Compact Tetracyclic Nested AMC-Backed Multiband Antenna With High OoB Rejection and Enhanced Gain Radiation for IIoV-Based Sensing and Communication

An innovative artificial magnetic conductor (AMC)-backed quad-band antenna is proposed with gain enhancement, high Out-of-Band (OoB) rejection, forward radiation improvement, and backward radiation reduction for Intelligent Internet of Vehicle (IIoV)-based sensing and communication. It includes a qu...

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Bibliographic Details
Published in:IEEE internet of things journal 2024-01, Vol.11 (2), p.2819-2829
Main Authors: Yang, Shuhui, Tong, Fanglu, Chu, Jiajie, Chen, Yinchao, Zhao, Zhenyu, Fang, Zhongyuan, Zheng, Yuanjin, Wang, Wensong
Format: Article
Language:English
Subjects:
Antennas
Circuit design
Electromagnetic interference
Equivalent circuits
Internet of Things
Internet of Vehicles
Radiation
Radiators
Radio frequency
Reflectance
Rejection
Resonant frequencies
Unit cell
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Summary:An innovative artificial magnetic conductor (AMC)-backed quad-band antenna is proposed with gain enhancement, high Out-of-Band (OoB) rejection, forward radiation improvement, and backward radiation reduction for Intelligent Internet of Vehicle (IIoV)-based sensing and communication. It includes a quad-band microstrip radiator and a tetracyclic nested AMC as a reflector. The radiator has a radiating pattern of slotted octagonal patch connected to a rectangular resonant loop, and a meshed defected ground structure (MDGS). The mechanism of resonant frequency generation is derived and analyzed. Then, an AMC reflector with four zero-phases in the reflection coefficient is designed and its equivalent circuit model is established. The AMC unit cell consists of four nested rings and two lumped capacitors. It generates four in-phase reflection bands, which are coincident with the four frequency bands of the radiator. The quad-band antenna gains are enhanced while its profile maintains low due to the in-phase reflection characteristics of the multiband AMC reflector. To verify the design concept, a prototype with a total size of 95 mm [Formula Omitted] mm [Formula Omitted] mm is fabricated and measured. The measured 10-dB impedance bandwidths are 2.19–2.54 (14.8%), 3.06–5.25 (52.7%), 6.43–6.96 (7.9%), and 7.71–8.29 (7.3%) GHz, respectively. High OoB rejections between each band reduce electromagnetic interference to feed into radiofrequency circuits. The measured gains and radiation efficiencies range from 3.6 to 8 dBi and from 57.8% to 92%, respectively.
ISSN:2327-4662
2327-4662
DOI:10.1109/JIOT.2023.3293518