Accession Number : AD1018256


Title :   Space Qualification Testing of a Shape Memory Alloy Deployable CubeSat Antenna


Descriptive Note : Technical Report,01 Jan 2016,15 Sep 2016


Corporate Author : AIR FORCE INSTITUTE OF TECHNOLOGY WRIGHT-PATTERSON AFB OH Wright-Patterson Air Force Base


Personal Author(s) : Kobza,Carl R


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/1018256.pdf


Report Date : 15 Sep 2016


Pagination or Media Count : 238


Abstract : Increasingly capable CubeSat missions require antenna with improved Radio Frequency performance over the traditional CubeSat antennas. Deployable quadrifilar helical antennas (QHA) enable an acceptable stowing volume and deploy to provide increased gain and bandwidth over traditional patch and dipole antennas. Extensive ground testing is required to ensure the antenna is space qualified and to characterize the antenna deployment in the space environment. AFIT requires a QHA to perform a future CubeSat geolocation mission and contracted Helical Communication Technologies (HCT) to design and manufacture a Shape Memory Alloy (SMA) L-band deployable QHA. Vibration, thermal vacuum, laser vibrometer, and Voltage Standing Wave Ratio (VSWR) experiments were conducted on the HCT antenna to verify the hardware in a simulated launch environment and to characterize the SMA deployment in the simulated space environment. The HCT QHA successfully passed all required NASA General Environmental Verification Standards space qualification testing. Several anomalies experienced by the QHA encourage a redesign. The deployed antenna length varied from 250-290 mm and future RF testing is required to determine if the antenna geometry variations are significant enough to impact the geolocation mission. This research documents the test results for a QHA deployable CubeSat antenna testing and aids the development of CONOPS for the future AFIT CubeSat mission utilizing the HCT QHAs.


Descriptors :   cubesats , satellite antennas , shape memory alloys , antenna configurations , test methods , theses


Subject Categories : Unmanned Spacecraft
      Electrical and Electronic Equipment
      Radiofrequency Wave Propagation
      Radio Communications


Distribution Statement : APPROVED FOR PUBLIC RELEASE