Modeling and Control of Power Electronics Specialization
Enhance your skills in analysis, modeling, and design of high-performance control loops for power converters with this specialized course. Learn techniques for dc-dc, ac-dc, and dc-ac power conversion, as well as power factor correction and photovoltaic systems. Design and test control loops in a 5 kW photovoltaic power system. Start advancing your engineering career today!
This Specialization is intended for students and engineers seeking to advance skills in the analysis, modeling, and design of high-performance control loops around switched-mode dc-dc, ac-dc and dc-ac power converters. Through five courses, you will cover averaged-switch modeling and simulation techniques, techniques of design-oriented analysis, input filter design, peak and average current-mode control techniques, as well as modeling and control of single-phase power factor correction rectifiers, and inverters for photovoltaic power systems.
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.
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