Lecture notes
Basic Electric Circuits
- 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
- 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
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
Switch Mode Power Supplies:
Digital simulation of Power Electronic Converters:
Power Electronic Converter
Power Electronic Inverter
Logic Design
- 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:
- 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