Power Electronics

FirstElectric Power Systems_A First Course Course on Power Electronics University of Minnesota

Textbook: Power Electronics: A First Course , Author: Mohan , ISBN: 1118074807,    9781118074800, Publisher: Wiley

Video Lecture    Reference

Utility Applications of Power Electronics ECE 529

Voltage-Sourced Converters in Power SystemsTextbook: A. Yazdani and R. Iravani, Voltage-Sourced Converters in Power Systems, Wiley-IEEE Press, 2010. ISBN 9780470521564

Lecture Notes

Lecture Topic: Introduction Power Electronics, Modeling and Simulation, Transmission Applications, Reactive Compensation for Power Flow Control, Shunt Compensation, Series Compensation, Phase Angle Regulators, Combined Series/Shunt Compensators, Control and Harmonic Interactions, Enhancing Stability, Power Electronic Interfaces for Large Scale Wind Turbines and Photovoltaics, Large Scale Storage with Power Electronic Interface, Impact on Power Systems Protection, HVDC Transmission, Classic HVDC, VSC HVDC, Configurations: Back-to-back, point-to-point, and multiterminal, Distribution Applications, Power and Voltage Quality, Distribution Shunt Compensation, Static Series Compensators for Voltage Sag Correction, Static Transfer Switches and Solid State Circuit Breakers, Fault Current Limiters, Active Filters, Distributed Generation and Storage.


Modeling and Control of Power Electronics System ECEN 5807

Textbookpower_electronics_004Erickson & MaksimovicFundamentals of Power ElectronicsSecond Edition

Lecture Notes slides, Homework

Topics: Advanced modeling and control topics in power electronics, and power factor corrected supplies. Averaged switch modeling of converters, computer simulation, ac modeling of the discontinuous conduction mode, the current programmed mode, null double injection techniques in linear circuits, input filter design, harmonics in power systems, low-harmonic rectifiers, and introduction to digital control.



Introduction to Power Electronics, University of Colorado, Boulder

Textbookpower_electronics_004: Erickson and MaksimovicFundamentals of Power ElectronicsSecond Edition

Lecture Notes &Slides, Homework

Lecture slides

Part I: Converters in Equilibrium

Part II: Converter Dynamics and Control

Part III: Magnetics



Fundamentals of Power Electronics, 1st and 2nd Editions

Topics: Converters in Equilibrium, Converter Dynamics and Control, Magnetics, Modern Rectifiers and Power System Harmonics, Resonant Converters.






Power Electronics ECE 433

Textbook: Power Electronics – Daniel Hart, Purdue U, Electrical Engineering –  spring 2013



  • Dc-Dc Converters Lecture Notes
  • Inverters Lecture Notes
  • Rectifiers Lecture Notes
  • Power Semiconductor Devices/Interface Issues Lecture Notes
  • Design of Closed Loop Controls Lecture Notes
  • Design of Components

Study Material    Lecture Notes , Homework solutions, Quiz, Exams, Exam solution, Project





Fundamentals of Power Electronics

Textbook: Erickson and Maksimovic, Fundamentals of Power Electronics, Second Edition

power_electronics_004Course Topics

  1. Converters in Equilibrium
    • Principles of steady-state converter analysis
    • Steady-state equivalent circuit modeling, losses, and efficiency
    • Switch realization
    • The discontinuous conduction mode
    • Converter circuits
  2. Converter Dynamics and Control
    • AC modeling
    • Converter transfer functions
    • Controller design
  3. Magnetics for Power Converters
    • Basic magnetics theory
    • Filter inductor design
    • Transformer design

Lecture Notes, Homework & Exams

other Supplementary notes and materials

  1. Simulation materials (Spice simulation materials , MATLAB/Simulink materials )
  2. Materials on advanced techniques of design-oriented analysis
  3. Introduction to sampled-data modeling of switched-mode DC-DC convertersconverters
  4. Materials on curreEditions control
  5. Textbook slides, Lecture slides archive




Fundamentals of Power Electronics

power_electronics_003Textbook: Fundamentals of Power Electronics R. W. Erickson;

Solutions to Selected Problems; Handouts Slides; Lecture slides; Homework.

Converters in Equilibrium, Principles of Steady-State Converter Analysis,Steady-State Equivalent Circuit Modeling, Losses, and Efficiency, Switch Realization,More on modeling switching loss: Slides, The Discontinuous Conduction Mode, Converter Circuits, Converter Dynamics and Control, AC Equivalent Circuit Modeling, Converter Transfer Functions, Controller Design, Converter averaged modeling with Matlab/Simulink, Magnetics,Basic Magnetics Theory,Inductor Design, Transformer Design.



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