Title :
High-frequency dielectric characteristics of surge attenuating semiconductive cable compounds
Author :
Braun, J.M. ; Stone, G.C. ; Boggs, S.A.
Author_Institution :
Ontario Hydro Res. Div., Toronto, Ont., Canada
Abstract :
A novel model for the propagation of surges in solid dielectric transmission and distribution cables has recently been developed. The theory accurately predicts the relatively large high-frequency attenuation of such cable systems, which results from the displacement current passing through the semiconductive cable shields. A brief description of this theory provides the basis for describing the properties of a semiconducting material optimized for surge attenuation. The high-frequency dielectric characteristics of a range of commercial and experimental semiconductive materials are presented to illustrate the large variability of the high-frequency conductivity and permittivity observed in semiconductive materials based on conductive fillers
Keywords :
cable insulation; filled polymers; organic semiconductors; power cables; surge protection; surges; conductive fillers; displacement current; high-frequency attenuation; high-frequency conductivity; high-frequency dielectric characteristics; model; permittivity; polyethylene based; propagation of surges; surge attenuating semiconductive cable compounds; Attenuation; Cables; Conducting materials; Conductivity; Dielectric materials; Permittivity; Semiconductivity; Semiconductor materials; Solid modeling; Surges;
Conference_Titel :
Conduction and Breakdown in Solid Dielectrics, 1992., Proceedings of the 4th International Conference on
Conference_Location :
Sestri Levante
Print_ISBN :
0-7803-0129-3
DOI :
10.1109/ICSD.1992.224951
