Grandi, Gabriele||Ruderman, Alex

Multilevel Converters: Analysis, Modulation, Topologies, and Applications

English[eng]

Subjects--Topical Terms:
total harmonic distortion (THD)||imperialist competitive algorithm||fault detection||automatic current balance||small signal modeling||phase-shifted PWM||voltage balance control||parasitic switching states||multi-terminal DC network (MTDC)||DC-link capacitor voltage balancing||high efficiency drive||modular multilevel converters||DC-link voltage balancing||power factor correction||selected harmonic elimination||Continuous Wavelet Transform||power flow analysis||T-type inverter||electrical drives||modular multilevel converter (MMC)||computational cost||fault location||voltage imbalance||DC-link capacitor design||multilevel active-clamped converter||dc-link capacitor voltage balance||voltage ripple||commutation||model predictive control (MPC)||voltage fluctuation||multi-motor drive||Balance of capacitor voltage||on-board battery charger||single-phase three-level NPC converter||Suppression of CMV||redundant switching combination||ACTPSS||model predictive control||three-loop||finite control set model predictive control||current estimation||five-level||fault-tolerant control||offset voltage injection||harmonic component||current unmeasurable areas||LC filter||computational burden||interleaved buck||three-level converter||IGBT short-circuit||SVPWM||harmonic||DC side fault blocking||three-phase to single-phase cascaded converter||single shunt resistor||buck-chopper||power factor||modulation techniques||modular multilevel converters (MMC)||permanent magnet synchronous generator||sorting networks||alternating current (AC) motor drive||space vector pulse width modulation (SVPWM)||open end winding motor||minimum voltage injection (MVI) method||transmission line||shift method||genetic algorithm||electric vehicle||active filter||NPC/H Bridge||battery energy storage system (BESS)||digital controller||neutral-point-clamped (NPC) inverter||motor drive||hybrid modulated model predictive control||level-shifted PWM||optimal output voltage level||Phase Disposition PWM||open-end winding configuration||modular multilevel converter||multilevel power converters||simplified PWM strategy||MMC-MTDC||tolerance for battery power unbalance||three-level neutral point clamped inverter (NPCI)||real time simulator||harmonic mitigation||reverse prediction||multilevel inverters||field-programmable gate array||current reconstruction method||digital signal processors (DSP)||three-level boost||multilevel converter||improved PQ algorithm||low-harmonic DC ice-melting device||PV-simulator||total harmonic distortion||voltage balancing||Sub-module (SM) fault||DCâ€“DC conversion||smart grid||Cascaded H-bridge multilevel inverter (CHBMI)||dynamic reactive||field-oriented control||capacitor voltage balancing||energy saving||high reliability applications||three-phase inverter||substationâ€™s voltage stability||three-level boost DC-DC converter||power quality||T-type converter||voltage source inverter||state-of-charge (SOC) balancing control||multi-point DC control||predictive control||Differential Comparison Low-Voltage Detection Method (DCLVDM)