Amar, A.S.I.Parchin, N.O.Fawzy, Diaa E.Allam, A.M.M.A.Eid, A.M.Soliman, M.A.2023-10-272023-10-2720239798350326062https://doi.org/10.1109/ITC-Egypt58155.2023.10206339https://hdl.handle.net/20.500.14365/48992023 International Telecommunications Conference, ITC-Egypt 2023 -- 18 July 2023 through 20 July 2023 -- 191626A new broadband phased array antenna with wide-scan and high-gain beam-scanning are desirable to meet the requirements of future cellular networks. This paper discusses the characteristics of a new beam-steerable array design having broad bandwidth for 5G communications. The discussion is focused on smartphones, due to their small size and complexity. The design procedure is straightforward and accomplished on a mainboard of future smart handheld devices. The introduced phased array design involves eight metamaterial-based dipole resonators with a 1×8 linear form. The resonators have small sizes with microstripline feedings. For -10 dB, the design represents 28-38 GHz covering several bands in the 5G spectra. © 2023 IEEE.eninfo:eu-repo/semantics/closedAccess5Gbeam-steerable arraycircular dipole resonatormetamaterial-based antennasmartphone applications5G mobile communication systemsAntenna phased arraysDipole antennasMetamaterial antennasMetamaterialsMicrowave antennasMillimeter wavesMobile antennasScanning antennasSmartphonesSteerable antennasWireless networks5gArray designBeam-steerable arrayBroadband CellularCellular networkCircular dipole resonatorMetamaterial-based antennasPhased array antennasPhased-arraysSmart-phone applicationsResonatorsConference Object10.1109/ITC-Egypt58155.2023.102063392-s2.0-85169293196