Scribd
Upload
71 views2 pages

Engineering Circuit Fundamentals

This document provides an overview of the TCS3010 Linear Circuit Analysis course. The course aims to progressively teach fundamental principles of DC circuit models and analysis techniques. The objectives are to introduce techniques for electrical circuit analysis, including concepts like voltage, current, resistance, and Kirchhoff's laws. Upon completing the course, students will be able to analyze circuits using nodes, loops, and computer simulation; apply Ohm's and Kirchhoff's laws; and determine time-domain responses for first-and second-order circuits in both the time and frequency domains. The lab portion involves experiments with oscilloscopes, function generators, and circuit simulation software to verify theorems and analyze resistive networks.

Uploaded by

Waleed Tahir
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
71 views2 pages

Engineering Circuit Fundamentals

This document provides an overview of the TCS3010 Linear Circuit Analysis course. The course aims to progressively teach fundamental principles of DC circuit models and analysis techniques. The objectives are to introduce techniques for electrical circuit analysis, including concepts like voltage, current, resistance, and Kirchhoff's laws. Upon completing the course, students will be able to analyze circuits using nodes, loops, and computer simulation; apply Ohm's and Kirchhoff's laws; and determine time-domain responses for first-and second-order circuits in both the time and frequency domains. The lab portion involves experiments with oscilloscopes, function generators, and circuit simulation software to verify theorems and analyze resistive networks.

Uploaded by

Waleed Tahir
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
You are on page 1/ 2

TCS3010

Linear Circuit Analysis

(2+1=3)

Aim:
Progressive learning of DC circuit models and methods.

Objectives:

The course has been designed to introduce fundamental principles of circuit theory
commonly used in engineering research and science applications. Techniques and
principles of electrical circuit analysis including basic concepts such as voltage,
current,resistance, impedance, Ohm's and Kirchoff's law; basic electric circuit
analysis techniques

Course Outline:
Upon successful completion of this course, students will:
Basic electrical concepts, electric charge, current, electrical potential, electrical power, and
energy
Apply concepts of electric network topology: nodes, branches, and loops to solve circuit
problems, including the use of computer simulation. Analyze circuits with ideal, independent,
and controlled voltage and current sources. Apply Kirchhoffs voltage and current laws to the
analysis of electric circuits. Explain the relationship of voltage and current in resistors,
capacitors, inductors, and mutual inductors. Derive and solve the governing differential
equations for a time-domain first-order and second-order circuit, including singularity
function source models. Determine the Thevenin or Norton equivalent of a given network
that may include passive devices, dependent sources, and independent sources in
combination.
Analyze first and second order AC and DC circuits for steady-state and transient response in
the time domain and frequency domain. Derive relations for and calculate the gain and input
impedance of a given operational amplifier circuit for both DC and frequency domain AC
circuits using an ideal operational amplifier model. Apply computer mathematical and
simulation programs to solve circuit problems.

Lab Outline:

1.
2.
3.
4.
5.
6.

Introduction of Oscilloscope
Testing of Oscilloscope through its internal source
Introduction to Multisim
See the basic use of Oscilloscope with Function generator
See the basic use of Oscilloscope on Multisim
To use Node and Mesh equations to Analyze a resistive
Network
7. Verify the Thevenin and Norton Theorem
8. Verify the principle of Superposition and Maximum Power
Transfer
Theorem.
9. To Study the phases of capacitor voltages and current.

10.

To Study the phases of Inductor voltages and current.

Recommended Book(s):

J David Irwin
Robert L Baysterd

You might also like