Search search
submit Submit
Publication Date
to
Vol. 90
Latest Volume
All Volumes
PIER 179 [2024] PIER 178 [2023] PIER 177 [2023] PIER 176 [2023] PIER 175 [2022] PIER 174 [2022] PIER 173 [2022] PIER 172 [2021] PIER 171 [2021] PIER 170 [2021] PIER 169 [2020] PIER 168 [2020] PIER 167 [2020] PIER 166 [2019] PIER 165 [2019] PIER 164 [2019] PIER 163 [2018] PIER 162 [2018] PIER 161 [2018] PIER 160 [2017] PIER 159 [2017] PIER 158 [2017] PIER 157 [2016] PIER 156 [2016] PIER 155 [2016] PIER 154 [2015] PIER 153 [2015] PIER 152 [2015] PIER 151 [2015] PIER 150 [2015] PIER 149 [2014] PIER 148 [2014] PIER 147 [2014] PIER 146 [2014] PIER 145 [2014] PIER 144 [2014] PIER 143 [2013] PIER 142 [2013] PIER 141 [2013] PIER 140 [2013] PIER 139 [2013] PIER 138 [2013] PIER 137 [2013] PIER 136 [2013] PIER 135 [2013] PIER 134 [2013] PIER 133 [2013] PIER 132 [2012] PIER 131 [2012] PIER 130 [2012] PIER 129 [2012] PIER 128 [2012] PIER 127 [2012] PIER 126 [2012] PIER 125 [2012] PIER 124 [2012] PIER 123 [2012] PIER 122 [2012] PIER 121 [2011] PIER 120 [2011] PIER 119 [2011] PIER 118 [2011] PIER 117 [2011] PIER 116 [2011] PIER 115 [2011] PIER 114 [2011] PIER 113 [2011] PIER 112 [2011] PIER 111 [2011] PIER 110 [2010] PIER 109 [2010] PIER 108 [2010] PIER 107 [2010] PIER 106 [2010] PIER 105 [2010] PIER 104 [2010] PIER 103 [2010] PIER 102 [2010] PIER 101 [2010] PIER 100 [2010] PIER 99 [2009] PIER 98 [2009] PIER 97 [2009] PIER 96 [2009] PIER 95 [2009] PIER 94 [2009] PIER 93 [2009] PIER 92 [2009] PIER 91 [2009] PIER 90 [2009] PIER 89 [2009] PIER 88 [2008] PIER 87 [2008] PIER 86 [2008] PIER 85 [2008] PIER 84 [2008] PIER 83 [2008] PIER 82 [2008] PIER 81 [2008] PIER 80 [2008] PIER 79 [2008] PIER 78 [2008] PIER 77 [2007] PIER 76 [2007] PIER 75 [2007] PIER 74 [2007] PIER 73 [2007] PIER 72 [2007] PIER 71 [2007] PIER 70 [2007] PIER 69 [2007] PIER 68 [2007] PIER 67 [2007] PIER 66 [2006] PIER 65 [2006] PIER 64 [2006] PIER 63 [2006] PIER 62 [2006] PIER 61 [2006] PIER 60 [2006] PIER 59 [2006] PIER 58 [2006] PIER 57 [2006] PIER 56 [2006] PIER 55 [2005] PIER 54 [2005] PIER 53 [2005] PIER 52 [2005] PIER 51 [2005] PIER 50 [2005] PIER 49 [2004] PIER 48 [2004] PIER 47 [2004] PIER 46 [2004] PIER 45 [2004] PIER 44 [2004] PIER 43 [2003] PIER 42 [2003] PIER 41 [2003] PIER 40 [2003] PIER 39 [2003] PIER 38 [2002] PIER 37 [2002] PIER 36 [2002] PIER 35 [2002] PIER 34 [2001] PIER 33 [2001] PIER 32 [2001] PIER 31 [2001] PIER 30 [2001] PIER 29 [2000] PIER 28 [2000] PIER 27 [2000] PIER 26 [2000] PIER 25 [2000] PIER 24 [1999] PIER 23 [1999] PIER 22 [1999] PIER 21 [1999] PIER 20 [1998] PIER 19 [1998] PIER 18 [1998] PIER 17 [1997] PIER 16 [1997] PIER 15 [1997] PIER 14 [1996] PIER 13 [1996] PIER 12 [1996] PIER 11 [1995] PIER 10 [1995] PIER 09 [1994] PIER 08 [1994] PIER 07 [1993] PIER 06 [1992] PIER 05 [1991] PIER 04 [1991] PIER 03 [1990] PIER 02 [1990] PIER 01 [1989]
All Journals
PIER PIER B PIER C PIER M PIER Letters
2009-02-23
Development of a Novel UWB Vivaldi Antenna Array Using SIW Technology
By
Song Lin,

    Dr. Song Lin

    Min H. Kao Department of Electrical Engineering and Computer Science

    University of Tennessee

    USA

    Homepage

Songnan Yang,

    Dr. Songnan Yang

    Intel Corporation

    USA

    Homepage

Aly Fathy,

    Dr. Aly Fathy

    EECS Department

    University of Tennessee

    USA

    Homepage

Adel Elsherbini

    Mr. Adel Elsherbini

    Electrical Engineering and Computer Science Department

    University of Michigan

    Michigan, USA

    Homepage

Progress In Electromagnetics Research, Vol. 90, 369-384, 2009
doi:10.2528/PIER09020503
Abstract
A compact Vivaldi antenna array printed on thick substrate and fed by a Substrate Integrated Waveguides (SIW) structure has been developed. The antenna array utilizes a compact SIW binary divider to significantly minimize the feed structure insertion losses. The low-loss SIW binary divider has a common novel Grounded Coplanar Waveguide (GCPW) feed to provide a wideband transition to the SIW and to sustain a good input match while preventing higher order modes excitation. The antenna array was designed, fabricated, and thoroughly investigated. Detailed simulations of the antenna and its feed, in addition to its relevant measurements, will be presented in this paper.
Citation
Song Lin, Songnan Yang, Aly Fathy, and Adel Elsherbini, "Development of a Novel UWB Vivaldi Antenna Array Using SIW Technology," Progress In Electromagnetics Research, Vol. 90, 369-384, 2009.
doi:10.2528/PIER09020503
References

1. Furuyama, H., , Japanese Patent (H4-220881), Jul. 1992.

2. Han, S., X. L.Wang, Y. Fan, Z. Yang, and Z. He, "The generalized chebyshev substrate integrated waveguide diplexer," Progress In Electromagnetics Research, PIER 73, 29-38, 2007.

3. Ismail, A., M. S. Razalli, M. A. Mahdi, R. S. A. Raja Abdullah, N. K. Noordin, and M. F. A. Rasid, "X-band trisection substrate-integrated waveguide quasi-elliptic filter," Progress In Electromagnetics Research, PIER 85, 133-145, 2008.

4. Wu, L. S., R. Wang, and X. L. Zhou, "Compact folded substrate integrated waveguide cavities and bandpass filter," Progress In Electromagnetics Research, PIER 84, 135-147, 2008.

5. Zhang, X. C., Z. Y. Yu, and J. Xu, "Novel band-pass substrate integrated waveguide (SIW) filter based on complementary split ring resonators (CSRRS)," Progress In Electromagnetics Research, PIER 72, 39-46, 2007.

6. Che, W., E. K. N. Yung, K.Wu, and X. Nie, "Design investigation on millimeter-wave ferrite phase shifter in substrate integrated waveguide," Progress In Electromagnetics Research, PIER 45, 263-275, 2004.

7. Yang, S. and A. E. Fathy, "Development of a slotted substrate integrated waveguide (SIW) array antennas for mobile DBS application," Antenna Applications Symposium, 101-131, IL, 2006.

8. Ansoft HFSS, version 10, ANSYS, Inc., , .

9. Sang-Gyu, K. and C. Kai, "A low cross-polarized antipodal Vivaldi antenna array for wideband operation," 2004 IEEE Antennas and Propagation Society International Symposium, Vol. 3, 2269-2272, 2004.
doi:10.1109/MWSYM.2007.380529

10. Yang, Y. and A. Fathy, "Design and implementation of a low-cost real-time ultra-wide band see-through-wall imaging radar system," 2007 IEEE/MTT-S International Microwave Symposium, 1467-1470, 2007.
doi:10.1109/TMTT.2008.923351

11. Mahfouz, M. R., Z. Cemin, B. C. Merkl, M. J. Kuhn, and A. E. Fathy, "Investigation of high-accuracy indoor 3-D positioning using UWB technology," IEEE Transactions on Microwave Theory and Techniques, Vol. 56, 1316-1330, 2008.
doi:10.1109/APS.2007.4395478

12. Salvador, S. and G. Vecchi, "On some experiments with UWB microwave imaging for breast cancer detection," 2007 IEEE Antennas and Propagation Society International Symposium, 253-256, 2007.
doi:10.1109/APS.2005.1551392

13. Yang, Y., C. Zhang, S. Lin, and A. E. Fathy, "Development of an ultra wideband Vivaldi antenna array," 2005 IEEE Antennas and Propagation Society International Symposium, Vol. 1A, 606-609, 2005.
doi:10.1109/APS.2005.1551401

14. Cheng, H. Z., H. Wei, L. Hao, Z. Hua, and W. Ke, "Multiway broadband substrate integrated waveguide (SIW) power divider," 2005 IEEE Antennas and Propagation Society International Symposium, Vol. 1A, 639-642, 2005.

15. Cheng, H. Z., H. Wei, C. J. Xin, C. X. Ping, and W. Ke, "A novel feeding technique for antipodal linearly tapered slot antenna array," 2005 IEEE MTT-S International Microwave Symposium Digest, 3, 2005.
doi:10.1109/MWSYM.2007.380479

16. Yang, S. and A. E. Fathy, "Synthesis of an arbitrary power split ratio divider using substrate integrated waveguides," 2007 IEEE/MTT-S International Microwave Symposium, 427-430, 2007.
doi:10.1109/TMTT.2005.852778

17. Deslandes, D. and K. Wu, "Analysis and design of current probe transition from grounded coplanar to substrate integrated rectangular waveguides," IEEE Transactions on Microwave Theory and Technique, Vol. 53, 2487-2494, 2005.

18. Patrovsky, A., M. Daigle, and K. Wu, "Millimeter-wave wideband transition from CPW to substrate integrated waveguide on electrically thick high-permittivity substrates," IEEE Microw. Conf., 138-141, Oct. 2007.
doi:10.1109/APS.2007.4395912

19. Yang, S., E. Adel, S. Lin, A. E. Fathy, A. Kamel, and H. Elhennawy, "A highly efficient Vivaldi antenna array design on thick substrate and fed by SIW structure with integrated GCPW feed," 2007 IEEE Antennas and Propagation Society International Symposium, 1985-1988, 2007.

20. Lin, S., S. Yang, and A. E. Fathy, "UWB tapered slot antenna array using siw technology," Antenna Applications Symposium, IL, Sep. 2007.

21. Yang, S., S. H. Suleiman, and A. E. Fathy, "Development of a slotted substrate integrated waveguide (SIW) array antennas for mobile DBS," Proc. Antennas Applications. Symp., Montecello, IL, Sep. 2006.

22. Takahashi, T., J. Hirokawa, M. Ando, and N. Goto, "A single-layer power divider for a slotted waveguide array using π-junction withan inductive wall," IEICE Trans. Commun., Vol. E79-B, No. 1, 57-62, Jan. 1996.

23. Fukazawa, K., J. Hirokawa, M. Ando, and N. Goto, "Two-way power divider for partially parallel feed in single layer slotted waveguide arrays," IEICE Trans. Commun., Vol. E81-B, No. 6, 1248-1253, Jun. 1998.
doi:10.1109/TAP.1985.1143542

24. Schaubert, D., E. Kollberg, T. Korzeniowski, T. Thungren, J. Johansson, and K. Yngvesson, "Endfire tapered slot antennas on dielectric substrates," IEEE Transactions on Antennas and Propagation, Vol. 33, 1392-1400, 1985.

Download Full Article (396) View Full Article volume
The EM Academy piers.org jpier.org Who's Who in EM
Copyright © 2022 The Electromagnetics Academy. All Rights Reserved.