Buradasınız

Anasayfa » Content

New slotting technique of making compact octagonal patch for four band applications

Journal Name:

  • International Journal of Innovation and Applied Studies

Publication Year:

  • 2013

Key Words:

Author NameUniversity of Author
Abstract (2. Language): 
An improved but simple four band octagonal patch with new slotting technique of making a compact patch antenna is presented, which is suitable for C-band, X-band, Ku-band and K-band applications. This compact microstrip antenna realized by changing the geometric shape, obtained by inserting small circular slots in a new way. The simulation has been performed by simulation software GEMS version 7.71.01 and using Taconic TLY-5 dielectric substrate with relative permittivity 2.2 and height 1.588mm. The simulated return losses are obtained -16.50dB, -17.25dB, -39.22dB and -30.75dB at 7.49GHz, 10.89GHz, 15.70GHz and 20.10GHz respectively. Therefore, this antenna can be applicable for C-band, X-band, Kuband and K-band applications respectively.
Bookmark/Search this post with
FULL TEXT (PDF): 
PDF icon ijias-13-084-08.pdf
  • 1
221-227
  • English

REFERENCES

References: 

[2] J. George, K. Vasudeban, P. Mohanan and K.G. Nair, “Dual frequency miniature antenna,” IEE Electronics Letters, Vol.34,
No.12 , pp. 1168-1170, 11th June 1998.
[3] Gi-cho Kang, Hak-young Lee, Jong-kyu Kim, Myun-joo Park,”Ku-band High Efficiency Antenna with Corporate-Series-Fed
Microstrip Array,” IEEE Antennas and Propagation Society International Symposium, 2003.
[4] T. F. Lai, Wan Nor Liza Mahadi, Norhayatision, “Circular Patch Microstrip Array Antenna for KU-band,” World Academy
of Science, Engineering and Technology, vol. 48, pp. 298-302, 2008.
[5] K. Shambavi, C. Z. Alex, T. N. P. Krishna, “Design and Analysis of High Gain Milimeter Wave Microstrip Antenna Array for
Analysis of High Gain Millimeter Wave Microstrip Antenna Array for Wireless Application,” Journal of Applied
Theoretical and Information Technology (JATIT), 2009.
[6] Asghar Keshtkar, Ahmed Keshtkar and A. R. Dastkhosh, “Circular Microstrip Patch Array Antenna for C-Band Altimeter
System,” International Journal of Antenna and Propagation, article ID 389418, doi:10.1155/2008/389418, November,
2007.
[7] M. F. Islam, M. A. Mohd. Ali, B. Y. Majlis and N. Misran, “Dual Band Microstrip Patch Antenna for Sar Applications,”
Australian Journal of Basic and Applied Sciences, 4(10): 4585- 4591, 2010.
[8] Rod waterhouse, planar Inverted-F antenna, chapter 7, Printed Antenna for wireless Communications, John Wiley &
Sons, Ltd, 2007, ISBN: 978-0-470-51069-8.
[9] H.F. Abu Tarbous, R.Nalavalan, H. S. Al-Raweshidy and D. Budimir “Design of Planar Inverted-F Antennas (PIFA) for
Multiband Wireless Applications,” International Conference in Electromagnetic in Advanced Application, pp. 78 – 81,
Turin, Italy, September 2009.
[10] http://www.telecomabc.com/m/microwave-band.html
[11] Cheng-Chi Hu, Christina F. Jou, Cheng-Chi Hu, “An aperture-coupled linear microstrip leaky-wave antenna array with
two-dimensional dual-beam scanning capability,” IEEE Transactions on Antennas and Propagation, Vol.48 , Issue.6, pp.
909 – 913, Jun 2000.
[12] R. Garg, P. Bhartia, I. Bahl, A. Ittipiboon, “Microstrip Antenna Design Handbook,” Artech House inc.,2001.
[13] Md. Tanvir Ishtaique-ul Huque, Md. Kamal Hosain, Md. Shihabul Islam, Md. Al-Amin Chowdhury, “Design and
Performance Analysis of Microstrip Array Antennas with Optimum Parameters for X-band Applications,” International
Journal of Advanced Computer Science and Applications(IJACSA), Vol. 2, No. 4, Page no. 81-87, 2011, NY, USA.
[14] Thomas A. Milligan, Modern Antenna Design, 2nd edition, IEEE Press, Jhon Wiley & Sons inc., 2005, ISBN: 978-
0471457763.
[15] M. I. Skolnik, Introduction to RADAR System, 3rd edition, McGraw Hill Higher Education, 2000.

Thank you for copying data from http://www.arastirmax.com