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Missouri University of Science and Technology
Electrical and Computer Engineering Faculty Research & Creative Works
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Full-Text Articles in Engineering
A Novel Self-Restrained Decoupling Technique For Two Antennas, Min Li, Muhammad Yasir Jamal, Lijun Jiang, Kwan Lawrence Yeung
A Novel Self-Restrained Decoupling Technique For Two Antennas, Min Li, Muhammad Yasir Jamal, Lijun Jiang, Kwan Lawrence Yeung
Electrical and Computer Engineering Faculty Research & Creative Works
In this paper, a novel self-restrained (SR) decoupling technique (DT) is presented to increase the isolation between two antennas. The 'self-restrained' feature means that the decoupling structure is only attached to the individual antenna itself without demanding any connection to other being coupled ones. The design parameters of the resultant decoupling structure can be precisely derived to achieve high isolations. A two-element monopole array is employed as a benchmark. Results show that good matching and high isolation are achieved simultaneously.
A Novel Planar Dual Cp Mimo Antenna With Polarization Diversity And High Isolation, Muhammad Yasir Jamal, Min Li, Lijun Jiang
A Novel Planar Dual Cp Mimo Antenna With Polarization Diversity And High Isolation, Muhammad Yasir Jamal, Min Li, Lijun Jiang
Electrical and Computer Engineering Faculty Research & Creative Works
In this paper, a low cost planar two-port circularly polarized MIMO patch antenna with the polarization diversity is presented. Three grounded stubs and a mirrored F defected ground slot are used to achieve simultaneous matching and isolation between the two patch and offset feeding for circular polarization. The proposed antenna covering 2.5-2.55 GHz is fabricated and measured. Its measured performance show that \mathbf{\mathrm{S}_{11} < -10\ \mathrm{dB},\ \mathrm{S}_{12} < -20\ \mathrm{dB}} and axial ratio \mathbf{< 3\mathrm{dB}} for the whole band. Its radiation patterns and gain are also measured and an agreement with the simulation result has been achieved.