CEE103 - Lecture No 01.pdf applied electricity
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About This Presentation
lecture
Slide Content
CEE103 –Applied Electricity &
Electronics
Course Instructor: Engr. Riaz H. Junejo
Lecture No. 01
Topic: Introduction
Semester: Fall 2020
Department of Electrical & Computer Engineering
CUI Wah Campus.
Electronics
Course Instructor: Engr. Riaz H. Junejo
Lecture No. 01
Topic: Introduction
Semester: Fall 2020
Department of Electrical & Computer Engineering
CUI Wah Campus.
Outline
▪Course Information
▪Time Table
▪Course Catalog Description
▪Text Book
▪Course Learning Objectives
▪Course Learning Outcomes
▪Topics Covered
▪Assessment Plan
▪List of Lab Experiments
▪General Guidelines
▪Course Information
▪Time Table
▪Course Catalog Description
▪Text Book
▪Course Learning Objectives
▪Course Learning Outcomes
▪Topics Covered
▪Assessment Plan
▪List of Lab Experiments
▪General Guidelines
Course Information
▪Course Title: Applied Electricity and Electronics
▪Course Code: CEE103
▪Course Instructor: Engr. Riaz H. Junejo ([email protected])
▪Office: Deptt. Of Electrical & Computer Engineering (Faculty Hall)
▪Counseling Hours: Monday 14:00 to 16:00
▪Credit Hours: 3 (2+1)
▪Prerequisites:
▪Physics in FSc(Intermediate)
▪Mathematics in FSc(Intermediate)
▪Specially Solution of linear equations
▪You should have a proper scientific calculator!
▪Course Title: Applied Electricity and Electronics
▪Course Code: CEE103
▪Course Instructor: Engr. Riaz H. Junejo ([email protected])
▪Office: Deptt. Of Electrical & Computer Engineering (Faculty Hall)
▪Counseling Hours: Monday 14:00 to 16:00
▪Credit Hours: 3 (2+1)
▪Prerequisites:
▪Physics in FSc(Intermediate)
▪Mathematics in FSc(Intermediate)
▪Specially Solution of linear equations
▪You should have a proper scientific calculator!
Course Information. . .
▪Attendance: 80% attendance is mandatory.
▪There will be 32 lectures including the 2 sessional exam
▪Kindly see the semester calendar as well.
▪Course Webpage:
https://drive.google.com/drive/folders/1JYmzc8t5GslvElV0_HBje_iFuBa-
KgzE?usp=sharing
▪You need to contact the Lab teacher for your laboratory work.
▪Attendance: 80% attendance is mandatory.
▪There will be 32 lectures including the 2 sessional exam
▪Kindly see the semester calendar as well.
▪Course Webpage:
https://drive.google.com/drive/folders/1JYmzc8t5GslvElV0_HBje_iFuBa-
KgzE?usp=sharing
▪You need to contact the Lab teacher for your laboratory work.
Time Table
Course Catalog Description
▪System of units, Charge & current, Power, Energy, Circuit elements
▪Nodes, Branches, Loops, Series Resistors, Parallel Resistors, Wye-Delta
Transformations
▪Basic Laws, Ohm’s Law, Kirchhoff’s Laws, Voltage Division and Current Division
▪Nodal Analysis, Mesh Analysis, and Thevenin Theorem
▪Atomic structure, Semiconductor, Shells, Energy levels, Energy Band theory,
Doping, PN Junction, Diode models, Forward and reverse biased diodes
▪Zener diode, Rectifiers, and clippers
▪DC power Supply, Half wave rectifiers, full wave rectifiers, clippers and clampers.
▪System of units, Charge & current, Power, Energy, Circuit elements
▪Nodes, Branches, Loops, Series Resistors, Parallel Resistors, Wye-Delta
Transformations
▪Basic Laws, Ohm’s Law, Kirchhoff’s Laws, Voltage Division and Current Division
▪Nodal Analysis, Mesh Analysis, and Thevenin Theorem
▪Atomic structure, Semiconductor, Shells, Energy levels, Energy Band theory,
Doping, PN Junction, Diode models, Forward and reverse biased diodes
▪Zener diode, Rectifiers, and clippers
▪DC power Supply, Half wave rectifiers, full wave rectifiers, clippers and clampers.
Text Book
▪Fundamentals of Electric Circuits, 5th Edition, by Charles K. Alexander, Matthew
N.O. Sadiku.
▪Electronic Devices by FLOYD 9th Edition.
▪Reference Books:
▪Basic Engineering Circuit Analysis, 8th Edition, by J. David Irwin, R. Mark Nelms
▪Fundamentals of Electric Circuits, 5th Edition, by Charles K. Alexander, Matthew
N.O. Sadiku.
▪Electronic Devices by FLOYD 9th Edition.
▪Reference Books:
▪Basic Engineering Circuit Analysis, 8th Edition, by J. David Irwin, R. Mark Nelms
Course Learning Objectives
▪This course will cover the basic concepts of electrical quantities such as:
▪Charge, current, voltage, power and their application on a higher circuit level.
▪Ohm’s Law, Kirchhoff’s Laws, nodal Analysis, mesh Analysis, and Thevenin theorem.
▪A part of this course also covers the semiconductor devices such as diodes, and rectifiers,
and their applications in the electronic circuit.
▪This course will cover the basic concepts of electrical quantities such as:
▪Charge, current, voltage, power and their application on a higher circuit level.
▪Ohm’s Law, Kirchhoff’s Laws, nodal Analysis, mesh Analysis, and Thevenin theorem.
▪A part of this course also covers the semiconductor devices such as diodes, and rectifiers,
and their applications in the electronic circuit.
Course Learning Outcomes
▪CLO1: Understand the basic concepts of electrical and electronics and learn to
apply the fundamental laws and relations.
▪CLO2: Apply the fundamental laws and theorems to solve the given resistive
circuits. Practice and experience the same using lab instruments.
▪CLO3: Apply the fundamental laws to solve the electronic circuits using diodes
and rectifiers. Practice and experience the same using lab instruments.
▪CLO1: Understand the basic concepts of electrical and electronics and learn to
apply the fundamental laws and relations.
▪CLO2: Apply the fundamental laws and theorems to solve the given resistive
circuits. Practice and experience the same using lab instruments.
▪CLO3: Apply the fundamental laws to solve the electronic circuits using diodes
and rectifiers. Practice and experience the same using lab instruments.
Topics Covered
1.Basic concepts of DC circuits & Basic laws: (CLO1)
In this we will cover System of units, Charge & current, Power, Energy, Circuit
elements, Nodes, Branches, Loops, Series Resistors, Parallel Resistors, Wye-
Delta Transformations. Basic Laws, Ohm’s Law, Kirchhoff’s Laws, Voltage
Division and Current Division. Semiconductors, diodes, Zener diode, Rectifiers,
and clippers.
2.Methods of Analysis: (CLO2)
This will cover Nodal Analysis, Mesh Analysis, and Thevenin Theorem.
3.Basic concepts of Electronics: (CLO3)
Atomic structure, Semiconductor, Shells, Energy levels, Energy Band theory,
Doping, PN Junction, Diode models, Forward and reverse biased diodes. DC
power Supply, Half wave rectifiers, full wave rectifiers, clippers and clampers.
1.Basic concepts of DC circuits & Basic laws: (CLO1)
In this we will cover System of units, Charge & current, Power, Energy, Circuit
elements, Nodes, Branches, Loops, Series Resistors, Parallel Resistors, Wye-
Delta Transformations. Basic Laws, Ohm’s Law, Kirchhoff’s Laws, Voltage
Division and Current Division. Semiconductors, diodes, Zener diode, Rectifiers,
and clippers.
2.Methods of Analysis: (CLO2)
This will cover Nodal Analysis, Mesh Analysis, and Thevenin Theorem.
3.Basic concepts of Electronics: (CLO3)
Atomic structure, Semiconductor, Shells, Energy levels, Energy Band theory,
Doping, PN Junction, Diode models, Forward and reverse biased diodes. DC
power Supply, Half wave rectifiers, full wave rectifiers, clippers and clampers.
Assessment Plan
▪Theory:
▪No. of quizzes –4 (minimum) (15 out of 100 marks)
▪No. of Home Assignments –4 (minimum) (10 out of 100 marks)
▪No. of Sessional Exams –2 (10 + 15 out of 100 marks)
▪Terminal Exam (3 Hours) (50 out of 100 marks)
▪Total 100 marks
▪Lab Work:
▪No. of Lab Assignments –4 (minimum)/Project (25 out of 100 marks)
▪No. of Lab Sessional Exams –2 (10 + 15 out of 100 marks)
▪Terminal Exam (50 out of 100 marks)
▪Total 100 marks
▪Marks Distribution:
▪Theory Marks *0.75 + Lab Marks * 0.25
▪You need to pass theory AND lab part of the course to pass overall course.
▪Theory:
▪No. of quizzes –4 (minimum) (15 out of 100 marks)
▪No. of Home Assignments –4 (minimum) (10 out of 100 marks)
▪No. of Sessional Exams –2 (10 + 15 out of 100 marks)
▪Terminal Exam (3 Hours) (50 out of 100 marks)
▪Total 100 marks
▪Lab Work:
▪No. of Lab Assignments –4 (minimum)/Project (25 out of 100 marks)
▪No. of Lab Sessional Exams –2 (10 + 15 out of 100 marks)
▪Terminal Exam (50 out of 100 marks)
▪Total 100 marks
▪Marks Distribution:
▪Theory Marks *0.75 + Lab Marks * 0.25
▪You need to pass theory AND lab part of the course to pass overall course.
List of Lab Experiments
1.a)Introduction to Equipment.
b)Resistance Calculation from Color Codes and verification through measurement
with Multi-meter.
2.Equivalent Resistance of Series, Parallel and Series-Parallel circuits.
3.To Study Ohm’s Law
4.To Study Kirchhoff’s Voltage Law
5.To Study Kirchhoff’s Current Law
6.To Study Nodal Analysis
7.To Study Mesh Analysis
8.To study and use of Oscilloscope and Function generator.
9.To Study V-I characteristics of a diode
10.To study and implement series and parallel diode circuits.
11.To Study Half wave Rectifier
12.To Study Full wave Rectifier
13.Lab Project / Viva
1.a)Introduction to Equipment.
b)Resistance Calculation from Color Codes and verification through measurement
with Multi-meter.
2.Equivalent Resistance of Series, Parallel and Series-Parallel circuits.
3.To Study Ohm’s Law
4.To Study Kirchhoff’s Voltage Law
5.To Study Kirchhoff’s Current Law
6.To Study Nodal Analysis
7.To Study Mesh Analysis
8.To study and use of Oscilloscope and Function generator.
9.To Study V-I characteristics of a diode
10.To study and implement series and parallel diode circuits.
11.To Study Half wave Rectifier
12.To Study Full wave Rectifier
13.Lab Project / Viva
General Guidelines
▪Submitting your assignments and quizzes on time is mandatory.
▪Keep track of your grades and marks.
▪Learn to calculate the gpa(cgpa, sgpa) and other related matters.
▪Do let me know if you have any emergency (with solid proof) to compensate for the
attendance.
▪Keep yourself in contact with your CR.
▪Follow the precautionary instructions for COVID-19.
▪Stay safe and hope you have good time here.
▪Submitting your assignments and quizzes on time is mandatory.
▪Keep track of your grades and marks.
▪Learn to calculate the gpa(cgpa, sgpa) and other related matters.
▪Do let me know if you have any emergency (with solid proof) to compensate for the
attendance.
▪Keep yourself in contact with your CR.
▪Follow the precautionary instructions for COVID-19.
▪Stay safe and hope you have good time here.
Thank You!
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