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Network Analysis

This 3 credit course outlines the key topics students will cover related to modeling, analyzing, designing and synthesizing 1-port and 2-port passive and active electric networks and filters. Over the semester, students will learn about network transforms and analysis, realizability theory, one-port network synthesis using Foster's and Cauer's methods, two-port parameter analysis, and classical filter synthesis techniques. Assessment will include assignments, classwork, a midterm exam, and a final exam. The course aims to help students understand and apply these network analysis and synthesis techniques.

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Getahun shanko
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529 views2 pages

Network Analysis

This 3 credit course outlines the key topics students will cover related to modeling, analyzing, designing and synthesizing 1-port and 2-port passive and active electric networks and filters. Over the semester, students will learn about network transforms and analysis, realizability theory, one-port network synthesis using Foster's and Cauer's methods, two-port parameter analysis, and classical filter synthesis techniques. Assessment will include assignments, classwork, a midterm exam, and a final exam. The course aims to help students understand and apply these network analysis and synthesis techniques.

Uploaded by

Getahun shanko
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as DOCX, PDF, TXT or read online on Scribd
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COURSE OUTLINE

COURSE TITLE: Network analysis & synthesis GROUP : 3rd Year


COURSE CODE: ECEG-3209 SEMESTER: I
CREDIT HOUR : Three(3) ACADAMIC YEAR: 2012
INSTRUCTOR : L. Ahmed

Course Objectives & Competences to be acquired


At the end of the course, students shall understand and apply the techniques of modeling, analysis, design and
synthesis of 1-and 2 port passive and active electric networks and filters in a classical and a modern approach.
Course Description/Course Contents
1.Introduction
 Networks and their developmental stages, analysis
 Design and analysis concepts

2.Network transform representations and analysis


 Analysis of first and second order circuits
 Examples using RL and RLC circuits
 Transform network equations and analysis

3.Elements of realizablity theory


 Causality and stability
 Time and frequency domain criterions
 Herwitz polynomial
 Positive real function
 Elementary synthesis procedure
 Solved examples and problems for all topics

4.Synthesis of one port network


 Synthesis of reactive one port by foster’s method and Cauer method
 Synthesis of RL and RC network by foster’s method and Cauer method
 Solved examples and problems

5.Two Port networks


 Open circuit impedance(Z) parameter
 Short circuit admittance(Y) parameter
 Transmission (ABCD) parameter
 Hybrid parameter (h) parameter
 Inter relationship of different parameter
 Terminated two port networks
 Solved examples and problems for all the topics
6.Filter types and classical synthesis techniques
 Types of filters based on characterization
 High pass, low pass, band pass filters
 Classical filters design techniques
 Design of constant-k LPF,HPF,BPF and m-derived filters LPF, HPF
 Exampled and Problems

Assessment/Evaluation & Grading system


Assignment and Class work (20%)
Mid-Term Exam (30%)
Final Examination (50%)
Attendance Requirements: Minimum of (75%) during lecture

References:
1. Network Analysis by G.K Mithal
2. Network Analysis and synthesis by Umesh sinha
3. Network Analysis and synthesis (S.Chand)

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