2021
DOI: 10.3390/s22010125
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Performance Improvement of Substrate Integrated Cavity Fed Dipole Array Antenna Using ENZ Metamaterial for 5G Applications

Abstract: This paper exhibits a high-gain, low-profile dipole antenna array (DAA) for 5G applications. The dipole element has a semi-triangular shape to realize a simple input impedance regime. To reduce the overall antenna size, a substrate integrated cavity (SIC) is adopted as a power splitter feeding network. The transition between the SIC and the antenna element is achieved by a grounded coplanar waveguide (GCPW) to increase the degree of freedom of impedance matching. Epsilon-near-zero (ENZ) metamaterial technique … Show more

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Cited by 10 publications
(10 citation statements)
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“…Furthermore, to enhance the antenna performance in terms of gain, a periodic three different structure epsilon near zero-index metamaterials (ENZ) is printed and proposed into the end of the LPDA antenna (straight, concave, and convex). The operation bandwidth, gain, and parameters of the proposed antenna is higher than the antennas reported in References [8][9][10]. The proposed design is employed to construct a wideband 5G CXRL LPDA MIMO array with ENZ index metamaterial.…”
Section: Introductionmentioning
confidence: 94%
See 1 more Smart Citation
“…Furthermore, to enhance the antenna performance in terms of gain, a periodic three different structure epsilon near zero-index metamaterials (ENZ) is printed and proposed into the end of the LPDA antenna (straight, concave, and convex). The operation bandwidth, gain, and parameters of the proposed antenna is higher than the antennas reported in References [8][9][10]. The proposed design is employed to construct a wideband 5G CXRL LPDA MIMO array with ENZ index metamaterial.…”
Section: Introductionmentioning
confidence: 94%
“…Although this antenna achieves a gain of 9.5 dBi, it supports only one band of frequency around 38 GHz. Semi-triangular shaped dipole antenna is introduced in Reference [9]. The loading with ENZ material results in an obvious gain enhancement (up to 10.17 dBi) over the whole operating band from 28.5 GHz up to 30 GHz while on the other hand, the use of multiple substrates adds to the complexity of the structure.…”
Section: Introductionmentioning
confidence: 99%
“…Furthermore, the beam switching and gain enhancement-based MTMs were implemented for single antenna [100] and array antenna [101]. The miniaturization and gain improvement of array antenna based on MTMs were achieved in [102]. Gain enhancement at millimeter-wave was proposed by Bouzouad et al [77].…”
Section: Source Of Electromagnetic Rays (An Antenna)mentioning
confidence: 99%
“…The application of the metamaterial has also been found in amplifying the gain of the substrate integrated cavity (SIC) backed dipole antenna array. In [86], initially, a substrate integrated cavity-based power splitter has been designed (Figure 1 in [86]). Semi-triangular shaped dipole antenna elements have been connected to the output ports of the power splitter to complete the structure of the antenna array (Figure 4 in [86]).…”
Section: Types Of Antennasmentioning
confidence: 99%
“…In [86], initially, a substrate integrated cavity-based power splitter has been designed (Figure 1 in [86]). Semi-triangular shaped dipole antenna elements have been connected to the output ports of the power splitter to complete the structure of the antenna array (Figure 4 in [86]). Grounded coplanar waveguide (GCPW) transition has been used to connect the microstrip feed line of the dipole antenna to the output ports of the SIC power splitter.…”
Section: Types Of Antennasmentioning
confidence: 99%