Rectangular slitted ground stacked microstrip patch antenna design for public safety purposes

The design of stacked patch antenna integrated with metamaterial for broadband applications to achieve appreciable gain, directivity and low return loss is presented in this article. It mainly focuses on optimization and easy adaptation in MMIC technology. The antenna is designed to carry out by combining two Microstrip patch antenna in a stack manner and Metamaterial is implemented by Complementary Split Ring Resonator (CSRR) technique on both side of the patch antenna and slots are introduced at four corners of the patch and adjacent to the metamaterial. The designed antenna is capable of maintaining its performance over wireless system at C band (4-8 GHz) frequency range. The substrate used is FR-4 with thickness of 0.8mm and permittivity) is 4.2. It is simulated using Advanced Design System (ADS) and it is resonated around 6 GHz. It yields a VSWR of about 1.014 (6.25 GHz), 1.022 (5.829 GHz) and 1.015 (6.522 GHz) under simulation and 1.25 (6.03 GHz), 1.119 (5.74 GHz) and 1.247 (5.36 GHz) in measurements respectively. Thus the antenna becomes a necessity for many applications in recent wireless communications such as RADAR and space applications.

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Design of a stacked microstrip patch antenna for X-band communication

Anand

Suraj

2018

2018 4th International Conference on Recent Advances in Information Technology (RAIT)

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Rectangular slitted ground stacked microstrip patch antenna design for public safety purposes

Cited by 3 publications

References 9 publications

High Gain and Highly Directive Microstrip Patch Antenna for Radar and Satellite Communication

High Gain and Highly Directive Microstrip Patch Antenna for Radar and Satellite Communication

Design and implementation of slotted metamaterial stacked microstrip patch antenna for broadband applications

Design of a stacked microstrip patch antenna for X-band communication

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