A triangular MIMO array antenna with a double negative metamaterial superstrate to enhance bandwidth and gain

A triangular MIMO array antenna with a double negative metamaterial superstrate to enhance bandwidth and gain

Multiple‐input‐multiple‐output (MIMO) array antenna integrated with the double negative metamaterial superstrate is presented. The triangular metamaterial unit cell is designed by combining two triangular elements positioned in complementary on the same plane at different sizes. Such design with mor...

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Bibliographic Details
Published in:International journal of RF and microwave computer-aided engineering Vol. 30; no. 8
Main Authors: Ojo, Rasheed, Jamlos, Mohd Faizal, Soh, Ping Jack, Jamlos, Mohd Aminudin, Bahari, Norfatihah, Lee, Yeng Seng, Al‐Bawri, Samir Salem, Abdul Karim, Mohamad Shaiful, Khairi, Khairil Anuar
Format: Journal Article
Language:English
Published: Hoboken, USA John Wiley & Sons, Inc 01-08-2020
Hindawi Limited
Subjects:
Antenna arrays
Antennas
array antenna
Bandwidths
Capacitance
Correlation coefficients
double negative (DNG) metamaterial superstrate
Magnetic permeability
Metamaterials
MIMO
Multiplexing
Mutual coupling
Unit cell
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Summary:Multiple‐input‐multiple‐output (MIMO) array antenna integrated with the double negative metamaterial superstrate is presented. The triangular metamaterial unit cell is designed by combining two triangular elements positioned in complementary on the same plane at different sizes. Such design with more gaps is used to excite rooms for more capacitance effects to shift the resonance frequency thus enlarging the bandwidth of the MIMO antenna. The unit cell is arranged in 7 × 7 periodic array created a superstrate metamaterial plane where the Cstray exists in parallel between the two consecutive cells. It is found that the existence of Cstray and gaps for each unit cells significantly influenced the bandwidth of the MIMO antenna. The higher value of the capacitance will lead to the negativity of permittivity. The superstrate plane is then located on top of the 4 × 2 MIMO with a gap of 5 mm. The integration resulted in improving the bandwidth to 12.45% (5.65‐6.4GHz) compared to only 3.49% bandwidth (5.91‐6.12GHz) of the MIMO antenna itself. Moreover, the negative permeability characteristic is created by a strong magnetic field between the complementary unit cells to have 14.05‐dBi peak gain. Besides that, the proposed antenna managed to minimize the mutual coupling and improve the mean effective gain, envelope correlation coefficient, and multiplexing efficiency.
Bibliography:Funding information
CREST, Grant/Award Numbers: RDU160398, RDU182404, RDU190349, RDU192815, RDU192809, UIC191205, T14C2‐16/006, UIC190821, UIC190810; Ministry of Higher Education, Malaysia, Grant/Award Numbers: FRGS/2/2013/SG02/UNIMAP/02/1, FRGS/1/2015/SG02/UNIMAP/02/1, PRGS/1/2015/SKK05/UNIMAP/02/1, PRGS/1/2018/ICT06/UNIMAP/02/5
ISSN:1096-4290
1099-047X
DOI:10.1002/mmce.22320