TY  - JOUR
  - Buckley, J,Gaetano, D,McCarthy, KG,Loizou, L,O'Flynn, B,O'Mathuna, C
  - 2014
  - April
  - Electronics Letters
  - Compact 433 MHz antenna for wireless smart system applications
  - Validated
  - WOS: 17 ()
  - 50
  - 572
  - 573
  - A compact, planar antenna operating at 433 MHz is proposed for wireless smart systems with dimensions of 51 x 28 mm(2) including a ground plane, and printed on a low-cost FR4 material. Significant size reduction is achieved using the variation of an inverted-F antenna configuration with a square-spiral section and rectangular patch element. Fine-tuning of the antenna's resonant frequency is possible using a small capacitive stub. Sensor and radio transceiver electronics can be accommodated above the ground plane. The measured results indicate a 10 dB return loss bandwidth of 4.5 MHz, and a peak realised gain of -13 dBi with omnidirectional radiation characteristics.
  - 10.1049/el.2013.4312
DA  - 2014/04
ER  - 

@article{V271355236,
   = {Buckley,  J and Gaetano,  D and McCarthy,  KG and Loizou,  L and O'Flynn,  B and O'Mathuna,  C },
   = {2014},
   = {April},
   = {Electronics Letters},
   = {Compact 433 MHz antenna for wireless smart system applications},
   = {Validated},
   = {WOS: 17 ()},
   = {50},
  pages = {572--573},
   = {{A compact, planar antenna operating at 433 MHz is proposed for wireless smart systems with dimensions of 51 x 28 mm(2) including a ground plane, and printed on a low-cost FR4 material. Significant size reduction is achieved using the variation of an inverted-F antenna configuration with a square-spiral section and rectangular patch element. Fine-tuning of the antenna's resonant frequency is possible using a small capacitive stub. Sensor and radio transceiver electronics can be accommodated above the ground plane. The measured results indicate a 10 dB return loss bandwidth of 4.5 MHz, and a peak realised gain of -13 dBi with omnidirectional radiation characteristics.}},
   = {10.1049/el.2013.4312},
  source = {IRIS}
}