SIA OpenIR  > 空间自动化技术研究室
Deployable bistable composite helical antennas for small satellite applications
Knott, Geoffrey1; Wu CC(吴晨晨)2; Viquerat, Andrew1
Department空间自动化技术研究室
Conference NameAIAA Scitech Forum, 2019
Conference DateJanuary 7-11, 2019
Conference PlaceSan Diego, CA, United states
Source PublicationAIAA Scitech 2019 Forum
PublisherAIAA
Publication PlaceReston, VA, USA
2019
Pages1-10
Indexed ByEI
EI Accession number20192807163795
Contribution Rank2
ISBN978-1-62410-578-4
AbstractAn ultra-compact deployable helical antenna is presented, designed to enhance space-based reception of Automatic Identification System signals for maritime surveillance. The radio frequency performance (i.e. peak gain and directionality) is simulated at 162 MHz using ANSYS High Frequency Structure Simulator and evaluated over a range [0.5–8] of helical turns. Es-tablished and commercially available omnidirectional antennas suffer interference caused by the large number of incoming signals. A 7-turn helix with planar ground plane is proposed as a compact directional-antenna solution, which produces a peak gain of 11.21±0.14 dBi and half-power beam width of 46.5±0.5 degrees. Manufacturing the helical structure using bistable composite enables uniquely high packaging efficiencies. The helix has a deployed axial length of 3.22 m, a diameter of 58 cm, and a stowed (i.e. coiled) height and diameter of 5 cm — the stowed-to-deployed volume ratio is approximately 1:9,800 (0.01%). The use of ultra-thin and lightweight composite results in an estimated mass of 163 grams. The structural stability (i.e. natural vibration frequency) is also investigated to evaluate the risk an unstable deployed antenna may have on the radio frequency performance. The first vibration mode of the 7-turn helix is at 0.032 Hz indicating the need for additional stiffening. © 2019, American Institute of Aeronautics and Astronautics Inc, AIAA. All rights reserved.
Language英语
Document Type会议论文
Identifierhttp://ir.sia.cn/handle/173321/25280
Collection空间自动化技术研究室
Corresponding AuthorKnott, Geoffrey
Affiliation1.Department of Mechanical Engineering Sciences & Surrey Space Centre, University of Surrey, Guildford; GU2 7XH, United Kingdom;
2.Shenyang Institute of Automation, Chinese Academy of Sciences, Liaoning Province, 114 Nanta Street, Shenyang, China
Recommended Citation
GB/T 7714
Knott, Geoffrey,Wu CC,Viquerat, Andrew. Deployable bistable composite helical antennas for small satellite applications[C]. Reston, VA, USA:AIAA,2019:1-10.
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