Compact transparent conductive oxide based dual band antenna for wireless applications

Upadhyaya, Trushit; Desai, Arpan; Patel, Riki; Patel, Upesh; Kaur, Kanwar Preet; Pandya, Killol

doi:10.1109/piers-fall.2017.8293108

Cited by 17 publications

(8 citation statements)

References 14 publications

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“…Aside from that, in fabrication process, mechanical inaccuracies and errors can affect the antenna performance [7]. As presented in Table 1, a number of transparent antenna designs have been proposed in literature such as dual-band [8,9] and ultra-wideband [10][11][12][13] characteristics, but very few cover millimeter wave applications. In Ref.…”

Section: Literature Reviewmentioning

confidence: 99%

Design of Transparent Antenna for 5G Wireless Applications

Azizi

Canale

Ahyoud

et al. 2020

The 14th International Conference on Interdisciplinarity in Engineering—INTER-Eng 2020

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This paper presents the design of a compact size band patch antenna for 5G wireless communications. This wideband antenna was designed on a glass substrate (12 × 11 × 2 mm3) and is optically transparent and compact. It consists of a radiation patch and a ground plane using AgHT-8 material. The antenna design comprises rectangular shaped branches optimized to attain the wideband characteristics. The calculated impedance bandwidth is 7.7% covering the frequency range of 25 to 27 GHz. A prototype of the antenna and various parameters such as return loss plot, gain plot, radiation pattern plot, and voltage standing wave ratio (VSWR) are presented and discussed. The simulated results of this antenna show that it is well suited for future 5G applications because of its transparency, flexibility, light weight, and wide achievable frequency bandwidth near the millimeter wave frequency band.

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Section: Literature Reviewmentioning

confidence: 99%

Design of Transparent Antenna for 5G Wireless Applications

Azizi

Canale

Ahyoud

et al. 2020

The 14th International Conference on Interdisciplinarity in Engineering—INTER-Eng 2020

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“…The antennas for multiple resonances are quite famous in planar resonators. Such resonators are typically complex in nature and offer low operational bandwidth [16][17][18][19]. Loop-shaped resonators are widely utilized concepts for wireless devices.…”

Section: Introductionmentioning

confidence: 99%

Surface Mountable Compact Printed Dipole Antenna for GPS/Wimax Applications

Patel¹,

Upadhyaya²

2021

PIER Letters

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A low-profile, electrically compact, and cost-effective antenna for wireless communication is presented. The antenna comprises self-complementary dipole elements on each side of the resonator surface. The dipole is excited using co-axial feed for an efficient impedance matching. An electrically compact antenna has dimensions of 0.13λ × 0.26λ at the lower frequency. The dipole covers 1.57 GHz and 3.65 GHz frequencies offering the measured impedance bandwidth in the order of 1.83% and 2.30%, respectively. The self-complementary structure of the dipole having multiple coupling elements permits adequate tuning of the antenna on target frequencies. The resonant modes of the antenna can be tuned by merely modifying the position of the complementary structure on each side of the dipole. The engineered slots in the dipole permit further fine-tuning. The antenna presents gain in the order of 0.71 dBi and 1.27 dBi and stable radiation patterns for the two frequencies.

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“…As the surface resistance increases, an optical transparency increases which show that AgHT-8 has a higher optical transparency while lower conductivity over Wideband antennas systems are very encouraging due to its use for communications in short range with a high value of data rate, less power consumption, and wide bandwidth. Various transparent antennas are proposed in the literature for dual-band 8,9 and ultra-wideband 10-13 characteristics but very few covers the millimeter wave applications. Researchers have proposed various nontransparent antennas using array structures for 5G applications 14,15 and mobile communication networks.…”

Section: Introductionmentioning

confidence: 99%

Compact wideband transparent antenna for 5G communication systems

Desai

Upadhyaya

Patel

2018

Micro & Optical Tech Letters

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A compact wideband transparent antenna designed on plexiglass substrate (10 × 12 × 1.48 mm3) is presented. The optically transparent antenna consists of a radiation patch and a ground plane fabricated using AgHT‐8. The antenna design comprises of rectangular shaped branches optimized to attain the wideband characteristics. The proposed antenna design has impedance bandwidth of 58.71% covering the frequency range of 23.92‐43.8 GHz. The radiation pattern of the proposed antenna shows directional radiation pattern with electrical tilt. All calculated and measured results show that proposed compact transparent antenna is an excellent candidate for 5G communication systems and wideband code division multiple access applications.

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Compact transparent conductive oxide based dual band antenna for wireless applications

Cited by 17 publications

References 14 publications

Design of Transparent Antenna for 5G Wireless Applications

Design of Transparent Antenna for 5G Wireless Applications

Surface Mountable Compact Printed Dipole Antenna for GPS/Wimax Applications

Compact wideband transparent antenna for 5G communication systems

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