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Longitudinal slotted waveguide array feed networks

Published online by Cambridge University Press:  05 March 2018

J. Soleiman Meiguni Open the ORCID record for J. Soleiman Meiguni [Opens in a new window] ,
S. Keshavarz Haddad  and
A. Hosseinbeig
J. Soleiman Meiguni*
Affiliation:
EMC-laboratory, Missouri University of Science and Technology, 4000 Enterprise Drive, Rolla, MO 65401, USA
S. Keshavarz Haddad
Affiliation:
Faculty of Electrical and Computer Engineering, Semnan University, Semnan 3513119111, Iran
A. Hosseinbeig
Affiliation:
EMC-laboratory, Missouri University of Science and Technology, 4000 Enterprise Drive, Rolla, MO 65401, USA
*
Author for correspondence: J. Soleiman Meiguni, E-mail: [email protected]
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Abstract

In this paper, two new feed network designs for single layer and double layer slotted waveguide array antennas are presented. A microstrip to substrate integrated waveguide transition is applied to the single layer antenna. The aperture coupling mechanism is used in order to find the optimum feed network for double-layer structure and to obtain stable radiation characteristics over the frequency band. The prototypes of the proposed antennas have been fabricated and tested. The measured results were compared very well with the simulation results obtained from CST microwave studio and showed low side lobe level at the center frequency of 11.5 GHz for the low-profile 4-channel slotted waveguide arrays.

Keywords

Feed networkSlotted array antennaSubstrate integrated waveguide
Type
Research Papers
Information
International Journal of Microwave and Wireless Technologies , Volume 10 , Issue 4 , May 2018 , pp. 512 - 517
Copyright
Copyright © Cambridge University Press and the European Microwave Association 2018 

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References

1.Bozzi, M, Georgiadis, A and Wu, K (2011) Review of substrate-integrated waveguide circuits and antennas. IET Microwave Antennas Propagation 5(8), 909920.CrossRefGoogle Scholar
2.Hirokawa, J, Ando, M and Goto, N (2000) Efficiency of 76-GHz post-wall waveguide-fed parallel-plate slot arrays. IEEE Transactions Antennas Propagation 48, 17421745.CrossRefGoogle Scholar
3.Uchimura, H, Takenoshita, T and Fujii, M (1998) Development of a laminated waveguide. IEEE Transactions on Microwave Theory and Technology 46, 24382443.CrossRefGoogle Scholar
4.Zeid, A and Baudrand, H (2002) Electromagnetic scattering by metallic holes and its applications in microwave circuit design. IEEE Transactions on Microwave Theory and Technology 50, 1998–1206.CrossRefGoogle Scholar
5.Xu, F, Zhang, Y, Hong, W, Wu, K and Cui, TJ (2003) Finite-difference frequency-domain algorithm for modeling guided-wave properties of substrate integrated waveguide. IEEE Transactions on Microwave Theory and Technology 51, 22212227.Google Scholar
6.Li, Y, Hong, W, Hua, G, Chen, JX, Wu, K and Cui, TJ (2004) Simulation and experiment on SIW slot array antennas. IEEE Microwave and Wireless- Components Letters 14, 446448.Google Scholar
7.Yu, ZW, Wang, GM and Zhang, CX (2009) A broadband planar monopulse antenna array of C-band. IEEE Microwave and Wireless Components Letters 8 13251328.Google Scholar
8.Yan, L, Hong, W and Wu, K (2005) Simulation and experiment on substrate integrated monopulse antenna, in Proceedings IEEE Antennas and Propagation Society International Symposium, 1A 528–531.Google Scholar
9.Elliott, RS 2003 Antenna Theory and Design, Revised edn, New Jersey: IEEE Press.CrossRefGoogle Scholar
10.Hosseininejad, SE, Komjani, N and Mohammadi, A (2014) Accurate design of planar slotted SIW array antennas. IEEE Antennas and Wireless Propagation Letters 14, 261264.CrossRefGoogle Scholar
11.Kumar, P, Kedar, A and Kumar Singh, A (2015) Design and development of low cost low sidelobe level slotted waveguide antenna array in X-band. IEEE Transactions on Antennas and Propagation 63(11), 47234731.CrossRefGoogle Scholar
12.Soleiman Meiguni, J, Khatami, SA and Amn-e-Elahi, A (2018) Compact substrate integrated waveguide mono-pulse antenna array. International Journal of RF and Microwave Computer-Aided Engineering, 28(1), https://doi.org/10.1002/mmce.21155.CrossRefGoogle Scholar
13.Liu, B, Hong, W and Kuai, Z (2009) Substrate integrated waveguide (SIW) monopulse slot antenna array. IEEE Transactions on Antennas and Propagation 57(1), 275279.CrossRefGoogle Scholar
14.Bakhtafrooz, AB, Borji, D and Safavi-Naeini, S (2010) Novel two-layer millimeter-wave slot array antennas based on substrate integrated waveguides. Progress in Electromagnetics Research 109, 475491.CrossRefGoogle Scholar
15.Wounchoum, P (2008) A two-slot array antenna on a concentric sectoral cylindrical cavity excited by a coupling slot. Progress in Electromagnetics Research 86, 135154.CrossRefGoogle Scholar
16.Svezhentsev, AY, Kryzhanovskiy, V and Vandenbosch, G (2013) Cylindrical microstrip array antennas with slotted strip-framed patches. Progress in Electromagnetics Research 139, 539558.CrossRefGoogle Scholar
17.Yang, H, Montisci, G, Jin, Z, Liu, Y, He, X and Mazzarella, G (2015) Improved design of low sidelobe substrate integrated waveguide longitudinal slot array. IEEE Antennas and Wireless Propagation Letters 14, 237240.CrossRefGoogle Scholar
18.Xu, JF, Hong, W, Chen, P and Wu, K (2009) Design and implementation of low sidelobe substrate integrated waveguide longitudinal slot array antennas. IET Microwaves, Antennas & Propagation 3(5), 790797.CrossRefGoogle Scholar
19.Potgieter, L, Joubert, J and Odendaal, JW (2015) Design of center-fed printed planar slot arrays. International Journal of Microwave and Wireless Technologies 19.Google Scholar
20.Taddei, R, Guarnieri, G and Mauriello, G (2013) Automated waveguide array - integrated design environment (AWA-IDE): an automated and modular tool for planar waveguide array synthesis and analysis. IEEE Antennas and Propagation Magazine 55(4), 204216.CrossRefGoogle Scholar
21.Stevenson, RJ (1948) Theory of slots in rectangular waveguide. J. App. Phy. 19, 420.CrossRefGoogle Scholar
22.Watson, WH (1946) Resonant slots. Journal of the Institution of Electrical Engineers – Part IIIA: Radiolocation 93, 747777.Google Scholar
23.Amani, N, Kamyab, M, Jafargholi, A, Hosseinbeig, A and Soleiman Meiguni, J (2014) Compact tri-band metamaterial-inspired antenna based on CRLH resonant structures. Electronics Letters 50, 847848.CrossRefGoogle Scholar