Power Converters in Power Electronics

© 2020 by the authors; CC BY-NC-ND license

current source converter; power decoupling; power ripple; computational complexity; direct power control; finite control set model predictive control; PI controllers; space vector modulation; three-level T-type inverter; input current ripple; voltage multiplier; shoot through state; quasi-switched boost inverter; Z-source inverter; transformerless; SEPIC converter; single phase; Z-source inverter; cascaded H-bridge inverter; three-phase inverter; Z-source network; quasi-switched-boost network; shoot-through; quasi-z-source inverter; grid-tied; leakage current; power efficiency; counter-based; one-comparator; PWFM; PWM; PFM; dc converter; full bridge converter; zero voltage operation; multilevel inverter; Pulse Width Modulation; minimal number of commutations; state machine; Neutral Point Clamped Converter; power converters; EMI; intelligent control; classical gate driver; interference sources; carrier-based pulse width modulation; offset function; switching loss reduction; H-bridge five-level inverter; multilevel inverter; electromagnetic compatibility (EMC); switching model power supply (SMPS); conducted emission; parametric modeling method; vector fitting algorithm; full-power testing; high-power; individual phase; operation test; static synchronous compensator (STATCOM); bidirectional DC/DC converter (BDC); dual mode operation; current sharing; multiplexed modulation; low-voltage and high-current; Lyapunov algorithm; current sharing control; confluence plate; state feedback linearization; grid-connected inverter; LCL filter; inductive power transfer (IPT); three-bridge switching; constant current (CC); constant voltage (CV); fixed frequency; fractional order elements; high-frequency switching; wireless power transmission; active balance circuit; bi-directional converter; lithium battery; series-connected battery; fast charging; motor drives; power converters; full-bridge Buck inverter; DC motor; mathematical model; differential flatness; time-varying duty cycle; circuit simulation; experimental validation; current source inverter; common-mode voltage; leakage current; multilevel inverter; diode clamped multilevel inverter; flying capacitor multilevel inverter; cascade H bridge multilevel inverter; total harmonic distortion; PWM control techniques; PSCAD/MULTISIM simulation; model predictive control (MPC); neutral-point clamped (NPC) inverter; disturbance observer; parameter uncertainty; stability analysis; power factor adjustment; space vector modulation; current source converter; matrix rectifier; peak-current-mode (PCM) control; boost converter; stability; parameter perturbation; target period orbit tracking; space-vector pulse-width modulation; common-mode voltage elimination; quasi-switched boost; three-level T-type inverter; impedance network; add-on pulse charger; quick charge; pulse charging; Li-ion battery; full bridge (FB); modular multilevel dc-dc converters (MMDCs); zero-voltage switching (ZVS); zero-current switching (ZCS); Photovoltaics; Z-Source; Current-fed; Medium-Frequency; Power-Imbalance; harmonic; RPWM; selective voltage harmonic elimination; single-phase inverter; n/a