DESIGN AND ANALYASIS A BROADBAND PRINTED-DIPOLE ANTENNA FOR 4G/5G MOBILE SMARTPHONE

ABEER KAMIL  HACHIM; MOHAMMED ABOUD  KADHIM; HAMOOD SHEHAB  HAMID

doi:10.26682/csjuod.2023.26.2.41

ABEER KAMIL HACHIM * Electrical and Electronic Technology college - Middle Technical University- Iraq
MOHAMMED ABOUD KADHIM ** Institute of Technology Baghdad - Middle Technical University -Iraq
HAMOOD SHEHAB HAMID * Electrical and Electronic Technology college - Middle Technical University- Iraq

DOI: https://doi.org/10.26682/csjuod.2023.26.2.41

Keywords: Broadband; Printed; Antenna; 4G/5G; Mobile

Abstract

Wireless communications are of great importance in our lives, especially mobile phones, and based on this importance, we propose in this research an antenna . It works on the medium frequencies of both 4G/5G technologies . The proposed antenna has dimension (17.7×7) mm (length x width ) made of copper and a substrate FR-4 the finished thickness is 1.67mm .This design is connected in the port it equals 1mm by using microstrip line method . The ground and substrate layers are a symmetrical rectangle. The patch is also simple, as it represents a strip of copper that surrounds the rectangle on three sides. It has only one line in the middle with a length of 8.5mm and a width of 1mm. The design is simple as it does not have any openings. Small size and small thickness makes it suitable for the size of modern mobiles. The micorstrio patch antenna is was designed by using CST studio -2019 and manufactured via the ProtoMat-100 machine. The antenna operates at range frequencies (2.35-3.74) GHz and .It has resonance frequency 2.9 GHz at return loss of -54 dB.

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References

Y. Li, C. Sim, Y. Luo and G. Yang, "12-Port 5G Massive MIMO Antenna Array in Sub-6GHz Mobile Handset for LTE Bands 42/43/46 Applications," in IEEE Access, vol. 6, pp. 344-354, 2018
A. Pachiyaannan, V. Kasinathan, and M. Jayaraj, “E-Shape Microstrip Patch Antenna Design for Wireless Applications,” International Journal of Innovatives Science Engineering and Technology (IJISET ), vol. 1, no. 3, pp. 484–490, 2014.
V. Bhanumathi and S. Swathi, “Bandwidth Enhanced Microstrip Patch Antenna for Uwb Applications,” Online) Ictact Journal on Microelectronics, vol. 1680, no. January, p. 4, 2019.
“LTE Band chart,” RFMW. [Online]. Available: https://www.rfmw.com/data/RFMW_LTE_Band_Chart.pdf
G. S. Kunturkar and P. L. Zade, “Design of Fork-shaped Multiband Monopole,” pp. 281–285, 2015.
M. Z. A. A. Aziz, B. I. Asadingo, H. Nornikman, M. H. Ramli, B. H. Ahmad and M. A. Othman, "Fork-like shaped monopole antenna with defected parasitic elements and ring slots," 2014 IEEE International Conference on Control System, Computing and Engineering (ICCSCE 2014), Batu Ferringhi, pp. 322-325, 2014
SS Ahmed, JF Mahdi, Mohammed Aboud Kadhim Design of Ultra-Wideband Microwave Antenna Array for Detection Breast Cancer Tumours.IOP Conference Series: Materials Science and Engineering 881 (1), 012112
Mohammed Aboud Kadhim, MF Mosleh, SA Shandal Wideband Square Sierpinski Fractal Microstrip Patch Antenna for Various Wireless Applications MA Kadhim, MF Mosleh, SA Shandal IOP Conference Series: Materials Science and Engineering 518 (4), 042001
IS Ahmed, JF Mahdi, HS Hamid, Mohammed Aboud Kadhim, SS Ahmed Design and Implementation a Multi-
Rhombus Patch Fractal Antenna Structure for Human Wearable Device 2022 8th International Conference on Contemporary Information Technology and and Mathematics (ICCITM)
AB Muhajer, JF Mahdi, Mohammed Aboud Kadhim A review of design of ultra-wideband MIMO antenna for breast tumor detection AIP Conference Proceedings 2404 (1), 080005
Shao, Y. et al. Room-temperature high-precision printing of flexible wireless electronics based on MXene inks. Nat. Commun. 13, 3223 (2022)
Kimionis, J., Georgiadis, A., Daskalakis, S. N. & Tentzeris, M. M. A printed millimetre-wave modulator and antenna array for backscatter communications at gigabit data rates. Nat. Electron. 4, 439–446 (2021)
Martin, A., Chang, B. S., Pauls, A. M., Du, C. & Thuo, M. Stabilization of undercooled metals via passivating oxide layers. Angew. Chem. Int. Ed. 60, 5928–5935 (2021).
Lv, S. et al. Reactive inkjet printing of graphene based flexible circuits and radio frequency antennas. J. Mater. Chem. C. 9, 13182–13192 (2021).
Khorsand Kazemi, K. et al. MXene membrane in planar microwave resonant structures for 5G applications. Appl. Mater. Today 26, 101294 (2022).
Khorsand Kazemi, K. et al. Low-profile planar antenna sensor based on Ti3C2Tx MXene membrane for VOC and humidity monitoring. Adv. Mater. Interfaces 9, 2102411 (2022).