wlan6
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Design of a Novel Compact Dualband Patch Antenna with Microstrip-Fed for Wireless Communication Bands Uma Nagar, Seema Nagar, R. S. Meena Abstract A novel compact dualband patch antenna with microstrip-fed is presented in this paper for wireless communication bands. The proposed antenna has small geometry with dimensions of W×L (2×! mm2" and printed on commercially available #$-% substrate. The basic radiating element of antenna is rectangular shape patch& which is printed on the top layer of the substrate. $adiating patch is e'ited by ) microstrip line. *round plane is located on the bottom side of the substrate which is made defective by etching two T- shaped slots. This antenna yields two resonance fre+uency bands centred at !. , * and .// * . The simulated -/ d0 return loss shows that bandwidth for lower fre+uency band is /!.%1 (!.2 -!.3, * " and for upper fre+uency band is /.31 (%. ,- .%/ * ". This prototype is well suitable for Wi4A5 and WLA6 wireless applications. To understand the effect of the parameters on antenna performance a parametric study is also carried out Copyright © 2014 Praise Worthy Prize - All rights reserved. e!words 7urrent 8istribution9 8ualband9 *round :lane& 4icrostrip9 $eturn Loss9 Wireless 7ommunication "eferences #. 4ir amohammadi& ;. 6ourinia& and 7.*hobadi& A novel dual-wide band monopole-li<e microstrip antenna with controllable fre+uency response& =>>> Antennas Wireless :ropagat. Lett.& ?olume //& 2/2& :ages 2 @-2@2. W.-7. Liu& 7.-4. Wu& and 6.-7. 7hu& A compact 7:W-fed slotted patch antenna for dual-band operation& =>>> Antennas Wireless :ropagat. Lett.& ?olume @& 2/&:ages //-//!. 6asimuddin& . 6. 7hen& and 5. Bing& 8ual-band circularly polari ed C-shaped slotted patch antenna with a small fre+uency-ratio& =>>> Trans. Antennas :ropagat.& ?olume & 6o. ,& ;une 2/& :ages 2//2- 2// . $. D. $aE& 4. ;oseph& 7. D. Aanandan& D. ?asudevan& and :. 4ohanan& A new compact microstrip-fed dual-band coplanar antenna for WLA6 applications& =>>> Trans. Antennas :ropagat.& ?olume %& 6o. /2& 8ecember 2,& :ages !3 -!3,2. W.-7. Liu& 7.-4. Wu& and F. 8ai& 8esign of triple-fre+uency microstrip-fed monopole antenna using defected ground structure& =>>> Trans. Antennas :ropagat.& ?olume @& 6o. 3&;uly 2//& :ages 2% 3- 2%,!. 4. 6. 4ahmoud and $. 0a<tur& A dual band microstrip-fed slot antenna& =>>> Trans. Antennas :ropagat.& ?olume @& 6o. & 4ay 2//. :. 6ayeri& D.-#. Lee& A. . >lsherbeni& and #. Fang& 8ual-band circularly polari ed antennas using stac<e patches with asymmetric G-slots& =>>>. Antennas Wireless :ropagat. Lett.& ?olume /& 2//. C. D. 4ishra& $.D. *upta& A. ?aidya& and ;. 4u<herEee& A compact dual-band for<-shaped monopole antenna for bluetooth and GW0 applications& =>>> Antennas Wireless :ropagat. Lett.& ?olume /& 2//.
Transcript of wlan6
Design of a Novel Compact Dualband Patch Antenna with Microstrip-Fed for Wireless Communication BandsUma Nagar, Seema Nagar, R. S. Meena
Abstract
A novel compact dualband patch antenna with microstrip-fed is presented in this paper for wireless communication bands. The proposed antenna has small geometry with dimensions of WL (2030 mm2) and printed on commercially available FR-4 substrate. The basic radiating element of antenna is rectangular shape patch, which is printed on the top layer of the substrate. Radiating patch is exited by 50 microstrip line. Ground plane is located on the bottom side of the substrate which is made defective by etching two T- shaped slots. This antenna yields two resonance frequency bands centred at 3.56 GHz and 5.11 GHz. The simulated -10 dB return loss shows that bandwidth for lower frequency band is 13.4% (3.28-3.76 GHz) and for upper frequency band is 10.7% (4.86-5.41 GHz). This prototype is well suitable for WiMAX and WLAN wireless applications. To understand the effect of the parameters on antenna performance a parametric study is also carried outCopyright 2014 Praise Worthy Prize - All rights reserved.
Keywords
Current Distribution; Dualband; Ground Plane, Microstrip; Return Loss; Wireless Communication
References
F. Mirzamohammadi, J. Nourinia, and C.Ghobadi, A novel dual-wide band monopole-like microstrip antenna with controllable frequency response, IEEE Antennas Wireless Propagat. Lett., Volume 11, 2012, Pages 289-292.W.-C. Liu, C.-M. Wu, and N.-C. Chu, A compact CPW-fed slotted patch antenna for dual-band operation, IEEE Antennas Wireless Propagat. Lett., Volume 9, 2010,Pages 110-113.Nasimuddin, Z. N. Chen, and X. Qing, Dual-band circularly polarized S-shaped slotted patch antenna with a small frequency-ratio, IEEE Trans. Antennas Propagat., Volume 58, No. 6, June 2010, Pages 2112-2115.R. K. Raj, M. Joseph, C. K. Aanandan, K. Vasudevan, and P. Mohanan, A new compact microstrip-fed dual-band coplanar antenna for WLAN applications, IEEE Trans. Antennas Propagat., Volume 54, No. 12, December 2006, Pages 3755-3762.W.-C. Liu, C.-M. Wu, and Y. Dai, Design of triple-frequency microstrip-fed monopole antenna using defected ground structure, IEEE Trans. Antennas Propagat., Volume 59, No. 7,July 2011, Pages 2457-2463.M. N. Mahmoud and R. Baktur, A dual band microstrip-fed slot antenna, IEEE Trans. Antennas Propagat., Volume 59, No. 5, May 2011.P. Nayeri, K.-F. Lee, A. Z. Elsherbeni, and F. Yang, Dual-band circularly polarized antennas using stacked patches with asymmetric U-slots, IEEE. Antennas Wireless Propagat. Lett., Volume 10, 2011.S. K. Mishra, R.K. Gupta, A. Vaidya, and J. Mukherjee, A compact dual-band fork-shaped monopole antenna for bluetooth and UWB applications, IEEE Antennas Wireless Propagat. Lett., Volume 10, 2011.S.H.S. Esfahlani, A. Tavakoli, and P.Dehkhoda, A compact single-layer dual-band microstrip antenna for satellite applications, IEEE Antennas Wireless Propagat. Lett., Volume 10, 2011.C.-S.Liu, C.-N. Chiu and S.-M. Deng, A compact disc-slit monopole antenna for mobile devices, IEEE Antennas Wireless Propagat. Lett., Volume 7, 2008.
Low Profile Slotted Microstrip Patch Antenna for Dual Band ApplicationVinod Kumar Singh
Abstract
This paper present Rectangular slotted MSA for dual band application which covers the range between 2.027 GHz to 2.357 GHz and 3.644 GHz to 4.009 GHz. The bandwidth is increased up to 15.05% and 9.53% respectively. This simulation is performed by using the commercially available IE3D simulator based on method-of-moments
References
This paper present Rectangular slotted MSA for dual band application which covers the range between 2.027 GHz to 2.357 GHz and 3.644 GHz to 4.009 GHz. The bandwidth is increased up to 15.05% and 9.53% respectively. This simulation is performed by using the commercially available IE3D simulator based on method-of-moments
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