A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications

Ching Wen Chiang; Nai Chen Liu; Rulin Huang; Chung Tse Michael Wu; Yen Cheng Kuan

doi:10.1109/APMC47863.2020.9331553

A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications

Ching Wen Chiang, Nai Chen Liu, Rulin Huang, Chung Tse Michael Wu, Yen Cheng Kuan

Engn - Elec & Computer Engn

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper presents a dual W-band cavity-backed slot antenna using the substrate integrated waveguide (SIW) technique. Two high-order modes, TE310/TE130 (superposition of TE310 and TE130) at 78.7 GHz and TE320 at 89.7 GHz, are adopted to overcome the resolution and variation constraints of a standard printed circuit board (PCB) process. Fabricated with a Rogers RO4003C substrate, this antenna achieves 8 and 8.2-dBi gains at 77 and 90.5 GHz, respectively, and 10-dB impedance bandwidths of 76.5-79.5 GHz and 89.5-91 GHz. Moreover, the respective over-the-air (OTA) experiments with an FMCW signal at 77 GHz and a QPSK modulation signal at 91.5 GHz are conducted to demonstrate the feasibility of applying this antenna in millimeter-wave (mmWave) radar sensing and communication applications.

Original language	English (US)
Title of host publication	2020 Asia-Pacific Microwave Conference, APMC 2020 - Proceeding
Editors	Jie Sun, Wai Ho Yu
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	158-160
Number of pages	3
ISBN (Electronic)	9781728169620
DOIs	https://doi.org/10.1109/APMC47863.2020.9331553
State	Published - Dec 8 2020
Event	2020 Asia-Pacific Microwave Conference, APMC 2020 - Virtual, Hong Kong, Hong Kong Duration: Dec 8 2020 → Dec 11 2020

Publication series

Name	Asia-Pacific Microwave Conference Proceedings, APMC
Volume	2020-December

Conference

Conference	2020 Asia-Pacific Microwave Conference, APMC 2020
Country/Territory	Hong Kong
City	Virtual, Hong Kong
Period	12/8/20 → 12/11/20

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

Keywords

cavity antenna
dual band
high-order radiation
joint communication and radar sensing (JCAS)
millimeterwave (mmWave)
substrate integrated waveguide (SIW)
W-band

Access to Document

10.1109/APMC47863.2020.9331553

Cite this

Chiang, C. W., Liu, N. C., Huang, R., Wu, C. T. M., & Kuan, Y. C. (2020). A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications. In J. Sun, & W. H. Yu (Eds.), 2020 Asia-Pacific Microwave Conference, APMC 2020 - Proceeding (pp. 158-160). [9331553] (Asia-Pacific Microwave Conference Proceedings, APMC; Vol. 2020-December). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/APMC47863.2020.9331553

Chiang, Ching Wen ; Liu, Nai Chen ; Huang, Rulin ; Wu, Chung Tse Michael ; Kuan, Yen Cheng. / A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications. 2020 Asia-Pacific Microwave Conference, APMC 2020 - Proceeding. editor / Jie Sun ; Wai Ho Yu. Institute of Electrical and Electronics Engineers Inc., 2020. pp. 158-160 (Asia-Pacific Microwave Conference Proceedings, APMC).

@inproceedings{b1720053dc19471fa36a3957036d7321,

title = "A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications",

abstract = "This paper presents a dual W-band cavity-backed slot antenna using the substrate integrated waveguide (SIW) technique. Two high-order modes, TE310/TE130 (superposition of TE310 and TE130) at 78.7 GHz and TE320 at 89.7 GHz, are adopted to overcome the resolution and variation constraints of a standard printed circuit board (PCB) process. Fabricated with a Rogers RO4003C substrate, this antenna achieves 8 and 8.2-dBi gains at 77 and 90.5 GHz, respectively, and 10-dB impedance bandwidths of 76.5-79.5 GHz and 89.5-91 GHz. Moreover, the respective over-the-air (OTA) experiments with an FMCW signal at 77 GHz and a QPSK modulation signal at 91.5 GHz are conducted to demonstrate the feasibility of applying this antenna in millimeter-wave (mmWave) radar sensing and communication applications.",

keywords = "cavity antenna, dual band, high-order radiation, joint communication and radar sensing (JCAS), millimeterwave (mmWave), substrate integrated waveguide (SIW), W-band",

author = "Chiang, {Ching Wen} and Liu, {Nai Chen} and Rulin Huang and Wu, {Chung Tse Michael} and Kuan, {Yen Cheng}",

note = "Funding Information: This work was supported in part by the National Chung-Shan Institute of Science and Technology and Industrial Technology Research Institute, Taiwan, under contract No. NCSIST-ADV-V103 (106) and 2018-5G-0401, respectively. Publisher Copyright: {\textcopyright} 2020 IEEE. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.; 2020 Asia-Pacific Microwave Conference, APMC 2020 ; Conference date: 08-12-2020 Through 11-12-2020",

year = "2020",

month = dec,

day = "8",

doi = "10.1109/APMC47863.2020.9331553",

language = "English (US)",

series = "Asia-Pacific Microwave Conference Proceedings, APMC",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "158--160",

editor = "Jie Sun and Yu, {Wai Ho}",

booktitle = "2020 Asia-Pacific Microwave Conference, APMC 2020 - Proceeding",

address = "United States",

}

Chiang, CW, Liu, NC, Huang, R, Wu, CTM & Kuan, YC 2020, A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications. in J Sun & WH Yu (eds), 2020 Asia-Pacific Microwave Conference, APMC 2020 - Proceeding., 9331553, Asia-Pacific Microwave Conference Proceedings, APMC, vol. 2020-December, Institute of Electrical and Electronics Engineers Inc., pp. 158-160, 2020 Asia-Pacific Microwave Conference, APMC 2020, Virtual, Hong Kong, Hong Kong, 12/8/20. https://doi.org/10.1109/APMC47863.2020.9331553

A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications. / Chiang, Ching Wen; Liu, Nai Chen; Huang, Rulin; Wu, Chung Tse Michael; Kuan, Yen Cheng.

2020 Asia-Pacific Microwave Conference, APMC 2020 - Proceeding. ed. / Jie Sun; Wai Ho Yu. Institute of Electrical and Electronics Engineers Inc., 2020. p. 158-160 9331553 (Asia-Pacific Microwave Conference Proceedings, APMC; Vol. 2020-December).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications

AU - Chiang, Ching Wen

AU - Liu, Nai Chen

AU - Huang, Rulin

AU - Wu, Chung Tse Michael

AU - Kuan, Yen Cheng

N1 - Funding Information: This work was supported in part by the National Chung-Shan Institute of Science and Technology and Industrial Technology Research Institute, Taiwan, under contract No. NCSIST-ADV-V103 (106) and 2018-5G-0401, respectively. Publisher Copyright: © 2020 IEEE. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2020/12/8

Y1 - 2020/12/8

N2 - This paper presents a dual W-band cavity-backed slot antenna using the substrate integrated waveguide (SIW) technique. Two high-order modes, TE310/TE130 (superposition of TE310 and TE130) at 78.7 GHz and TE320 at 89.7 GHz, are adopted to overcome the resolution and variation constraints of a standard printed circuit board (PCB) process. Fabricated with a Rogers RO4003C substrate, this antenna achieves 8 and 8.2-dBi gains at 77 and 90.5 GHz, respectively, and 10-dB impedance bandwidths of 76.5-79.5 GHz and 89.5-91 GHz. Moreover, the respective over-the-air (OTA) experiments with an FMCW signal at 77 GHz and a QPSK modulation signal at 91.5 GHz are conducted to demonstrate the feasibility of applying this antenna in millimeter-wave (mmWave) radar sensing and communication applications.

AB - This paper presents a dual W-band cavity-backed slot antenna using the substrate integrated waveguide (SIW) technique. Two high-order modes, TE310/TE130 (superposition of TE310 and TE130) at 78.7 GHz and TE320 at 89.7 GHz, are adopted to overcome the resolution and variation constraints of a standard printed circuit board (PCB) process. Fabricated with a Rogers RO4003C substrate, this antenna achieves 8 and 8.2-dBi gains at 77 and 90.5 GHz, respectively, and 10-dB impedance bandwidths of 76.5-79.5 GHz and 89.5-91 GHz. Moreover, the respective over-the-air (OTA) experiments with an FMCW signal at 77 GHz and a QPSK modulation signal at 91.5 GHz are conducted to demonstrate the feasibility of applying this antenna in millimeter-wave (mmWave) radar sensing and communication applications.

KW - cavity antenna

KW - dual band

KW - high-order radiation

KW - joint communication and radar sensing (JCAS)

KW - millimeterwave (mmWave)

KW - substrate integrated waveguide (SIW)

KW - W-band

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UR - http://www.scopus.com/inward/citedby.url?scp=85100809045&partnerID=8YFLogxK

U2 - 10.1109/APMC47863.2020.9331553

DO - 10.1109/APMC47863.2020.9331553

M3 - Conference contribution

AN - SCOPUS:85100809045

T3 - Asia-Pacific Microwave Conference Proceedings, APMC

SP - 158

EP - 160

BT - 2020 Asia-Pacific Microwave Conference, APMC 2020 - Proceeding

A2 - Sun, Jie

A2 - Yu, Wai Ho

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 2020 Asia-Pacific Microwave Conference, APMC 2020

Y2 - 8 December 2020 through 11 December 2020

ER -

Chiang CW, Liu NC, Huang R, Wu CTM, Kuan YC. A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications. In Sun J, Yu WH, editors, 2020 Asia-Pacific Microwave Conference, APMC 2020 - Proceeding. Institute of Electrical and Electronics Engineers Inc. 2020. p. 158-160. 9331553. (Asia-Pacific Microwave Conference Proceedings, APMC). https://doi.org/10.1109/APMC47863.2020.9331553

A Dual W-band High-Order Mode Substrate Integrated Waveguide Cavity-Backed Antenna for Radar Sensing and Communication Applications

Abstract

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All Science Journal Classification (ASJC) codes

Keywords

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