Topical Outline:
Basic Principles and Background (1 week)
Steady-state analysis: flux, charge and energy balance
Switching matrices and existence functions
Cycloconverters
Six-Pulse Rectifiers and Inverters (4 weeks)
Uncontrolled single-phase voltage-sourced rectifier
Uncontrolled three-phase voltage-sourced rectifier
Discontinuous conduction effects
Line inductance and voltage notching
Phase-controlled rectifiers and inverters
Current-sourced inverters
Voltage-Sourced Inverters (1 week)
Square-wave and PWM inverters
Full-bridge, single-phase inverters
Modulation strategies, harmonic elimination
DC/DC Converters (6 weeks)
Non-isolated: buck, boost, buck-boost, Cuk, sepic, zeta
Transformer isolated: forward, flyback, half-bridge, full-bridge,
push-pull
Continuous/discontinuous conduction modes, ripple estimates
DC regulation: PWM, current mode, hysteretic
Averaged dynamic models: state-space and circuit-based
Small-signal analysis and control (continuous time)
Power Factor Correction (1 week)
DCM boost: constant and variable frequency control
CCM boost: peak and average current control
Resonant Power Conversion (2 weeks)
Lossless switching: ZCS, ZVS
Resonant dc-dc converters: SRC, PRC
Resonant inverters: resonant link, resonant pole
Quasi-resonant, multi-resonant and soft switching converters
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