Proximity-coupled microstrip patch antenna for WiMAX using low dielectric constant substrate / Nuraisya Alwanie Aluyi

The purpose of this project is to design a proximity-coupled microstrip patch antenna operating at 3 different frequencies. Proximity-coupled microstrip patch antenna is a noncontact fed patch created in a multilayer antenna to overcome the shortcomings of the direct contact fed patch. Spurious radi...

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Bibliographic Details
Main Author: Aluyi, Nuraisya Alwanie
Format: Thesis
Language:English
Published: 2008
Subjects:
Online Access:https://ir.uitm.edu.my/id/eprint/68879/1/68879.pdf
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Summary:The purpose of this project is to design a proximity-coupled microstrip patch antenna operating at 3 different frequencies. Proximity-coupled microstrip patch antenna is a noncontact fed patch created in a multilayer antenna to overcome the shortcomings of the direct contact fed patch. Spurious radiation reduction is one of the most important advantages of this feed. This design also provides choices between two different dielectric substrates in order to optimize the antenna performance. The important parameters in this project are return loss (SJI), voltage standing wave ratio (VSWR), bandwidth, gain and the directivity of the antenna. All the parameters are taken within 3 WiMAX frequencies which are 2.3GHz, 2.5GHz and 3.5 GHz in order to see the reliability of the antenna. Specific details such as patch shape and feeding method influence patch antenna behavior, but the major factor influencing the performance of a microstrip antenna is the substrate upon which it resides. Most of the previous attempts were focused on the improvement of either the bandwidth or directivity. Thus, it would be useful to improve both of these parameters at the same time to enhance the flexibility of the patch antenna. The bandwidth or directivity can be increased by using thick substrate which is by using the multilayer technique. The bandwidth of a microstrip antenna is best for low dielectric constant substrates and if the substrate thickness is increased in an attempt to improve bandwidth, spurious feed radiation increases and surface wave power increases. Here two antennas with the combination of Duroid® 5880 (er = 2.2) and Foam (sr = 1.07) and two layers of Duroid® 5880 (er = 2.2) are compared. The comparison shows that the antenna with Foam as one of its substrate is better than the other one which is composed of two layers of Duroid® 5880