Search search
submit Submit
Publication Date
to
Vol. 62
Latest Volume
All Volumes
PIERB 105 [2024] PIERB 104 [2024] PIERB 103 [2023] PIERB 102 [2023] PIERB 101 [2023] PIERB 100 [2023] PIERB 99 [2023] PIERB 98 [2023] PIERB 97 [2022] PIERB 96 [2022] PIERB 95 [2022] PIERB 94 [2021] PIERB 93 [2021] PIERB 92 [2021] PIERB 91 [2021] PIERB 90 [2021] PIERB 89 [2020] PIERB 88 [2020] PIERB 87 [2020] PIERB 86 [2020] PIERB 85 [2019] PIERB 84 [2019] PIERB 83 [2019] PIERB 82 [2018] PIERB 81 [2018] PIERB 80 [2018] PIERB 79 [2017] PIERB 78 [2017] PIERB 77 [2017] PIERB 76 [2017] PIERB 75 [2017] PIERB 74 [2017] PIERB 73 [2017] PIERB 72 [2017] PIERB 71 [2016] PIERB 70 [2016] PIERB 69 [2016] PIERB 68 [2016] PIERB 67 [2016] PIERB 66 [2016] PIERB 65 [2016] PIERB 64 [2015] PIERB 63 [2015] PIERB 62 [2015] PIERB 61 [2014] PIERB 60 [2014] PIERB 59 [2014] PIERB 58 [2014] PIERB 57 [2014] PIERB 56 [2013] PIERB 55 [2013] PIERB 54 [2013] PIERB 53 [2013] PIERB 52 [2013] PIERB 51 [2013] PIERB 50 [2013] PIERB 49 [2013] PIERB 48 [2013] PIERB 47 [2013] PIERB 46 [2013] PIERB 45 [2012] PIERB 44 [2012] PIERB 43 [2012] PIERB 42 [2012] PIERB 41 [2012] PIERB 40 [2012] PIERB 39 [2012] PIERB 38 [2012] PIERB 37 [2012] PIERB 36 [2012] PIERB 35 [2011] PIERB 34 [2011] PIERB 33 [2011] PIERB 32 [2011] PIERB 31 [2011] PIERB 30 [2011] PIERB 29 [2011] PIERB 28 [2011] PIERB 27 [2011] PIERB 26 [2010] PIERB 25 [2010] PIERB 24 [2010] PIERB 23 [2010] PIERB 22 [2010] PIERB 21 [2010] PIERB 20 [2010] PIERB 19 [2010] PIERB 18 [2009] PIERB 17 [2009] PIERB 16 [2009] PIERB 15 [2009] PIERB 14 [2009] PIERB 13 [2009] PIERB 12 [2009] PIERB 11 [2009] PIERB 10 [2008] PIERB 9 [2008] PIERB 8 [2008] PIERB 7 [2008] PIERB 6 [2008] PIERB 5 [2008] PIERB 4 [2008] PIERB 3 [2008] PIERB 2 [2008] PIERB 1 [2008]
All Journals
PIER PIER B PIER C PIER M PIER Letters
2015-02-16
Novel Wearable Eagle Shape Microstrip Antenna Array with Mutual Coupling Reduction
By
Mohamed Ismail Ahmed,

    Dr. Mohamed Ismail Ahmed

    Microstrip

    Electronics Research Institute

    Egypt

    Homepage

Esmat A. F. Abdallah,

    Dr. Esmat A. F. Abdallah

    Microstrip Department

    Electronics Research Institute

    Egypt

    Homepage

Hadia El-Hennawy

    Professor Hadia El-Hennawy

    Electronics and Communications Dept.

    Ain Shams University

    Egypt

    Homepage

Progress In Electromagnetics Research B, Vol. 62, 87-103, 2015
doi:10.2528/PIERB14120901
Abstract
Novel eagle shape microstrip wearable antennas (element and array) are presented. The single- and two-element antenna arrays are designed and fabricated on a Roger RT/Duroid 5880 substrate with dielectric constant of 2.2, thickness of 1.5748 mm, and tan δ = 0.001. The measured results show that a reduction in mutual coupling of 36 dB is achieved at the first band (1.68-2.65) GHz and 22.1 dB over the second band (6.5-8.86) GHz due to introducing electromagnetic bandgap (EBG) structures. EBG structure has an eagle-like shape with more gaps. By increasing the number of EBG cells and varying the gap distance between cells to certain limit, the mutual coupling reduction is improved. Also, a size reduction of 80% is achieved. The microstrip array was simulated by CST simulator version 2014 and fabricated by proto laser machine with precision 25 μm. The specific absorption rate (SAR) investigation is carried out on CST2014 Simulator. Maximum SAR value is 1.953 W/Kg which indicates that the eagle-shaped microstrip wearable antennas are safe for human. The antennas can be used in the official or RFID applications.
Citation
Mohamed Ismail Ahmed, Esmat A. F. Abdallah, and Hadia El-Hennawy, "Novel Wearable Eagle Shape Microstrip Antenna Array with Mutual Coupling Reduction," Progress In Electromagnetics Research B, Vol. 62, 87-103, 2015.
doi:10.2528/PIERB14120901
References

1. Hall, P. S. and Y. Hao, "Antennas and propagation for body centric communications," 1st European Conference on Antennas and Propagation (EuCAP), Nice, Nov. 2006.

2. Hadjem, A., E. Conil, A. Gati, M. F. Wong, and J. Wiart, "Analysis of power absorbed by children’s head as a result of new usages of mobile phone," IEEE Transactions on Electromagnetic Compatibility, Vol. 52, No. 4, 812-819, Nov. 2011.
doi:10.1109/TEMC.2010.2052810

3. Zhao, K., S. Zhang, Z. Ying, T. Bolin, and S. He, "SAR study of different MIMO antenna designs for LTE application in smart mobile handsets," IEEE Transactions on Antennas and Propagation, Vol. 61, No. 6, 3270-3279, Jun. 2013.
doi:10.1109/TAP.2013.2250239

4. Parthasarathy, K. V., Mutual Coupling in Patch Antennas, Lap Lambert Academic Publishing, Germany, 2011.

5. Assimonis, S. D., T. V. Yioultsis, and C. S. Antonopoulos, "Design and optimization of uniplanar EBG structures for low profile antenna applications and mutual coupling reduction," IEEE Transactions on Antennas and Propagation, Vol. 60, No. 10, 4944-4949, Oct. 2012.
doi:10.1109/TAP.2012.2210178

6. Exposito-Dominguez, G., J. M. Fernandez-Gonzalez, P. Padilla, and M. Sierra-Castaner, "Mutual coupling reduction using EBG in steering antennas," IEEE Antennas and Wireless Propagation Letters, Vol. 11, 1265-1268, 2012.
doi:10.1109/LAWP.2012.2226013

7. Hajilou, Y., H. R. Hassani, and B. Rahmati, "Mutual coupling reduction between microstrip patch antennas," Proceedings of 6th European Conference on Antennas and Propagation (EUCAP), 1064-1067, Prague, Czech Republic, Mar. 2012.

8. Ahmed, M. I., E. A. Abdallah, A. A. Sebak, and H. M. ELhennawy, "Novel flagshape microstrip antenna array mutual coupling reduction," Proceedings of 2nd Advanced Electromagnetics Symposium (AES), 292-298, Sharjah, United Arab Emirates, Mar. 2013.

9. Constantine, A. B., Antenna Theory, Analysis and Design, Chapter. 14, John Wiley & Sons, New York, 2005.

10. IEEE C95.1-2005 "IEEE standards for safety levels with respect to human exposure to radio frequency electromagnetic fields, 3 kHz to 300 GHz,", Institute of Electrical and Electronics Engineers, New York, NY, 2005.

11. International Non-Ionizing Radiation Committee of the International Radiation Protection Association "Guidelines on limits on exposure to radio frequency electromagnetic fields in the frequency range from 100 kHz to 300 GHz," Health Physics, Vol. 54, No. 1, 115-123, 1988.

12. Hall, P. S. and Y. Hao, Antennas and Propagation for Body-centric Wireless Communications, Artech House, Boston, 2012.

13. CST Microwave Studio Suite 2014 User’s Manual Computer Simulation Technology, Framingham, MA, USA, 2014, [Online], available:http://www.cst.com.

14. Gabriel, S., R. W. Lau, and C. Gabriel, "The dielectric properties of biological tissues. II. Measurements in the frequency range 10Hz to 20GHz," Phys. Med. Biol., Vol. 41, 2251-2269, 2007.

16. Ilvonen, J., O. Kivekas, J. Holopainen, R. Valkonen, K. Rasilainen, and P. Vainikainen, "Mobile terminal antenna performance with the user’s hand: Effect of antenna dimensioning and location," IEEE Antennas and Wireless Propagation Letters, Vol. 10, 772-775, 2011.
doi:10.1109/LAWP.2011.2163290

17. Kwak, S. I., D. Sim, and J. H. Kwon, "Design of optimized multilayer PIFA with the EBG structure for SAR reduction in mobile applications," IEEE Transactions on Electromagnetic Compatibility, Vol. 53, No. 2, 325-333, May 2011.
doi:10.1109/TEMC.2011.2134101

18. Kwak, S. I., D. Sim, and J. H. Kwon, "SAR reduction on a mobile phone antenna using the EBG structures," The 38th European Microwave Conference, 1308-1311, Oct. 2008.

19. Villanueva, R. G., H. J. Aguilar, and R. L. Miranda, "State of the art methods for low SAR antenna implementation," 2010 Proceedings of the Fourth European Conference on Antennas and Propagation (EuCAP), 1-4, 2010.

20. Jung, M. and B. Lee, "SAR reduction for mobile phones based on analysis of EM absorbing material characteristics," Proc. Antennas and Propagation Society International Symposium, Vol. 2, 1017-1020, Jun. 2003.

21. Tang, C. L., J. Y. Sze, and Y. F. Wu, "A compact coupled-fed penta-band antenna for mobile phone application," APMC, 2260-2263, 2010.

22. Young, C. W., Y. B. Jung, and C. W. Jung, "Octaband internal antenna for 4G mobile handset," IEEE Antennas and Wireless Propagation Letters, Vol. 10, 817-819, 2011.

Download Full Article (260) View Full Article volume
The EM Academy piers.org jpier.org Who's Who in EM
Copyright © 2022 The Electromagnetics Academy. All Rights Reserved.