Partial Ground-Based Miniaturized Ultra Wideband Microstrip Patch Antenna

Abstract

<h2>Abstract</h2>\n<p><strong>Objective:</strong> To implement a miniaturized ultra-wideband microstrip patch antenna for wireless applications. <strong>Methods:</strong> The antenna design is established on the FR-4 substrate with a relative permittivity of 4.4 and a thickness of 1.60 mm. The entire area of the projected antenna is 26.33 x 19.39 x 1.60 mm³, and it is simulated in the CST MWS tool. An inset-fed patch and a modified ground plane are utilized to construct the antenna. <strong>Findings:</strong> The antenna's working frequency range is from 3.780 to 10.460 GHz with a peak gain of 4.8 dBi. The parameters such as VSWR, radiation patterns, return loss, and gain of the antenna are presented in this letter. <strong>Novelty:</strong> Designing an inset-fed patch antenna with a wide bandwidth is a challenge. Novelty can come from achieving a wider bandwidth than previously reported by optimizing the feed point location. The majority of the designed ultra-wideband antenna structures are complex with large sizes, but the existing antenna structure is implemented using an inset-fed patch and partial ground method. The fabricated antenna satisfies the desirable ultra-wideband performance in the 3.1–10.6 GHz frequency band. The antenna can be utilized for X-band, C-band, RFID, upper S-band, and satellite communication applications.</p>\n<p><strong>Keywords:</strong> Ultra­wideband, Microstrip antenna, Partial ground plane, inset fed patch, Return loss, Radiation Patterns, Gain, VSWR</p>