In this proposed paper, a single band microstrip patch antenna for fifth generation (5G) wireless application was presented. 28, 38, 60 and 73 GHz frequency bands have been allocated for 5G mobile communications by International Telecommunications Union (ITU). In this paper, we proposed an antenna, which is suitable for the millimeter wave frequency. The single band antenna consists of new slot loaded on the radiating patch with the 50 ohms microstrip line feeding used. This single band antenna was simulated on a FR4 dielectric substrate have relative permittivity 4.4, loss tangent 0.02, and height 1.6 mm. The antenna was simulated by Electromagnetic simulation, computer software technology High Frequency Structural Simulator. And simulated result on return loss, VSWR, radiation pattern and 3D gain was presented. The parameters of the results well coherent and proved the literature for millimeter wave 5G wireless application at 38 GHz.
In this proposed paper, a single band microstrip patch antenna for fifth generation (5G) wireless application was presented. 28, 38, 60 and 73 GHz frequency bands have been allocated for 5G mobile communications by International Telecommunications Union (ITU). In this paper, we proposed an antenna, which is suitable for the millimeter wave frequency. The single band antenna consists of new slot loaded on the radiating patch with the 50 ohms microstrip line feeding used. This single band antenna was simulated on a FR4 dielectric substrate have relative permittivity 4.4, loss tangent 0.02, and height 1.6 mm. The antenna was simulated by Electromagnetic simulation, computer software technology High Frequency Structural Simulator. And simulated result on return loss, VSWR, radiation pattern and 3D gain was presented. The parameters of the results well coherent and proved the literature for millimeter wave 5G wireless application at 38 GHz.
In this paper, an application for a monopole antenna which complies with worldwide interoperability for microwave access (WiMAX) is presented. The proposed antenna operates in the frequency range of 3.43-3.61 GHz applicable for WiMAX. The antenna is fabricated on FR4 plate of 33.25 x 33.25 x 1.6 mm 3. The performance of the antenna is analyzed in terms of radiation pattern, gain and s-parameters. The s-parameter of the antenna are verified through measurements. The obtained results illustrate that the presented antenna has better characteristics in terms of operating band as well as return loss as compared to the antennas previously published in the literature. Bu çalışmada, mikrodalga erişim için dünya çapında birlikte çalışılabilirlik (WiMAX) uygulamasına uyumlu bir monopol anten sunulmuştur. Önerilen anten WiMAX'e uygun olan 3.43-3.61 GHz frekans aralığında çalışmaktadır. Anten, FR4 plaka üzerinde 33.25 x 33.25 x 1.6 mm 3 boyutlarında üretilmiştir. Anten kazanç, ışıma paterni ve s parametreleri açısından analiz edilmiştir. S parametreleri yapılan ölçüm sonuçları ile doğrulanmıştır. Elde edilen sonuçlar göstermiştir ki sunulan antenin önceden literatürde yayınlanan antenlere kıyasla çalışma bandı ve geri dönüş kaybı gibi anten karakteristikleri daha iyidir.
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