Open AccessSolve the passive interference of UHF transmission lines based on LE‐PO method
Author(s) -
Tang Bo,
Li Yaowei,
Huang Hansheng
Publication year - 2019
Publication title -
the journal of engineering
Language(s) - English
Resource type - Journals
ISSN - 2051-3305
DOI - 10.1049/joe.2018.8822
Subject(s) - ultra high frequency , interference (communication) , physics , electric power transmission , excitation , power (physics) , tower , plane wave , physical optics , field (mathematics) , computational physics , electronic engineering , computer science , acoustics , optics , electrical engineering , telecommunications , mathematics , engineering , quantum mechanics , channel (broadcasting) , civil engineering , pure mathematics
On the research about the ultra‐high frequency (UHF) re‐radiation interference (RRI) from the power lines, traditional high‐frequency algorithms need excessive computing resources or have a bad calculation precision. Based on the surface model of RRI, the calculation idea using large element‐physical optics (LE‐PO) is proposed to calculate the level of RRI. According to the assumption of LE‐PO, the electric field integral equation is simplified. When the excitation source is plane wave, Linearly Phased‐Rao Wilton Glisson (LP‐RWG) basis functions are used to disperse the surface‐induced current and the expression of scattering field from the tower of power lines was deduced. Related analysis example is used to analyse the calculation precision and the computing resource of LE‐PO. As a result, the computing resources of LE‐PO are much less than PO, while the calculation precision of LE‐PO is the same as PO.