Search search
submit Submit
Publication Date
to
Vol. 54
Latest Volume
All Volumes
PIERL 119 [2024] PIERL 118 [2024] PIERL 117 [2024] PIERL 116 [2024] PIERL 115 [2024] PIERL 114 [2023] PIERL 113 [2023] PIERL 112 [2023] PIERL 111 [2023] PIERL 110 [2023] PIERL 109 [2023] PIERL 108 [2023] PIERL 107 [2022] PIERL 106 [2022] PIERL 105 [2022] PIERL 104 [2022] PIERL 103 [2022] PIERL 102 [2022] PIERL 101 [2021] PIERL 100 [2021] PIERL 99 [2021] PIERL 98 [2021] PIERL 97 [2021] PIERL 96 [2021] PIERL 95 [2021] PIERL 94 [2020] PIERL 93 [2020] PIERL 92 [2020] PIERL 91 [2020] PIERL 90 [2020] PIERL 89 [2020] PIERL 88 [2020] PIERL 87 [2019] PIERL 86 [2019] PIERL 85 [2019] PIERL 84 [2019] PIERL 83 [2019] PIERL 82 [2019] PIERL 81 [2019] PIERL 80 [2018] PIERL 79 [2018] PIERL 78 [2018] PIERL 77 [2018] PIERL 76 [2018] PIERL 75 [2018] PIERL 74 [2018] PIERL 73 [2018] PIERL 72 [2018] PIERL 71 [2017] PIERL 70 [2017] PIERL 69 [2017] PIERL 68 [2017] PIERL 67 [2017] PIERL 66 [2017] PIERL 65 [2017] PIERL 64 [2016] PIERL 63 [2016] PIERL 62 [2016] PIERL 61 [2016] PIERL 60 [2016] PIERL 59 [2016] PIERL 58 [2016] PIERL 57 [2015] PIERL 56 [2015] PIERL 55 [2015] PIERL 54 [2015] PIERL 53 [2015] PIERL 52 [2015] PIERL 51 [2015] PIERL 50 [2014] PIERL 49 [2014] PIERL 48 [2014] PIERL 47 [2014] PIERL 46 [2014] PIERL 45 [2014] PIERL 44 [2014] PIERL 43 [2013] PIERL 42 [2013] PIERL 41 [2013] PIERL 40 [2013] PIERL 39 [2013] PIERL 38 [2013] PIERL 37 [2013] PIERL 36 [2013] PIERL 35 [2012] PIERL 34 [2012] PIERL 33 [2012] PIERL 32 [2012] PIERL 31 [2012] PIERL 30 [2012] PIERL 29 [2012] PIERL 28 [2012] PIERL 27 [2011] PIERL 26 [2011] PIERL 25 [2011] PIERL 24 [2011] PIERL 23 [2011] PIERL 22 [2011] PIERL 21 [2011] PIERL 20 [2011] PIERL 19 [2010] PIERL 18 [2010] PIERL 17 [2010] PIERL 16 [2010] PIERL 15 [2010] PIERL 14 [2010] PIERL 13 [2010] PIERL 12 [2009] PIERL 11 [2009] PIERL 10 [2009] PIERL 9 [2009] PIERL 8 [2009] PIERL 7 [2009] PIERL 6 [2009] PIERL 5 [2008] PIERL 4 [2008] PIERL 3 [2008] PIERL 2 [2008] PIERL 1 [2008]
All Journals
PIER PIER B PIER C PIER M PIER Letters
2015-08-12
Design of Miniaturized Planar SIW Diplexers Using Dual-Mode Resonators
By
Homayoon Oraizi,

    Professor Homayoon Oraizi

    Department of Electrical Engineering

    Iran University of Science and Technology Narmak

    Iran

    Homepage

Elham Bidaki

    Dr. Elham Bidaki

    Department of Electrical Engineering, Centre of Excellence in Railway Transportation

    Iran University of Science and Technology

    Iran

    Homepage

Progress In Electromagnetics Research Letters, Vol. 54, 129-135, 2015
doi:10.2528/PIERL15041101
Abstract
In this paper, two planar diplexers using dual-mode resonators are designed, which have achieved significant size miniaturization. The first diplexer is made of a simple single dual-mode resonator as a square cavity in the substrate integrated waveguide technology. The two degenerate modes with 90° rotation are perturbed by the placement of metallic via and CPW lines as input and output ports. A prototype model of this diplexer is designed and fabricated in the X-band. Its simulation results and measurement data agree very well. An isolation of 22 dB is achieved between two ports, which is quite suitable for receiving systems. For the improvement of isolation and bandwidth, the degree of structure is increased, whereby dual-mode resonators are used to connect the channel filters to the input port. Those types of channel filters are used which generate a transmission zero in the frequency band of the other channel. The isolation and bandwidth of the diplexer have been improved significantly, where its size is much smaller than the common diplexers.
Citation
Homayoon Oraizi, and Elham Bidaki, "Design of Miniaturized Planar SIW Diplexers Using Dual-Mode Resonators," Progress In Electromagnetics Research Letters, Vol. 54, 129-135, 2015.
doi:10.2528/PIERL15041101
References

1. Rizii, P. A., Microwave Engineering, Passive Devices, Prentice Hall, 1988.

2. Tang, H.-J., W. Hong, J.-X. Chen, G. Q. Luo, and K. Wu, "Development of millimeter-wave planar diplexers based on complementary characters of dual-mode substrate integrated waveguide filters with circular and elliptic cavities," IEEE Transactions on Microwave Theory and Techniques, Vol. 55, No. 4, 776-782, Apr. 2007.
doi:10.1109/TMTT.2007.893655

3. Athanasopoulos, N., D. Makris, and K. Voudouris, "Development of a 60GHz substrate integrated waveguide planar diplexer," 2011 IEEE MTT-S International Microwave Workshop Series on Millimeter Wave Integration Technologies (IMWS), 128-131, Sep. 15-16 2011.

4. He, J., K. Gao, and Z. Shao, "A novel compact Ka-band high-rejection diplexer based on substrate integrated waveguide," 2012 International Conferenceon Computational Problem-Solving (ICCP), 193-197, Oct. 19-21, 2012.

5. Cheng, F., X. Lin, K. Song, Y. Jiang, and Y. Fan, "Compact diplexer with high isolation using the dual-mode substrate integrated waveguide resonator," IEEE Microwave and Wireless Components Letters, Vol. 23, No. 9, 459-461, Sep. 2013.
doi:10.1109/LMWC.2013.2274036

6. Li, Z., R. R.Mansour, and M. Yu, "A compact waveguide diplexer employing dual-band resonators," 2014 IEEE MTT-S International Microwave Symposium (IMS), 1-4, Jun. 1-6, 2014.

7. Bastioli, S., L. Marcaccioli, and R. Sorrentino, "An original resonant Y-junction for compact waveguide diplexers," IEEE MTT-S International Microwave Symposium Digest, MTT'09, 1233-1236, Jun. 7-12, 2009.

8. Chen, C.-H., T.-Y. Huang, C.-P. Chou, and R.-B. Wu, "Microstrip diplexers design with common resonator sections for compact size, but high isolation," IEEE Transactions on Microwave Theory and Techniques, Vol. 54, No. 5, 1945-1952, May 2006.
doi:10.1109/TMTT.2006.873613

9. Pozar, D. M., Microwave Engineering, 3rd Ed., Wiley, New York, 2004.

10. Cassivi, Y., L. Perregrini, P. Arcioni, M. Bressan, K. Wu, and G. Conciauro, "Dispersion characteristics of substrate integrated rectangular waveguide," IEEE Microwave and Wireless Components Letters, Vol. 12, No. 9, 333-335, Sep. 2002.
doi:10.1109/LMWC.2002.803188

11. Bozzi, M., F. Xu, D. Deslandes, and K. Wu, "Modeling and design considerations for substrate integrated waveguide circuits and components," 8th International Conference on Telecommunications in Modern Satellite, Cable and Broadcasting Services, TELSIKS 2007, P-VII-P-XVI, Sep. 26-28, 2007.

12. Shen, W., X.-W. Sun, W.-Y. Yin, J.-F. Mao, and Q.-F. Wei, "A novel single-cavity dual mode substrate integrated waveguide filter with non-resonating node," IEEE Microwave and Wireless Components Letters,, Vol. 19, No. 6, 368-370, Jun. 2009.
doi:10.1109/LMWC.2009.2020017

13. Xue, Q. and J.-X. Chen, "Compact diplexer based on double-sided parallel-strip line," Electron. Lett., Vol. 44, No. 2, 123-124, 2008.
doi:10.1049/el:20083117

Download Full Article (233) View Full Article volume
The EM Academy piers.org jpier.org Who's Who in EM
Copyright © 2022 The Electromagnetics Academy. All Rights Reserved.