anglický název

Vivaldi Antenna for RF Energy Harvesting

Jazyk

en

Originální abstrakt

Energy harvesting is a future technology for capturing ambient energy fromthe environment to be recycled to feed low-power devices. A planar antipodal Vivaldi antenna is presented for gathering energy from GSM, WLAN, UMTS and related applications. The designed antenna has the potential to be used in energy harvesting systems. Moreover, the antenna is suitable for UWB applications, because it operates according to FCC regulations (3.1–10.6 GHz). The designed antenna is printed on ARLON 600 substrate and operates in frequency band from 0.810 GHz up to more than 12 GHz. Experimental results show good conformity with simulated performance.

Anglický abstrakt

Energy harvesting is a future technology for capturing ambient energy fromthe environment to be recycled to feed low-power devices. A planar antipodal Vivaldi antenna is presented for gathering energy from GSM, WLAN, UMTS and related applications. The designed antenna has the potential to be used in energy harvesting systems. Moreover, the antenna is suitable for UWB applications, because it operates according to FCC regulations (3.1–10.6 GHz). The designed antenna is printed on ARLON 600 substrate and operates in frequency band from 0.810 GHz up to more than 12 GHz. Experimental results show good conformity with simulated performance.

BibTex


@article{BUT129180,
  author="Ján {Schneider} and Michal {Mrnka} and Zbyněk {Raida} and Marie {Gamcová} and Jan {Gamec}",
  title="Vivaldi Antenna for RF Energy Harvesting",
  annote="Energy harvesting is a future technology for capturing ambient energy fromthe environment to be recycled to feed low-power devices. A planar antipodal Vivaldi antenna is presented for gathering energy from GSM,  WLAN, UMTS and related applications. The designed  antenna has the potential to be used in energy harvesting 
systems. Moreover, the antenna is suitable for UWB applications, because it operates according to FCC regulations  (3.1–10.6 GHz). The designed antenna is printed on  ARLON 600 substrate and operates in frequency band  from 0.810 GHz up to more than 12 GHz. Experimental  results show good conformity with simulated performance.",
  chapter="129180",
  doi="10.13164/re.2016.0666",
  howpublished="print",
  number="4",
  volume="25",
  year="2016",
  month="december",
  pages="1--6",
  type="journal article in Web of Science"
}