Study of reflection losses in tuned and EBG power dividers at S, C, X and upper Ku bands

Authors

  • Suresh Angadi Department of Electronics and Communication Engineering, VITAM, Visakhapatnam, India
  • Karteek Viswanadha Department of Electronics and Communication Engineering, Delhi Technological University, New Delhi, India
  • R.Roopa Sree Department of Electronics and Communication Engineering, VITAM, Visakhapatnam, India
  • Sowjanya Madaka Department of Electronics and Communication Engineering, VITAM, Visakhapatnam, India

Keywords:

Power divider, bandwidth, insertion loss, reflective loss, X, Ku-band, ADS

Abstract

This paper presents the study of reflection losses in a tuned 8 port power divider with circular and square slotted Electromagnetic Bandgap structures (EBG) by varying the dimensions of the slots as well as the transmission lines. Further, the tuning feature makes the proposed power divider not only compact but also to work at S, C, X and the upper Ku bands by introducing periodic structures and thus enhancing the bandwidth with less reflection losses. Various parameters like reflection coefficient, insertion loss of the tuned EBG power divider are studied by varying the number of slots in the ground plane using Agilent Advanced Design System 2009 and 2016 simulators respectively.

 

References

A.Nassiri, “Power dividers and couplers”, Massachusetts Institute of Technology, U.S.Particle Accelerator School, pp.1-66, 2010.

Mohsen Hayati, Ashkan Abdipour, Arash Abdipour, “A Wilkinson Power Divider with Harmonic Suppression and Size Reduction using High-low Impedance Resonator Cells”, Radio Engineering, Vol.24, Issue.1, 2015.

Sandeep kumar, Mithilesh kumar, “Modified Wilkinson Compact Wide Band (2-12GHz) Equal Power Divider”, American Journal of Engineering Research (AJER), Vol.03,Issue.10, pp. 90–98, 2014.

S. S Chorage, Shilpa. V. Joshi, Harshada. S. Ahiwale, Archana. M. Gaikwad, ,“Design And Performance Analysis Of 1:6 Power Divider For L Band Frequency”, International Journal of Wireless Networks and Communications., Vol.8, Issue.1, pp. 15–21,2016.

Gurrachman, T., Object, Arisesa, H., Putu Hernida. I.D, Permana, D. “Design and implementation of coupled-line Wilkinson power Dividers using alumina substrate”, International Journal of Engineering Trends and Technology, Vol.9,Issue.7, pp. 363–365, 2014.

T. R. Subramanian , “Dual Band Wilkinson Power divider without Reactive Components”, Department of Electronics System Engineering,Indian Institute of Science, pp.1-6,2012.

S. Banu, A. Vishwapriya, R. Yogamathi, A. V. Meenakshi, S. P. K Babu, “Comparison of Wilkinson Power Divider And Gysel Power Divider Using Ads For The Frequency Range of 3 Ghz”, Fourth International Workshop on Computer Networks & Communications,pp.1-8, 2012.

Qaroot, A.M., Dib, N.I.,Gheethan, A.A., “Design methodology of multi-frequency unequal spilt Wilkinson power dividers using transmission line transformers”, Progress In Electromagnetics Research B, Vol.22, pp. 1–21, 2010.

Nor, M.Z.B.M., Rahim, S.K.A., Sabran, M.I. bin, Rani, M.S.B.A., “Wideband planar Wilkinson power divider using double-sided parallel-strip line technique” Progress In Electromagnetics Research C, Vol.36, pp. 181–193,2013.

. Debendra Kumar Panda, Ajay Chakraborty, “Analysis of a 1:2 Rectangular Waveguide Power Divider for Phased Array Application Using Multiple Cavity Modeling Technique”, IEEE Progress In Electromagnetics Research Symposium, Cambridge, USA,pp.361-368, 2006.

Ali Musa Mohammed, Yi Wang, “Four-way Waveguide Power Dividers with Integrated Filtering Function”, IEEE- European Microwave Conference (EuMC), Europe, pp.486-489, 2015.

Song, K., Fan, Y. ,Zhang, B., “Ku-band multiway rectangular waveguide power divider”, Microwave and Optical Technology Letters, Vol.52, Issue.11, pp. 2560–2563, 2015.

Rahali, B., “Design of K-band substrate integrated Waveguide coupler, Circulator and power divider”, International Journal of Information and Electronics Engineering, Vol.4, Issue.1, pp.47-53, 2015.

Bouchra Rahali, Mohammed Feham, Junwu Tao, “Design of K-band substrate integrated waveguide coupler,circulator and power divider”, International Journal of Information and Electronics, Vol.4,Issue.1, pp.1-6, 2014.

Djerafi, T., Hammou, D., Wu, K. , Tatu, S.O. , “Ring-shaped substrate integrated Waveguide Wilkinson power Dividers/Combiners”, IEEE Transactions on Components, Packaging and Manufacturing Technology, Vol.4,Issue.9, pp. 1461–1469, 2014.

Deslandes, D., Boone, F., Wu, K., “Composite corporate traveling-wave power dividers for slot array waveguide antennas”, International Journal of RF and Microwave Computer-Aided Engineering, Vol.19, Issue.2, pp. 177–186,2009.

Deng, P.-H., Guo, J.-H. ,Kuo, W.-C., “New Wilkinson power dividers based on compact stepped-impedance transmission lines and shunt open stubs”, Progress In Electromagnetics Research, Vol.123, pp. 407–426,2012.

Arpit Nagar, Khem Singh Solanki, “Design and analysis of microstrip patch antenna”, International Journal of Scientific Research in Network Security and Communications, Vol.1, Issue.1, pp.1-5, 2013.

IJSRNSC Vol-5, Issue-6 December 2017

Downloads

Published

2017-12-31

How to Cite

[1]
S. Angadi, K. Viswanadha, R. Sree, and S. Madaka, “Study of reflection losses in tuned and EBG power dividers at S, C, X and upper Ku bands”, Int. J. Sci. Res. Net. Sec. Comm., vol. 5, no. 6, pp. 21–26, Dec. 2017.

Issue

Vol. 5 No. 6 (2017): December

Section

Research Article

License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Authors contributing to this journal agree to publish their articles under the Creative Commons Attribution 4.0 International License, allowing third parties to share their work (copy, distribute, transmit) and to adapt it, under the condition that the authors are given credit and that in the event of reuse or distribution, the terms of this license are made clear.

Similar Articles

<< < 1 2 3 4 5 6 > >> 

You may also start an advanced similarity search for this article.