KIEE
The Transactions of
the Korean Institute of Electrical Engineers
KIEE
Contact
Open Access
Monthly
ISSN : 1975-8359 (Print)
ISSN : 2287-4364 (Online)
http://www.tkiee.org/kiee
Mobile QR Code
The Transactions of the Korean Institute of Electrical Engineers
ISO Journal Title
Trans. Korean. Inst. Elect. Eng.
Main Menu
Main Menu
최근호
Current Issue
저널소개
About Journal
논문집
Journal Archive
편집위원회
Editorial Board
윤리강령
Ethics Code
논문투고안내
Instructions to Authors
연락처
Contact Info
논문투고·심사
Submission & Review
Journal Search
Home
Archive
2025-02
(Vol.74 No.02)
10.5370/KIEE.2025.74.2.370
Journal XML
XML
PDF
INFO
REF
References
1
Kim Dong-seong, “Lightning current response to transient potential rise of ground grid,” Journal of the Institute of Illuminating and Electrical Installation Engineers, vol. 35P, no. 5, pp. 48∼56, 2021.
2
Son Seok-geum, “Grounding design considering hazardous voltage in a multi-layered structure with limited site,” Journal of the Korean Institute of Electrical Engineers, vol. 62P, no. 3, pp. 139∼144, 2013.
3
Sim Yong-sik, “Improved mesh grounding electrode model according to internal conductor arrangement of mesh grounding electrode,” Journal of the Institute of Illuminating and Electrical Installation Engineers, vol. 24P, no. 6, pp. 60∼66, 2010.
4
Park Seong-ryeol, “A Study on the Method of Lowering Grounding Impedance by Grounding Rod,” Journal of the Korean Society of Disaster Information, vol. 18, no. 1, pp. 19∼28, 2022.
5
Cho, Seong-Cheol, and Bok-Hee Lee, “A Technique for Calculating Frequency Dependence of Grounding Impedance of Horizontally Buried Conductors,” Journal of the Korean Institute of Electrical Engineers, vol. 65, no. 5, pp. 745∼752, 2016.
6
Chow, Y.L., Yang, J.J., Srivastava, K.D., “Grounding resistance of buried electrodes in multi-layer earth predicted by simple voltage measurements along each surface-a theoretical discussion,” IEEE Transactions on., vol. 10, no. 2, pp. 707∼715, 1995.
7
Yamamoto Kazuo, Yoshioka Kazuki, Sumi Shinichi, Yanagawa hunichi, Sekioka Shozo, “Mutual Influence of a Deeply Buried Grounding Electrode and the Surrounding Grounding Mesh,” IEEE Transactions on Industry Applications, vol. 51, no. 6, pp. 4900∼4906, 2015.
8
Artur Łukaszewski, Łukasz Nogal, “Influence of lightning current surge shape and peak value on grounding parameters,” Bulletin of the Polish Academy of Sciences: Technical Sciences, vol. 69, no. 2, pp. 1∼8, 2021.
9
Ghomi, M., Zhang, H., Leth Bak, C., Faria da Silva, F., Yin, K., “Integrated model of transmission tower surge impedance and multilayer grounding system based on full-wave approach,” Aalborg University, pp. 1∼9, 2021.
10
Lee Bok-hee, “Grounding facilities based on IEC standards,” Daegi Publishing, pp. 150∼161, 2022.
11
Lee, Bok-hee, “Analysis of Frequency Dependence and Transient Response Characteristics of Carbon Grounding Electrode Grounding Impedance,” Journal of the Institute of Illuminating and Electrical Installation Engineers, vol. 27, no. 2, pp. 54∼61, 2013.
12
Grcev, L., Markovski, B., “Impulse Impedance and Effective Area of Grounding Grids,” IEEE Transactions on Power Delivery, vol. 36 no. 2, pp. 1183∼1192, 2021.
13
Kherif. Omar., Chiheb. Sofiane, “Investigation of Horizontal Ground Electrode's Effective Length Under Impulse Current.,” IEEE Transactions on Electromagnetic Compatibility. vol. 61, no. 5, pp. 1515∼1523, 2018.
14
Buthenah Zedan, “Characterisation Of Substation Earth Grid Under High Frequency And Transient Conditions,” Doctoral Dissertation, School of Engineering Cardiff University, pp. 54∼87, 2005.
15
IEC 62305-1, Protection against lightning – Part 1 : General principles.
