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Commenced in January 2007 Frequency: Monthly Edition: International Publications Count: 29526

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Plate-Laminated Slotted-Waveguide Fed 2×3 Planar Inverted F Antenna Array
Substrate Integrated waveguide based 6-element array of Planar Inverted F antenna (PIFA) has been presented and analyzed parametrically in this paper. The antenna is fed with coupled transverse slots on a plate laminated waveguide cavity to ensure wide bandwidth and simplicity of feeding network. The two-layer structure has one layer dedicated for feeding network and the top layer dedicated for radiating elements. It has been demonstrated that the presented feeding technique for feeding such class of array antennas can be far simple in structure and miniaturized in size when it comes to designing large phased array antenna systems. A good return loss and standing wave ratio of 2:1 has been achieved while maintaining properties of typical PIFA.
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[1] K. Kagoshima, K. Tsunekawa and A. Ando, "Analysis of a planar inverted F antenna fed by electromagnetic coupling," IEEE Antennas and Propagation Society International Symposium, Chicago, IL, USA, 1992, pp. 1702-1705.
[2] Sheng-Ming Deng, Ching-Long Tsai, Sheng-Far Chang and Sheau-Shong Bor, "A broadband CPW-fed planar inverted-F antenna," 2005 IEEE Antennas and Propagation Society International Symposium, 2005, pp. 613-616.
[3] K. M. Chan, E. Lee, T. Y. Lee, P. Gardner and T. Dodgson, "Aperture coupled, differentially fed planar inverted F antenna," The First European Conference on Antennas and Propagation, Nice, 2006, pp. 1-4.
[4] H. T. Chattha, Y. Huang and Y. Lu, "PIFA Bandwidth Enhancement by Changing the Widths of Feed and Shorting Plates," in IEEE Antennas and Wireless Propagation Letters, vol. 8, 2009, pp. 637-640, 2009.
[5] D. M. Nashaat, H. A. Elsadek and H. Ghali, "Single Feed Compact Quad-Band PIFA Antenna for Wireless Communication Applications," in IEEE Transactions on Antennas and Propagation, vol. 53, no. 8, pp. 2631-2635.
[6] C. Suarez-Fajardo, J. O. Gomez-Sara and M. Ferrando-Bataller, "Broadband PIFA with capacitive feed," IEEE Antennas and Propagation Society International Symposium, Charleston, SC, 2009, pp. 1-4.
[7] D. Deslandes, "Design equations for tapered microstrip-to-Substrate Integrated Waveguide transitions," Microwave Symposium Digest (MTT), 2010 IEEE MTT-S International, Anaheim, CA, 2010, pp. 704-707.
[8] B. Muneer, Q. Zhu and S. Xu, “A Broadband Tunable Multilayer Substrate Integrated Waveguide Phase Shifter,” IEEE Microwave and Wireless Components Letters, Vol 25 (4), Apr. 2015, pp. 220-222.
[9] B. Muneer, Qi Zhu and Shanjia Xu Fellow, IEEE, “A Digital SIW Phase Shifter Implemented by Switching Transverse Slots via PIN Diodes,” in Frequenz, Journal of RF-Engineering and Telecommunications, Vol 69 (9-10), Jan. 2015, pp. 383-387.
[10] Badar Muneer and Qi Zhu, “A Novel Two-layer Electronically Controllable Substrate Integrated Waveguide Phase Shifter,” 2015 German Microwave Conference (GeMic), Nurnberg, Germany, Mar. 2015, pp. 158-161.
[11] B. N. Kim, S. O. Park, Y. S. Yoon, J. K. Oh, K. J. Lee and G. Y. Koo, "Hexaband Planar Inverted-F Antenna with Novel Feed Structure for Wireless Terminals," in IEEE Antennas and Wireless Propagation Letters, vol. 6, no. pp. 66-69, 2007.
[12] A. Matsui, K. Fujimaki and H. Bingxuan, "Two types of planar inverted F antenna fed at the edge," Proceedings of the 2012 IEEE International Symposium on Antennas and Propagation, Chicago, IL, 2012, pp. 1-2.
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