Transparent Transmitarray Antenna with Large Aperture for Significant Gain Enhancement in Millimeter-Wave 5G Communication Networks

This paper introduces an optically transparent transmitarray, measuring 720 × 720 mm² at 28.0 GHz. The antenna tackles design challenges related to the full-wave simulation of an electrically-large aperture (67.2 squared wavelengths), utilization of a lossy glass window as a substrate, and the trade...

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Bibliographic Details
Published in:IEEE antennas and wireless propagation letters 2024-02, Vol.23 (2), p.1-5
Main Authors: Chang, Han, Lai, Fei-Peng, Chen, Yen-Sheng
Format: Article
Language:English
Subjects:
Antenna design
Antenna measurements
Apertures
Communication networks
Configurations
Directive antennas
Finite element method
Gain
Gain measurement
Glass
Glass substrates
meshed material
millimeter wave
Millimeter waves
Phase measurement
Substrates
Transmission line measurements
transmitarray antennas
transparent antennas
Unit cell
Yagi antennas
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Summary:This paper introduces an optically transparent transmitarray, measuring 720 × 720 mm² at 28.0 GHz. The antenna tackles design challenges related to the full-wave simulation of an electrically-large aperture (67.2 squared wavelengths), utilization of a lossy glass window as a substrate, and the trade-off between transparency and tunable phase range. The transmitarray comprises two glass substrates with three metallic layers, each featuring a 10-μm-width mesh, achieving 70% transmittance. Phase compensation is discretized using 8 unit cell configurations. While simulating the entire structure comprised of 290 × 290 meshed unit cells proves challenging, we use three smaller fully-coated test pieces to observe aperture efficiency variation. After examining the consistency, we predict the gain of the large-aperture configuration. The proposed transparent transmitarray is subsequently fabricated and tested, achieving a measured gain of 37.5 dBi when fed with a quasi-Yagi antenna (with a gain of 7.8 dBi).
ISSN:1536-1225
1548-5757
DOI:10.1109/LAWP.2023.3331840