DESIGN OF SLOTTED MICROSTRIP PATCH ANTENNA
Transcription
DESIGN OF SLOTTED MICROSTRIP PATCH ANTENNA
ISSN 2394-3777 (Print) ISSN 2394-3785 (Online) Available online at www.ijartet.com International Journal of Advanced Research Trends in Engineering and Technology (IJARTET) Vol. II, Special Issue XXIII, March 2015 in association with FRANCIS XAVIER ENGINEERING COLLEGE, TIRUNELVELI DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING INTERNATIONAL CONFERENCE ON RECENT ADVANCES IN COMMUNICATION SYSTEMS AND TECHNOLOGIES (ICRACST’15) TH 25 MARCH 2015 DESIGN OF SLOTTED MICROSTRIP PATCH ANTENNA FOR GPS RECIEVER P.Sanath kumar1 1.PG Scholar Department of ECE St.Joseph’s College of Engineering Chennai, India Mrs.D.sungeetha2 2.AssociteProfessorDepartment of ECE, St.Joseph’s College of Engineering, Chennai, India Abstract: In this paper the proposed micro strip patch antenna is designed to operate at range of 5.29GHz. The reflection co-efficient S11 = -28.5 dB is achieved .The feed is excited by co-axial feeding technique to match the input impedance Z0 = 50Ω. For the proposed method four different slots are ceriated . This slot is used to stop the harmonic frequency of radiating element. The harmonics are present at the integer multiple of patch antenna. The gain of the is achieved. Radiation pattern of the patch also calculated. Different slots are analyzed. I INTRODUCTION: In recent days modern wireless communication plays a major role in the applications of GPS due to its low cost and high performance. The GPS is a satellite based navigation system that can be used to locate the position everywhere on the earth. This GPS application can be implemented in the microstrip patch antenna .The miniaturization of the normal microstrip patch antenna has been accomplished by various forms which may include high dielectric constant substrates modifications in the patch antenna design ,using short circuits and combinations of any of the technique .The simplest solution is by using high dielectric constant substrate, it may exhibit narrow bandwidth , high loss and poor efficiency due to surface wave excitation [1]. There are different types of antennas which may work under some basic principles of Mr.R.Parthasarathy3 3.Assistant ProfessorDepartment of ECE, St.Joseph’s College of Engineering, Chennai, India electromagnetic. There are different types of configurations out of which the rectangular and circular configuration is used for the simulation because of the ease of the analysis fabrication and the attractive radiation characteristics. These antennas can be mounted on the surface of the aircraft, space craft and even in hand held mobile devices [2]. The rapid growth of wireless communication services caused the increase in demand for low cost ,compact and high efficient equipment. Most of the communication systems may use non-linear device for the amplification. The properties of a non-linear device causes the power radiation at harmonic frequencies are generated. These unwanted harmonics may degrade the performance of the system. The antenna is not only a radiating element but also to do certain operations they are filtering. In order to suppress the harmonic frequency a slot can be etched on the patch [3]-[4]. Microstrip patch antenna have been used in the low power systems of the radiation and reception of the aviation due to its light weight, easy to manufacture and easy to manufacture. A number of antenna with band-notched properties in order to achieve the function. There are some widely used methods they are etching the slots on the patch or the ground plane. The types of the slots are triangular, square, C-shaped, H-shaped, rectangular are used to obtain better performance [5]. 38 All Rights Reserved © 2015 IJARTET ISSN 2394-3777 (Print) ISSN 2394-3785 (Online) Available online at www.ijartet.com International Journal of Advanced Research Trends in Engineering and Technology (IJARTET) Vol. II, Special Issue XXIII, March 2015 in association with FRANCIS XAVIER ENGINEERING COLLEGE, TIRUNELVELI DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING INTERNATIONAL CONFERENCE ON RECENT ADVANCES IN COMMUNICATION SYSTEMS AND TECHNOLOGIES (ICRACST’15) TH 25 MARCH 2015 In the proposed system the radiating element is used to operate in 5.28GHz for the GPS application and the first harmonics of the patch is also analysed. In order to suppress this out of band radiation different slots are created on the radiating element. The outer slot is used to reduce the depth of outer band radiation of reflection co-efficient S11= -15dB to -10dB.the second inner slot is used to suppress all the harmonics to zero level. All the simulation result of patch antenna is analysed and both the slots are rectangular slots. . y0= 6.1783 5+93.18 4+682.69 3+2.561 .9 2+4043 1+6697 2 (2≤ ≤10) ..........(8) [7] [7] L length of the patch antenna y0 position to find to feed the co-axial feeding technique which is used to match the 50 Ω impedance. This approximated equation used to find the position of the co-axial feed. III DESIGN ANTENNA II BASIC DESIGN EQUATIONS: These are some of the approximate equations for the design of the patch [4] fr = ..........(1) W= ..........(2) εreff = + ..........(3) Where ΔL is the extension along the length and it is calculated as OF SLOTTED PATCH In proposed method of microstrip patch antenna is used to operate in 5.29GHz operating frequency range in the GPS reciver. The different size of slots etched in the radiating patch,each and every slots are used to stop the hormonic frequency radiating other then the design frequency the reflection co-efficient S11=-28.5dB has been achived. The slotted patch antenna with co-axial feeding is shown in fig.1 ..........(4) h height of the substrate The radiation edge (W) is usually chosen such that it lies within the range L < W < 2L, The effective length for rectangular micro-strip antenna which caused by fringing effect is measured to be L= ..........(5) L length of the material And then, the effective length for the TM10 mode could be calculated from = ..........(6) The resonance frequency for any TMmn mode is given by fr = ..........(7) relativepermitivity [6] 39 All Rights Reserved © 2015 IJARTET ISSN 2394-3777 (Print) ISSN 2394-3785 (Online) Available online at www.ijartet.com International Journal of Advanced Research Trends in Engineering and Technology (IJARTET) Vol. II, Special Issue XXIII, March 2015 in association with FRANCIS XAVIER ENGINEERING COLLEGE, TIRUNELVELI DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING INTERNATIONAL CONFERENCE ON RECENT ADVANCES IN COMMUNICATION SYSTEMS AND TECHNOLOGIES (ICRACST’15) TH 25 MARCH 2015 Desig n Four step shape slots L1 (m m) L2 (m m) W1 (m m) W2 (m m) F1 (G Hz) F2 (G Hz) BW (M Hz) 20 22 10 15 5.1 2 5.3 9 270 shown in the tabular column may denote the measurement of the antenna design. The below table represents the different slot design parameters. Table 1: Tabulation for slot length and slot width of the antenna IV SIMULATION RESULTS The graph shown below may represents the simulation results of frequency vs S11(reflection coefficient). a) SIMULATION RESULTS WITHOUT SLOT. Fig.1 Structure of proposed microstip strip patch antenna fro GPS receiver Inner Cond. 6.335 mm The graph 1 shows the simulation results without any slots which operates at a frequency of 5.29 GHz with a reflection coefficient of -28.5 dB and with first harmonic frequency present at 7 GHz with reflection coefficient of -15 dB. In order to suppress the harmonic frequency a slot is introduced in the patch. outer Cond. 0 -5 The slot design parameter are: length of the patch antenna L1=20mm, L2=22 mm, width of the patch antenna W1 =10mm, W2 = 15 mm. The FR4 dielectric medium is used whose size is 60 X 60 mm, and the height of the dielectric is 5.95 mm. The co-axail feed inner and the outer radius are 0.6 mm and 1.5 mm. The design of the micro strip patch antenna design which consists of the different types of slots with steps shape to design of GPS antenna with bandwidth of 270 MHz. It is a four steps slot antenna designed at particular width and length of the patch which operate at particular frequency. The parameters -10 S11 Fig .2 cross sectional view of co-axial feed patch antenna. -15 -20 S11 -25 -30 4 5 6 7 8 Frequency in GHz Graph 1: simulation result without any slot b) SIMULATION RESULTS WITH SINGLE SLOT: The graph 2 shows the simulation result of the antenna by a single slot which works at same frequency and the harmonic frequency is get reduced from -15 dB to -10 dB as shown in the 40 All Rights Reserved © 2015 IJARTET ISSN 2394-3777 (Print) ISSN 2394-3785 (Online) Available online at www.ijartet.com International Journal of Advanced Research Trends in Engineering and Technology (IJARTET) Vol. II, Special Issue XXIII, March 2015 in association with FRANCIS XAVIER ENGINEERING COLLEGE, TIRUNELVELI DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING INTERNATIONAL CONFERENCE ON RECENT ADVANCES IN COMMUNICATION SYSTEMS AND TECHNOLOGIES (ICRACST’15) TH 25 MARCH 2015 figure. The length of the slot is done by the parameters mentioned in the table 1 c) SIMULATION RESULT WITH SLOTTED ANTENNA The graph shows the simulation results of the antenna by Adding additional slots in the patch which works at a Frequency of 5.29 GHz with a reflection co-efficient of -28.5 dB without any harmonic frequency. The dimensions Of the slots used in the table 1 0 -5 S11 -10 -15 -20 S11 -25 -30 4 5 6 7 8 Frequency in GHz Graph 2 simulation result by using a single slot 0 -5 S11 -10 S11 -15 -20 -25 -30 4 5 6 7 8 Frequency in GHz Graph 3: Simulation results by using different slots V CONCLUSION The radiating element is used to operate at a frequency of 5.28 GHz for the GPS application and the method for eliminating the harmonic frequency is analyzed and presented. It operates at frequency with a reflection co-efficient of -28.5 dB. The second and third harmonics are not analyzed in this paper because interference of those harmonics are less compare to first harmonics. Slots are very useful to stop harmonic frequency and plays the important role. VI REFERENCES 41 All Rights Reserved © 2015 IJARTET ISSN 2394-3777 (Print) ISSN 2394-3785 (Online) Available online at www.ijartet.com International Journal of Advanced Research Trends in Engineering and Technology (IJARTET) Vol. II, Special Issue XXIII, March 2015 in association with FRANCIS XAVIER ENGINEERING COLLEGE, TIRUNELVELI DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING INTERNATIONAL CONFERENCE ON RECENT ADVANCES IN COMMUNICATION SYSTEMS AND TECHNOLOGIES (ICRACST’15) TH 25 MARCH 2015 [1] Haider A. Sabti & Dr. Jabir S. Aziz , “ Design of a Dual Band GPS Micro-strip Patch Antenna”. 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Hall, “Handbook of micro-strip antennas,” IEE Electromagnetic wave series 28, Peter Pergrinus Ltd, London, 1989. 42 All Rights Reserved © 2015 IJARTET