3-D Printed Metallic CP Antenna With Dual-Cavity Structure and Enhanced Axial Ratio Bandwidth

Shiyan Wang,Sai-Wai Wong,Yin Li,Lei Zhu,Wenting Ge,Gang Zhang

doi:10.1109/apmc47863.2020.9331713

3-D Printed Metallic CP Antenna With Dual-Cavity Structure and Enhanced Axial Ratio Bandwidth

Shiyan Wang, Sai-Wai Wong + Show 4 more

https://doi.org/10.1109/apmc47863.2020.9331713

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Publication Date: Dec 8, 2020

Citations: 5

Affiliation: Nanjing Normal University, Jiangsu Key Laboratory of 3D Printing Equipment and Manufacturing, Shenzhen University

#Axial Ratio Bandwidth #Dual-cavity Structure + Show 8 more

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Abstract

A 3-D printed metallic circularly polarized (CP) antenna with dual-cavity structure and enhanced axial ratio (AR) bandwidth is proposed in this paper. On the one hand, grooved circular open-ended waveguide is here utilized to generate CP waves. On the other hand, another waveguide with approximate dimension is adjacent and connected to the primal one, thus working as a parasitic radiation element and enhancing the AR bandwidth. By virtue of selective laser melting (SLM), a kind of 3-D printing technologies, the proposed antenna can be easily fabricated with high precision and low cost, and then goes through test. The measured 3-dB AR bandwidth is 1.25 GHz (9.05-10.3 GHz), which has been enhanced from 5.8% of single-cavity case to 12.9%.

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