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A Dual-Wideband and High Gain Magneto-Electric Dipole Antenna and Its 3D MIMO System With Metasurface for 5G/WiMAX/WLAN/X-Band Applications
A substrate integrated magneto-electric (ME) dipole antenna with metasurface is proposed for the 5G/WiMAX/WLAN/X-band MIMO applications. In order to provide a low profile, the radiated electric dipoles integrated with shorted wall are used in the multi-layer substrates at different heights. Owing to...
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| Published in: | IEEE access 2018-01, Vol.6, p.33387-33398 |
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| Main Authors: | , , , |
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| Language: | English |
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| cites | cdi_FETCH-LOGICAL-c408t-b36d4f400e2301894f7bfd31eaf4da1ccca195c9d0ffe0b1d5b1a5fcfa61bab03 |
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| creator | Feng, Botao Lai, Jiexin Zeng, Qingsheng Chung, Kwok L. |
| description | A substrate integrated magneto-electric (ME) dipole antenna with metasurface is proposed for the 5G/WiMAX/WLAN/X-band MIMO applications. In order to provide a low profile, the radiated electric dipoles integrated with shorted wall are used in the multi-layer substrates at different heights. Owing to the coordination of the metasurface and the ME dipole, dual wideband and high gain have been obtained. As a result of the 3-D hexagonal structure, good envelope correlation coefficient and mean effective gain performance can be achieved by the MIMO antenna system. The antenna element can provide an impedance bandwidth of 66.7% (3.1-6.2 GHz) with a stable gain of 7.6±1.5 dBi and an impedance bandwidth of 20.3% (7.1-8.7 GHz) with a gain of 7.4±1.8 dBi for the lower and upper bands, respectively. The overall size of the element is 60\times 60\times 7.92 mm 3 . Hence, it is well-suited for the future 5G/WiMAX/WLAN/X-band MIMO communications. |
| doi_str_mv | 10.1109/ACCESS.2018.2848476 |
| format | article |
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In order to provide a low profile, the radiated electric dipoles integrated with shorted wall are used in the multi-layer substrates at different heights. Owing to the coordination of the metasurface and the ME dipole, dual wideband and high gain have been obtained. As a result of the 3-D hexagonal structure, good envelope correlation coefficient and mean effective gain performance can be achieved by the MIMO antenna system. The antenna element can provide an impedance bandwidth of 66.7% (3.1-6.2 GHz) with a stable gain of 7.6±1.5 dBi and an impedance bandwidth of 20.3% (7.1-8.7 GHz) with a gain of 7.4±1.8 dBi for the lower and upper bands, respectively. The overall size of the element is <inline-formula> <tex-math notation="LaTeX">60\times 60\times 7.92 </tex-math></inline-formula> mm 3 . Hence, it is well-suited for the future 5G/WiMAX/WLAN/X-band MIMO communications.</description><identifier>ISSN: 2169-3536</identifier><identifier>EISSN: 2169-3536</identifier><identifier>DOI: 10.1109/ACCESS.2018.2848476</identifier><identifier>CODEN: IAECCG</identifier><language>eng</language><publisher>Piscataway: IEEE</publisher><subject>Antenna radiation patterns ; Antennas ; Bandwidths ; Broadband ; Correlation coefficients ; Dipole antennas ; Electric dipoles ; High gain ; Impedance ; Local area networks ; low profile ; magneto-electric antenna ; Magnetoelectric effects ; Metasurface antenna ; Metasurfaces ; MIMO antenna ; MIMO communication ; Multilayers ; Substrates ; Superhigh frequencies ; Three-dimensional displays ; Wireless networks</subject><ispartof>IEEE access, 2018-01, Vol.6, p.33387-33398</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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In order to provide a low profile, the radiated electric dipoles integrated with shorted wall are used in the multi-layer substrates at different heights. Owing to the coordination of the metasurface and the ME dipole, dual wideband and high gain have been obtained. As a result of the 3-D hexagonal structure, good envelope correlation coefficient and mean effective gain performance can be achieved by the MIMO antenna system. The antenna element can provide an impedance bandwidth of 66.7% (3.1-6.2 GHz) with a stable gain of 7.6±1.5 dBi and an impedance bandwidth of 20.3% (7.1-8.7 GHz) with a gain of 7.4±1.8 dBi for the lower and upper bands, respectively. The overall size of the element is <inline-formula> <tex-math notation="LaTeX">60\times 60\times 7.92 </tex-math></inline-formula> mm 3 . Hence, it is well-suited for the future 5G/WiMAX/WLAN/X-band MIMO communications.</description><subject>Antenna radiation patterns</subject><subject>Antennas</subject><subject>Bandwidths</subject><subject>Broadband</subject><subject>Correlation coefficients</subject><subject>Dipole antennas</subject><subject>Electric dipoles</subject><subject>High gain</subject><subject>Impedance</subject><subject>Local area networks</subject><subject>low profile</subject><subject>magneto-electric antenna</subject><subject>Magnetoelectric effects</subject><subject>Metasurface antenna</subject><subject>Metasurfaces</subject><subject>MIMO antenna</subject><subject>MIMO communication</subject><subject>Multilayers</subject><subject>Substrates</subject><subject>Superhigh frequencies</subject><subject>Three-dimensional displays</subject><subject>Wireless networks</subject><issn>2169-3536</issn><issn>2169-3536</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><sourceid>ESBDL</sourceid><sourceid>DOA</sourceid><recordid>eNpNkcFO4zAQhiO0SIuAJ-BiiXNaO7YT55htu6VSsxzKqtysiWMXVyHO2u6BZ-ClSQlCO5I11uj__7H1JckdwTNCcDmvFovVbjfLMBGzTDDBivwiucpIXqaU0_zHf_efyW0IRzyWGEe8uEreK7Q8QZfubasb6Ft0Pg_28ILWYHtUw6HX0aWrTqvorUJLO7hOo6qPuu_hU72JAdElqjf1I9q9hahf0d7GF1TrCOHkDSiNjPOIr-d7W1fP8_22-jN_Tn-dzdUwdFZBtK4PN8mlgS7o269-nfz9vXpaPKTbx_VmUW1TxbCIaUPzlhmGsc7o-OeSmaIxLSUaDGuBKKWAlFyVLTZG44a0vCHAjTKQkwYaTK-TzZTbOjjKwdtX8G_SgZWfA-cPEny0qtMSODMlaw3LcsPK0Z-VhJdFxoU2AjgZs-6nrMG7fycdojy6k-_H58uMcS7ykYcYVXRSKe9C8Np8byVYniHKCaI8Q5RfEEfX3eSyWutvh6CiKKigH88wlsU</recordid><startdate>20180101</startdate><enddate>20180101</enddate><creator>Feng, Botao</creator><creator>Lai, Jiexin</creator><creator>Zeng, Qingsheng</creator><creator>Chung, Kwok L.</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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In order to provide a low profile, the radiated electric dipoles integrated with shorted wall are used in the multi-layer substrates at different heights. Owing to the coordination of the metasurface and the ME dipole, dual wideband and high gain have been obtained. As a result of the 3-D hexagonal structure, good envelope correlation coefficient and mean effective gain performance can be achieved by the MIMO antenna system. The antenna element can provide an impedance bandwidth of 66.7% (3.1-6.2 GHz) with a stable gain of 7.6±1.5 dBi and an impedance bandwidth of 20.3% (7.1-8.7 GHz) with a gain of 7.4±1.8 dBi for the lower and upper bands, respectively. The overall size of the element is <inline-formula> <tex-math notation="LaTeX">60\times 60\times 7.92 </tex-math></inline-formula> mm 3 . Hence, it is well-suited for the future 5G/WiMAX/WLAN/X-band MIMO communications.</abstract><cop>Piscataway</cop><pub>IEEE</pub><doi>10.1109/ACCESS.2018.2848476</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0003-3662-0183</orcidid><orcidid>https://orcid.org/0000-0002-5381-7327</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Antenna radiation patterns Antennas Bandwidths Broadband Correlation coefficients Dipole antennas Electric dipoles High gain Impedance Local area networks low profile magneto-electric antenna Magnetoelectric effects Metasurface antenna Metasurfaces MIMO antenna MIMO communication Multilayers Substrates Superhigh frequencies Three-dimensional displays Wireless networks |
| title | A Dual-Wideband and High Gain Magneto-Electric Dipole Antenna and Its 3D MIMO System With Metasurface for 5G/WiMAX/WLAN/X-Band Applications |
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