Feasibility analysis of additive manufacturing method for graphene based super solar body mounted patch antenna for satellite applications

Prasanna Ram; Rachel Jeeva Light Rajakumaran; Rashika Chithoor Santharam; Jahnavi Nancheri; Monika Gayathri Ogirala

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Feasibility analysis of additive manufacturing method for graphene based super solar body mounted patch antenna for satellite applications

机译：用于卫星应用的石墨烯超太阳体安装贴片天线添加剂制造方法的可行性分析

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In this project, a Nano material based printed patch antenna structure has been integrated with a solar panel withoutaffecting the optical efficiency of the solar panel. The proposed prototype is having the property of both antennaand solar module functionality. A graphene based CPW fed E-Shaped micro strip patch antenna which has a returnloss of − 48.43 dB at resonant frequency of 2.1 GHz which is best suitable for UMTS-2100 Band (2.15–2.18 GHz), GSM(2.15–2.18 GHz) applications is printed on the solar panel using screen printing technique. In this project, conventionalcopper-based antennas are replaced with graphene-based antennas due to various advantages. In this experiment, thefeasibility of material based body mounting antenna structure printing method is analysed. This proposed design modelis best suitable for satellites where antennas occupy one-third of the satellite’s size. By mounting the small printed antennason the solar panel, the space complexity of the satellite system gets reduced by one-third of its initial dimensions.

机译：在该项目中，基于纳米材料的印刷贴片天线结构已经与太阳能电池板集成影响太阳能电池板的光学效率。所提出的原型具有两个天线的性质和太阳能模块功能。基于石墨烯的CPW馈电E形微带贴片天线，具有回报谐振频率的损失 - 48.43 dB为2.1 GHz，最适合UMTS-2100频段（2.15-2.18 GHz），GSM（2.15-2.18 GHz）应用使用丝网印刷技术在太阳能电池板上印刷。在这个项目中，常规由于各种优点，基于铜的天线被基于石墨烯的天线替换。在这个实验中，分析了基于材料安装天线结构印刷方法的可行性。这个提出的设计模型最好适合天线占用卫星尺寸的三分之一的卫星。通过安装小印刷天线在太阳能电池板上，卫星系统的空间复杂性降低了其初始尺寸的三分之一。

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来源
《SN Applied Sciences》 |2020年第4期|1-7|共7页
作者
Prasanna Ram; Rachel Jeeva Light Rajakumaran; Rashika Chithoor Santharam; Jahnavi Nancheri; Monika Gayathri Ogirala;
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作者单位

Vel TechRangarajan Dr Sagunthala R&D Institute of Science and Technology Avadi Chennai India;

Vel TechRangarajan Dr Sagunthala R&D Institute of Science and Technology Avadi Chennai India;

Vel TechRangarajan Dr Sagunthala R&D Institute of Science and Technology Avadi Chennai India;

Vel TechRangarajan Dr Sagunthala R&D Institute of Science and Technology Avadi Chennai India;

Vel TechRangarajan Dr Sagunthala R&D Institute of Science and Technology Avadi Chennai India;

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正文语种 eng
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关键词
Graphene; Screen printing; Body mounted antenna; Micro strip patch antenna; Solar panel efficiency;

机译：石墨烯;丝网印刷;身体安装天线;微带贴片天线;太阳能电池板效率;

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1. Design and analysis of a dual-polarized graphene based microstrip patch antenna for terahertz applications [J] . Shalini M., Madhan M. Ganesh Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2019,第期

机译：用于太赫兹应用的双极化石墨烯微带贴片天线的设计与分析
2. Model Reconstruction for Body-Mounted Solar Arrays of Satellites Based on Limited Information [J] . Shen Ping, Chen Qianhong, Zhang Zhiliang, IEEE Transactions on Energy Conversion . 2019,第3期

机译：基于有限信息的机载卫星太阳电池阵列模型重构
3. Textile Antennas for Spacesuit Applications: Design, simulation, manufacturing, and testing of textile patch antennas for spacesuit applications. [J] . Haagenson Tessa, Noghanian Sima, de Leon Pablo, Antennas and Propagation Magazine, IEEE . 2015,第4期

机译：用于太空服的纺织天线：用于太空服的纺织贴片天线的设计，仿真，制造和测试。
4. Study of a microstrip triangular patch antenna for body area network applications mounted on teflon cylindrical surface [C] . Esha Johari, Sovan Mohanty, Pradyot Kala, 2016 11th International Conference on Industrial and Information Systems . 2016

机译：安装在聚四氟乙烯圆柱表面上的用于人体局域网的微带三角形贴片天线的研究
5. Meshed patch antennas integrated on solar cell - A feasibility study and optimization [D] . Turpin, Timothy W. 2009

机译：集成在太阳能电池上的网状贴片天线-可行性研究和优化
6. Application of Finite Element Phase-field and CALPHAD-based Methods to Additive Manufacturing of Ni-based Superalloys [O] . Trevor Keller, Greta Lindwall, Supriyo Ghosh, -1

机译：有限元相场和CALPHAD方法在镍基高温合金增材制造中的应用
7. Feasibility analysis of additive manufacturing method for graphene based super solar body mounted patch antenna for satellite applications [O] . Prasanna Ram, Rachel Jeeva Light Rajakumaran, Rashika Chithoor Santharam, 2020

机译：用于卫星应用的石墨烯超太阳体安装贴片天线添加剂制造方法的可行性分析

Feasibility analysis of additive manufacturing method for graphene based super solar body mounted patch antenna for satellite applications

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