Content introduction
Chinese Abstract:
A 60 GHz miniaturized broadband super surface antenna for package antenna applications is proposed. Based on the manufacturing technology of glass integrated passive devices, coplanar waveguide fed ring resonator is used to characterize the material characteristics of glass substrate. The antenna is designed on a glass substrate with high dielectric constant to realize antenna miniaturization. In TM10 mode, the gap between the patch elements reduces the aperture of the antenna patch. The structure of the antenna is fed by coplanar waveguide, and then the butterfly shaped slot is excited. Finally, the super surface patch located on the upper surface of the antenna is excited by coupling. The antenna can support both TM10 mode and inverse TM20 mode, thus improving the bandwidth performance. After design, optimization and processing, the radiation patch size of the antenna is 0.31 λ 0 × 0.31 λ 0, and the thickness is 0.06 λ 0. The antenna is tested with a probe based antenna measurement device. The test results show that the antenna bandwidth is 53.3-67 GHz. At 60 GHz, the gain measurement of the antenna is about 5 DBI. Key word:
60 GHz; package antenna; coplanar waveguide fed ring resonator; glass integrated passive device; super surface antenna; miniaturized antenna
Author:
Xia Haiyang, Hu Jincan, Zhang Tao, Li Lianming, Zheng Fuchun
Company:
State Key Laboratory of mobile communication, School of information science and engineering, Southeast University, Nanjing, China, 210096; Zijinshan laboratory, Nanjing, China, 211111; College of microelectronics, Xi'an University of Electronic Science and technology, Xi'an, China, 710071
Reference format:
Hai-yang Xia, Jin-can Hu, Tao Zhang, Lian-ming Li, Fu-chun Zheng, 2020. Integrated 60-GHz miniaturized wideband metasurface antenna in a GIPD process. Frontiers of Information Technology & Electronic Engineering, 21(1):174-181.
https://doi.org/10.1631/FITEE.1900453
Introduction:
Li Lianming, doctor, researcher. In 2001, he graduated from the Department of physics of Southeast University, and then he was sent to the Department of Radio Engineering (now the school of information science and Engineering) of Southeast University to study for master's degree. After graduation, he stayed in school. In 2006, he went to the micas (microelectronics and sensors) group of the University of Leuven to study for his Ph.D. under the guidance of Professor Michiel steyaert and Professor Patrick reynaert. As the first doctoral student in the field of 60 GHz millimeter wave circuit, he is engaged in the design and research of CMOS millimeter wave circuit. After graduating from the University of Leuven in 2011, he was employed by Southeast University to participate in and preside over a number of major CMOS millimeter and terahertz projects in China and the research work of NSFC. His team started from scratch and completed the first 60 GHz millimeter wave RF front-end single chip transceiver system based on CMOS technology in China within two years, and realized high-definition video service transmission. At present, my personal research interests are high frequency millimeter wave system for communication and radar, analog and RF integrated circuit, package antenna design, etc. He has published more than 60 papers in IEEE jssc, t-mtt, tap, t-cpmt and other journals and conferences.
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About this journal
Frontiers of Information Technology & Electronic Engineering (fitee for short, Chinese Name: information and electronic engineering Frontier (English), ISSN 2095-9184, CN 33-1389 / TP) is a comprehensive English academic monthly of information electronics, included by SCI-E and EI, with the latest impact factor 1.033. Formerly known as "Journal of Zhejiang University, English edition, Part C: computer and Electronics" founded in 2010, it is now the only Journal of the information and Electronic Engineering Department of the Chinese Academy of engineering. It covers computer, information and communication, control, electronics, optics and other fields. Article types include research papers, reviews, personal perspectives, reviews, etc. The current chief editors are pan Yunhe and Lu Xicheng, academicians of the Chinese Academy of engineering. The international peer review system is implemented, and the first time to convey opinions is generally within 2-3 months. Once the article is hired, it will be online quickly.
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