“…FOR this purpose, the new approach of substrate integrated waveguide leads to a very good solution for all these antenna synthesis problems [10]. The SIW configuration which we have proposed have good hold to the basic antennas [11][12][13][14][15][16][17][18][19], which are used to clear any gaps in the substrate integrated waveguide and. In this article a half mode substrate integrated waveguide antenna is proposed for multiband characteristics.…”
In this article A two layered printed microstrip line monopole slot antenna is proposed for multiband applications. The proposed antenna comprises of size 47*40*1mm with a modified half mode substrate integrated waveguide (M-HMSIW). By changing the slot width at the bottom ground the multiband characteristics has been obtained. A split ring resonator is placed on beside the patch to enhance the characteristics such as gain and bandwidth of the antenna. The proposed antenna works in the region of LTE band (2.1GHz) and WLAN (5.7GHz) and it also holds some applications at x-band applications. The simulated return loss and varied parametric vswr of the proposed antenna has been analyzed using ANSYS EM tool. The simulated results state a peak gain of 22dB and average gain of 5.7 dB. The result of the proposed antenna states that it is the best suitable for various multiband applications
“…FOR this purpose, the new approach of substrate integrated waveguide leads to a very good solution for all these antenna synthesis problems [10]. The SIW configuration which we have proposed have good hold to the basic antennas [11][12][13][14][15][16][17][18][19], which are used to clear any gaps in the substrate integrated waveguide and. In this article a half mode substrate integrated waveguide antenna is proposed for multiband characteristics.…”
In this article A two layered printed microstrip line monopole slot antenna is proposed for multiband applications. The proposed antenna comprises of size 47*40*1mm with a modified half mode substrate integrated waveguide (M-HMSIW). By changing the slot width at the bottom ground the multiband characteristics has been obtained. A split ring resonator is placed on beside the patch to enhance the characteristics such as gain and bandwidth of the antenna. The proposed antenna works in the region of LTE band (2.1GHz) and WLAN (5.7GHz) and it also holds some applications at x-band applications. The simulated return loss and varied parametric vswr of the proposed antenna has been analyzed using ANSYS EM tool. The simulated results state a peak gain of 22dB and average gain of 5.7 dB. The result of the proposed antenna states that it is the best suitable for various multiband applications
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