AWideband Frequency Beam-Scanning Antenna Array for Millimeter-Wave Industrial Wireless Sensing Applications

The 57–71-GHz millimeter-wave (mmWave) industrial, scientific, and medical (ISM) band holds significant potential for enhancing the performance of next-generation industrial wireless applications. This article first presents the design and analysis of a compact and high-performance eight-element ser...

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Veröffentlicht in:	IEEE sensors journal 2024-04, Vol.24 (8), p.13315-13325
Hauptverfasser:	Jabbar, Abdul, Kazim, Jalil Ur-Rehman, Pang, Zhibo, Abbasi, Muhammad Ali Babar, Abbasi, Qammer H., Imran, Muhammad Ali, Ur-Rehman, Masood
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Schlagworte:	Antenna arrays Bandwidths Frequency scanning High gain Millimeter waves Topology
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description	The 57–71-GHz millimeter-wave (mmWave) industrial, scientific, and medical (ISM) band holds significant potential for enhancing the performance of next-generation industrial wireless applications. This article first presents the design and analysis of a compact and high-performance eight-element series-fed frequency beam-scanning array designed to cover the entire 21.87% fractional bandwidth (FBW) of the 57–71-GHz ISM band. Using this as a subarray, a hybrid parallel–series feed topology is designed to construct a 64-element ([Formula Omitted]) planar array with high-gain directional beams. The planar array provides a peak measured gain of 20.12 dBi at 64 GHz and maintains a flat gain of over 19.23 dBi throughout the band, with a 1-dB gain bandwidth of 13 GHz. Its narrow directional beams provide an average half-power beamwidth (HPBW) of 9.7° and 11.78° in the elevation and azimuth planes, respectively, facilitating point-to-point mmWave connectivity and high-resolution beam scanning. The inherent phase variation of the series-fed topology is employed to produce a beam-scanning range of 40° within the 57–71-GHz band, with a scan loss of less than 1 dB. The proposed array is a low-cost and reproducible solution for seamless integration with V-band mmWave equipment, as elucidated through practical demonstration frameworks using the mmWave power sensor and EK1HMC6350 evaluation board. The proposed array is well-suited for emerging industrial wireless sensing and imaging applications, and mmWave frequency scanning radars. Its versatility extends to various 60-GHz protocols, such as IEEE 802.11ay, IEEE 802.11ad, IEEE 802.15.3c/d, and WirelessHD, and other customized industrial protocols such as WirelessHP.
doi_str_mv	10.1109/JSEN.2024.3370135
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This article first presents the design and analysis of a compact and high-performance eight-element series-fed frequency beam-scanning array designed to cover the entire 21.87% fractional bandwidth (FBW) of the 57–71-GHz ISM band. Using this as a subarray, a hybrid parallel–series feed topology is designed to construct a 64-element ([Formula Omitted]) planar array with high-gain directional beams. The planar array provides a peak measured gain of 20.12 dBi at 64 GHz and maintains a flat gain of over 19.23 dBi throughout the band, with a 1-dB gain bandwidth of 13 GHz. Its narrow directional beams provide an average half-power beamwidth (HPBW) of 9.7° and 11.78° in the elevation and azimuth planes, respectively, facilitating point-to-point mmWave connectivity and high-resolution beam scanning. The inherent phase variation of the series-fed topology is employed to produce a beam-scanning range of 40° within the 57–71-GHz band, with a scan loss of less than 1 dB. The proposed array is a low-cost and reproducible solution for seamless integration with V-band mmWave equipment, as elucidated through practical demonstration frameworks using the mmWave power sensor and EK1HMC6350 evaluation board. The proposed array is well-suited for emerging industrial wireless sensing and imaging applications, and mmWave frequency scanning radars. Its versatility extends to various 60-GHz protocols, such as IEEE 802.11ay, IEEE 802.11ad, IEEE 802.15.3c/d, and WirelessHD, and other customized industrial protocols such as WirelessHP.</description><identifier>ISSN: 1530-437X</identifier><identifier>EISSN: 1558-1748</identifier><identifier>DOI: 10.1109/JSEN.2024.3370135</identifier><language>eng</language><publisher>New York: The Institute of Electrical and Electronics Engineers, Inc. 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This article first presents the design and analysis of a compact and high-performance eight-element series-fed frequency beam-scanning array designed to cover the entire 21.87% fractional bandwidth (FBW) of the 57–71-GHz ISM band. Using this as a subarray, a hybrid parallel–series feed topology is designed to construct a 64-element ([Formula Omitted]) planar array with high-gain directional beams. The planar array provides a peak measured gain of 20.12 dBi at 64 GHz and maintains a flat gain of over 19.23 dBi throughout the band, with a 1-dB gain bandwidth of 13 GHz. Its narrow directional beams provide an average half-power beamwidth (HPBW) of 9.7° and 11.78° in the elevation and azimuth planes, respectively, facilitating point-to-point mmWave connectivity and high-resolution beam scanning. The inherent phase variation of the series-fed topology is employed to produce a beam-scanning range of 40° within the 57–71-GHz band, with a scan loss of less than 1 dB. The proposed array is a low-cost and reproducible solution for seamless integration with V-band mmWave equipment, as elucidated through practical demonstration frameworks using the mmWave power sensor and EK1HMC6350 evaluation board. The proposed array is well-suited for emerging industrial wireless sensing and imaging applications, and mmWave frequency scanning radars. 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title	AWideband Frequency Beam-Scanning Antenna Array for Millimeter-Wave Industrial Wireless Sensing Applications
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