Abstract: A modest, 32x18 mm2, 2-element UWB-MIMO microstrip-fed antenna has been proposed for Radiating Electromagnetic Energy for Future UWB Technology. The proposed structure is hexagonal in shape with small steps slits on the radiating patch. By putting two-directional hexagonal structures orthogonally, the mutual interaction between elements is decreased. To strengthen isolation and enhance bandwidth, 7, I- shaped vents are introduced to the patch. The frequency range covered by UWB bandwidth is 3–11 GHz. The suggested structure employs slits onto the radiating patch to achieve band notches at various bands. With discrete notched bands at 4.8–5.3 GHz for WLAN and 6.97–10.72 GHz consisting of C-Band and X-Band in the UWB range of 3-11 GHz with improved resonance at -22dB for C band and -29dB for X band is attained in this proposed antenna. Due to its low coefficient of correlation, the results demonstrate that the suggested structure is a preferred methodology for UWB applications across the exiting notched band with less than 0.5 and low mutual coupling with less than -10 dB. Using multiple antennas for transmission and reception, UWB-MIMO is Better adapted for radar, tracking, monitoring systems of communications equipment, and infrastructure applications.
Keywords: UWB MIMO, Hexagon patch, EM Energy, Communication Technology, WLAN, C-Band, X-Band, Antenna.
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