Bandwidth Enhancement and Analysis of Designed Rectangula Micostip Patch [MSP] Antenna using Compact Rectangula Slotted Technique fo Wideband Applications A. Manish Kuma Singh, B.I.E.T.Jhansi, U.P., India; B. Savya Sachi Misha, B.I.E.T.Jhansi, U.P., India; C. D.C.Dhubkaiya, B.I.E.T.Jhansi, U.P., India Abstact In this pape, a compact size ectangula patch antenna is designed, analyzed and fabicated. The bandwidth enhancement of micostip patch [MSP] antenna is done by cutting ectangula slots into the dimension calculated ectangula patch. The designed micostip patch antenna is suitable fo the use of many boad band applications. The opeating fequency band of designed micostip patch antenna is 1.456-3.104GHz with 72.28% factional bandwidth.the gain has been impoved up to 4.28dBi, diectivity 4.33dBi and efficiency 99.54 %. The poposed ectangula slotted MSP is suitable fo L and S-band opeations. The poposed ectangula slotted micostip patch [MSP] antenna is simulated using IE3D Zealand simulation softwae based on method of moments. The antenna is fed by 50Ω micostip line feed. Key wods: Calculated gound plane, Calculated micostip patch [MSP], Enhanced bandwidth, IE3D simulato, 50Ω micostip line feed. 1. Intoduction Boadband devices ae mainly pacticed in ou daily lives such as mobile phone, adio, laptop with wieless connection and MSP antennas play a impotant ole in these devices [1]. In this pape the pupose of new design antenna pesents to enhance the bandwidth of a compact ectangula slot shaped MSP antenna fo many boadband applications such as militay, wieless communication, satellite communication, global positioning system (GPS), RF devices, WLAN/WI - MAX application etc [2], [3]. The majo dawbacks of MSP antennas in basic fom ae naow bandwidth and low gain [4]. Then many techniques ae used to enhance bandwidth and gain of MSP antennas. By using thick substate with low dielectic constant and compact slotted patch can enhance the bandwidth and gain of antennas up to geate extent [5]. The MSP antenna have some good featues such as low cost, low pofile, light weight, high efficiency, easy to manufactue and implement with cicuits [2], [5], [6]. The design stuctue components of antenna become small in size and have low pocessing cost [3]. In this pape method of moments is used to analysis the ectangula MSP antenna. The design esonant fequency of ectangula MSP antenna is 2.2GHz with 50Ω micostip line feed. MSP antenna is chaacteized by using thickness (H), dialectic constant (ɛ ), and length (b,d), width (a,c) of gound plane and patch. The pefomances of design MSP antenna such as adiation patten, etun loss, diectivity, VSWR and gain ae simulated by using IE3D softwae. 2. Mathematical Fomula To Calculate The Dimensions Of Micostip Patch [Msp] Antenna The mathematical fomula is used to calculate the dimensions of gound plane and mico stip patch in the fom of length and width. 2.1 Width Fomula of Rectangula MSP Antenna [7], [8] c W 2 f 1 2 0.5 Whee c = 3 10 8 ms -1, ɛ =4.2, f =2.2GHz INTERNATIONAL JOURNAL OF INNOVATIVE RESEARCH IN TECHNOLOGY&SCIENCE VOLUME 2, NUMBER1 22
2.2 Fomula of Effective Dielectic Constant [8], [9] 2. Substate thickness (H) 1.6mm 3. Dielectic constant (ɛ ) 4.2 eff 1 1 12W 1 2 2 H H=1.6mm 0.5 4. Loss Tangent (tan δ).0013 2.3 Fomula of Length Extension of Antenna [7], [8] W.264 eff.3 H L.412H eff.258 W.8 H 2.4 Length Fomula of Rectangula MSP Antenna [10], [14] c L 2L f 2 eff 2.5 Length and Width Fomula of the Gound Plane of Antenna [3], [7] L g L 6H W g W 6H 3. Antenna Design Specification Calculated dimensions of gound plane is constucted by using esonant fequency (f ), dielectic constant (ɛ ), substate thickness (H) and loss tangent (tan δ) and 50Ωmicostip line feed is fed into patch. Calculated dimensions ae obtained by fomula and compact ectangula slotting is done on the ectangula patch. S. no. Table 1: Antenna Design Specifications Antenna Paamete Data 1. Resonant fequency (f ) 2.2GHz 4. Antenna Design Pocedue Using the above equations and geometical paametes, dimensions of antenna is calculated. In the design of antennas fist calculate the dimensions of gound plane and patch then antenna is constucted by using dimensions afte that slots cut into the micostip patch. Table 2: Calculated Antenna Dimensions in mm S.No. Paametes Value 1. Gound plane width, a 51.1 2. Gound plane length, b 40.6 3. Patch width, c 41.5 4. Patch length, d 31 5. e 19 6. f 18.4 7. g 16.8 8. h 7 9. i 7.2 Bandwidth Enhancement and Analysis of Designed Rectangula Micostip Patch [MSP] Antenna using Compact Rectangula Slotted Technique fo Wideband Applications 23
10. j 9.7 11. k 20.2 The calculated design of a compact ectangula slotted micostip patch antenna is shown in Figue 1. Figue 2: Retun Loss vs. Fequency Gaph In Figue 3, the plotted gaph of Gain Vs Fequency shows the total field gain of the MSP antenna and obtain maximum gain of antenna is 4.275dBi at fequency 2.95GHz. Figue 1: Geomety of Poposed Antenna 5. Simulation Result And Discussion In Figue 2, The simulation pefomance of design MSP antenna is analyzed by using IE3D softwae at define esonant fequency of 2.2GHz and antenna successfully obtained 1.8GHz esonant fequency at peak point of etun loss. The plotted gaph of etun loss Vs fequency is taken at the maximum fequency of 3.5GHz which is shown in Figue 2,The enhances bandwidth 1648MHz (72.28% factional bandwidth) of design antenna is obtained at calculated esonant fequency of 1.78GHz. Figue 3: Gain vs. Fequency Plot In Figue 4, the plotted gaph of Efficiency Vs Fequency epesents adiating efficiency and antenna efficiency. The obtain antenna efficiency in pecentage is 99.54% at 1.78GHz INTERNATIONAL JOURNAL OF INNOVATIVE RESEARCH IN TECHNOLOGY&SCIENCE VOLUME 2, NUMBER1 24
Figue 4: Efficiency vs. Fequency Plot In Figue 5, the plotted gaph of VSWR Vs Fequency epesents that the bandwidth of design antenna is useful o not. The obtain VSWR is 1.146 at esonant fequency of 1.78GHz. Figue 6: 2D Radiation Patten of Antenna In Figue 7, the plotted gaph of total field Diectivity Vs Fequency epesents the atio of adiation intensity in a given diection fom the antenna to the adiation intensity aveaged ove all diection [11]. The obtain diectivity of antenna is 4.327dBi at fequency 2.95GHz. Figue 5: VSWR vs. Fequency Plot In Figue 6, the plotted gaph of 2D adiation patten of antenna epesents adiating all powe in one diection theefoe design antenna has unidiectional adiation patten. 2D adiation patten of antenna is shown at esonant fequency 1.78GHz and phi=0(deg), phi=90(deg). Figue 7: Diectivity vs. Fequency Plot Bandwidth Enhancement and Analysis of Designed Rectangula Micostip Patch [MSP] Antenna using Compact Rectangula Slotted Technique fo Wideband Applications 25
In Figue 8, the plotted gaph of Axial-Ratio Vs Fequency epesents the atio of the majo axis to the mino axis of the polaization ellipse and the esulting patten shows an oscillating patten [15]. Figue 8: Axial-Ratio vs. Fequency Plot 6. CONCLUSION In this pape a compact ectangula slotted ectangula micostip patch [MSP] antenna with 50Ω micostip line feed has been designed. The enhance bandwidth of design antenna is 1648MHz (72.28% factional bandwidth), opeating fequency ange 1.456-3.104GHz and gain (4.275dBi), efficiency (99.54%), etun loss (-23.37dBi) and VSWR (1.146) is obtained. The simulated esult of design antenna shows good pefomance and thus can be used as vaious boadband applications such as missile, wieless, satellite, mobile communication, and militay. Acknowledgment The authos gatefully acknowledge the suppot to cay out this study and wok fom Electonic and Comm. Engineeing depatment of Bundelkhand Institute of Engineeing and Technology, Jhansi, Utta Padesh, India. Refeences 1. Avisanka Roy, and Sunandan Bhunia. Compact Boad Band Dual Fequency Slot Loaded Micostip Patch antenna with Defecting Gound Plane fo WI-MAX and WLAN, IJSCE, ISSN: 2231-2307, Vol.1, Issue-6, Januay -2012. 2. D. Bhattachaya, and R. Pasanna. Bandwidth Enichment fo Mico-stip Patch Antenna Using Pendant Techniques, IJER, ISSN: 2319-6890, Volume No.2, Issue No. 4, pp. 286-289, Aug. 2013 3. Sukhbi Kuma, and Hitende Gupta. Design and Study of Compact and Wideband Micostip U-Slot Patch Antenna fo WI- Max Application, IOSR-JECE, ISSN: 2278-2834, Vol. 5, Issue 2, pp. 45-48, (Ma. Ap. - 2013). 4. Kaim A. Hamad. Design and Enhancement Bandwidth of Rectangula Patch Antenna Using Single Tapezoidal Slot Technique, ARPN-JEAC, ISSN: 1819-6608, Vol. 7, No. 3, Mach 2012. 5. Paikshit Vasisht,and Tauna Gautam. Design of V- Slotted Tapezoidal Patch Antenna in WI-MAX Band Using Optimized Feed Location Method, IJETAE, ISSN: 2250-2459, Vol. 2, Issue 6, June - 2012. 6. D. Pavitha, and K.R. Dhaani. A Design of H-Shape Micostip Patch Antenna fo WLAN Applications, IJESI, ISSN: 2319-6734, Vol. 2, pp.71-74, Issue 6, June - 2013. 7. Constantine A., Balanis. Antenna Theoy, Analysis and Design, John Wiley & Sons, Inc., Hoboken, New Jesey, 2005. 8. T. Jayanthy, M. Sugadev, J. Mohamed Ismaeel, and G. Jegan. Design and Simulation of Micostip M-Patch Antenna with Double Laye, IEEE Tans. AP- 978-1- 4244-2690-4444, 2008. 9. Paminde Singh, Anjali Chandel, and Divya Naina. Bandwidth Enhancement of Pobe Fed Micostip Patch Antenna, IJECCT, ISSN: 2249-7838, Vol. 3, Issue 1, Januay - 2013. 10. Mohammad Taiqul Islam, Mohammed Nazmus Shakib, Nobahiah Misan, and Bahaudin Yatim. Analysis of Boadband Slotted Micostip Patch Antenna, IEEE Tans. AP-1-4244-2136, 2008. 11. Pabhake Singh, G.S. Tipathi, and Amit Kuma Gupta. Design of Small Size Extended T-Shaped Patch Micostip Antenna, VSRD Intenational Jounals, e- ISSN: 2231-3346, p-issn: 2319-2232, Vol. No 3, 1 Januay-2013. 12. Chuan-Ling Hu, Chang-Fa Yang and Shun-Tian Lin. A Compact Inveted-F Antenna to be Embedded in Ulta-thin Laptop Compute fo LTE/WWAN/WI- MAX/WLAN Applications, IEEE Tans. AP-S/USRT, 978-1-4244-9561, 2011. 13. C. L. Mak, K. M. Luk, K. F. Lee, and Y. L. Chow. Expeimental Study of Micostip Patch Antenna with an L-Shaped Pobe, IEEE Tans. AP- 48(2000)777-783. 14. D. Bhattachaya, and R. Pasanna. Bandwidth Enichment fo Mico-stip Patch Antenna Using Pendant Techniques, IJER, ISSN: 2319-6890, Volume No.2, Issue No. 4, pp. 286-289, Aug. 2013. INTERNATIONAL JOURNAL OF INNOVATIVE RESEARCH IN TECHNOLOGY&SCIENCE VOLUME 2, NUMBER1 26
15. Alak Majumde. Design of an H-shaped Micostip Patch Antenna fo Bluetooth Applications, IJIAS, ISSN: 2028-9324, Vol. 3, No. 4, pp. 987-994, Aug. 2013. 16. Rajesh Kuma, D.C.Dhubkaiya,Design and Analysis Of Cicula Ring Mico Stip Antenna GJRE(2011) Volume 11 Issue 1: 11-14. Biogaphies A. Manish K. Singh eceived his B.Tech(EIE) fom R.K.G.I.T., Ghaziabad, Utta Padesh, India and M.Tech (Digital Comm.) student in ECE depatment of Bundelkhand Institute of Engineeing and Technology, Jhansi, Utta Padesh, India. His aea of inteest lies in the field of Micostip Antenna designing, Fequency selective sufaces and Micowave engineeing. B. Savya Sachi Misha eceived his B.Tech (ECE) fom Galgotias College of Engineeing and Technology, Geate Noida, Utta Padesh, India and M.Tech. (Digital Comm.) student in ECE depatment of Bundelkhand Institute of Engineeing and Technology, Jhansi, Utta Padesh, India. His aea of inteest lies in the field of Antenna designing and Micowave engineeing. C. D.C.Dhubkaiya is an Associate Pofesso in the ECE depatment of Bundelkhand Institute of Engineeing and Technology, Jhansi, Utta Padesh, India. He has moe than 20 yeas of expeience in teaching and eseach wok. He has published moe than seventy papes in eputed intenational and national jounals. He has witten thee books. Bandwidth Enhancement and Analysis of Designed Rectangula Micostip Patch [MSP] Antenna using Compact Rectangula Slotted Technique fo Wideband Applications 27