International Journal of Scientific & Technology Research

Home About Us Scope Editorial Board Blog/Latest News Contact Us
10th percentile
Powered by  Scopus
Scopus coverage:
Nov 2018 to May 2020


IJSTR >> Volume 8 - Issue 8, August 2019 Edition

International Journal of Scientific & Technology Research  
International Journal of Scientific & Technology Research

Website: http://www.ijstr.org

ISSN 2277-8616

A Novel Approach Of Microstrip Fed Planar Monopole Antenna For WSN Applications At 2.4ghz ISM Band

[Full Text]



P. Saleem Akram, Dr. T. Venkata Ramana



Compact monopole antenna, Wireless Networks, ISM band, U shape slot.



In this research article a condensed planar monopole antenna is proposed for wireless sensor networks which operates at 2.4GHz ISM bands. The suggested antenna model is printed on a 16�23�0.8mm3 FR4 substrate with a dielectric constant Ɛr=4.4. We have modeled different U shape slots in various directions on the rectangular patch. At every stage by inserting the slot, we observed the antenna tunes from 4.25 GHz to our required operating frequency 2.4GHz. Simulation results are observed in HFSS V15 and prototype antenna results are matched with the simulated one. In general, the smaller size patch antennas works at high frequencies but the proposed Inverted U shaped slots and the side slots helped to tune the antenna to lower resonance around 2.4GHz with better gain and return loss. Its smaller size makes it very useful for wireless sensor networks applications around 2.4 GHz frequencies.



[1] Liu W-C, Wu C-M. �Broadband dual frequncy CPW fed planar monopole antenna with rectangulr notch�. Electron Lett 40(11):642�643, 2004.
[2] Thomas, K. G. and M. Sreenivasan, �A simple ultrawidebnd planar rectangular printed antenna with band dispenstion,� IEEE Trans. Antennas Propg., Vol. 58, 27�34, 2010.
[3] Basaran SC, Olgun U, Sertel K. "Multiband monopole antenna with complementry split-ring resonators for WLAN and WiMAX applicatins". Electron Lett;49(10):636�638, 2013.
[4] Basaran Siddik Cumhur, Sertel Kubilay. "Dual wideband CPW fed monopole antenna with split ring resonatrs". Microwave Opt Technol Lett ;55 (9):2088�92, 2013
[5] Samson Daniel R, Pandeeswari R, Raghavan S, "A compact metamateril loaded monopole antenna with offset-fedmicrostrp line for wireless applications", Int. J. Electron. Commun. (AE�) 83, 88�94, 2018.
[6] Gianni Giorgetti, Alessandro Cidronali, Sandeep K.S. Gupta , Gianfranco Manes, "Exploitng Low-Cost Directional Antennas in 2.4 GHz IEEE 802.15.4 Wireless Sensor Networks", Procedings of the 10th European Conference on Wireless Technology, Munich Germany, October 2007.
[7] F. Viani, L. Lizzi, M. Donelli, D. Pregnolato, G. Oliveri and A. Massa," EXPLOITATION OF PARASITC SMART ANTENNAS IN WIRELESS SENSOR NETWORKS", J. of Electromgn. Waves and Appl., Vol. 24, 993�1003, 2010.
[8] Feng wang, Feng Bin, Qiuqin Sun, Jingmin Fan, Huisheng Ye, "A compact UHF antenna based on complementary Fractal Technique", IEEE Acess vol 5, page 21118-21125, 2017.
[9] Mohamed Al Hussini, Ali Ramadan, Ali El Haji, Karim Y Kabalan, "Design of a Compact and Low-Cost Fractal- based UWB PCB Antenna", Radio Science Conferene, NRSC 2009. Nationals 17-19 March 2009.
[10] Prasetiyono H. Mukti*, Septin H. Wibowo, and Eko Setijadi, " A Compact Wideband Fractal-Based Planar Antenna with Meandered Transmission Line for L-Band Applications", Progress In Electromagnetics Research C, Vol. 61, 139�147, 2016.
[11] Jawad K. Ali, Zaid A. Abed AL-Hussain, Ammer A. Osman, and Ali J. Salim, " A New Compact Size Fractal Based Microstrip Slot Antenna for GPS Applications", PIERS Proceedings, Kuala Lumpur, MALAYSIA, March 27�30, 2012.
[12] Sika Shrestha,1 Seong Ro Lee,2 and Dong-You Cho1," A New Fractal-Based Miniaturizd Dual Band Patch Antenna for RF Energy Harvesting", Hindawi Publishing Corporation International Journal of Antennas and Propgation Volume 6, Article ID 805052, 9 pages, 2014.
[13] Imaculate Rosaline S, Raghavan S. Design of split ring antenas for WLAN and WiMAX applications. Microwave Opt Technol Lett, 58(9):2117�22, 2016.
[14] Basaran SC, Olgun U, Sertel K. Multiband monopole antenna with complemntary split-ring resonators for WLAN and WiMAX applications. Electron Lett;49(10):636�8, 2013.
[15] Edward J. Rothwell & Raoul O. Ouedraogo (2014) Antenna miniaturzation: definitions, concepts, and a review with emphasis on metamaterials, Journal of Electromagnetic Waves and Applications, 28:17, 2089-2123, 2014.
[16] K. Ismail, K. A. Anis, "Sierpinski Gasket fractal antenna with ring-shape defected ground structure for RFID application", Technology Informatics Management Enginering and Environment (TIME-E) 2014 2nd International Conference on, pp. 340-344, 2014.
[17] Filibetro Bilotti, Andrea alu, Nader Engheta, Lucio Vehni,"Miniaturzed circular patch antenna with metamaterial loading ", 2006 First European Conference on Antennas and Propagtion, 2006.
[18] Khedrouche, D., Bougoutaia, T. & Hocini, "Design and Analysis of Miniaturzed Microstrip Patch Antenna with Metamaterials Based on Modified Split-Ring Resonator for UWB Applicatins" . Frequenz, 70(11-12), pp. 491-498, 2018.
[19] Srinivasan, Ashok Kumar & Shanmuganantham, T. (2014). Design of Implantble CPW Fed Monopole Antenna for ISM Band Applications. AEU - Internationl Journal of Electronics and Communications. 68. 661-666. 2014.
[20] He, Yejun & Li, Jun & Wong, Sai & Pan, Xiaofang & Zhang, Long & Chen, Zhi Ning. (2018). A Miniaturized Base Station Antenna with Novel Phase Shifter for 3G/LTE Applictions. IEEE Access. 2018.
[21] Sim, C. Y. D., Chen, H. D., Yeh, C. H., & Lin, H. L. Small size triple band monopole antenna with a parasitic element. Microwave and Optical Technolgy Letters,57, 337-342, 2015.
[22] Wang, C. J., & Hsiao, K. L. "CPW-fed monopole antenna for multiple system intgration". IEEE Transactions on Antennas and Propagation,62, 1007-1011, 2014.
[23] P. Qin, Y.J. Guo, A.R. Weily, C. LiangA Pattern reconfigurable u-slot antenna and its applictions in MIMO systems IEEE Antennas Wireless Propag. Lett., 60 (Feb (2)) , pp. 516-528, 2012.
[24] Mandal, K., Kundu, M., Kundu, S., & Sarkar, P. P. Extremely small monopole antenna for wideband applications. Microwave and Optical Technology Letters,57, 617-621, 2015.
[25] Chen, Y., Yang, S., & Nie, Z. Bandwidth enhancement method for low profile E-shaped microstrip patch antennas. IEEE Transactions on Antennas and Propagtion, 58,2442�2447, 2010.
[26] Ouedraogo, Raoul & Rothwell, Edward & Diaz, Alejandro & Fuchi, Kazuko & Temme, Andrew. Miniaturization of Patch Antennas Using a Metamatrial-Inspired Technique. Antennas and Propagation, IEEE Transactions on. 60. 2175-2182, 2012.
[27] El Ouahabi, Khalid & Roky, Khalid & EL Mrabet, Otman. New Design of Compact CSRR Antenna Loaded with Rectangular Slots. 1-3. 2018.
[28] Zhang, Dawei & Wu, Qun & Zhang, Kuang & Ding, Xumin & Sha, Xuejun. High selectve metamaterial resonator based on complementary split ring resonator. 2016.
[29] Ali, Muhsin & Khawaja, Bilal. Dual BandMicrostrip patch antena array for next generation wireless sensor network applications. 39-43. 2013.
[30] Guizani, M., Wireless Communication and Mobile Compting, John Wiley and Sons, 2010.
[31] V. Radisic, Y. Qian, and T. Itoh, �Broad-band power amplifer integrated with slot antenna and novel harmnic tuning structure,� Proceedings of IEEE MTTS Int. Microwave Smp. Dig., pp. 1895�1898, June 1998.
[32] Łukasz Januszkiewicz, Paolo Di Barba, Łukasz Jopek and Sławomir Hausman �Many-Objective Automated Optimization of a Four-Band Antenna for Multiband Wireless Sensor Networks�. Sensors, Oct 18(10), 3309, 17pages, 2018.