Suche senden
Hochladen
Simulation and analysis of slot coupled patch antenna
•
1 gefällt mir
•
1,133 views
I
iaemedu
Folgen
Melden
Teilen
Melden
Teilen
1 von 7
Jetzt herunterladen
Downloaden Sie, um offline zu lesen
Empfohlen
Design and Analysis of M-Shape Microstrip Patch Antenna for Wireless Communic...
Design and Analysis of M-Shape Microstrip Patch Antenna for Wireless Communic...
IJCSIS Research Publications
Bandwidth efficient stacked arrangement of square patches
Bandwidth efficient stacked arrangement of square patches
IAEME Publication
40120140505004
40120140505004
IAEME Publication
Novel design of a low cost microstripline fed shorted patch antenna
Novel design of a low cost microstripline fed shorted patch antenna
iaemedu
40120140505012
40120140505012
IAEME Publication
20120140501021
20120140501021
IAEME Publication
IRJET- Multiple Band Microstrip Patch Antenna with DGS for X Band, Ku Band an...
IRJET- Multiple Band Microstrip Patch Antenna with DGS for X Band, Ku Band an...
IRJET Journal
20120140503004
20120140503004
IAEME Publication
Empfohlen
Design and Analysis of M-Shape Microstrip Patch Antenna for Wireless Communic...
Design and Analysis of M-Shape Microstrip Patch Antenna for Wireless Communic...
IJCSIS Research Publications
Bandwidth efficient stacked arrangement of square patches
Bandwidth efficient stacked arrangement of square patches
IAEME Publication
40120140505004
40120140505004
IAEME Publication
Novel design of a low cost microstripline fed shorted patch antenna
Novel design of a low cost microstripline fed shorted patch antenna
iaemedu
40120140505012
40120140505012
IAEME Publication
20120140501021
20120140501021
IAEME Publication
IRJET- Multiple Band Microstrip Patch Antenna with DGS for X Band, Ku Band an...
IRJET- Multiple Band Microstrip Patch Antenna with DGS for X Band, Ku Band an...
IRJET Journal
20120140503004
20120140503004
IAEME Publication
Design and development of dual e shaped microstrippatch
Design and development of dual e shaped microstrippatch
iaemedu
Aa04408138142
Aa04408138142
IJERA Editor
Design of radiating edge gap-coupled broadband
Design of radiating edge gap-coupled broadband
IAEME Publication
Enhanced bandwidth slotted microstrip patch antenna
Enhanced bandwidth slotted microstrip patch antenna
IAEME Publication
A pattern diversity compact mimo antenna array design for wlan
A pattern diversity compact mimo antenna array design for wlan
IAEME Publication
20120140502020
20120140502020
IAEME Publication
Performance Analysis of Corporate Feed Rectangular Patch Element and Circular...
Performance Analysis of Corporate Feed Rectangular Patch Element and Circular...
Mohamed Hassouna
Ijetcas14 392
Ijetcas14 392
Iasir Journals
International Journal of Computational Engineering Research (IJCER)
International Journal of Computational Engineering Research (IJCER)
ijceronline
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
IAEME Publication
Impact and analytical study of the patch and slot for
Impact and analytical study of the patch and slot for
eSAT Publishing House
Hexagonal microstrip printed antenna design and analysis of gain for ku
Hexagonal microstrip printed antenna design and analysis of gain for ku
IAEME Publication
Enhanced Gain Microstrip Patch Antenna for Wimax Applications
Enhanced Gain Microstrip Patch Antenna for Wimax Applications
IJAEMSJORNAL
E shape microstrip patch antenna design for wimax applications, international...
E shape microstrip patch antenna design for wimax applications, international...
Sk Sohag
IRJET - An Overview of Design and Simulation of Microstrip Rectangular Pa...
IRJET - An Overview of Design and Simulation of Microstrip Rectangular Pa...
IRJET Journal
IRJET- Hybrid Dielectric Resonator Antenna for Wi-Max Application
IRJET- Hybrid Dielectric Resonator Antenna for Wi-Max Application
IRJET Journal
H shape defected ground structure dgs- embedded square patch antenna
H shape defected ground structure dgs- embedded square patch antenna
IAEME Publication
H-SHAPE DEFECTED GROUND STRUCTURE (DGS) EMBEDDED SQUARE PATCH ANTENNA
H-SHAPE DEFECTED GROUND STRUCTURE (DGS) EMBEDDED SQUARE PATCH ANTENNA
IAEME Publication
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
IAEME Publication
Microstrip line fed stacked layer e shaped patch antenna for wlan
Microstrip line fed stacked layer e shaped patch antenna for wlan
IAEME Publication
Microstrip line fed stacked layer e shaped patch antenna for wlan
Microstrip line fed stacked layer e shaped patch antenna for wlan
IAEME Publication
40120140502013
40120140502013
IAEME Publication
Weitere ähnliche Inhalte
Was ist angesagt?
Design and development of dual e shaped microstrippatch
Design and development of dual e shaped microstrippatch
iaemedu
Aa04408138142
Aa04408138142
IJERA Editor
Design of radiating edge gap-coupled broadband
Design of radiating edge gap-coupled broadband
IAEME Publication
Enhanced bandwidth slotted microstrip patch antenna
Enhanced bandwidth slotted microstrip patch antenna
IAEME Publication
A pattern diversity compact mimo antenna array design for wlan
A pattern diversity compact mimo antenna array design for wlan
IAEME Publication
20120140502020
20120140502020
IAEME Publication
Performance Analysis of Corporate Feed Rectangular Patch Element and Circular...
Performance Analysis of Corporate Feed Rectangular Patch Element and Circular...
Mohamed Hassouna
Ijetcas14 392
Ijetcas14 392
Iasir Journals
International Journal of Computational Engineering Research (IJCER)
International Journal of Computational Engineering Research (IJCER)
ijceronline
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
IAEME Publication
Impact and analytical study of the patch and slot for
Impact and analytical study of the patch and slot for
eSAT Publishing House
Hexagonal microstrip printed antenna design and analysis of gain for ku
Hexagonal microstrip printed antenna design and analysis of gain for ku
IAEME Publication
Enhanced Gain Microstrip Patch Antenna for Wimax Applications
Enhanced Gain Microstrip Patch Antenna for Wimax Applications
IJAEMSJORNAL
E shape microstrip patch antenna design for wimax applications, international...
E shape microstrip patch antenna design for wimax applications, international...
Sk Sohag
IRJET - An Overview of Design and Simulation of Microstrip Rectangular Pa...
IRJET - An Overview of Design and Simulation of Microstrip Rectangular Pa...
IRJET Journal
IRJET- Hybrid Dielectric Resonator Antenna for Wi-Max Application
IRJET- Hybrid Dielectric Resonator Antenna for Wi-Max Application
IRJET Journal
Was ist angesagt?
(16)
Design and development of dual e shaped microstrippatch
Design and development of dual e shaped microstrippatch
Aa04408138142
Aa04408138142
Design of radiating edge gap-coupled broadband
Design of radiating edge gap-coupled broadband
Enhanced bandwidth slotted microstrip patch antenna
Enhanced bandwidth slotted microstrip patch antenna
A pattern diversity compact mimo antenna array design for wlan
A pattern diversity compact mimo antenna array design for wlan
20120140502020
20120140502020
Performance Analysis of Corporate Feed Rectangular Patch Element and Circular...
Performance Analysis of Corporate Feed Rectangular Patch Element and Circular...
Ijetcas14 392
Ijetcas14 392
International Journal of Computational Engineering Research (IJCER)
International Journal of Computational Engineering Research (IJCER)
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
Impact and analytical study of the patch and slot for
Impact and analytical study of the patch and slot for
Hexagonal microstrip printed antenna design and analysis of gain for ku
Hexagonal microstrip printed antenna design and analysis of gain for ku
Enhanced Gain Microstrip Patch Antenna for Wimax Applications
Enhanced Gain Microstrip Patch Antenna for Wimax Applications
E shape microstrip patch antenna design for wimax applications, international...
E shape microstrip patch antenna design for wimax applications, international...
IRJET - An Overview of Design and Simulation of Microstrip Rectangular Pa...
IRJET - An Overview of Design and Simulation of Microstrip Rectangular Pa...
IRJET- Hybrid Dielectric Resonator Antenna for Wi-Max Application
IRJET- Hybrid Dielectric Resonator Antenna for Wi-Max Application
Ähnlich wie Simulation and analysis of slot coupled patch antenna
H shape defected ground structure dgs- embedded square patch antenna
H shape defected ground structure dgs- embedded square patch antenna
IAEME Publication
H-SHAPE DEFECTED GROUND STRUCTURE (DGS) EMBEDDED SQUARE PATCH ANTENNA
H-SHAPE DEFECTED GROUND STRUCTURE (DGS) EMBEDDED SQUARE PATCH ANTENNA
IAEME Publication
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
IAEME Publication
Microstrip line fed stacked layer e shaped patch antenna for wlan
Microstrip line fed stacked layer e shaped patch antenna for wlan
IAEME Publication
Microstrip line fed stacked layer e shaped patch antenna for wlan
Microstrip line fed stacked layer e shaped patch antenna for wlan
IAEME Publication
40120140502013
40120140502013
IAEME Publication
Design of radiating edge gap-coupled broadband
Design of radiating edge gap-coupled broadband
IAEME Publication
Design and development of low profile, dual band microstrip antenna with enha...
Design and development of low profile, dual band microstrip antenna with enha...
IAEME Publication
Bandwidth Improvement of UWB Microstrip Antenna Using Finite Ground Plane
Bandwidth Improvement of UWB Microstrip Antenna Using Finite Ground Plane
IJERA Editor
A pattern diversity compact mimo antenna array design for wlan
A pattern diversity compact mimo antenna array design for wlan
IAEME Publication
Design and Analysis of Microstrip Antenna for CDMA Systems Communication
Design and Analysis of Microstrip Antenna for CDMA Systems Communication
IOSR Journals
Design and Analysis of Microstrip Antenna for CDMA Systems Communication
Design and Analysis of Microstrip Antenna for CDMA Systems Communication
IOSR Journals
Design of Micro strip Antenna in Ism Band with Polarization Diversity and Fre...
Design of Micro strip Antenna in Ism Band with Polarization Diversity and Fre...
paperpublications3
Design & simulation of dual band t shaped slot micro strip antenna for c-...
Design & simulation of dual band t shaped slot micro strip antenna for c-...
eSAT Journals
Coplanar rectangular patch antenna for x band applications using inset fed te...
Coplanar rectangular patch antenna for x band applications using inset fed te...
IAEME Publication
Coplanar rectangular patch antenna for x band applications using inset fed te...
Coplanar rectangular patch antenna for x band applications using inset fed te...
IAEME Publication
Coplanar rectangular patch antenna for x band applications using inset fed te...
Coplanar rectangular patch antenna for x band applications using inset fed te...
IAEME Publication
Gain and Directivity Enhancement of Rectangular Microstrip Patch Antenna usin...
Gain and Directivity Enhancement of Rectangular Microstrip Patch Antenna usin...
Associate Professor in VSB Coimbatore
An ultra wideband antenna for Ku band applications
An ultra wideband antenna for Ku band applications
IJECEIAES
Paper id 27201432
Paper id 27201432
IJRAT
Ähnlich wie Simulation and analysis of slot coupled patch antenna
(20)
H shape defected ground structure dgs- embedded square patch antenna
H shape defected ground structure dgs- embedded square patch antenna
H-SHAPE DEFECTED GROUND STRUCTURE (DGS) EMBEDDED SQUARE PATCH ANTENNA
H-SHAPE DEFECTED GROUND STRUCTURE (DGS) EMBEDDED SQUARE PATCH ANTENNA
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
Compensation of dielectric cover effects on cp hexagonal microstrip antenna
Microstrip line fed stacked layer e shaped patch antenna for wlan
Microstrip line fed stacked layer e shaped patch antenna for wlan
Microstrip line fed stacked layer e shaped patch antenna for wlan
Microstrip line fed stacked layer e shaped patch antenna for wlan
40120140502013
40120140502013
Design of radiating edge gap-coupled broadband
Design of radiating edge gap-coupled broadband
Design and development of low profile, dual band microstrip antenna with enha...
Design and development of low profile, dual band microstrip antenna with enha...
Bandwidth Improvement of UWB Microstrip Antenna Using Finite Ground Plane
Bandwidth Improvement of UWB Microstrip Antenna Using Finite Ground Plane
A pattern diversity compact mimo antenna array design for wlan
A pattern diversity compact mimo antenna array design for wlan
Design and Analysis of Microstrip Antenna for CDMA Systems Communication
Design and Analysis of Microstrip Antenna for CDMA Systems Communication
Design and Analysis of Microstrip Antenna for CDMA Systems Communication
Design and Analysis of Microstrip Antenna for CDMA Systems Communication
Design of Micro strip Antenna in Ism Band with Polarization Diversity and Fre...
Design of Micro strip Antenna in Ism Band with Polarization Diversity and Fre...
Design & simulation of dual band t shaped slot micro strip antenna for c-...
Design & simulation of dual band t shaped slot micro strip antenna for c-...
Coplanar rectangular patch antenna for x band applications using inset fed te...
Coplanar rectangular patch antenna for x band applications using inset fed te...
Coplanar rectangular patch antenna for x band applications using inset fed te...
Coplanar rectangular patch antenna for x band applications using inset fed te...
Coplanar rectangular patch antenna for x band applications using inset fed te...
Coplanar rectangular patch antenna for x band applications using inset fed te...
Gain and Directivity Enhancement of Rectangular Microstrip Patch Antenna usin...
Gain and Directivity Enhancement of Rectangular Microstrip Patch Antenna usin...
An ultra wideband antenna for Ku band applications
An ultra wideband antenna for Ku band applications
Paper id 27201432
Paper id 27201432
Mehr von iaemedu
Tech transfer making it as a risk free approach in pharmaceutical and biotech in
Tech transfer making it as a risk free approach in pharmaceutical and biotech in
iaemedu
Integration of feature sets with machine learning techniques
Integration of feature sets with machine learning techniques
iaemedu
Effective broadcasting in mobile ad hoc networks using grid
Effective broadcasting in mobile ad hoc networks using grid
iaemedu
Effect of scenario environment on the performance of mane ts routing
Effect of scenario environment on the performance of mane ts routing
iaemedu
Adaptive job scheduling with load balancing for workflow application
Adaptive job scheduling with load balancing for workflow application
iaemedu
Survey on transaction reordering
Survey on transaction reordering
iaemedu
Semantic web services and its challenges
Semantic web services and its challenges
iaemedu
Website based patent information searching mechanism
Website based patent information searching mechanism
iaemedu
Revisiting the experiment on detecting of replay and message modification
Revisiting the experiment on detecting of replay and message modification
iaemedu
Prediction of customer behavior using cma
Prediction of customer behavior using cma
iaemedu
Performance analysis of manet routing protocol in presence
Performance analysis of manet routing protocol in presence
iaemedu
Performance measurement of different requirements engineering
Performance measurement of different requirements engineering
iaemedu
Mobile safety systems for automobiles
Mobile safety systems for automobiles
iaemedu
Efficient text compression using special character replacement
Efficient text compression using special character replacement
iaemedu
Agile programming a new approach
Agile programming a new approach
iaemedu
Adaptive load balancing techniques in global scale grid environment
Adaptive load balancing techniques in global scale grid environment
iaemedu
A survey on the performance of job scheduling in workflow application
A survey on the performance of job scheduling in workflow application
iaemedu
A survey of mitigating routing misbehavior in mobile ad hoc networks
A survey of mitigating routing misbehavior in mobile ad hoc networks
iaemedu
A novel approach for satellite imagery storage by classify
A novel approach for satellite imagery storage by classify
iaemedu
A self recovery approach using halftone images for medical imagery
A self recovery approach using halftone images for medical imagery
iaemedu
Mehr von iaemedu
(20)
Tech transfer making it as a risk free approach in pharmaceutical and biotech in
Tech transfer making it as a risk free approach in pharmaceutical and biotech in
Integration of feature sets with machine learning techniques
Integration of feature sets with machine learning techniques
Effective broadcasting in mobile ad hoc networks using grid
Effective broadcasting in mobile ad hoc networks using grid
Effect of scenario environment on the performance of mane ts routing
Effect of scenario environment on the performance of mane ts routing
Adaptive job scheduling with load balancing for workflow application
Adaptive job scheduling with load balancing for workflow application
Survey on transaction reordering
Survey on transaction reordering
Semantic web services and its challenges
Semantic web services and its challenges
Website based patent information searching mechanism
Website based patent information searching mechanism
Revisiting the experiment on detecting of replay and message modification
Revisiting the experiment on detecting of replay and message modification
Prediction of customer behavior using cma
Prediction of customer behavior using cma
Performance analysis of manet routing protocol in presence
Performance analysis of manet routing protocol in presence
Performance measurement of different requirements engineering
Performance measurement of different requirements engineering
Mobile safety systems for automobiles
Mobile safety systems for automobiles
Efficient text compression using special character replacement
Efficient text compression using special character replacement
Agile programming a new approach
Agile programming a new approach
Adaptive load balancing techniques in global scale grid environment
Adaptive load balancing techniques in global scale grid environment
A survey on the performance of job scheduling in workflow application
A survey on the performance of job scheduling in workflow application
A survey of mitigating routing misbehavior in mobile ad hoc networks
A survey of mitigating routing misbehavior in mobile ad hoc networks
A novel approach for satellite imagery storage by classify
A novel approach for satellite imagery storage by classify
A self recovery approach using halftone images for medical imagery
A self recovery approach using halftone images for medical imagery
Simulation and analysis of slot coupled patch antenna
1.
International Journal of
Electronics and Communication Engineering AND COMMUNICATION0976 – INTERNATIONAL JOURNAL OF ELECTRONICS & Technology (IJECET), ISSN 6464(Print), ISSN 0976 – 6472(Online) Volume& Issue 3, October- December (2012), © IAEME ENGINEERING 3, TECHNOLOGY (IJECET) ISSN 0976 – 6464(Print) ISSN 0976 – 6472(Online) Volume 3, Issue 3, October- December (2012), pp. 01-07 IJECET © IAEME: www.iaeme.com/ijecet.html Journal Impact Factor (2012): 3.5930 (Calculated by GISI) ©IAEME www.jifactor.com SIMULATION AND ANALYSIS OF SLOT-COUPLED PATCH ANTENNA AT DIFFERENT FREQUENCIES USING HFSS Tauheed Qamar1, Naseem Halder2, Mohd. Gulman Siddiqui3, Vishal Varshney4 1,2,,3,4 (Department of Electronics and Communication Engineering Amity School of Engineering And Technology, Amity University, Noida, U.p, India 1 (muhammadtauheed20@gmail.com), 2(naseem.halder@yahoo.in), 3 (mohdgulman@gmail.com ) ,4(vishal.amity08@yahoo.co.in ) ABSTRACT Microstrip patch antennas are well suited for integration in too many applications owing to their conformal nature. There are many wide banding techniques used for the MSAs. But many wide banding techniques such as using slots in the patch require an inductive coupled feed. Aperture coupled feed which makes use of thick antenna substrates is the most convenient as it has only single ground plane. Apart from this aperture coupling provides a greater radiation pattern symmetry and greater ease of design for higher impedance band width owing to a large number of design parameters. In this type of feed by using multiple patches bandwidths up to 70% are reported. This paper presents a slot coupled microstrip antenna with a rectangular patch which is located on top of two slots on the ground plane. The patch and slots are separated by an air gap and a material with low dielectric constant. The reduction in return loss is achieved as we moved to the higher frequencies. The operational frequencies are taken as from 3 GHz to 5 GHz. The comparison of s parameter plot and radiation pattern plot is done in order to achieve a better design in terms of low return loss, improved radiation pattern etc. Keywords – Air gap, Aperture coupled, High bandwidth, MSA, Radiation pattern, Return loss & S-parameter. I. INTRODUCTION Microstrip antennas have several advantages like: low cost, easy fabrication and light weight. But they suffer from disadvantages like low gain and narrow impedance bandwidth [1-5]. In high-performance aircraft, spacecraft, satellite, and missile applications, where size, weight, cost, 1
2.
International Journal of
Electronics and Communication Engineering & Technology (IJECET), ISSN 0976 – 6464(Print), ISSN 0976 – 6472(Online) Volume 3, Issue 3, October- December (2012), © IAEME performance, ease of installation, and aerodynamic profile are constraints, and low-profile antennas may be required. Presently there are many other government and commercial applications, such as mobile radio and wireless communications that have similar specifications. To meet these requirements, microstrip antennas can be used [7]. These antennas are low profile, conformable to planar and non planar surfaces, simple and inexpensive to manufacture using modern printed-circuit technology, mechanically robust when mounted on rigid surfaces, compatible with MMIC designs, and when the particular patch shape and mode are selected, they are very versatile in terms of resonant frequency, polarization, pattern, and impedance [6]. In addition, by adding loads between the patch and the ground plane, such as pins and varactor diodes, adaptive elements with variable resonant frequency, impedance, polarization, and pattern can be designed. Major operational disadvantages of microstrip antennas are their low efficiency, low power, high Q (sometimes in excess of 100), poor polarization purity, poor scan performance, spurious feed radiation and very narrow frequency bandwidth, which is typically only a fraction of a percent or at most a few percent. In some applications, such as in government security systems, narrow bandwidths are desirable [7]. However, there are methods, such as increasing the height of the substrate that can be used to extend the efficiency (to as large as 90 percent if surface waves are not included) and bandwidth (up to about 35 percent). However, as the height increases, surface waves are introduced which usually are not desirable because they extract power from the total available for direct radiation (space waves). The surface waves travel within the substrate and they are scattered at bends and surface discontinuities, such as the truncation of the dielectric and ground plane [8 & 13], and degrade the antenna pattern and polarization characteristics. Surface waves can be eliminated, while maintaining large bandwidths, by using cavities. Stacking, as well as other methods, of microstrip elements can also be used to increase the bandwidth. In addition, microstrip antennas also exhibit large electromagnetic signatures at certain frequencies outside the operating band, are rather large physically at VHF and possibly UHF frequencies, and in large arrays there is a trade-off between bandwidth and scan volume. In order to achieve the higher bandwidth with improved radiation efficiency and reduced return loss, slot couple patch antenna is design in such a manner that it can easily overcome these problems [10]. II. RESEARCH METHODOLOGY The research methodology inculcates the designing of the slot couple patch antenna. This designed antenna structure is fed by using single coaxial probe feed. After feeding the antenna structure these designed antennas are further simulated over HFSS simulation software, a FET based simulation software. These simulations are continued till an optimum result is obtained. III. INDENTATIONS AND EQUATIONS (ANTENNA DESIGN): Because of the fringing effects, electrically the patch of the microstrip antenna looks greater than its physical dimensions. For the principal E-plane (xy-plane), this is demonstrated in Figure 1.1 where the dimensions of the patch along its length have been extended on each end by 2
3.
International Journal of
Electronics and Communication Engineering & Technology (IJECET), ISSN 0976 – 6464(Print), ISSN 0976 – 6472(Online) Volume 3, Issue 3, October- December (2012), © IAEME a distance ∆L, which is a function of the effective dielectric constant εreff and the width-to-height ratio (W/h). ∆L ∆L L W Figure: 1.1 Physical and effective lengths of rectangular microstrip patch. A very popular and practical approximate relation for the normalized extension of the length is given by the following expression: ∆L/h = 0.412 {(εreff+0.3)[(W/h)+0.264]/ (εreff+0.3)[(W/h)+0.264]}…….(1) Since the length of the patch has been extended by ∆L on each side, the effective length of the patch is now (L = λ/2 for dominant TM010 mode with no fringing) Leffe = L+2∆L……………………………………………..(2) Based on the simplified formulation that has been described, a design procedure is outlined which leads to practical designs of rectangular microstrip antennas. The procedure assumes that the specified information includes the dielectric constant of the substrate (εr), the resonant frequency (fr), and the height of the substrate h. The procedure is as follows: Specify: εr, fr (in Hz), and h. Determine: W, L Design Equations: 1. For an efficient radiator, a practical width that leads to good radiation efficiencies is W = ( 1/(2frඥߤ ߝ )ඥ2/(ߝ + 1) = (ݒ /2݂ ) ඥ2/(ߝ + 1) ............................(3) Where vo is the free-space velocity of light. 3
4.
International Journal of
Electronics and Communication Engineering & Technology (IJECET), ISSN 0976 – 6464(Print), ISSN 0976 – 6472(Online) Volume 3, Issue 3, October- December (2012), © IAEME 2. Determine the effective dielectric constant of the microstrip antenna. 3. Once W is found using, determine the extension of the length ∆L. 4. The actual length of the patch can now be determined by solving for L. ଵ ଶ L= – 2 ∆L……………………………………………………(4) ೝටഄೝ ඥഋబ ഄబ IV. STRUCTURE OF ANTENNA Figure 1.2 shows an antenna structure with a rectangular patch which is excited through two slots on the ground plane. The patch and ground plane are separated with a material (D3) with a relative permittivity of 2.2, and an air gap (D2). D1 and D3 are made from the same material with the same thickness. There is a 50 feed line which is divided into two 100 feed lines with different lengths under the first dielectric layer under the first dielectric layer (D1). Fig: 1.2 structure of slot coupled patch antenna 4
5.
International Journal of
Electronics and Communication Engineering & Technology (IJECET), ISSN 0976 – 6464(Print), ISSN 0976 – 6472(Online) Volume 3, Issue 3, October- December (2012), © IAEME V. Figures and Tables (RESULT) Fig: 1.3 Radiation pattern at freq 2.25 GHz Fig: 1.4 Radiation pattern at freq 3.25 GHz Fig: 1.5 Radiation pattern at freq 4.5 GHz Fig: 1.6 Return loss at freq 2.25 GHz 5
6.
International Journal of
Electronics and Communication Engineering & Technology (IJECET), ISSN 0976 – 6464(Print), ISSN 0976 – 6472(Online) Volume 3, Issue 3, October- December (2012), © IAEME Fig: 1.7 Return loss at freq 3.25 GHz Fig: 1.8 Return loss at freq 4.5 GHz VI. CONCLUSION This paper presents a slot coupled patch antenna simulated at different frequencies from 2.25 GHz to 4.5 GHz as shown in figures 1.3-1.8 where fig 1.3-fig 1.5 represents the radiation pattern of the antenna at 2.25,3.25 and 4.5 GHz respectively. Fig 1.6 to fig 1.8 represents return loss characteristics of the antenna at these three frequencies respectively. The patch and the ground plane are separated by a material with low dielectric constant Rogers RT/duroid 5880 and an air gap. In the first case at operating frequency 2.25 GHz the S11 versus frequency plot we can clearly see that there is one resonance. The bandwidth is seen to be increased from 2.2625 GHz to 2.3 GHz thus yielding 37.5 MHz bandwidth amounting to 1.630% bandwidth increase at 2.25 GHz operating frequency. In the second case at operating frequency 3.5 GHz we can see that bandwidth is seen to be increased from 2.18 GHz to 2.23 GHz. Hence there is an increase in the bandwidth which is 50 MHz in this case and it is greater than the first case. Also we can see that the return loss is less in second case as compared to the first case. Also we can see that the radiation pattern is better in first case with almost no side lobes. Hence there is a tradeoff between bandwidth increase and radiation pattern as we move from lower frequency to higher frequency. In the third case that is at operating frequency 4.5 GHz we can see that bandwidth is seen to be increased from 2.17 GHz to 2.25 GHz. Hence there is an increase in the bandwidth which is 80 MHz in this case and it is greater than both the first as well as second case. Also we can see that radiation pattern get worsen as we move to higher frequencies. 6
7.
International Journal of
Electronics and Communication Engineering & Technology (IJECET), ISSN 0976 – 6464(Print), ISSN 0976 – 6472(Online) Volume 3, Issue 3, October- December (2012), © IAEME Hence I would like to conclude that there is a tradeoff between frequency of operation and increase in bandwidth and radiation loss. Bandwidth achieved at higher frequencies is high but the problem is that the radiation loss is also high at higher frequencies. The structure designed was only a single cavity structure but to increase the bandwidth further increase the number of resonant cavities in the structure which leads to other wide banding techniques such as design with stacked patches, slots on ground plane. REFERENCES 1. Ghassemi, N., M. H. Neshati, and J. Rashed-Mohassel, “Investigation of multilayer probe-fed microstrip antenna for ultra wideband operation,” Proceeding of Asia Pacific Microwave Conference (APMC 2007), 2135–2138, Bangkok, Thailand, Dec. 11–14, 2007. 2.Milligan, T. A., Modern Antenna Design, John Wiley & Sons, Hoboken, New Jersey, 2005. 3. Kumar, G. and K. P. Ray, Broadband Microstrip Antennas, Artech House, USA, 2003. 4.Wong, K. L., Compact and Broadband Microstrip Antenna, John Wiley & Sones, New York, 2002. 5. Garg, R., P. Bhartia, I. Bahl, and A. Ittipiboon, Microstrip Antenna Design Handbook, Artech House, Boston, London, 2001. 6. M. P. Purchine and J. T. Aberle, “A Tunable L-Band Circular Microstrip Patch Antenna,” Microwave Journal, pp. 80, 84, 87, and 88, October 1994. 7.D. M. Pozar, “Microstrip Antennas,” Proc. IEEE, Vol. 80, No. 1, pp. 79–81, January 1992. 8. S. B. De Assis Fonseca and A. J. Giarola, “Microstrip Disk Antennas, Part I: Efficiency of Space Wave Launching,” IEEE Trans. Antennas Propagat., Vol. AP-32, No. 6, pp. 561–567, June 1984. 9. S. B. De Assis Fonseca and A. J. Giarola, “Microstrip Disk Antennas, Part II: the Problem of Surface Wave Radiation by Dielectric Truncation,” IEEE Trans. Antennas Propagat., Vol. AP- 32, No. 6, pp. 568–573, June 1984. 10. D. M. Pozar and D. H. Schaubert, “Scan Blindness in Infinite Phased Arrays of Printed Dipoles,” IEEE Trans. Antennas Propagat., Vol. AP-32, No. 6, pp. 602–610, June 1984. 11. C. M. Krowne, “Cylindrical-Rectangular Microstrip Antenna,” IEEE Trans. Antennas Propagat., Vol. AP-31, No. 1, pp. 194–199, January 1983 12. J. Huang, “The Finite Ground Plane Effect on the Microstrip Antenna Radiation Patterns,” IEEE Trans. Antennas Propagat., Vol. AP-31, No. 7, pp. 649–653, July 1983. 13. I. Lier and K. R. Jakobsen, “Rectangular Microstrip Patch Antennas with Infinite and Finite Ground-Plane Dimensions,” IEEE Trans. Antennas Propagat., Vol. AP-31, No. 6, pp. 978–984, November 1983. 7
Jetzt herunterladen