Design and Improvement a Novel Microstrip Antenna Using Array of Composite Right/Left Handed Transmission Line (CRLH-TL) Technique for Multiband Applications

Abstract

Control and manipulation of electromagnetic waves is at the heart of many industries from wireless communication, internet and optical data storage to imaging and displays. Progress in these technologies places challenging demands on material properties and therefore structured electromagnetic materials. Metamaterials are a special class of structured materials. Patterning on the sub-wavelength scale allows precise engineering of their electromagnetic properties over a range going far beyond natural media. In this paper, microstrip antenna consists of radiating patch and two parasitic elements (open-loop ring resonators) to serve coupling bridges with partial ground plane and composite right / left handed transmission line (CRLH-TL) ground plane. The antenna topology possesses an area $30\times 30\times 1.27\mathrm{mm}^{3}.\mathrm{The}$ analysis and design is simulated and optimized commercial software. The good agreement between the theoretical expectation and the simulation results is observed. Finally, the proposed optimum multiband microstrip antenna design structure has been fabricated and the measured S-parameters of the proposed structure can be analyzed with network analyzer to demonstrate the excellent performance and meet the requirements for multiband applications.