A new technique is proposed to reconstruct faulty wiring networks from the time-domain
reflectometry (TDR) response. The developed method is also for characterization of defects …

The transmission line is the backbone of the power system. A transmission-line working
principle is based on its components: inductance, capacitance, and resistance. These …

The availability of accurate and broadband models for underground and submarine cable
systems is of paramount importance for the correct prediction of electromagnetic transients …

We present an efficient numerical technique for calculating the series impedance matrix of
systems with round conductors. The method is based on a surface admittance operator in …

This paper presents a systematic approach for calculating electrical per-unit-length
parameters of signal cables by the finite-element method. The associated software (UFIELD) …

An accurate modeling of skin effect inside conductors is of capital importance to solve
transmission line and scattering problems. This paper presents a surface-based formulation …

A new numerical method is proposed to model the electric behavior of a single bundle litz
wire with a large number of strands. The method is first based on a two-dimensional (2-D) …

Accurate knowledge of the per-unit length impedance of power cables is necessary to
correctly predict electromagnetic transients in power systems. In particular, skin, proximity …

Wideband cable models for the prediction of electromagnetic transients in power systems
require an accurate calculation of the cable series impedance as a function of frequency. A …

Three-phase three-core distribution power cables are widely deployed in power distribution
networks and are continually being extended to address the ever-increasing power demand …