1. سلامت داتغ & اَهْلاً وَسَهْلاً
KULLIYYAH OF ENGINEERING WELCOMES ALL OUR STUDENTS TO THE NEW ACADEMIC SEMESTER
LET’S STRIVE FOR EXCELLENCE
Perform solat and attentive to other ibadah
Develop good relationship with others
Discuss with academic advisor frequently
Plan your study and manage time wisely
Prepared by Islamisation Secretariat

2. Dr. Nor Farahidah Za’bah Room number : E2-2-13.12
Phone number :
address :
Website:

5. MY RULES Be punctual! Silent your mobile phones while in class
Wear proper attire as to the University’s dress code
Attendance is COMPULSORY

6. Week
Topics
Task/Reading 1
Introduction to Electronics and Amplifier:
Brief History of Electronics, Signals, Amplifier Characteristics
Chapter 1 2
Operational Amplifier and its Applications:
Ideal Op-Amp Characteristics, Inverting and Non-inverting Amplifiers, Integrator and Differentiator Circuits
Chapter 8 3
Semiconductor Material and PN Junction Diode:
Semiconductor Materials and Properties, Energy Band Diagram, PN Junction
Chapter 2 4
PN-Junction Diode:
Diode Characteristics and Load line, Diode Model and Equivalent Circuits, Other Diode Types 5
Diode Circuits:
Rectifier Circuits, Zener Diode Circuits and Voltage Regulator
Chapter 3 6
Smoothing Filter : RC-Lowpass Filter

7. Week
Topics
Task/Reading 7
The Bipolar Junction Transistor (Basic):
Transistor Structures, Voltage-Current Characteristics, Modes of Operation, Voltage Transfer Characteristics
Chapter 4 8
BJT Biasing:
Load Line, DC Circuits Analyses and Biasing. 9
Basic BJT Amplifier:
Small-Signal Operation and Hybrid-π Model
Chapter 5 10
Single-Stage Small Signal AC BJT Amplifier:
Common Emitter, Common Collector Amplifier Configurations 11
The Field Effect Transistor (Basic):
MOSFET Structure, Voltage-Current Characteristics, Modes of Operation, Voltage Transfer Characteristics
Chapter 6 12
MOSFET Biasing:
Load Line, DC Circuits Analyses and Biasing 13
Basic MOSFET Amplifier:
Small-Signal Operation and Model
Chapter 7 14
Single-Stage Small Signal AC MOSFET Amplifier: Common-Source, Common Drain Amplifier Configurations.

8. L2 – Operational Amplifier
SEPTEMBER M T W F S 11 12 13 14 15
L1 – Basic Amplifiers 16 17 18 19 20 21 22
 Hari Malaysia
Postponed – KERICE 2019 23 24 25
 26 27 28 29
 L2 – Operational Amplifier
L3 -
Semiconductor Intro 30
L4 - PN Junction

9. 3 OCTOBER M T W F S 1 2 4 5 6 L5 - Piecewise Linear Model 7 8 9 10 11 1  2 3 4 5 6
 L5 - Piecewise Linear Model 7 8 9 10 11 12 13
  L6 - Diode DC and AC Analysis, Zener Effect
L7 – Voltage Regulator 14 15 16 17 18 19 20
L8 – Rectifier 1
L9 – Rectifier 2 21 22 23 24 25 26 27
 L10 - Filters and Clippers 
****** 28 29 30 31 1 2 
 MID SEMESTER BREAK  

10. L13 - Voltage Transfer/ Biasing 1 L14 - Biasing 2, Common Emitter GND
NOVEMBER M T W F S 4  5 6   7  8  9 10
L11 – BJT Introduction 
L12 – BJT DC Analysis 11 12 13 14 15 16 17
 L13 - Voltage Transfer/ Biasing 1
 L14 - Biasing 2, Common Emitter GND 18 19 20 21 22 23 24
  L15 - Common Emitter with RE and Type III
L16 – Common Collector 25 26 27 28 29 30
 L17 – FET Intro
L18 - FET DC Analysis

11. Sultan Selangor’s Bday
DECEMBER M T W F S 2 3 4 5 6 7 8
 FET Common Source
FET Common Drain 9 10 11 12 13 14 15
Sultan Selangor’s Bday 16 17 18 19 20 21 22
REVISION WEEK 23 24 25 26 27 28 29
FINAL EXAM STARTS

12. LEARNING OUTCOMES
Learning Outcomes
Analyze basic circuits involving basic amplifiers and op-amps.
Explain the basic characteristics of semiconductor materials and PN junctions and analyze diode circuits.
Analyze and design DC and small signal circuits using BJTs
Design and analyze DC and small signal circuits using FETs

13. Learning Outcomes of the course
Programme Outcomes 01 02 03 04 05 06 07 08 09 10 11 12
Analyze basic circuits involving basic amplifiers and op-amps. (chapter 1, 8) 
Explain the basic characteristics of semiconductor materials and pn junctions and analyze diode circuits. (chapter 2, 3)
Analyze and design DC and small signal circuits using BJTs (chapter 4, 5)
Design and analyze DC and small signal circuits using FETs (chapter 6, 7)
PO1: Engineering Knowledge -Apply knowledge of mathematics, sciences, engineering fundamentals and an engineering specialization to the solution of complex engineering problems;
PO2: Problem Analysis – Identify, formulate, research relevant literature and analyze complex engineering problems, and reaching substantiated conclusions using first principles of mathematics, natural sciences and engineering sciences;

14. Programme Educational Objectives (PEOs)
Graduates who advance in career and professional standing nationally or internationally based on leadership and/or technical expertise.
Graduates who demonstrate moral and professional commitment for the betterment of society.
Graduates who engage in entrepreneurial activities that apply engineering knowledge and technical skills.
Graduates who engage in life long learning through postgraduate education and/or continuous professional development.

15. IMPORTANT! EAC Manual 2017: Condition for Passing Courses
The IHLs must ensure that no students shall pass a course if they fail in their final examination of that course …
Endorsed in KBM 08/2019 that for all KOE courses:
The students are required to obtain at least 50% of the final examination marks in order to pass the course.
Student who obtain marks lower than 50% of the final examination, will obtain grade D or below, and will be required to repeat the course.

16. Text Book
Motakabber, S. M. A, Ibrahimy, M. I., Nordin, Anis, (2012), Fundamentals of Microelectronic Circuits, Pearson.
Recommended references supporting the course
Neamen D.A., (2007), Microelectronics Circuit Analysis and Design, McGraw Hill.
Sedra S.A., (2009), Microelectronic Circuits, Oxford