Vicsek Small Antenna for Low-Range Applications and Future Bands for 5G
Author:
Lucas Daniel Alonso1, Andrade-Gonzalez Edgar Alejandro1, Reyes-Ayala Mario1, Terres-Peña Hilario2, Rivera René Rodríguez2, Sánchez Sandra Chávez2, Guzmán Gerardo Salgado1
Affiliation:
1. Electronics Department, Metropolitan Autonomous University, MEXICO 2. Energy Department, Metropolitan Autonomous University, MEXICO
Abstract
Various types of antennas with fractal geometry have high frequencies and considerably high bandwidths of up to 20 GHz. However, modern applications with low latency and high transmission speeds make it necessary to use antennas with higher bandwidths. The dielectric used was FR4 substrate with dielectric constant εr = 4.4 and thickness of substrate 1.544 mm. The S11 scattering parameter was obtained. The simulations of this article were carried out using Ansys High Frequency Structure Simulator (HFSS).
Publisher
World Scientific and Engineering Academy and Society (WSEAS)
Reference19 articles.
1. R Jordan and Ch. T. Abdallah, “Wireless. Communications and Networking: An Overview,” IEEE Antenna and Propagation Magazine, Vol. 44, No. 1, pp. 185-193, February, 2002, DOI: 10.1109/74.997963. 2. J. Díaz, “Tecnología Ultra-Wideband (UWB) la revolución a corto alcance,” BURAN IEEE, No. 19, pp. 52-56, 2003. 3. A. F. Molisch, “Ultra-Wideband Communications: An Overview,” URSI Radio Science Bulletin, Vol. 2009, No. 329, pp. 31- 42, June, 2009. 4. I. H. Nejdi, S. Bri, M. Marzouk, S. Ahmad, Y. Rhazi, M. Ait Lafkih, Y. Ali Sheikh, A. Ghaffar and M. Hussein, “UWB Circular Fractal Antenna with High Gain for Telecommunication Applications,” Sensors, 2023, DOI: 10.3390/s23084172. 5. D. Coppens, A. Shahid, S. Lemey, B. Van Herbruggen, Ch. Marshall and E. De Poorter, “An Overview of UWB Standards and Organizations (IEEE 802.15.4, FiRa, Apple): Interoperability Aspects and Future Research Directions,” IEEE Access, Vol. 10, pp. 70219- 70241, June, 2022, DOI: 10.1109/ACCESS.2022.3187410.
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