Design and Implementation of 2x1Microstrip Patch Antenna Array for with Parasitic Element Structure Isolation for 4G Applications
DOI:
https://doi.org/10.58916/jhas.v8i3.157Keywords:
Fourth generation (4G, Voltage Standing Wave Ratio (VSWR, Return Loss (SAbstract
Abstract: For 4G-LTE applications, this study presents an integrated design with an array antenna system. With cut rectangular shape and a slightly sloped ground, a two-shared radiator for 2.1 GHz is presented. A 2-element slot is included in each port of the suggested design. Two antenna system components are housed on a single, inexpensive FR4 substrate that is fed by a 50 microstrip. In order to construct tiny antennas for communications, it is essential to provide enough antenna isolation. The findings show that the antenna has a better than 10 dB return loss at 2.1 GHz. The cancellation of current between any two antennas is a novel method for reducing mutual coupling. The suggested antenna achieves greater isolation than -26.7 dB between a pair of inputs. Additionally, the suggested antenna has a compact size reduction of around 60% compared to traditional patch antennas operating at the same frequency. This is due to the tiny spacing between antenna pieces.
Downloads
References
S. Ali, “Design and Development of Fractioal Microstrip Antenna Array for Applications”, Thapar university, 2016.
G. Mejda, “Multiband Microstrip Patch Antenna for 4G (LTE)”, Mohamed Khider Biskra University, 24 June 2018.
C. A. Balanis “Antenna theory analysis and design”, John Wiley & sons, inc., Publication, 3rd Edition, ISBN: 0-471-66782, 2005.
S. Weigand, G. Huff, K. Pan, and J. Bernhard, “Analysis and Design of Broad-band Single Layer Rectangular U- Slot Microstrip Patch Antennas”, IEEE Trans. Antennas and Propag.,vol. 51, No.3, pp. 457-468, March, 2003.
M. A. Abdalla1 ,. " Small size high isolation CRLH meta- material closely spaced MIMO antenna”., 30th national radio science conference (NRSC 2013).