• DocumentCode
    3607389
  • Title

    Noncollimating MMW Polyethylene Lens Mitigating Dual-Source Offset From a Tx/Rx WiGig Module

  • Author

    Bisognin, Aimeric ; Titz, Diane ; Ferrero, Fabien ; Jacquemod, Gilles ; Pilard, Romain ; Gianesello, Frederic ; Gloria, Daniel ; Lugara, Delphine ; Lima, Eduardo B. ; Costa, Jorge R. ; Fernandes, Carlos A. ; Luxey, Cyril

  • Author_Institution
    EpOC, Univ. Nice Sophia Antipolis, Valbonne, France
  • Volume
    63
  • Issue
    12
  • fYear
    2015
  • Firstpage
    5908
  • Lastpage
    5913
  • Abstract
    The design of a micromachined polyethylene lens for WiGig modules is described and its electromagnetic characteristics are measured. The lens is electromagnetically fed by linearly polarized Tx and Rx patch antennas integrated in an existing ball-grid-array (BGA) organic module. Antennas are separated from each other by a distance of 4.45 mm ($0.89,lambda_{g}$ at 60 GHz). The goal of the lens is to increase the gain of each antenna while lowering the beam depointing effect due to their offset position regarding the focal point of the lens. A geometrical optics/physical optics (GO/PO) hybrid method is applied to the design and analysis of the lens shape for noncollimating purpose. Using a lens height of 30 mm for both Tx and Rx antennas, a 13-dBi minimum realized gain from 54 to 66 GHz is obtained. Compared to an elliptical lens providing an equivalent realized gain over the same bandwidth, the depointing angle from the boresight direction is reduced from 15° to 4°. Full-wave simulations are verified by measurements.
  • Keywords
    geometrical optics; linear antennas; microstrip antennas; physical optics; MMW polyethylene lens; dual-source offset; full-wave simulations; geometrical optics; linearly polarized Tx and Rx patch antennas; physical optics; Antenna measurements; Antenna radiation patterns; Feeds; Gain; Lenses; Polyethylene; 60-GHz WiGig standard; Antenna gain; Antenna-in-package; Antenna-in-package (AiP); Lens antennas; Millimeter-wave antennas; antenna gain; lens antennas; millimeter-wave (MmW) antennas;
  • fLanguage
    English
  • Journal_Title
    Antennas and Propagation, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-926X
  • Type

    jour

  • DOI
    10.1109/TAP.2015.2484420
  • Filename
    7286749