Modeling and Control of Power Electronics Specialization

Advance Your Career in Power Electronics. Master design-oriented techniques to engineer high-performance feedback controlled switched-mode power converters

Instructor: Dr. Dragan Maksimovic

What you'll learn

  •   Master techniques of design-oriented analysis for switched-mode power converters.
  •   Verify the design of closed-loop regulated power converters using switching and averaged circuit simulations.
  •   Design high-performance peak current-mode control and average current-mode control loops.
  •   Design input filters for switched-mode power converters.
  •   Design power-factor correction rectifiers
  •   Design dc-ac inverters for solar photovoltaic power systems

    • Skills you'll gain

  •   Mathematical Modeling
  •   Matlab
  •   Electronics
  •   Control Systems
  •   Systems Analysis
  •   Electric Power Systems
  •   Simulation and Simulation Software
  •   Electrical Engineering
  •   Engineering Analysis
  •   Electrical Power
  •   Technical Design
  •   Power Electronics

    • Specialization - 5 course series

    Learners will start with supplied Spice simulation examples to design and verify their own high-performance closed-loop controlled dc-dc converters, ac-dc power-factor correction rectifiers, and photovoltaic dc-ac inverters. The final course in the Specialization includes a peer-graded project where learners design and test control loops in a complete 5 kilowatt photovoltaic (PV) power system including a maximum power point tracking boost converter and a single-phase grid-tied inverter.

    Techniques of Design-Oriented Analysis

    Input Filter Design

    Current-Mode Control

    Modeling and Control of Single-Phase Rectifiers and Inverters

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