Title :
Efficient FDTD simulation of fields in coaxial cables with multi-layered insulation partially formed by dispersive layers of extremely high permittivity
Author :
Jobava, R. ; Heinrich, R. ; Pommerenke, D. ; Kalkner, W. ; Gheonjian, A.
Author_Institution :
Tbilisi State Univ., Georgia
Abstract :
An efficient and accurate FDTD simulation technique for investigation of field propagation in multi-layered coaxial cables has been developed. This technique combines a uniform FDTD scheme with the piecewise linear recursive convolution method, which is applied for the treatment of fields in dispersive layers, having extremely high permittivity. The method has been developed and tested for a radial symmetric cylindrical system and is intended for future use in 3D applications.
Keywords :
coaxial cables; convolution; dispersion (wave); dispersive media; electric fields; finite difference time-domain analysis; partial discharges; power cables; power transmission lines; 0.1 to 1000 MHz; FDTD; coaxial cables; convolution method; dispersive layers; field propagation; high permittivity; high voltage cables; linear recursive method; multi-layered insulation; partial discharges; power distribution; propagation characteristics; radially symmetric cylinder; Cable insulation; Coaxial cables; Conductors; Dispersion; Finite difference methods; Partial discharges; Permittivity; Polyethylene; Semiconductivity; Time domain analysis;
Conference_Titel :
Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory, 2002. DIPED - 2002. Proceedings of the 7th International Seminar/Workshop on
Print_ISBN :
966-02-2224-6
DOI :
10.1109/DIPED.2002.1049181
