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Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band

Year 2018, , 1130 - 1134, 01.08.2018
https://doi.org/10.16984/saufenbilder.365140

Abstract

References

  • D. M. Pozar, “Microwave Engineering”, John Wiley&Sons, Inc., 1998.
  • C. A. Balanis, “Anten Teorisi Analiz ve Tasarım”, 3. Baskı Nobel Yayınları, Wiley, 2013.
  • M. Duman and A. O. Salman, “Designing a Vivaldi Fed Antenna for Passive Millimeter Wave Imaging System in Ka Band”, Journal of Electrical Engineering, vol. 5, no. 6, pp. 340-343, Nov.-Dec. 2017.
  • F. T. Ulaby, R. K. Moore, A. K. Fung, “Microwave Remote Sensing Active and Passive”, Artech, MA, 1981.
  • D.K. Cheng, “Field and Wave Electromagnetics”, 2nd Edition, Syracuse University, Addison-Wesley Publishing Company.
  • D. J. Daniels, EM Detection of Concealed Targets, Wiley Series in Microwave and Optical Engineering, 2010.
  • F. T. Ulaby, R. K. Moore, A. K. Fung, Microwave Remote Sensing, Active and Passive, vol. 1, Microwave Remote Sensing Fundamentals and Radiometry, Artech House Inc., 1981.
  • D. Leenaerts, J. Tang, C. Vaucher, Circuit Design for RF Transceivers, Kluwer Academic Publishers, 2001.
  • B. Razavi, RF Microelectronics, University of California, Los Angeles, Prentice Hall Communications Enginering and Emerging Technologies Series, Editor T. S. Rappaport, 1998.
  • T. K. Ishii, Handbook of Microwave Technology, vol. 2, Applications, Department of Electrical and Computer Engineering, Milwaukee, Wisconsin, Academic Press, 1995.
  • J. Fraden, Handbook of Modern Sensors Physics, Designs and Applications, 3th Edition, Springer, Advanced Monitors Corporation, San Diego, California.
  • C. M. Golio, The RF and Microwave Handbook, CRC Press LLC, 2001.
  • M. Duman, Elektronik ve Haberleşme Mühendisliği Bölümü, Yüksek Lisans Tezi https://polen.itu.edu.tr/bitstream/11527/1169/1/13746.pdf, İTÜ, 2013.
  • Ö. Türkmen Küçüksarı, S. Çimen, G. Çakır, “Effect of the Different End Shapes on the Gain Flatness of the Antipodal Vivaldi Antenna”, 10th International Conference on Electrical and Electronics Engineering (ELECO2017), paper ID=417, Bursa, Turkey, 1 Dec. 2017.

Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band

Year 2018, , 1130 - 1134, 01.08.2018
https://doi.org/10.16984/saufenbilder.365140

Abstract

Passive Millimeterwave Imaging (PMI) Technology is used to
view scene in foggy air conditions or to see concealed weapon under clothes
that cannot be seen other technology because of the materials of weapon. There
are some frequency windows to work with millimeterwave technology as 35, 96 and
220 GHz and it is near 35 GHz frequency for this work. Antenna is one of the
most important part in PMI Technology, consequently; major importance has been
given to this segment. Antipodal Vivaldi Antenna has 50.07 ohm input impedance
for matching to the forward circuit, and -39.23 dB input reflection
coefficient, S11, and 6.82 dB gain, is designed for 35.18 GHz in
Computer Simulation Technology Studio Suite Program (CST).  After the antenna is connected to the other
circuits such as amplifier or detector, the created system will be integrated
into a scanner which is capable of scanning azimuth and elevation axes. As a
result, PMI System will be formed and ready to view the scene or the hidden
things in haze air conditions.

References

  • D. M. Pozar, “Microwave Engineering”, John Wiley&Sons, Inc., 1998.
  • C. A. Balanis, “Anten Teorisi Analiz ve Tasarım”, 3. Baskı Nobel Yayınları, Wiley, 2013.
  • M. Duman and A. O. Salman, “Designing a Vivaldi Fed Antenna for Passive Millimeter Wave Imaging System in Ka Band”, Journal of Electrical Engineering, vol. 5, no. 6, pp. 340-343, Nov.-Dec. 2017.
  • F. T. Ulaby, R. K. Moore, A. K. Fung, “Microwave Remote Sensing Active and Passive”, Artech, MA, 1981.
  • D.K. Cheng, “Field and Wave Electromagnetics”, 2nd Edition, Syracuse University, Addison-Wesley Publishing Company.
  • D. J. Daniels, EM Detection of Concealed Targets, Wiley Series in Microwave and Optical Engineering, 2010.
  • F. T. Ulaby, R. K. Moore, A. K. Fung, Microwave Remote Sensing, Active and Passive, vol. 1, Microwave Remote Sensing Fundamentals and Radiometry, Artech House Inc., 1981.
  • D. Leenaerts, J. Tang, C. Vaucher, Circuit Design for RF Transceivers, Kluwer Academic Publishers, 2001.
  • B. Razavi, RF Microelectronics, University of California, Los Angeles, Prentice Hall Communications Enginering and Emerging Technologies Series, Editor T. S. Rappaport, 1998.
  • T. K. Ishii, Handbook of Microwave Technology, vol. 2, Applications, Department of Electrical and Computer Engineering, Milwaukee, Wisconsin, Academic Press, 1995.
  • J. Fraden, Handbook of Modern Sensors Physics, Designs and Applications, 3th Edition, Springer, Advanced Monitors Corporation, San Diego, California.
  • C. M. Golio, The RF and Microwave Handbook, CRC Press LLC, 2001.
  • M. Duman, Elektronik ve Haberleşme Mühendisliği Bölümü, Yüksek Lisans Tezi https://polen.itu.edu.tr/bitstream/11527/1169/1/13746.pdf, İTÜ, 2013.
  • Ö. Türkmen Küçüksarı, S. Çimen, G. Çakır, “Effect of the Different End Shapes on the Gain Flatness of the Antipodal Vivaldi Antenna”, 10th International Conference on Electrical and Electronics Engineering (ELECO2017), paper ID=417, Bursa, Turkey, 1 Dec. 2017.
There are 14 citations in total.

Details

Primary Language English
Subjects Metrology, Applied and Industrial Physics, Engineering, Electrical Engineering
Journal Section Research Articles
Authors

Mehmet Duman 0000-0002-0831-0172

Alp Salman 0000-0002-1708-6803

Publication Date August 1, 2018
Submission Date December 13, 2017
Acceptance Date February 21, 2018
Published in Issue Year 2018

Cite

APA Duman, M., & Salman, A. (2018). Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band. Sakarya University Journal of Science, 22(4), 1130-1134. https://doi.org/10.16984/saufenbilder.365140
AMA Duman M, Salman A. Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band. SAUJS. August 2018;22(4):1130-1134. doi:10.16984/saufenbilder.365140
Chicago Duman, Mehmet, and Alp Salman. “Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band”. Sakarya University Journal of Science 22, no. 4 (August 2018): 1130-34. https://doi.org/10.16984/saufenbilder.365140.
EndNote Duman M, Salman A (August 1, 2018) Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band. Sakarya University Journal of Science 22 4 1130–1134.
IEEE M. Duman and A. Salman, “Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band”, SAUJS, vol. 22, no. 4, pp. 1130–1134, 2018, doi: 10.16984/saufenbilder.365140.
ISNAD Duman, Mehmet - Salman, Alp. “Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band”. Sakarya University Journal of Science 22/4 (August 2018), 1130-1134. https://doi.org/10.16984/saufenbilder.365140.
JAMA Duman M, Salman A. Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band. SAUJS. 2018;22:1130–1134.
MLA Duman, Mehmet and Alp Salman. “Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band”. Sakarya University Journal of Science, vol. 22, no. 4, 2018, pp. 1130-4, doi:10.16984/saufenbilder.365140.
Vancouver Duman M, Salman A. Antipodal Vivaldi Antenna for Passive Imaging Technology in Ka Frequency Band. SAUJS. 2018;22(4):1130-4.

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