• DocumentCode
    2562694
  • Title

    Synthesis of radiation patterns of planar array antennas

  • Author

    Wang, H.S.C.

  • Author_Institution
    Aerosp. Corp., El Segundo, CA, USA
  • fYear
    1988
  • fDate
    7-12 Feb. 1988
  • Firstpage
    42430
  • Lastpage
    316
  • Abstract
    In the course of developing a point design for a bootlace lens antenna for a space-based radar, a versatile radiation-pattern synthesis technique capable of simultaneously controlling the mainlobe shape and the sidelobe level has been developed for planar phased arrays. Utilizing certain minimax properties of a power functional, the method does not rely on the shape of special mathematical functions and is therefore applicable to a broader class of arrays. After a brief description of its principle, which is based on the extension of an earlier procedure developed for linear arrays by the same author, the technique is applied to the synthesis of the radiation pattern of the feed array of the space-fed lens antenna. The objective is to obtain as closely as possible a two-dimensional Gaussian illumination function on the lens surface, while at the same time maintaining a low sidelobe level to minimize the feed loss due to spillover. Results of this synthesis are presented and discussed.<>
  • Keywords
    antenna phased arrays; antenna radiation patterns; antenna theory; lens antennas; mobile antennas; radar antennas; bootlace lens antenna; feed array; linear arrays; mainlobe shape; mathematical functions; minimax; planar array antennas; radiation-pattern synthesis; sidelobe level; space-based radar; space-fed lens antenna; two-dimensional Gaussian illumination function; Antenna radiation patterns; Feeds; Lenses; Linear antenna arrays; Optical design; Phased arrays; Planar arrays; Radar antennas; Shape control; Spaceborne radar;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Aerospace Applications Conference, 1988. Digest., 1988 IEEE
  • Conference_Location
    Park City, UT, USA
  • Type

    conf

  • DOI
    10.1109/AERO.1988.38659
  • Filename
    38659