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Transcript
```TEACHING PLAN
SCHOOL OF ELECTRICAL SYSTEMS ENGINEERING
UNIVERSITI MALAYSIA PERLIS (UniMAP)
DET102
Basic Electrical Circuit II / Asas Litar Elektrik II
SEMESTER 2
SESSION 2010/2011
COURSE OUTCOMES
At the end of the course, student will be able to:
1. define and identify electrical component and electrical rules.
2. analyze AC circuit and DC circuit using the method of analysis and also use that method to solve
the electrical problem
3. analyze electrical circuit using two port networks parameter.
4. analyze basic magnetic circuit using the mesh analysis and dot determination.
SYNOPSIS
This course will introduce the students to the AC Circuit, methods of circuit analysis and application of
circuit law. Students also will be exposed to the magnetic circuit and two port networks. Lastly it will
cover the resonant circuit and parameters related to the frequency response.
Topics covered in this course are as follow:
1. Application of Circuit Laws – Kirchhoff’s Law, Voltage and Current Divider, Star/Delta
Transformation
2. Methods of Circuit Analysis – Mesh Analysis, Nodal Analysis
3. Network Theorems – Superposition Theorem, Source Transformation, Thevenin Theorem,
Norton Theorem
4. Network Theorems – Maximum Power Transfer, Power Factor Correction
5. Resonance Circuit – Series Resonance Circuits, Parallel Resonance Circuit, Quality Factor
Bandwidth and Selectivity
6. DC Transient Analysis – Natural Response of RL and RC Circuit, Step Response of RL and RC
Circuit
7. Two Port Network – Z – Parameter, Y – Parameter, T(ABCD) – Parameter, Terminated Two Port
Networks
8. Magnetically Coupled Circuits – Self and Mutual Inductance, Coupling Coefficient (K) and Dot
Determination
1
Pusat Pengajian Kejuruteraan Sistem Elektrik
Universiti Malaysia Perlis (UniMAP)
LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
Lab 1: Introduction To The Equipment And Measurement
Lab 2: Measurement Of Phase Shift
Lab 3: Capacitor In AC Circuit
Lab 4: Inductor In AC Circuit
Lab 5: Series Resonance Circuit
Lab 6: Application Of Resonance Circuit Bandpass and Bandstop Filter
Lab Test
REFERENCES
i)
ii)
iii)
iv)
v)
vi)
Charles K. Alexander & Mathew Sadiku, ” Fundamental of Electric Circuit”, 3rd Edition,
International Edition, McGraw-Hill, 2007
J.W. Nilsson & S.A. Reidel, “Electric Circuit”, 7th Edition, Prentice Hall, 2005.
Richard C. Dorf & James A. Svoboda, “Introduction to Electric Circuits”, 6th Edition, John
Wiley & Sons, 2004.
J. David Irwin & Chwan-Hwa Wu, “Basic Engineering Circuit Analysis”, 6th Edition, John
Wiley & Sons, 2001.
Clayton R. Paul, Charles Paul, “Fundamentals of Electric Circuit Analysis”, John Wiley &
Sons, 2000.
Johnson, D.E. Johnson, J.R. & Hilburn, J.L., “Basic Electric Circuit Analysis”, 5th Edition,
Prentice Hall, 1996.
ASSESSMENT
Evaluation contribution:
i.
ii.
Final examination: 50%
Course work:
50%
Details of course work contribution:
i.
Laboratory:
20%
ii.
Theory Test I & II: 20%
iii.
Laboratory Test: 10%
2
Pusat Pengajian Kejuruteraan Sistem Elektrik
Universiti Malaysia Perlis (UniMAP)
Study
Week
Course Content
Delivery
Mode
Chapter 0: Review on AC Circuit
1&2


DESCRIBE and APPLY AC Sinusoidal
DESCRIBE and APPLY Phasor and
Complex
Numbers
 DESCRIBE and APPLY Impedance and
Reactance
(4 hrs)
Week 1: Lab 0: Briefing to DET102 Laboratory
(2 hrs)
Week 2: Lab 1: Introduction To The Equipment
And Measurement
(2 hrs)
Chapter 1: Application of Circuit Laws
3
 DESCRIBE and APPLY Kirchhoff’s Laws
(Voltage & Current)
 DESCRIBE and APPLY Voltage and Current
Divider
 DESCRIBE and APPLY Star/delta
transformation
(2 hrs)
Week 3: Lab 2: Measurement Of Phase Shift
(2 hrs)
Chapter 2: Methods of Circuit Analysis
4
 DESCRIBE, APPLY and SOLVE using Mesh
analysis
 DESCRIBE, APPLY and SOLVE using Nodal
analysis
(2 hrs)
Week 4: Tutorial 1
(2 hrs)
Lecture;
Problem
Solving
Level of
Complexity
Knowledge
Comprehensive
Application
Assmt.
Tools
A
B
E
Knowledge
Application
Analysis
A
B
E
Knowledge
Application
Analysis
A
B
E
Knowledge
Application
Analysis
A
B
E
Lecture
Laboratory
Lecture;
Problem
Solving
Laboratory
Lecture;
Problem
Solving
Tutorial;
Problem
Solving
MID – SEM BREAK
Chapter 3: Network Theorems
5&6
 DESCRIBE, APPLY and SOLVE using
Lecture;
Problem
Solving
3
Pusat Pengajian Kejuruteraan Sistem Elektrik
Universiti Malaysia Perlis (UniMAP)
Superposition theorem
 DESCRIBE and APPLY Source
transformation
 DESCRIBE, APPLY and SOLVE using
Thevenin & Norton theorem
 EVALUATE and CALCULATE Maximum
power transfer
 PERFORM and CALCULATE Power factor
correction
(4 hrs)
Week 5: Lab 3: Capacitor In AC Circuit
(2 hrs)
Week 6: Lab 4: Inductor In AC Circuit
(2 hrs)
Chapter 4: Resonant Circuit
7&8
 IDENTIFY the circuit and CALCULATE all
the parameters for series resonance
circuits
 IDENTIFY the circuit and CALCULATE all
the parameters for Parallel resonance
circuits
 EVALUATE and DESIGN using Quality
factor Bandwidth and Selectivity
(4 hrs)
Week 7: Tutorial 2
(2 hrs)
Week 8: Theory Test 1
Laboratory
Laboratory
Lecture;
Problem
Solving
Knowledge
Application
Analysis
A
B
E
Knowledge
Application
Analysis
A
B
E
Tutorial;
Problem
Solving
Questioning
(2 hrs)
Chapter 5: DC Transient Analysis
9 & 10
 IDENTIFY, CALCULATE and SOLVE Natural
Response of RL circuit
 IDENTIFY, CALCULATE and SOLVE Natural
Response of RC circuit
 IDENTIFY, CALCULATE and SOLVE Step
Response of RL circuit
 IDENTIFY, CALCULATE and SOLVE Step
Response of RC circuit
(4 hrs)
Week 9: Lab 5: Series Resonance Circuit
(2 hrs)
Week 10: Lab 6: Application Of Resonance
Circuit Bandpass and Bandstop Filter
Lecture;
Problem
Solving
Laboratory
Laboratory
4
Pusat Pengajian Kejuruteraan Sistem Elektrik
Universiti Malaysia Perlis (UniMAP)
(2 hrs)
Chapter 6: Two Port Analysis
11 & 12
 DESCRIBE, APPLY and SOLVE using Z
parameter
 DESCRIBE, APPLY and SOLVE using Y
parameter
 DESCRIBE, APPLY and SOLVE using T
(ABCD) parameter
 DESCRIBE, APPLY and SOLVE Terminated
two port
(4 hrs)
Week 11: Tutorial 3
(2 hrs)
Week 12: Lab Test
Lecture;
Problem
Solving
Knowledge
Application
Analysis
A
B
E
Knowledge
Application
Analysis
A
B
E
Tutorial;
Problem
Solving
Laboratory
(2 hrs)
Chapter 7: Magnetically Coupled Circuits
13 & 14
 DESCRIBE and APPLY Self and mutual
inductance
 CALCULATE Coupling coefficient (K)
 SOLVE Dot determintation
(4 hrs)
Week 13: Tutorial 4
(2 hrs)
Week 14: Theory Test 2
Lecture;
Problem
Solving
Tutorial;
Problem
Solving
Questioning
(2 hrs)
15
STUDY WEEK
16
EXAM WEEK
5
Pusat Pengajian Kejuruteraan Sistem Elektrik
Universiti Malaysia Perlis (UniMAP)
```
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