Title :
Lightning-Induced Voltage Over Lossy Ground by a Hybrid Electromagnetic Circuit Model Method With Cooray–Rubinstein Formula
Author :
Yutthagowith, Peerawut ; Ametani, Akihiro ; Nagaoka, Naoto ; Baba, Yoshihiro
Author_Institution :
Doshisha Univ., Kyotanabe, Japan
Abstract :
This paper presents the calculation of lightning-induced voltages over lossy ground, generated by a lightning strike to a flat ground and a tall object. A hybrid electromagnetic circuit model method adopting an approximation formula, i.e., Cooray-Rubinstein expression, is employed in this paper. A comparison of the simulation results with experimental data shows that the Cooray-Rubinstein formula is still good enough for the calculation of a lightning-induced voltage. Electric fields calculated by the proposed method, and by equations derived by Master and Uman and a conventional dipole technique, are compared. The two approaches yield the same total electrical fields but different components of electrostatic, induction and radiation.
Keywords :
approximation theory; electric fields; electromagnetic coupling; Cooray-Rubinstein formula; approximation formula; dipole technique; electric fields; hybrid electromagnetic circuit model; lightning-induced voltage; lossy ground; Circuit simulation; Electromagnetic coupling; Electromagnetic fields; Electromagnetic modeling; Electromagnetic radiation; Lightning; Soil; Switches; Transmission line matrix methods; Voltage; Cooray–Rubinstein formula; hybrid electromagnetic circuit model (HECM) method; lightning-induced voltage; lossy ground;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2009.2029702
