Title :
Effects of proximity of thermal shields on tri-band antenna RF performance
Author :
Hasan, M. Anwar ; Huffman, Julie ; Kefauver, W. Neill
Author_Institution :
Space Syst. Co., Lockheed Martin, Newtown, PA, USA
Abstract :
Robust, inexpensive, non-conductive material that can survive launch and reentry environments is needed to support the Orion antenna suite. The boost protective cover (BPC) is not optimal for RF performance, but reasonable criteria for utilizing BPC as a material are established to perform expeditious flight qualification. This paper outlines the results of this investigation. Although BPC has a moderate dielectric (<; 2) and mediocre loss tangent (~0.05), as a radome it should not be operated near an electrically resonant antenna or as a transmission media. Since BPC has a strongly anisotropic construction of significant wavelength thickness, determining a configuration that will give acceptable performance from 0.02 to 0.25 wavelength depth was evaluated. This paper summarizes the results of tests to assess the impacts of placing the BPC in front of a planar antenna.
Keywords :
multifrequency antennas; planar antennas; shielding; BPC; anisotropic construction; boost protective cover; electrically resonant antenna; nonconductive material; planar antenna; thermal shield; triband antenna RF performance; Antenna measurements; Antennas; Dielectric losses; Fabrics; Frequency measurement; Loss measurement; Antenna; Booster Plume; Dielectric; Frequency Detuning; Loss tangent; Thermal Protective Cover;
Conference_Titel :
Wireless for Space and Extreme Environments (WiSEE), 2013 IEEE International Conference on
Conference_Location :
Baltimore, MD
DOI :
10.1109/WiSEE.2013.6737559
