Abstract
Abstract
For the cobweb circuit network, the previous research focuses on the single-stage cobweb. In this paper, we studied a kind of multi-stage cobweb composed of n single-stage cobwebs, namely a 3 × 6 × n cobweb cascade LC network (CCLCN). To calculate the equivalent impedance of such large-scale complex circuit networks, we used a method that combines the replacement method with the modified recursive-transformation method (referred to as the R-MRT method). The CCLCN circuit was first replaced by a purely resistive circuit with identical connections, then the purely resistive circuit was calculated by the modified recursive-transformation method, and finally, the equivalent impedance of the CCLCN circuit was obtained by parameter replacement. Utilizing the above method, we obtained the exact analytical expression of the equivalent impedance of the 3 × 6 × n CCLCN. This result shows that the equivalent impedance problem of large-scale complex circuit networks such as the multi-stage cobweb has been solved.
Subject
Condensed Matter Physics,Mathematical Physics,Atomic and Molecular Physics, and Optics
Reference47 articles.
1. Topological states in electric circuit (in Chinese);Luo;Acta Phys. Sin.,2019
2. Percolation-induced enhancement of magnetoresistance effect in high spin-polarized oxides: network effects(in Chinese);Cai;Prog. Phys.,2008
3. Simulating quantum spin Hall effect in the topological Lieb lattice of a linear circuit network;Zhu;Physical Review B,2018
4. Structural design and fabrication of ultrafine two-dimensional nanofiber/nets for high- performance air filtration (in Chinese) (Doctor Thesis);Liu,2020
5. A high performance flexible pressure sensor realized by forming cobweb-like structure on a non-uniform micropost array;Zhang;ACS Appl. Mater. Interfaces,2020