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Measured and predicted performance of a compensating subreflector

Measured and predicted performance of a compensating subreflector

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© The Institution of Electrical Engineers
Published

The intensity and phase scattering patterns of a profile error-compensating mirror, 30 cm in diameter, have been computed at 34 and 68 GHz. The mirror had been used previously between 28 and 40 GHz to compensate for errors on the surface of a paraboloid 2.8 m in diameter. The results are compared with measured patterns and also the patterns needed to achieve maximum phase compensation. Good agreement was obtained between the measured and computed patterns. Generally the mirror compensated successfully for profile errors with correlation intervals greater than D/10. The residual phase differences between the required and computed patterns were consistent with those deduced previously from the performance of the complete compensated antenna. At 34 GHz they amounted to about 20° r.m.s., giving a shortfall in gain of (0.5 ± 0.3) dB. Results at 68 GHz suggest that the reflector could be operated efficiently at much higher frequencies.

Inspec keywords: compensation; antenna reflectors; antenna radiation patterns; microwave antennas; reflector antennas; computer aided analysis

Other keywords: computer aided analysis; antenna radiation patterns; antenna reflectors; MM waves; compensating subreflector; EHF; 68 GHz; predicted performance; 34 GHz; measured performance

Subjects: Single antennas; Communications computing; Antenna accessories

References

    1. 1)
      • P.R. Cowles , E.A. Parker . Reflector surface error compensation in Cassegrain antennas. IEEE Trans. , 323 - 328
    2. 2)
      • R.J. Langley , E.A. Parker . Wave scattering from error compensating secondary reflectors. IEEE Trans. , 527 - 530
    3. 3)
      • R.J. Langley , E.A. Parker . Radiation patterns of a reflector antenna incorporating a compensating secondary mirror. Electron. Lett. , 53 - 54
    4. 4)
      • S. von Hoerner . The design of correcting secondary reflectors. IEEE Trans. , 336 - 340
    5. 5)
      • E.A. Parker , P.R. Cowles . A method for compensating for reflector antenna surface errors with long correlation lengths. Electron. Lett. , 366 - 367
    6. 6)
      • Cowles, P.R.: `Studies of millimetre wave aerials', 1973, PhD dissertation, University of Kent, Canterbury.
    7. 7)
      • Langley, R.J.: `Dichroic and phase compensating subreflectors for Cassegrain antennas', , PhD dissertation, University of Kent, Canterbury, (in preparation).
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