• Home
  • Current congress
  • Public Website
  • My papers
  • root
  • browse
  • IAC-17
  • B2
  • 6
  • paper

    • Calibration and Performance Measurements for the NASA Deep Space Network Aperture Enhancement Project (DAEP)

    Paper number

    IAC-17,B2,6,7,x40813

    Author

    Mr. Remi LaBelle, National Aeronautics and Space Administration (NASA)/Jet Propulsion Laboratory, United States

    Coauthor

    Mr. David Rochblatt, Jet Propulsion Laboratory - California Institute of Technology, United States

    Year

    2017

    Abstract
    The NASA Deep Space Network (DSN) has recently constructed two new 34-meter antennas at the Canberra Deep Space Communications Complex (CDSCC).  These new antennas are part of the larger DAEP project to add six new antennas to the DSN, including two in Madrid, three in Canberra and one in Goldstone (California).  The DAEP project included development and implementation of several new technologies for the S, X, Ka (26 GHz) and Ka (32 GHz) -band uplink and downlink electronics, as previously reported.   The electronics upgrades were driven by several different considerations, including parts obsolescence, cost reduction, improved reliability and maintainability, and capability to meet future performance requirements.   The new antennas are required to support TT&C links for all of the NASA deep-space spacecraft, as well as for several international partners.  Some of these missions, such as Voyager 1 and 2, have very limited link budgets, which results in demanding requirements for system G/T performance. These antennas are also required to support radio science missions with several spacecraft, which dictate some demanding requirements for spectral purity, amplitude stability and phase stability for both the uplink and downlink electronics.  After completion of these upgrades, a comprehensive campaign of tests and measurements took place to characterize the electronics and calibrate the antennas.  -  Radiometric measurement techniques were applied to characterize, calibrate, and optimize the performance of the antenna parameters.  These included optical and RF high-resolution holographic and total power radiometry techniques.  These techniques, which are described in the article, resulted in the highest antenna aperture efficiency in the DSN, of 66% achieved, at the highest operating frequency of the antenna, which is Ka-Band (32-GHz).  The other measurements and results described include antenna noise temperature, photogrammetry and holography alignment of antenna panels, beam-waveguide mirrors, and subreflector, antenna aperture efficiencies and G/T versus frequency, and antenna pointing models.
The first antenna (DSS-35) was entered into operations in October, 2014 and the 2nd antenna (DSS-36) in October 2016.  This paper describes the measurement techniques and results of the testing and calibration for both antennas, along with the driving requirements.
    Abstract document

    IAC-17,B2,6,7,x40813.brief.pdf

    Manuscript document

    IAC-17,B2,6,7,x40813.pdf (🔒 authorized access only).

    To get the manuscript, please contact IAF Secretariat.