Lecture notes
The links below are lecture notes were taken during the M.Sc Electrical Engineering, UET Lahore and those delivered by me. The notes may not reflect the entire course outlines and consist of what I have recovered from my archives.
Basic Electric Circuits
ELEN-1100 (Delivered at Khwaja Fareed University of EIT, RYK)
- Tentative course outlines
- Lecture 1 | Introduction to circuit analysis
- Lecture 2 | Circuit elements
- Lecture 3 | Kirchhoff's law, Ohm's law and series-parallel combinations
- Lecture 4 | The d'Arsonval meter movement, and voltmeter
- Lecture 5 | Bridge circuit for measuring resistance
- Lecture 6 | Numerical solution
- Lecture 7 | Introduction to PSPICE.
- Lecture 8 | Bridges and delta-wye conversion
- Lecture 9 | Node voltage method
- Lecture 10 | Quiz
- Lecture 11 | More on node voltage method
- Lecture 12 | Mesh current analysis
- Lecture 13 | More on mesh current analysis and source transformations
- Lecture 14 | Thevenin and Norton equivalents
- Lecture 15 | Maximum power transfer and superposition theorem
- Lecture 16 | Operational amplifier
- Lecture 17 | Operational amplifier
- Lecture 18 | Operational amplifier
- Lecture 19 |
- Lecture 20 | Inductance and capacitance
- Lecture 21 | Inductance and capacitance
- Lecture 22 | First order circuits and natural response of RL circuits
- Lecture 23 | First order response of RC circuit and time constants of RL and RC circuits
- Lecture 24 | Step response of RL circuit
- Lecture 25 | Natural response of source-free RLC series circuits
- Lecture 26 | Natural response of source-free RLC parallel circuits
EE-211 (Delivered at FEE, GIK institute Topi)
- Week 1 Resources | Introduction, Voltage, current, Power and Energy, Basic ideal element
- Week 2 Resources | Resistance, Ohm's law, KCL, KVL, VDR, CDR
- Week 3 Resources | Series Parallel circuits, Equivalent resistance, delta-wye and Wye-delta
- Week 4 Resources | Node voltage method
- Week 5 Resources | Mesh current method
- Week 6 Resources | Operational Amplifier circuit
- Week 7 Resources | Source transformation and Thevenin equivalent
- Week 8 Resources | Maximum power transfer and superposition theorem
- Week 9 Resources | Midterm exam
- Week 10 Resources | Energy storage elements, Integrator, and Differentiator
- Week 11 Resources | Natural and step response of RL circuit
- Week 12 Resources | Natural and step response of RC circuit
- Week 13 Resources | Second order circuits
- Week 14 Resources | AC steady-state analysis
- Week 15 Resources | Phasors
- Week 16 Resources | Final term exam
(My notes from undergraduate studies )
Electronics course #1
The stuff is the compilation of notes from the book of Manzar Saeed.
- Chapter # 1 Physics of semiconductors
- Chapter # 2 Characteristics of diodes
- Chapter # 3 Application of diodes, clippers clampers etc
- Chapter # 4 Linear Power supplies
- Chapter #5 Special diodes (missing in my archives )
- Chapter # 6 Physics of BJT
- Chapter # 7 & 8 Biasing techniques and characterization of BJT
- Transistor as a switch
EE-231 (Delivered at FEE, GIK Institute, Topi)
- Week 1 resources | Semiconductor materials
- Week 2 resources | Diode equivalent models
- Week 3 resources | Understanding diode datasheets and series-parallel combinations
- Week 4 resources | Diode applications as a logic gate, rectifier and clipper
- Week 5 resources | Applications of diode and zener diode
- Week 6 resources | Theory of BJT and its configurations
- Week 7 resources | Biasing techniques of BJT
- Week 8 resources | Biasing techniques of BJT
- Week 9 resources | Midterm exam
- Week 10 resources | Bias design and multistage BJT
- Week 11 resources | Bias stabilization and AC analysis I
- Week 12 resources | AC analysis II and two port theory
- Week 13 resources | AC analysis of cascaded systems
- Week 14 resources | FET, JFET and fixed bias circuit
- Week 15 resources | MOSFET
- Week 16 resources | Final term exam
- Week 1 resources | Semiconductor materials
- Week 2 resources | Diode equivalent models
- Week 3 resources | Understanding diode datasheets and series-parallel combinations
- Week 4 resources | Diode applications as a logic gate, rectifier and clipper
- Week 5 resources | Applications of diode and zener diode
- Week 6 resources | Theory of BJT and its configurations
- Week 7 resources | Biasing techniques of BJT
- Week 8 resources | Biasing techniques of BJT
- Week 9 resources | Midterm exam
- Week 10 resources | Bias design and multistage BJT
- Week 11 resources | Bias stabilization and AC analysis I
- Week 12 resources | AC analysis II and two port theory
- Week 13 resources | AC analysis of cascaded systems
- Week 14 resources | FET, JFET and fixed bias circuit
- Week 15 resources | MOSFET
- Week 16 resources | Final term exam
Power Electronics
Industrial Electronics for Mechanical Engineers
EE-301 (Delivered at Khwaja Fareed University of EIT, RYK)
Switch Mode Power Supplies:
Digital simulation of Power Electronic Converters:
Power Electronic Converter
Power Electronic Inverter
Logic Design
This page consists of my lecture notes on logic design and switching theory. The notes are based on various books, however, most of the credit goes to the books by John M Yarbrough and Morris Mano.
- Numbering system
- Boolean arithmetic
- Boolean arithmetic part ii
- Simplification of Boolean function
- Analysis and design of combinational logic
- Sequential logic
- Triggering a flip flop
- State diagram and excitation table of flip flop
- Counters
- MUX and decoders
- Register
- ROM
Power Electronics and Electric Drives | Narration of video Lectures of Prof. P Gopakumar
The video lectures of Prof. P Gopakumar are available on youtube. I have seen them and made notes of all lectures. The lectures are available in following links.- Lecture 1
- Lecture 2 Controlled rectifier
- Lecture 3 Fully controlled converter single phase
- Lecture 4 Controlled rectifier mid point configuration
- Lecture 5 Controlled rectifier 3 phase
- Lecture 6 Controlled rectifier 3 phase
- Lecture 7 Power electronic improvement
- Lecture 8 4 quadrants dc-dc converter
- Lecture 9
- Lecture 10 Front end AC-DC converter with harmonic control
- Lecture 11 AC-DC converter
- Lecture 12 AC-DC converter close loop control
- Lecture 13 & 14 Design of converter controller and AC-DC converter
- Lecture 15 It is simulation based lecture and is available on youtube
- Lecture 16 Front end AC-DC converter
- Lecture 17 DC motor speed control
- Lecture 18 DC motor speed control current control and speed control loop
- Lecture 19 DC motor controller design I
- Lecture 20& 21 DC motor controller design II
- Lecture 22 Basics of inverter and single phase inversion
- Lecture 23 Three Phase inverter
- Lecture 24
- Lecture 25
- Lecture 26
- Lecture 27
- Lecture 28
- Lecture 29
- Lecture 30
Power Transmission, Distribution, and Utilization:
EE-355 (Delivered at Khwaja Fareed University of EIT, RYK)
- Lecture 1 | Overview of power system
- Lecture 2 | Characteristic features of a power system
- Lecture 3 | Transmission line parameters& resistance
- Lecture 4&5 | Transmission line parameters. Inductance
- Lecture 6 | Series parameters of a transmission line
- Lecture 7 | Shunt parameters of a transmission line
- Lecture 8 | Performance of a transmission line. The case of short and medium lines.
- Lecture 9 | Performance of a transmission line. The case of long lines.
- Lecture 10 |
- Lecture 11 | Mechanical design of overhead transmission lines
- Lecture 12 | Mechanical design of overhead transmission lines
- Lecture 13&14 | Underground cables
- Lecture 15 | Distribution system
Computational Electromagnetic theory
The stuff is a compilation of my assignments and lecture notes that I made during my PhD coursework.- Course outlines
- Assignment # 1
- Assignment # 2
- Assignment # 3
- Assignment # 4
- Assignment # 5
- Chapter 3
- Chapter 3 numerical
- Chapter 4
- Chapter 4 numerical