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Potential & Field Distribution in Microstrip Line - Application of FDM solution to Laplace Equation

version 1.0.0.0 (3.04 KB) by Computational Electromagnetics At IIT Madras
Objective of the program is to solve for the steady state voltage an field in a microstrip line

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Updated 19 Dec 2011

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Authors - Sathya Swaroop Ganta, Kayatri, Pankaj Arora, Sumanthra Chaudhuri, Projesh Basu, Nikhil Kumar CS

Course - Computational Electromagnetics, Fall 2011

Instructor - Dr. Ananth Krishnan
Assistant Professor
Department of Electrical Engineering
Indian Institute of Technology Madras
Chennai, India

Description:-
Objective of the program is to solve for the steady state voltage distribution of a microstrip line in air using FDM of Laplace's equation. The x dimension is 7 units in length and y dimension is 2 units in length, of the entire simulation domain. A microstrip of 1 unit length in x-direction is placed at the center of the simulation domain. It's thickness is 1 grid line (close to zero theoretically). A DC voltage of 1 Volt is applied to the microstrip while all outer boundaries are at ground potential. The steady state voltage and field distribution are plotted to show an application of FDM method for Laplace's equation.

Cite As

Computational Electromagnetics At IIT Madras (2021). Potential & Field Distribution in Microstrip Line - Application of FDM solution to Laplace Equation (https://www.mathworks.com/matlabcentral/fileexchange/34261-potential-field-distribution-in-microstrip-line-application-of-fdm-solution-to-laplace-equation), MATLAB Central File Exchange. Retrieved .

MATLAB Release Compatibility
Created with R2011a
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