Title :
Development of the Orlan Space-Station antenna
Author :
Tripp, Victor K. ; Cooke, William P. ; Pullen, Kerry P. ; Sherman, Donald L.
Author_Institution :
Sensors & Electromagn. Appl. Lab., Georgia Tech Res. Inst., Atlanta, GA, USA
fDate :
10/1/2000 12:00:00 AM
Abstract :
The design of the Crew-Lock antenna for the Russian communication and data system [for the International Space Station] was challenging, because it is enclosed in a conducting shell. In addition, the electromagnetic-field distribution within the Crew Lock is highly constrained by the lowest one or two normal modes of the structure. Two kinds of antennas were investigated to address the requirements: a half loop and a loaded patch. Computer modeling of these approaches was done by the finite-element and moment methods, respectively. The loop antenna underwent extensive scale-model testing, and some full-scale tests at Johnson Space Center in Houston. The patch antenna was eliminated during the full-scale tests. The final design is the "towel-bar" loop, which performs the additional function of a handrail for astronauts during the ingress and egress for extra-vehicular activity (EVA).
Keywords :
antenna testing; electrical engineering computing; finite element analysis; loop antennas; method of moments; microstrip antennas; space vehicles; Crew-Lock antenna; Houston; International Space Station; Johnson Space Center; Orlan Space-Station antenna; communication system; computer modeling; conducting shell; data system; electromagnetic-field distribution; extra-vehicular activity; finite-element method; full-scale tests; half loop antenna; handrail; loaded patch antenna; moment methods; patch antenna; scale-model testing; towel-bar loop; Antennas and propagation; Data systems; International Space Station; Laboratories; Loaded antennas; Microstrip antennas; NASA; Sensor systems and applications; Space vehicles; Testing;
Journal_Title :
Antennas and Propagation Magazine, IEEE
