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ISSN: 2278 – 1323
International Journal of Advanced Research in Computer Engineering & Technology (IJARCET)
Volume 2, Issue 7, July 2013
2302
www.ijarcet.org
Design & Analysis Of An Inverted-T Shaped
Antenna With DGS For Wireless
Communication
Arun Singh Kirar¹ & Dr. P. K. Singhal²
Department of Electronics, MITS, Gwalior, India
Abstract- A new and unique methodology for designing
a compact micro strip patch antenna for lower
microwave frequencies is proposed. A very Compact
inverted-T shaped micro strip patch antenna with DGS
(Defected Ground Structure) is designed and analyzed
for S-BAND wireless communication. The resonance
frequency of the designed antenna is decreased step by
step to obtain low microwave frequency applications.
By putting little variations in the ground plane five
bands are obtained at 3.5GHZ, 2.7GHZ, 2.4/2.5GHz,
2.36GHZ and 2.2GHZ. The proposed antenna has a low
profile and can easily be fed by using a 50 Ω micro strip
line. The designing has been done in IE3D software
which is an EM solver and works on the principle of
moments of method.
Keywords- DGS, IE3D Software, VSWR, Return Loss,
Bandwidth
INTRODUCTION
Micro strip antennas are attractive due to their light
weight, conformability and low cost. These antennas
can be integrated with printed strip-line feed
networks and active devices [1]. This is a relatively
new area of antenna engineering.
In response to the increasing demand for compact
and easily fabricated antennas for use in various
wireless communication systems, several T-shaped
antennas have been developed over the past decade
[2–7]
In this research paper a compact micro strip
inverted-T shaped patch antenna is designed and
analyzed with Inverted-T shaped DGS for wireless
communication system.
ANTENNA DESIGN
In this design of a compact inverted-T shaped micro
strip patch antenna, FR4 dielectric material (εr = 4.4)
with dielectric loss tangent of 0.02 is selected as the
substrate with 1.6 mm height. Inset feeding is used
as a feeding method.
The design parameters are given in Table1.Using
these parameters antenna is designed and simulated
in IE3D simulator.[8-9].
The geometry of the designed antenna is shown in
Fig.1 and the simulated results are shown in fig.2.and
fig.3. This antenna has shown -20.03 dB return loss
and bandwidth of 80.22MHZ at 3.5GHz resonant
frequency. At this frequency antenna radiate
maximum transmitted power and reflects minimum
power.The value of VSWR at this resonant frequency
is 1.18. This antenna can be used for 3.5 GHz
WiMAX application.
TABLE 1: DESIGN PARAMETER OF INVERTED-T SHAPED
MICROSTRIP PATCH ANTENNA FOR 3.5 GHZ
Width of vertical Arm
4mm
Length of vertical Arm 12mm
Width of horizontal Arm
4mm
Length of horizontal Arm 8mm
Input Resistance of Patch
50Ω
Inset Depth of Patch(D₀)
0.5 mm
Inset width of patch
3mm
Width of microstrip line(W₀)
2mm
Length of microstrip line(L₀)
15mm
ISSN: 2278 – 1323
International Journal of Advanced Research in Computer Engineering & Technology (IJARCET)
Volume 2, Issue 7, July 2013
2303
www.ijarcet.org
Fig. 1: Inverted-T shaped Microstrip Antenna
Fig. 2: Variation between Return Loss and Frequency
Fig. 3: Variation between VSWR and Frequency
In this paper ,this patch antenna is used as a
reference antenna to design other antennas having the
same patch but different ground structure and
resonant frequencies. At these resonance frequencies
antenna parameters Bandwidth, VSWR and Return
loss is measured and analyzed.
MODIFICATION OF GROUND STRUCTURE
The patch antenna designed above and all its
parameters are remain same, only the ground of the
antenna is modified.
An inverted-T shaped ground is introduced and
modified to obtain following resonance frequencies.
A . Patch With Ground 1.
A inverted –T shape ground is introduced with
parameters given in table 2. The geometry of the
designed antenna is shown in Fig.4 and the simulated
results are shown in fig.5.and fig.6. This antenna has
shown -31.64 dB return loss and bandwidth of 313.2
MHZ at 2.71GHz resonant frequency. At this
frequency the value of VSWR is 1.054.
TABLE 2: DESIGN PARAMETER OF INVERTED-T SHAPED
GROUND 1.
Width of vertical Arm
4mm
Length of vertical Arm 16mm
Width of horizontal Arm
6mm
Length of horizontal Arm 12mm
Fig. 4:Patch with Inverted-T shaped ground 1.
Fig. 5: Variation between Return Loss and Frequency for patch
with ground 1.
ISSN: 2278 – 1323
International Journal of Advanced Research in Computer Engineering & Technology (IJARCET)
Volume 2, Issue 7, July 2013
2304
www.ijarcet.org
Fig. 6: Variation between VSWR and Frequency for patch with
ground 1
Fig. 7:Patch with Inverted-T shaped ground 2.(a) Top view (b)
ground view(bottom view)
Fig. 8: Variation between Return Loss and Frequency for patch
with ground 2
Fig. 9: Variation between VSWR and Frequency for patch with
ground 2
B. Patch with ground 2
The parameters of the inverted-T shaped ground is
given in the table 3. A rectangular slot of 10 mm X
2mm is introduced in the ground. The geometry of
the designed antenna is shown in Fig.7 and the
simulated results are shown in fig.8.and fig.9. This
antenna has shown -13.88 dB return loss and
bandwidth of 291.1 MHZ at 2.4GHz resonant
frequency. At this frequency the value of VSWR is
1.51. This antenna is suitable for use in ISM band,
2.4GHzWLAN/2.5GHz WiMAX.
TABLE 3 : DESIGN PARAMETER OF INVERTED-T SHAPED
GROUND 2.
Width of vertical Arm
4mm
Length of vertical Arm 22mm
Width of horizontal Arm
4mm
Length of horizontal Arm 12mm
C. Patch with ground 3
The parameters for this ground structure are remain
same as for ground 2 structure, these parameters are
given in the table 3. A narrow rectangular slot of 12
mm X 1mm is introduced in the ground. The
geometry of the designed antenna is shown in Fig.10
and the simulated results are shown in fig.11.and
fig.10. This antenna has shown -36.93 dB return loss
and bandwidth of 116.13 MHZ at 2.36GHz resonant
frequency. At this frequency the value of VSWR is
1.02.This antenna can be used for DARS application.
ISSN: 2278 – 1323
International Journal of Advanced Research in Computer Engineering & Technology (IJARCET)
Volume 2, Issue 7, July 2013
2305
www.ijarcet.org
Fig. 10:Patch with Inverted-T shaped ground 3.(a) Top view (b)
ground view(bottom view)
Fig. 11: Variation between Return Loss and Frequency for patch
with ground 3
Fig. 12: Variation between VSWR and Frequency for patch with
ground 3.
D. Patch with ground 4
The design parameters of the inverted-T shaped
ground is given in the table 4. Two rectangular slot of
18 mm X 2mm and 6mm X 1mm is introduced in the
ground. The geometry of the designed antenna is
shown in Fig.13 and the simulated results are shown
in fig.14.and fig.15. This antenna has shown -34.29
dB return loss and bandwidth of 137.1 MHZ at
2.21GHz resonant frequency. At this frequency the
value of VSWR is 1.03.
TABLE 4 : DESIGN PARAMETER OF INVERTED-T SHAPED
GROUND 4.
Width of vertical Arm
4mm
Length of vertical Arm 22mm
Width of horizontal Arm
4mm
Length of horizontal Arm 12mm
Fig. 13: Patch with Inverted-T shaped ground 4.(a) Top view (b)
ground view(bottom view)
ISSN: 2278 – 1323
International Journal of Advanced Research in Computer Engineering & Technology (IJARCET)
Volume 2, Issue 7, July 2013
2306
www.ijarcet.org
Fig. 14: Variation between Return Loss and Frequency for patch
with ground
Fig. 15: Variation between VSWR and Frequency for patch with
ground 4
RESULT AND DISCUSSION
TABLE 5 : COMPARISON OF INVESTIGATED ANTENNA
PARAMETERS.
A compact inverted-T shaped patch is designed for
3.5 GHz . This patch is analyzed with a inverted-T
shaped ground structure. It is found that by varying
the length of vertical arm, width of horizontal arm
and cutting rectangular slots on the inverted-T
shaped ground the resonance frequency decreases. A
different resonance frequency is obtained for
different ground structure. At these resonance
frequencies antenna parameters Return Loss,
Bandwidth and VSWR are measured and compared.
Investigated results of return loss,VSWR and
bandwidth for patch with different ground structure
are shown in Table 5.
CONCLUSION
The size of the antenna is increases as the resonance
frequency decreases thus designing a compact
antenna for low microwave frequency is a
challenging topic. In this research paper a antenna is
designed at higher resonance frequency to obtain
compact geometry then Ground plane is modified to
obtain lower resonance frequencies. The Return Loss,
Bandwidth and VSWR is measured and compared at
these resonance frequencies. These antenna
parameters are found suitable for an antenna to be
used for wireless communication.
REFERENCES
1. C.A. Balanis, Antenna Theory, 2nd Ed., John wily &
sons, inc., New York.1982
2. Yen-Liang Kuo and Kin-Lu Wong “Printed Double-T
Monopole Antenna for 2.4/5.2 GHz Dual-Band WLAN
Operations”IEEE transactions on antennas and
propagation, vol. 51, no. 9, september 2003
3. R.B. Hwang “A broadband CPW-fed T-shaped antenna
for wireless communications” IEE Proc.-Microw.
Antennas Propag., Vol. 151, No. 6, December 2004
4. X. N. Qiu, H. M. Chiu and A. S. Mohan “Dual Band
CPW-Fed Printed T-Shaped Planar Antenna” IEEE
International Symposium on Microwave, Antenna,
Propagation and EMC Technologies for Wireless
Communications Proceedings” 2005
5. Sheng-Bing Chen, Yong-Chang Jiao, Wei Wang, and
Fu-Shun Zhang “Modified T-Shaped Plana
MonopoleAntennas for Multiband Operation” IEEE
transactions on microwave theory and techniques, vol.
54, no. 8, august 2006.
6. Kai-Cheng Yang, Wen-Shan Chen and Yen-Hao Yu
“Design of a WiMAX T-type monopole antenna with
asymmetrical ground plane” IEEE 978-1-4244-2042-
1/08-IEEE 2008
7. Yang Gao, Zhenghe Feng, and Li Zhang “Compact
Asymmetrical T-Shaped Dielectric Resonator Antenna
for Broadband Applications” IEEE transactions on
antennas and propagation, vol. 60, no. 3, march 2012
8. Zeland Software Inc., IE3D Electromagnetic
Simulation and Optimization Package, Version 9.35,
Fremont, CA, 2003
9. Rodney B. Microstrip Patch Antennas: A Designers
Guide, Waterhouse, 1999.
Resonance
Frequency
(GHz)
Return
Loss
(dB)
Bandwidth
(MHz)
VSWR
Refrence
patch
3.5 -20.03 80.22 1.18
Patch with
ground 1
2.71 -31.64 313.2 1.054
Patch with
ground 2
2.4 -13.88 291.1 1.51
Patch with
ground 3
2.36 -36.88 116.13 1.02
Patch with
ground 4
2.21 -34.39 137.1 1.03

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Ijarcet vol-2-issue-7-2302-2306

  • 1. ISSN: 2278 – 1323 International Journal of Advanced Research in Computer Engineering & Technology (IJARCET) Volume 2, Issue 7, July 2013 2302 www.ijarcet.org Design & Analysis Of An Inverted-T Shaped Antenna With DGS For Wireless Communication Arun Singh Kirar¹ & Dr. P. K. Singhal² Department of Electronics, MITS, Gwalior, India Abstract- A new and unique methodology for designing a compact micro strip patch antenna for lower microwave frequencies is proposed. A very Compact inverted-T shaped micro strip patch antenna with DGS (Defected Ground Structure) is designed and analyzed for S-BAND wireless communication. The resonance frequency of the designed antenna is decreased step by step to obtain low microwave frequency applications. By putting little variations in the ground plane five bands are obtained at 3.5GHZ, 2.7GHZ, 2.4/2.5GHz, 2.36GHZ and 2.2GHZ. The proposed antenna has a low profile and can easily be fed by using a 50 Ω micro strip line. The designing has been done in IE3D software which is an EM solver and works on the principle of moments of method. Keywords- DGS, IE3D Software, VSWR, Return Loss, Bandwidth INTRODUCTION Micro strip antennas are attractive due to their light weight, conformability and low cost. These antennas can be integrated with printed strip-line feed networks and active devices [1]. This is a relatively new area of antenna engineering. In response to the increasing demand for compact and easily fabricated antennas for use in various wireless communication systems, several T-shaped antennas have been developed over the past decade [2–7] In this research paper a compact micro strip inverted-T shaped patch antenna is designed and analyzed with Inverted-T shaped DGS for wireless communication system. ANTENNA DESIGN In this design of a compact inverted-T shaped micro strip patch antenna, FR4 dielectric material (εr = 4.4) with dielectric loss tangent of 0.02 is selected as the substrate with 1.6 mm height. Inset feeding is used as a feeding method. The design parameters are given in Table1.Using these parameters antenna is designed and simulated in IE3D simulator.[8-9]. The geometry of the designed antenna is shown in Fig.1 and the simulated results are shown in fig.2.and fig.3. This antenna has shown -20.03 dB return loss and bandwidth of 80.22MHZ at 3.5GHz resonant frequency. At this frequency antenna radiate maximum transmitted power and reflects minimum power.The value of VSWR at this resonant frequency is 1.18. This antenna can be used for 3.5 GHz WiMAX application. TABLE 1: DESIGN PARAMETER OF INVERTED-T SHAPED MICROSTRIP PATCH ANTENNA FOR 3.5 GHZ Width of vertical Arm 4mm Length of vertical Arm 12mm Width of horizontal Arm 4mm Length of horizontal Arm 8mm Input Resistance of Patch 50Ω Inset Depth of Patch(D₀) 0.5 mm Inset width of patch 3mm Width of microstrip line(W₀) 2mm Length of microstrip line(L₀) 15mm
  • 2. ISSN: 2278 – 1323 International Journal of Advanced Research in Computer Engineering & Technology (IJARCET) Volume 2, Issue 7, July 2013 2303 www.ijarcet.org Fig. 1: Inverted-T shaped Microstrip Antenna Fig. 2: Variation between Return Loss and Frequency Fig. 3: Variation between VSWR and Frequency In this paper ,this patch antenna is used as a reference antenna to design other antennas having the same patch but different ground structure and resonant frequencies. At these resonance frequencies antenna parameters Bandwidth, VSWR and Return loss is measured and analyzed. MODIFICATION OF GROUND STRUCTURE The patch antenna designed above and all its parameters are remain same, only the ground of the antenna is modified. An inverted-T shaped ground is introduced and modified to obtain following resonance frequencies. A . Patch With Ground 1. A inverted –T shape ground is introduced with parameters given in table 2. The geometry of the designed antenna is shown in Fig.4 and the simulated results are shown in fig.5.and fig.6. This antenna has shown -31.64 dB return loss and bandwidth of 313.2 MHZ at 2.71GHz resonant frequency. At this frequency the value of VSWR is 1.054. TABLE 2: DESIGN PARAMETER OF INVERTED-T SHAPED GROUND 1. Width of vertical Arm 4mm Length of vertical Arm 16mm Width of horizontal Arm 6mm Length of horizontal Arm 12mm Fig. 4:Patch with Inverted-T shaped ground 1. Fig. 5: Variation between Return Loss and Frequency for patch with ground 1.
  • 3. ISSN: 2278 – 1323 International Journal of Advanced Research in Computer Engineering & Technology (IJARCET) Volume 2, Issue 7, July 2013 2304 www.ijarcet.org Fig. 6: Variation between VSWR and Frequency for patch with ground 1 Fig. 7:Patch with Inverted-T shaped ground 2.(a) Top view (b) ground view(bottom view) Fig. 8: Variation between Return Loss and Frequency for patch with ground 2 Fig. 9: Variation between VSWR and Frequency for patch with ground 2 B. Patch with ground 2 The parameters of the inverted-T shaped ground is given in the table 3. A rectangular slot of 10 mm X 2mm is introduced in the ground. The geometry of the designed antenna is shown in Fig.7 and the simulated results are shown in fig.8.and fig.9. This antenna has shown -13.88 dB return loss and bandwidth of 291.1 MHZ at 2.4GHz resonant frequency. At this frequency the value of VSWR is 1.51. This antenna is suitable for use in ISM band, 2.4GHzWLAN/2.5GHz WiMAX. TABLE 3 : DESIGN PARAMETER OF INVERTED-T SHAPED GROUND 2. Width of vertical Arm 4mm Length of vertical Arm 22mm Width of horizontal Arm 4mm Length of horizontal Arm 12mm C. Patch with ground 3 The parameters for this ground structure are remain same as for ground 2 structure, these parameters are given in the table 3. A narrow rectangular slot of 12 mm X 1mm is introduced in the ground. The geometry of the designed antenna is shown in Fig.10 and the simulated results are shown in fig.11.and fig.10. This antenna has shown -36.93 dB return loss and bandwidth of 116.13 MHZ at 2.36GHz resonant frequency. At this frequency the value of VSWR is 1.02.This antenna can be used for DARS application.
  • 4. ISSN: 2278 – 1323 International Journal of Advanced Research in Computer Engineering & Technology (IJARCET) Volume 2, Issue 7, July 2013 2305 www.ijarcet.org Fig. 10:Patch with Inverted-T shaped ground 3.(a) Top view (b) ground view(bottom view) Fig. 11: Variation between Return Loss and Frequency for patch with ground 3 Fig. 12: Variation between VSWR and Frequency for patch with ground 3. D. Patch with ground 4 The design parameters of the inverted-T shaped ground is given in the table 4. Two rectangular slot of 18 mm X 2mm and 6mm X 1mm is introduced in the ground. The geometry of the designed antenna is shown in Fig.13 and the simulated results are shown in fig.14.and fig.15. This antenna has shown -34.29 dB return loss and bandwidth of 137.1 MHZ at 2.21GHz resonant frequency. At this frequency the value of VSWR is 1.03. TABLE 4 : DESIGN PARAMETER OF INVERTED-T SHAPED GROUND 4. Width of vertical Arm 4mm Length of vertical Arm 22mm Width of horizontal Arm 4mm Length of horizontal Arm 12mm Fig. 13: Patch with Inverted-T shaped ground 4.(a) Top view (b) ground view(bottom view)
  • 5. ISSN: 2278 – 1323 International Journal of Advanced Research in Computer Engineering & Technology (IJARCET) Volume 2, Issue 7, July 2013 2306 www.ijarcet.org Fig. 14: Variation between Return Loss and Frequency for patch with ground Fig. 15: Variation between VSWR and Frequency for patch with ground 4 RESULT AND DISCUSSION TABLE 5 : COMPARISON OF INVESTIGATED ANTENNA PARAMETERS. A compact inverted-T shaped patch is designed for 3.5 GHz . This patch is analyzed with a inverted-T shaped ground structure. It is found that by varying the length of vertical arm, width of horizontal arm and cutting rectangular slots on the inverted-T shaped ground the resonance frequency decreases. A different resonance frequency is obtained for different ground structure. At these resonance frequencies antenna parameters Return Loss, Bandwidth and VSWR are measured and compared. Investigated results of return loss,VSWR and bandwidth for patch with different ground structure are shown in Table 5. CONCLUSION The size of the antenna is increases as the resonance frequency decreases thus designing a compact antenna for low microwave frequency is a challenging topic. In this research paper a antenna is designed at higher resonance frequency to obtain compact geometry then Ground plane is modified to obtain lower resonance frequencies. The Return Loss, Bandwidth and VSWR is measured and compared at these resonance frequencies. These antenna parameters are found suitable for an antenna to be used for wireless communication. REFERENCES 1. C.A. Balanis, Antenna Theory, 2nd Ed., John wily & sons, inc., New York.1982 2. Yen-Liang Kuo and Kin-Lu Wong “Printed Double-T Monopole Antenna for 2.4/5.2 GHz Dual-Band WLAN Operations”IEEE transactions on antennas and propagation, vol. 51, no. 9, september 2003 3. R.B. Hwang “A broadband CPW-fed T-shaped antenna for wireless communications” IEE Proc.-Microw. Antennas Propag., Vol. 151, No. 6, December 2004 4. X. N. Qiu, H. M. Chiu and A. S. Mohan “Dual Band CPW-Fed Printed T-Shaped Planar Antenna” IEEE International Symposium on Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications Proceedings” 2005 5. Sheng-Bing Chen, Yong-Chang Jiao, Wei Wang, and Fu-Shun Zhang “Modified T-Shaped Plana MonopoleAntennas for Multiband Operation” IEEE transactions on microwave theory and techniques, vol. 54, no. 8, august 2006. 6. Kai-Cheng Yang, Wen-Shan Chen and Yen-Hao Yu “Design of a WiMAX T-type monopole antenna with asymmetrical ground plane” IEEE 978-1-4244-2042- 1/08-IEEE 2008 7. Yang Gao, Zhenghe Feng, and Li Zhang “Compact Asymmetrical T-Shaped Dielectric Resonator Antenna for Broadband Applications” IEEE transactions on antennas and propagation, vol. 60, no. 3, march 2012 8. Zeland Software Inc., IE3D Electromagnetic Simulation and Optimization Package, Version 9.35, Fremont, CA, 2003 9. Rodney B. Microstrip Patch Antennas: A Designers Guide, Waterhouse, 1999. Resonance Frequency (GHz) Return Loss (dB) Bandwidth (MHz) VSWR Refrence patch 3.5 -20.03 80.22 1.18 Patch with ground 1 2.71 -31.64 313.2 1.054 Patch with ground 2 2.4 -13.88 291.1 1.51 Patch with ground 3 2.36 -36.88 116.13 1.02 Patch with ground 4 2.21 -34.39 137.1 1.03