Power Flow in a Closed System - a Unified Approach. Time Varying Power Processing Circuits. Synthesis of Gyrators and Loss-free Resistors. Generalized Two-port Models For Power Processing Networks# Ideal Transformer, Gyrator, Loss-free Resistor, Power Source. Applications For Photovoltaic Systems. Harmonic Free Ac/dc Conversion. Frequency Multipliers. Power Amplifiers. Generation of Reactive Power. Control Of Gas Lasers. Transmission Line Matching. Oscillation Damping In Unstable Systems. Learning Outcomes# A. The Student Will Understand The Basic Principles of The Power Processing Theory, and Will Understand The Power Flow in Closed Systems. B. The Student Will Understand Basic Models For Power Processing# The Ideal Transformer, The Gyrator, and The Loss-free Resistor. C. The Student Will Be Able to Apply These Tools For Analysis And Design of Complex Power Systems. D. The Student Will Be Able to Apply These Tools For Analysis And Design of Typical Applications, Such As Photovoltaic Systems, And Harmonic Free Ac/dc Converters

Faculty: Electrical and Computer Engineering
|Undergraduate Studies |Graduate Studies
Pre-required courses

44139 - Dc-dc Converters or 46042 - Int. to Power Systems Smart Grids or 46196 - Nonlinear Control Systems