Millimeter-Wave High-Gain PRGW Antenna Using a Fabry-Perot Cavity

被引：6

作者：

Mousavirazi, Z. ^{[1
]}

Akbari, M. ^{[1
]}

Denidni, T. A. ^{[1
]}

机构：

[1] Univ Quebec, Natl Inst Sci Res INRS, Montreal, PQ, Canada

来源：

2020 IEEE INTERNATIONAL SYMPOSIUM ON ANTENNAS AND PROPAGATION AND NORTH AMERICAN RADIO SCIENCE MEETING | 2020年

关键词：

High-Gain Antenna; Fabry-Perot Cavity (FPC); Frequency Selective Surface (FSS); and Printed Ridge Gap Waveguide (PRGW); Millimeter-wave (MMW); SUPERSTRATE; BAND;

D O I：

10.1109/IEEECONF35879.2020.9329905

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

This paper presents the design and simulation of a high-gain Antenna by using a Fabry-Perot cavity (FPC) in millimeter-wave (MMW) applications. The FPC antenna is formed by locating a frequency selective surfaces (FSS) above a slot antenna that operates at 28 GHz and fed by a printed ridge-gap waveguide (PRGW). Moreover, the bandwidth of the proposed slot antenna is enhanced using a novel design of the semi-cross slot. The simulation results show the optimized antenna design can cover impedance bandwidth from 27.77 GHz to 28.42 GHz with a high realized gain of about 20.45 dBi at 28 GHz.

引用

页码：1365 / 1366

页数：2

共 10 条

[1] Gain Enhancement of Circularly Polarized Dielectric Resonator Antenna Based on FSS Superstrate for MMW Applications [J].

Akbari, M. ;

Gupta, S. ;

Farahani, M. ;

Sebak, A. R. ;

Denidni, T. A. .

IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2016, 64 (12) :5542-5546

[2] Ridge Gap Waveguide Multilevel Sequential Feeding Network for High-Gain Circularly Polarized Array Antenna [J].

Akbari, Mohammad ;

Farahbakhsh, Ali ;

Sebak, Abdel-Razik .

IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2019, 67 (01) :251-259

[3] Wideband and High-Gain Millimeter-Wave Antenna Based on FSS Fabry-Perot Cavity [J].

Attia, Hussein ;

Abdelghani, M. Lamine ;

Denidni, Tayeb A. .

IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2017, 65 (10) :5589-5594

[4] A Novel Low-Loss Millimeter-Wave 3-dB 90° Ridge-Gap Coupler Using Large Aperture Progressive Phase Compensation [J].

Farahani, Mohammadmahdi ;

Akbari, Mohammad ;

Nedil, Mourad ;

Denidni, Tayeb A. ;

Sebak, Abdel R. .

IEEE ACCESS, 2017, 5 :9610-9618

[5]

Kakhki M. B., 2019, USNC URSI RAD SCI M, P319

[6]

Mousavirazi Z., 2013, INT J NATURAL ENG SC, V7, P78

[7]

Mousavirazi Z, 2019, IEEE ANTENNAS PROP, P319, DOI [10.1109/APUSNCURSINRSM.2019.8888515, 10.1109/apusncursinrsm.2019.8888515]

[8] A novel design of Fabry-Perot antenna using metamaterial superstrate for gain and bandwidth enhancement [J].

Razi, Zahra Mousavi ;

Rezaei, Pejman ;

Valizade, Arash .

AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS, 2015, 69 (10) :1525-1532

[9] Optically Transparent Subarray Antenna Based on Solar Panel for CubeSat Application [J].

Zarbakhsh, Saman ;

Akbari, Mohammad ;

Farahani, Mohammadmahdi ;

Ghayekhloo, Alireza ;

Denidni, Tayeb A. ;

Sebak, Abdel-Razik .

IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2020, 68 (01) :319-328

[10] Broadband and High-Gain Circularly-Polarized Antenna With Low RCS [J].

Zarbakhsh, Saman ;

Akbari, Mohammad ;

Samadi, Fereshteh ;

Sebak, Abdel-Razik .

IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2019, 67 (01) :16-23

← 1 →