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PIER PIER B PIER C PIER M PIER Letters
2016-01-24
A Novel Proximity Fed Gap Coupled Microstrip Patch Array for Wireless Applications
By
Jacob Abraham,

    Dr. Jacob Abraham

    Department of Electronics, School of Technology and Applied Sciences

    Mahatma Gandhi University Regional Center

    India

    Homepage

Thomaskutty Mathew,

    Dr. Thomaskutty Mathew

    Department of Electronics, School of Technology and Applied Sciences

    Mahatma Gandhi University Regional Center

    India

    Homepage

Chandroth K. Aanandan

    Dr. Chandroth K. Aanandan

    Department of Electronics

    Cochin University of Science and Technology

    India

    Homepage

Progress In Electromagnetics Research C, Vol. 61, 171-178, 2016
doi:10.2528/PIERC15111501
Abstract
Design and development of a novel dual-band microstrip patch array antenna suitable for WLAN and WiMAX applications are presented. The proposed array configuration is obtained by employing two parasitic patches gap coupled to the driven elements of a single layer proximity fed 2x1 microstrip patch array configuration. The proposed dual-band array has the advantages of enhanced bandwidth and gain. The feed patches are excited by proximity feeding method and the parasitic patches are excited by gap-coupling. This microstrip patch array provides resonances at two frequencies of 2.584 GHz (2.412-2.629 GHz) and 3.508 GHz (3.469-3.541 GHz). This novel configuration has a measured gain of 8.51 dBi and 5.8 dBi in lower and upper bands with an impedance bandwidth of 8.16% and 2.05% respectively. Additionally, to enhance the front to back ratio at the upper resonant frequency, a metal plate is placed at the back side of the array antenna. This modified proximity fed gap coupled array provides directional radiation patterns with improved gains. Re-configurability in the form of beam steering is obtained in the modified array configuration by varying the air gap between the ground plane and metal plate. The simulated results are in good agreement with the experimental ones.
Citation
Jacob Abraham, Thomaskutty Mathew, and Chandroth K. Aanandan, "A Novel Proximity Fed Gap Coupled Microstrip Patch Array for Wireless Applications," Progress In Electromagnetics Research C, Vol. 61, 171-178, 2016.
doi:10.2528/PIERC15111501
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