International Journal of Computer Techniques -– Volume 3 Issue 2, Mar- Apr 2016 RESEARCH ARTICLE
OPEN ACCESS
Design and Analysis of Patch Antenna for Wire-Less Applications Gidijala Sai Kumar1,Gadiraju Mounika 2 , Dusi Leela Rani3 , K.T.P.S.Kumar4 1,2,3,4
(Electronics and communication engineering, Lendi institute of engineering and technology, and vizianagaram)
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Abstract: In this paper, a multi-slot micro strip patch antenna for Ku bands with 1GHz is designed and the results are analyzed. As the antenna has dual band, we use the dielectric substrate of permittivity 4.4, loss tangent 0.002 and substrate height of 1.575mm.The simulation of antenna on HFSS software, at 1 GHz frequency, shows the bandwidth of 2.93GHz at frequency of 12.99GHz and 15.93GHz .Simulated results of return loss, VSWR, gain, directivity, 3D-radiation pattern of patch antenna design are shown. Keywords — micro strip patch antenna, Ku bands, dual bands, HFSS software. ----------------------------------------************************---------------------------------medium referred as substrate which have a I. INTRODUCTION attractive feature such as wider bandwidth, better Radar and modern communication systems such impedance matching and easy integration with as synthetic aperture radar (SAR), global position active device [3]. However, conventional micro system (GPS) and wireless local area networks strip patch antenna suffers from very narrow (WLAN) often require low cost, minimal weight, bandwidth, typically about 5% bandwidth with low profile antennas that are capable of maintaining respect to the center frequency. To increase the high performance over a large spectrum of bandwidth of patch antennas, such as the use of frequencies. Dual band or multi frequency thick substrate, cutting a resonant slot inside the operations are main requirement of this type patch, the use of a low dielectric substrate, multicommunication. Main disadvantage of Micro strip resonator stack configurations, the use of various patch antenna is the bandwidth limitation which is impedance matching and feeding techniques, and due to the resonant characteristic of the patch the use of slot antenna geometry. structure. Dual-frequency micro strip antenna is the However, the bandwidth and the size of an antenna alternate method for bandwidth enhancement, are generally mutually conflicting properties, that is, which required in various applications for the improvement of one of the characteristics normally operation of two separate sub bands. For generating results in degradation of the other [4-5]. Now-adays, antennas with multiband capabilities have been widely required in satellite and mobile communication systems to meet the growing system a dual frequency behaviour in the single-fed micro complexity. Recently, many communication strip antenna, by creating or etching slots on the standards like WIMAX etc are developed for high radiating element of the micro strip patch antenna frequency and high speed communication[6[1-2]. The proposed antenna has been used in 7].Resonant frequencies 12.997 GHZ and 15.9337 WLAN and WIMAX because of some good GHZ having a gain of 10db .The proposed antenna features like low cost, low profile, easy to fabricate is used for WLAN and WIMAX applications. and nearly Omni directional characteristics. Feed line is the important component of printed antenna 2. ANTENNA DESIGN structure. The feed line used in proposed antenna is The antenna with diamond and triangular slots CPW in which micro strip antenna consist of a are shown in the figure below. The model was parallel conducting layers separating a dielectric
ISSN: 2394-2231
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