Code Directory
 Visual Basic & VB.NET
New Code
phpEnter 5.1.
Udemy Clone script 2.01
VisualNEO Web 19.11.7
VisualNEO for Windows
SentiVeillance SDK Trial 7.3
Devart ODBC Driver for PostgreSQL 3.2
SecureBridge 9.2
dotConnect for QuickBooks 1.9
dotConnect for Magento 1.9
dotConnect for Zoho CRM 1.10
dotConnect for FreshBooks 1.10
IP2Location Geolocation Database January.2020
dotConnect for BigCommerce 1.10
HTMLPad 2020 16.0
WeBuilder 2020 16.0
Top Code
phpEnter 5.1.
Single Leg MLM 1.2.1
Azizi search engine script PHP 4.1.10
Paste phpSoftPro 1.4.1
Extreme Injector 3.7
Deals and Discounts Website Script 1.0.2
ADO.NET Provider for ExactTarget 1.0
Solid File System OS edition 5.1
Classified Ad Lister 1.0
Aglowsoft SQL Query Tools 8.2
Invoice Manager by PHPJabbers 3.0
ICPennyBid Penny Auction Script 4.0
PHP Review Script 1.0
ATN Resume Finder 2.0
ATN Site Builder 3.0
Report About FEM simulation of microstrip 1.0
- required fields

Please enter text on the image

FEM simulation of voltage and electrical field distributions in a microstrip
Written for Course :-
Computational Electromagnetics, Fall 2011
Department of Electrical Engineering
Indian Institute of Technology Madras (IITM)
Chennai - 600036, India

Authors :-
Sathya Swaroop Ganta, B.Tech., M.Tech. Electrical Engg.
Kayatri, M.S. Engineering Design
Pankaj, M.S. Electrical Engg.
Sumantra Chaudhuri, M.S. Electrical Engg.
Projesh Basu, M.S. Electrical Engg.
Nikhil Kumar CS, M.S. Electrical Engg.

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

Objective of the program is to solve for the steady state voltage distribution of the inside region of a microstrip and then using that obtain the electric field distribution in the region using quiver plot. The
microstrip comprises of a region given by x from 0 to 7 units and y from 0 to 2 units in the coordinate system bounded by four capacitor plates on all the sides of the region. The region comprises of a material with relative permittivity 1 at y from 0 to 1 units and a material of relative permittivity 9.6 at y from 1 to 2 units. The microstrip extends indefinitely in the z-direction. The sides of the region are given Dirichlet boundary condition. A horizontal microstrip line is placed at the center of the region. The microstrip is excited with a voltage of 1 Volt and all surrounding plates are maintained at 0 Volts.