Search search
submit Submit
Publication Date
to
Vol. 60
Latest Volume
All Volumes
PIERC 142 [2024] PIERC 141 [2024] PIERC 140 [2024] PIERC 139 [2024] PIERC 138 [2023] PIERC 137 [2023] PIERC 136 [2023] PIERC 135 [2023] PIERC 134 [2023] PIERC 133 [2023] PIERC 132 [2023] PIERC 131 [2023] PIERC 130 [2023] PIERC 129 [2023] PIERC 128 [2023] PIERC 127 [2022] PIERC 126 [2022] PIERC 125 [2022] PIERC 124 [2022] PIERC 123 [2022] PIERC 122 [2022] PIERC 121 [2022] PIERC 120 [2022] PIERC 119 [2022] PIERC 118 [2022] PIERC 117 [2021] PIERC 116 [2021] PIERC 115 [2021] PIERC 114 [2021] PIERC 113 [2021] PIERC 112 [2021] PIERC 111 [2021] PIERC 110 [2021] PIERC 109 [2021] PIERC 108 [2021] PIERC 107 [2021] PIERC 106 [2020] PIERC 105 [2020] PIERC 104 [2020] PIERC 103 [2020] PIERC 102 [2020] PIERC 101 [2020] PIERC 100 [2020] PIERC 99 [2020] PIERC 98 [2020] PIERC 97 [2019] PIERC 96 [2019] PIERC 95 [2019] PIERC 94 [2019] PIERC 93 [2019] PIERC 92 [2019] PIERC 91 [2019] PIERC 90 [2019] PIERC 89 [2019] PIERC 88 [2018] PIERC 87 [2018] PIERC 86 [2018] PIERC 85 [2018] PIERC 84 [2018] PIERC 83 [2018] PIERC 82 [2018] PIERC 81 [2018] PIERC 80 [2018] PIERC 79 [2017] PIERC 78 [2017] PIERC 77 [2017] PIERC 76 [2017] PIERC 75 [2017] PIERC 74 [2017] PIERC 73 [2017] PIERC 72 [2017] PIERC 71 [2017] PIERC 70 [2016] PIERC 69 [2016] PIERC 68 [2016] PIERC 67 [2016] PIERC 66 [2016] PIERC 65 [2016] PIERC 64 [2016] PIERC 63 [2016] PIERC 62 [2016] PIERC 61 [2016] PIERC 60 [2015] PIERC 59 [2015] PIERC 58 [2015] PIERC 57 [2015] PIERC 56 [2015] PIERC 55 [2014] PIERC 54 [2014] PIERC 53 [2014] PIERC 52 [2014] PIERC 51 [2014] PIERC 50 [2014] PIERC 49 [2014] PIERC 48 [2014] PIERC 47 [2014] PIERC 46 [2014] PIERC 45 [2013] PIERC 44 [2013] PIERC 43 [2013] PIERC 42 [2013] PIERC 41 [2013] PIERC 40 [2013] PIERC 39 [2013] PIERC 38 [2013] PIERC 37 [2013] PIERC 36 [2013] PIERC 35 [2013] PIERC 34 [2013] PIERC 33 [2012] PIERC 32 [2012] PIERC 31 [2012] PIERC 30 [2012] PIERC 29 [2012] PIERC 28 [2012] PIERC 27 [2012] PIERC 26 [2012] PIERC 25 [2012] PIERC 24 [2011] PIERC 23 [2011] PIERC 22 [2011] PIERC 21 [2011] PIERC 20 [2011] PIERC 19 [2011] PIERC 18 [2011] PIERC 17 [2010] PIERC 16 [2010] PIERC 15 [2010] PIERC 14 [2010] PIERC 13 [2010] PIERC 12 [2010] PIERC 11 [2009] PIERC 10 [2009] PIERC 9 [2009] PIERC 8 [2009] PIERC 7 [2009] PIERC 6 [2009] PIERC 5 [2008] PIERC 4 [2008] PIERC 3 [2008] PIERC 2 [2008] PIERC 1 [2008]
All Journals
PIER PIER B PIER C PIER M PIER Letters
2015-11-30
Design and Simulation of an Improved Energy Selective Surface
By
Bo Yi,

    Dr. Bo Yi

    College of Electronic Science and Engineering

    National University of Defense Technology

    China

    Homepage

Yanfei Dong,

    Dr. Yanfei Dong

    College of Electronic Science and Engineering

    National University of Defense Technology

    China

    Homepage

Cheng Yang,

    Dr. Cheng Yang

    College of Electronic Science and Engineering

    National University of Defense Technology

    China

    Homepage

Peiguo Liu,

    Dr. Peiguo Liu

    College of Electronic Science and Engineering

    National University of Defense Technology

    China

    Homepage

Yan Li

    Dr. Yan Li

    Northwest Institute of Nuclear Technology

    China

    Homepage

Progress In Electromagnetics Research C, Vol. 60, 57-66, 2015
doi:10.2528/PIERC15092002
Abstract
Energy selective surface (ESS) proposed in recent years is one of the most effective means for defending high intensity electromagnetic wave attacking. This paper presents an improved ESS structure and its systematic design method. An ESS prototype is designed and fabricated based on a given requirement. Its insertion loss is measured in an anechoic chamber, and its shielding effectiveness is tested under HPM and UWB irradiation. Measured results show that the ESS sample meets the given requirement.
Citation
Bo Yi, Yanfei Dong, Cheng Yang, Peiguo Liu, and Yan Li, "Design and Simulation of an Improved Energy Selective Surface," Progress In Electromagnetics Research C, Vol. 60, 57-66, 2015.
doi:10.2528/PIERC15092002
References

1. Sabath, F., "What can be learned from documented Intentional Electromagnetic Interference (IEMI) Attacks?," General Assembly and Scientific Symposium, 1-4, URSI Istanbul, 2011.

2. Sabath, F., "Classification of electromagnetic effects at system level," International Symposium on Electromagnetic Compatibility - EMC, 1-5, Europe, Hamburg, Germany, 2008.

3. Savage, E. and W. Radasky, Overview of the Threat of IEMI(Intentional Electromagnetic Interference) International Symposium on Electromagnetic Compatibility (EMC), 312-322, Pittsburgh, USA, 2012.

4. Backstrom, M. G. and K. G. Lovstrand, "Susceptibility of electronic systems to high-power microwaves: Summary of test experience," IEEE Transactions on Electromagnetic Compatibility, Vol. 46, 396-403, 2004.
doi:10.1109/TEMC.2004.831814

5. Yang, C., P. Liu, and X. Huang, "A novel method of energy selective surface for adaptive hpm/emp protection," Antennas and Wireless Propagation Letters, Vol. 12, 112-115, 2013.
doi:10.1109/LAWP.2013.2243105

6. Zurauskiene, N., S. Balevicius, and L. Zurauskiene, "Nanostructured manganite films as protectors against fast electromagnetic pulses," IEEE Transactions on Plasma Science, Vol. 41, 2890-2895, 2013.
doi:10.1109/TPS.2013.2269480

7. Tan, J., P. Liu, C. Yang, et al. "EM simulation analysis of the Energy Selective surface," High Voltage Engineering, Vol. 39, 30897-30903, 2013.

8. Nilsson, T., "Investigation of limiters for HPM and UWB front-door protection,", Ph.D. Dissertation, Linköping University, 2006.

9. Lee, K.-A. and K.-C. Ko, "Propagation model of high power electromagnetic pulse by using a serial-parallel resistors circuit," IEEE Transactions on Plasma Science, Vol. 42, 3309-3312, 2014.
doi:10.1109/TPS.2014.2342794

10. Bolioli, S. and J. C. Joly, "Front-door protection using frequency selective surface," International Symposium on Electromagnetic Compatibility (EMC), 1-4, Athens, 2009.

11. Monni, S., D. Bekers, M. van Wanum, et al. "Limiting frequency selective surface," EuMC 2009 Microwave Conference, 606-609, Rome European, 2009.

12. Monni, S., D. J. Bekers, M. van Wanum, et al. "Protection of RF electronics using tuneable frequency selective surfaces," 3rd European Conference on Antennas and Propagation, EuCAP 2009, 3170-3174, Berlin, 2009.

13. Scott, S., C. D. Nordquist, M. J. Cich, et al. "A frequency selective surface with integrated limiter for receiver protection," Antennas and Propagation Society International Symposium (APSURSI), 1-2, Chicago, 2012.

14. Yang, G., J. Tan, D. Sheng, et al. "Plasma limiter for Protecting against high power microwave," Journal Of Scientific & Industrial Research, Vol. 67, 685-687, 2008.

15. Munk, B. A., Frequency Selective Surface: Theory and Design, Wiley, New York, 2000.
doi:10.1002/0471723770

16. Zhang, Y., M. Yuan, and Q. Liu, "Wide band response of an electromagnetic wave shield based on a diode grid," Progress In Electromagnetic Research, Vol. 141, 591-606, 2013.
doi:10.2528/PIER13053004

17. Chang, K., I. K. Sang, and J. Y. Young, "Equivalent circuit modeling of active frequency selective surface," IEEE on Radio and Wireless Symposium, 663-666, Orlando, 2008.

18. Marcuvitz, N., Waveguide Handbook, 280-291, McGraw-Hill, London, UK, 1951.

19. Palisek, L. and L. Suchy, "High power microwave effects on computer networks," EMC Europe, 18-21, York, 2011.

Download Full Article (308) View Full Article volume
The EM Academy piers.org jpier.org Who's Who in EM
Copyright © 2022 The Electromagnetics Academy. All Rights Reserved.