Computational Analysis of Shielded Twisted Pair Cable Based on MoM-MLFMM Algorithm

Abstract

The aims of this article is to develop and analyze the shielded twisted pair (STP) cable using the method of moment and multilevel fast multipole algorithm (MoM-MLFMM). This method is based on an iteration process in which the adaptive passes and adaptive passes per refinement are used to compute the computational parameters of STP cable. The computational parameters are computational time, memory size, crosstalk and attenuation. The optimal mesh refinement is used for iterative procedure. The MLFMM algorithm provides an approximate linear solution. Therefore, the main advantage of this algorithm is to reduce memory usage as well as saving the simulation time for large-scale electromagnetic simulation. This quality makes it reliable and effective. Moreover, in the numerical simulations, the crosstalk, Attenuation and computational parameters of the STP cable were demonstrated and compared with the state of art work.