Dec 1, 2024 · The 5G technology at lower bandwidths is inflexible, hence the metamaterial structures are proposed for reshaping the radiation patterns. In this paper, we describe a meta
Mar 12, 2025 · The proposed antenna, based on a single-layer design without any air spacing, features a compact size and high integration density, making it an interesting solution for 5G
Jul 29, 2025 · Waveguide structures are expensive, large, and often heavy but provide excellent RF performance. Microstrip filters are manufactured on printed circuit boards to reduce costs
Dec 1, 2024 · This article presents a low-profile meta surface microstrip radiator operating at 34 GHz with high performance for the operation of 5G wireless communications. The meta
Dec 16, 2019 · Researchers are increasingly showing interest in the application of a Butler matrix for fifth-generation (5G) base station antennas. However, the design of the Butler matrix is
Jul 10, 2025 · High-performance antennas with wide bandwidth and high gain are in high demand for 5G wireless communication. A new high-band microstrip patch antenna for 5G networks is
5 days ago · For instance, a 5G base station board must support high-speed data processing and high-frequency RF transmission simultaneously. This is why engineers often require both high
Jul 30, 2015 · This article looks at the role that photonics, particularly microwave photonics, can play in realizing 5G networks. We first focus on several general disruptive technologies
Dec 10, 2019 · Request PDF | Differentially Fed, Dual-Band Dual-Polarized Filtering Antenna With High Selectivity for 5G Sub-6 GHz Base Station Applications | In this communication, a novel
Jan 1, 2020 · This mini base station handles small cells of network and provide better signal strength in the area. The designed antenna can also be used in these mini stations due to
Within a few years of its launch, 4G has now become primeval. Further, the need for the fifth generation of communication network is intensively being realized. In this paper, we design and simulate a microstrip patch antenna compatible with 5G communications. The antenna works in Extremely High Frequency (EHF) range at 43.7GHz.
Moreover, wide-band high gain Microstrip antenna (MSA) for 5G and B5G (beyond 5G) have drawn a lot of exposure on latest research because of its improved bandwidth features, low profile, and affordability [4, 5].
The 5G technology at lower bandwidths is inflexible, hence the metamaterial structures are proposed for reshaping the radiation patterns. In this paper, we describe a meta surface low-profile microstrip patch antenna for 5G wireless sensor communications.
This article presents a low-profile meta surface microstrip radiator operating at 34 GHz with high performance for the operation of 5G wireless communications. The meta-surface radiator entails an improved patch that is present between the 4 × 4 proportioned square ring meta-surface and a ground plane.
However, it has been suggested that antenna design with a meta surface improves the bandwidth, the low-profile antenna's radiation performance, and circular polarization is the key component to designing a 5G antenna with higher immunity .
The proposed antenna bandwidth would be increased using a rectangular patch with a slotted radiator. Moreover, the wideband operation to cover the 5G spectrum makes use of a lattice of a periodic layer of MTS square ring. With an appropriate axial ratio, the antenna displays a broad bandwidth for |S11| < −10, spanning from 28 to 41 GHz.
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