Abstract
5G, the fifth generation of wireless communications, is focusing on multiple frequency bands, such as 6 GHz, 10 GHz, 15 GHz, 28 GHz, and 38 GHz, to achieve high data rates up to 10 Gbps or more. The industry demands multiband antennas to cover these distant frequency bands, which is a task much more challenging. In this paper, we have designed a novel multiband split-ring resonator (SRR) based planar inverted-F antenna (PIFA) for 5G applications. It is composed of a PIFA, an inverted-L parasitic element, a rectangular shaped parasitic element, and a split-ring resonator (SRR) etched on the top plate of the PIFA. The basic PIFA structure resonates at 6 GHz. An addition of a rectangular shaped parasitic element produces a resonance at 15 GHz. The introduction of a split-ring resonator produces a band notch at 8 GHz, and a resonance at 10 GHz, while the insertion of an inverted-L shaped parasitic element further enhances the impedance bandwidth in the 10 GHz band. The frequency bands covered, each with more than 1 GHz impedance bandwidth, are 6 GHz (5–7 GHz), 10 GHz (9–10.8 GHz), and 15 GHz (14-15 GHz), expected for inclusion in next-generation wireless communications, that is, 5G. The design is simulated using Ansys Electromagnetic Suite 17 simulation software package. The simulated and the measured results are compared and analyzed which are generally in good agreement.
Highlights
5th-generation wireless systems, abbreviated as 5G, are the proposed wireless communication standards beyond the current 4G/IMT-advanced standards. 5G will increase the user capacity up to many billion and the data rate up to 10 Gbps
The antenna is excited by a semirigid cable in such a way that the braided outer conductor is shorted to the ground and the inner conductor is soldered to the feeding plate of the split-ring resonator (SRR) based Planar inverted-F antenna (PIFA), as shown in Figure 2 [15]
It was observed that an SRR with a width of 0.5 mm, etched on the top plate of the PIFA, having a perimeter, λ/2, provided a band rejection around 8 GHz
Summary
5th-generation wireless systems, abbreviated as 5G, are the proposed wireless communication standards beyond the current 4G/IMT-advanced standards. 5G will increase the user capacity up to many billion and the data rate up to 10 Gbps. 5G will increase the user capacity up to many billion and the data rate up to 10 Gbps It will support a real-time wireless control, the device-to-device communication, allowing a reduction of power consumption by a factor of 1000 [1,2,3,4]. In this paper, we have designed a multiband split-ring resonator (SRR) based modified PIFA with the additions of a rectangular shaped and an inverted-L shaped. The antenna is excited by a semirigid cable in such a way that the braided outer conductor is shorted to the ground and the inner conductor is soldered to the feeding plate of the SRR based PIFA, as shown in Figure 2 [15]. This feeding mechanism reduces the coupling between the antenna and the SMA connector
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