Shielding Effectiveness of Some Conductive Textiles and Their Capability to Reduce the Mobile Phones Radiation

[1] L. C. Fung, S. W. Leung, and K. H. Chan, Experimental study of sar reduction on commercial products and shielding materials in mobile phone applications, Microwave And Optical Technology Letters, Vol. 36, No. 6, pp. 419-422, March 2003.10.1002/mop.10780Search in Google Scholar

[2] K. H. Chan, K.M. Chow, L. C. Fung, S. W. Leung, Effects of using conductive materials for SAR reduction in mobile phones, Microwave And Optical Technology Letters, Vol. 44, No. 2, pp. 140-144, Jan. 2005.10.1002/mop.20569Search in Google Scholar

[3] Yu-Ting Hsiao, Shih-Chung Tuan, Hsi-Tseng Chou & Jin-Song Wang, Applications of shielding techniques to enhance the antenna performance of mobile communications and reduce SAR induction in the human head, Electromagnetics, 25:4, pp. 343-361, 2006.10.1080/02726340590936202Search in Google Scholar

[4] A. Anand Kakirde, B. Sinha and S. Nath Sinha, Reduction in SAR using RF shields Made of Nickel–Zinc Spinel Ferrite at 2.4 GHz, IETE Journal of Research, Vol 54, issue 4, pp. 308-313, JUL-AUG 200810.4103/0377-2063.44234Search in Google Scholar

[5] H.-H. Chou, H.-T. Hsu, H.-T. Chou, K.-H. Liu, and F.-Y. Kuo, Reduction of peak SAR in human head for handset applications with resistive sheets (r-cards), Progress in Electromagnetics Research, Vol. 94, pp. 281-296, 2010.10.2528/PIER09062702Search in Google Scholar

[6] L.K. Ragha, M.S.Bhatia, Evaluation of SAR Reduction for Mobile Phones Using RF Shields, International Journal of Computer Applications (0975 – 8887), 1(13), pp. 80-85, 201010.5120/277-437Search in Google Scholar

[7] T. Anita Jones Mary, C. S. Ravichandran, SAR reduction in slotted PIFA for mobile handsets using RF shield, ARPN Journal of Engineering and Applied Sciences, vol. 7, no. 11, pp. 1501-1505, Nov. 2012.Search in Google Scholar

[8] M. T. Islam, M. R. I. Faruque, N. Misran, Reduction of Specific Absorption Rate (SAR) in the human head with ferrite material and metamaterial, Progress In Electromagnetics Research C, Vol. 9, pp. 47-58, 2009.10.2528/PIERC09062303Search in Google Scholar

[9] MRI Faruque, MT Islam, Design of Miniaturized Double-Negative Material for Specific Absorption Rate Reduction in Human Head, PLoS ONE 9(10): e109947. doi:10.1371/journal.pone.0109947, 2014.10.1371/journal.pone.0109947421165325350398Search in Google Scholar

[10] M. T. Islam, M. R. I. Faruque, N. Misran, Design analysis of ferrite sheet attachment for SAR reduction in human head, PIER, vol. 98, pp. 191-205, 2009.10.2528/PIER09082902Search in Google Scholar

[11] Y.L. Diao, W N Sun, K H Chan, S W Leung and Y M Siu, Study of effects of commercial shielding products attached to mobile phone on human body with implanted medical device, Proceedings of EMC 2014, pp. 226-229, IEICE, Tokyo, Japan, 2014.Search in Google Scholar

[12] P.F. Wilson, M.T. Ma, Shielding-effectiveness measurements using a dual TEM cell, IEEE Trans. on Electromagnetic Compatibility, vol. EMC-27, 3, pp. 137-142, 1985.10.1109/TEMC.1985.304277Search in Google Scholar

[13] A. Manara, Measurement of material shielding effectiveness using a dual TEM cell and vector network analyzer, IEEE Transactions on Electromagnetic Compatibility, vol 38. No3., pp. 327-333, Aug. 1996.10.1109/15.536062Search in Google Scholar

[14] TESEO - DTEM cell: User Guide, TESEO SpA, Druento, Italy, 2004.Search in Google Scholar

[15] IEC 62209-1 Human exposure to RF fields from hand-held and body-mounted wireless communication devices Part 1: Procedure to determine SAR for devices used next to the ear (300 MHz to 6 GHz), 2016.Search in Google Scholar

[16] G. Mihai, A. M. Aron, V. Haralambie, A. Paljanos, A study of mobile phone SAR levels modification in different experimental configurations under 2G and 3G communication standards, Proc. of 11^th Intl. Conference on Communications, Bucharest, 9-11 June 2016.10.1109/ICComm.2016.7528294Search in Google Scholar