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KOLEJ UNIVERSITI KEJURUTERAAN & TEKNOLOGI MALAYSIA

PRE-REQUISITE :NIL

COURSE OUTCOMES :

At the end of this course, the students should be able to:- apply Ohms Law and Kirchhoffs Law to calculate current, voltage, resistance

and power.- determine currents, voltages and power using the mesh and nodal analysis, and

superposition theorems; applying source transformation principles, when

necessary.

- determine Thevenin or Norton equivalent circuit of a given circuit.

- calculate equivalent capacitance or inductance connected either series or parallel- find the step response of 1st-order circuits.

- differentiate whether 2nd-order circuit is overdamped, underdamped or critically

damped.

SYNOPSIS:

This course provides the basic concepts and engineering methods of DC circuits analysis

and serves as an essential entry point for the wider scope of electrical engineering. Thecontents include voltage, Ohm's Law, Kirchhoff's Law, series and parallel circuits, mesh

and node analysis, Superposition and Source Transformation Theorems, and response of

1st-order circuits.

FACULTY: FACULTY OF ELECTRICAL &ELECTRONICS ENGINEERING

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CODE: BEE1113 COURSE : ELECTRIC CIRCUITS ICREDIT : 3 YEAR : 1 SEMESTER : 1

LECTURE : 3 TUTORIAL : 0 LABORATORY : 2

EDITION : 1 DATE OF ISSUE : MAY 2005

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KOLEJ UNIVERSITI KEJURUTERAAN & TEKNOLOGI MALAYSIA

SYLLABUS :

1.0 Basic Concept (3 hours)

1.1 Systems of Units

1.2 Charge, Current and Voltage1.3 Power and Energy

1.4 Ohm's Law

2.0 Basic Laws (6 hours)2.1 Kirchhoff's Law

2.2 Series, parallel and series-parallel circuits2.3 Voltage and current division

2.4 Introduction to Wye-Delta transformation

3.0 Method of Analysis (9 hours)

3.1 Nodal analysis3.2 Mesh analysis

4.0 Circuit Theorems (9 hours)4.1 Superposition Principles

4.2 Source transformation, Thevenin's and Norton's theorem4.3 Maximum power transfer

5.0 Capacitor and Inductors (3 hours)5.1 Series and parallel Capacitor

5.2 Series and parallel Inductor

6.0 First Order Circuit (6 hours)6.1 The Source-Free RC and RL circuit

6.2 Step response of an RC and RL circuit

FACULTY: FACULTY OF ELECTRICAL &ELECTRONICS ENGINEERING

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CODE: BEE1113 COURSE : ELECTRIC CIRCUITS ICREDIT : 3 YEAR : 1 SEMESTER : 1

LECTURE : 3 TUTORIAL : 0 LABORATORY : 2

REVISION : 1 DATE OF ISSUE : MAY 2005

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KOLEJ UNIVERSITI KEJURUTERAAN & TEKNOLOGI MALAYSIA

7.0 Introduction to Second Order Circuits (6 hours)7.1 Initial and final values

7.2 Natural Response of RLC circuits

7.3 Step response of RLC circuits

ASSESSMENT :

- Assignment & Quiz 15%

- Test 30%- Laboratory 15%

- Final Examination 40%

REFERENCES :1. Alexander, C. & Sadiku, M., Fundamentals of Electric Circuits, 2nd ed., McGraw-

Hill, 2004.

2. Nilsson, J. & Riedel, S., Electric Circuits, 6th ed., Prentice Hall, 2001.

3. Floyd, Thomas L., Principles of Electric Circuits, 7th ed., Prentice Hall, 2003.

Prepared by :

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Revised by :

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FACULTY: FACULTY OF ELECTRICAL &ELECTRONICS ENGINEERING

PAGE : 3/3

CODE: BEE1113 COURSE : ELECTRIC CIRCUITS ICREDIT : 3 YEAR : 1 SEMESTER : 1

LECTURE : 3 TUTORIAL : 0 LABORATORY : 2

REVISION : 1 DATE OF ISSUE : MAY 2005