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2 |
http://www.lightning.or.kr
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3 |
ITU-T Recommendation K.21, Resistibility of Telecommunication Equipment in Customer Premises to Overvoltages and Overcurrents, 2003
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4 |
Lightning and Insulator Subcommittee of the T&D Committee, 'Parameters of loghtning stroke: A review', IEEE Trans. on Power Delivery, vol. 20, no. 1, pp. 346-358, Jan. 2005
DOI
ScienceOn
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5 |
ITU-T handbook, The Protection of Telecommunications Lines and Equipment against Lightning Discharges(Chapter 10), 1995
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6 |
IEC61663-2, Lightning protection - Telecommunication Lines - part 2 : Lines Using Metallic Conductor, 2001
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7 |
[13]ITU-T Recommendation K.39, Risk Assesment of Damage to Telecommunication Sites Due to Lightning Discharge, 1996
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8 |
ITU-T Recommendation K.67, Expected Surges on Telecommunications and Signaling Networks Due to Lightning, 2006
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9 |
주재철, '시간영역 유한차분법을 이용한 외부 전자파와 가공통신선로의 결합 현상 해석', 충남대학교 박사학위논문, 2001
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10 |
전파연구소 고시 제2006-127호, 전자파보호기준, 2006
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11 |
H. Yamane, M. Sato, T. Ideguchi, and M. Tokuda, 'New lightning surge test method for subscriber telecommunication equipment considering nearby lightning return stroke', IEICE Trans. Commun., vol. E78-B, pp. 193-197, Feb. 1995
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12 |
T. Tominaga, N. Kuwabara, J. Kato, A. Ramli, A. Halim, and H. Ahmad, 'Characteristics of lightning surge induced in tele-communication center in tropical area', IEEE Trans. on EMC, vol. 45, no. 1, pp. 82-91, Feb. 2003
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13 |
ITU-T Recommendation K.20, Resistibility of Telecommunication Equipment Installed in a Telecommunications Centre to Overvoltages and Overcurrents, 2003
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