2 by 2 circular array patch antenna on metamaterial with 2 different defect ground structure (DGS) for WiMAX application / Mohd Fairul Ab Wahid
Metamaterial is the popular technique that is widely used in designing antenna especially in Microstrip Antenna to enhanced performance of miniaturized antenna systems. The purpose, as with any electromagnetic antenna, is to launch energy into free space. However, this class of antenna incorporates...
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| Format: | Thesis |
| Language: | English |
| Published: |
2014
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| Subjects: | |
| Online Access: | https://ir.uitm.edu.my/id/eprint/80535/1/80535.pdf |
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| Summary: | Metamaterial is the popular technique that is widely used in designing antenna especially in Microstrip Antenna to enhanced performance of miniaturized antenna systems. The purpose, as with any electromagnetic antenna, is to launch energy into free space. However, this class of antenna incorporates metamaterials, which are materials engineered with novel, often microscopic, structures to produce unusual physical properties. This project presents a 2 by 2 Circular Array Patch Antenna on Metamaterial with 2 Different Defect Ground Structure for WiMAX application using metamaterial technique. It's operate at 5.8GHz and the construction of 2 different shape Defect Ground Structure at ground plane contributes the metamaterial features to the antenna. Conventional array antenna and Metamaterial antenna with Defect Ground Structure has been simulated, fabricated and measured. The simulation design has been done using Computer Simulation Technology (CST) microwave studio and both antenna were fabricated on FR4 substrate with permittivity, sv= 4.7 and thickness 1.6mm height. The fabricated of the Antenna were measured using R&S®ZNB Vector Network Analyzer (VNA). Comparison between without DGS and 2 different design of Metamaterial antenna has been made and of course Metamaterial antenna proof that it is better than conventional. The results show that the circular shape and square shape antennas is able to produce the metamaterial features. It enhances the performance of the conventional antenna in terms of return loss is 56%, gain is 4.8% and bandwidth is 13%. This metamaterial antenna is suitable for small range broadband application because it has a smaller bandwidth and high gain. The change in frequency value between simulated and fabricated antenna were stated and concluded as the common factor between both with the count of losses and human error. |
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