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Triple Band Slotted Microstrip Patch Antenna for Both C-Band and X-Band Applications
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The primary target of the research work is to configure a rectangular shape microstrip patch antenna at a working frequency of 2.4 GHz to tune and improve the antenna characteristics of directivity, gain, return loss, VSWR, and to attain multi-band nature using slot cutting techniques for wideband applications. For performing triple-band operations from a single-band antenna, rectangular shape slots are made in the patch using slot cutting techniques. The antenna executes a good radiation pattern, propagation pattern, directivity, and gain, and it covers the frequency range of 7-13 GHz, which is perfect for C and X band applications. It bestows triple-band at 7.23 GHz, 10.17 GHz, and 13.6 GHz and high directivity, a gain of 9.8575 dB, and 4.4746 dB for an FR4 substrate having a thickness of 1.6mm. The suggested antenna is multi-band and possesses the benefits of easy layout, compactness, and adequate impedance matching. The suggested antenna configuration is simulated and executed using HFSS.
Title: Triple Band Slotted Microstrip Patch Antenna for Both C-Band and X-Band Applications
Description:
The primary target of the research work is to configure a rectangular shape microstrip patch antenna at a working frequency of 2.
4 GHz to tune and improve the antenna characteristics of directivity, gain, return loss, VSWR, and to attain multi-band nature using slot cutting techniques for wideband applications.
For performing triple-band operations from a single-band antenna, rectangular shape slots are made in the patch using slot cutting techniques.
The antenna executes a good radiation pattern, propagation pattern, directivity, and gain, and it covers the frequency range of 7-13 GHz, which is perfect for C and X band applications.
It bestows triple-band at 7.
23 GHz, 10.
17 GHz, and 13.
6 GHz and high directivity, a gain of 9.
8575 dB, and 4.
4746 dB for an FR4 substrate having a thickness of 1.
6mm.
The suggested antenna is multi-band and possesses the benefits of easy layout, compactness, and adequate impedance matching.
The suggested antenna configuration is simulated and executed using HFSS.
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