Applications of Power Electronics
Blaabjerg, Frede||Dragicevic, Tomislav||Davari, Pooya
Applications of Power Electronics
English[eng]
Q-factor||lithium-ion power battery pack||electromagnetic field (EMF)||expert systems||total harmonic distortion (THD)||current-fed inverter||rotor design||class-D amplifier||LCL-S topology||current switching ripple||system in package||energy storage modelling||smart micro-grid||embedded systems||equivalent inductance||SHIL||permanent magnet||static var generator (SVG)||permanent magnet synchronous motor (PMSM)||control strategy and algorithm||digital control||zero-voltage switching (ZVS)||SOC estimator||electric power||optimal design||electromagnetic field interference (EMI)||line frequency instability||analog phase control||five-phase permanent magnet synchronous machine||distribution generation||leakage inductance||adjacent two-phase open circuit fault (A2-Ph)||chaotic PWM||electric vehicles||CMOS chaotic circuit||series active filter||cascaded topology||total demand distortion||efficiency motor||triangular ramp generator||4T analog MOS control||inductive coupling||induction machines||nanocrystalline core||semi-active bridge||multi-level control||simulation models||voltage source inverters (VSI)||battery management system BMS||voltage source converter||current control loops||droop control||particle swarm optimization||variable control gain||state of charge SoC||extended Kalman filter||transient control||multi-objective optimization||composite equalizer||converter||DHIL||five-leg voltage source inverter||axial flux machines||bifurcation||active receivers||field programmable gate array||Nyquist stability analysis||electric vehicle||static compensator||stability||common-mode inductor||DC–DC converters||support vector machines||electromagnetic compatibility||real-time simulation||passive equalization||matrix converters||wireless power transfer||digital phase control||compensation topology||volt-per-hertz control (scalar control)||switching losses||voltage control||hybrid converter||bidirectional converter||coupling factor||selective harmonic elimination method||power electronics||soft switching||optimization design||multilevel inverter||five-phase machine||phase-shift control||lithium-ion battery||voltage boost||VPI active damping control||parameter identification||electrical engineering communications||current control||DC–DC conversion||battery management system||GaN cascode||single-switch||high-frequency modeling||synchronous motor||power quality||water purification||power factor correction (PFC)||composite active vectors modulation (CVM)||digital signal controller||line start||power density||hardware in loop||n/a||fault diagnosis||multi-level converter (MLC)||induction motor||dual three-phase (DTP) permanent magnet synchronous motors (PMSMs)||neural networks||electromagnetic interference filter||battery chargers||power converter||harmonics||multiphase space vector modulation||torque ripple||power factor correction||electrical drives||modular multilevel converter (MMC)||active power filter||double layer capacitor (DLC) models||PMSG||response time||resonator structure||floating-point||effect factors||DC-link voltage control||sliding mode control||phasor model technique||wireless power transfer (WPT)||slim DC-link drive||fault-tolerant control||lithium-ion batteries||DC-AC power converters||conducting angle determination (CAD) techniques||variable speed pumped storage system||impedance-based model||one cycle control||renewable energy sources||series-series compensation||cogging torque||active rectifiers||three-level boost converter (TLBC)||DC-link cascade H-bridge (DCLCHB) inverter||battery energy storage systems||filter||power management system||improved extended Kalman filter||dead-time compensation||disturbance observer||reference phase calibration||frequency locking||space vector pulse width modulation (SVPWM)||predictive controllers||nine switch converter||transmission line||spread-spectrum technique||energy storage||electromagnetic interference||renewable energy resources control||harmonic linearization||misalignment||plug-in hybrid electric vehicles||high level programing||nearest level modulation (NLM)||magnetic equivalent circuit||EMI filter||permanent-magnet machines||real-time emulation||switched capacitor||back EMF||fixed-point||HF-link MPPT converter||condition monitoring||WPT standards||switching frequency||switching frequency modelling||high frequency switching power supply||field-programmable gate array||three-phase bridgeless rectifier||ice melting||AC–DC power converters||hybrid power filter||PSpice||microgrid control||total harmonic distortion||grid-connected inverter||dynamic PV model||fuzzy||boost converter||SiC PV Supply||voltage doubling||nonlinear control||distributed control||power system operation and control||one phase open circuit fault (1-Ph)||direct torque control (DTC)||battery modeling||non-linear phenomena||frequency-domain analysis||advanced controllers||vector control||fixed-frequency double integral sliding-mode (FFDISM)||power converters||modulation index||DC-DC buck converter||small signal stability analysis||active equalization||voltage source inverter||hardware-in-the-loop||current source||synchronization||grid-connected VSI||synchronous generator||fault tolerant control
Applications of Power Electronics
English[eng]
Q-factor||lithium-ion power battery pack||electromagnetic field (EMF)||expert systems||total harmonic distortion (THD)||current-fed inverter||rotor design||class-D amplifier||LCL-S topology||current switching ripple||system in package||energy storage modelling||smart micro-grid||embedded systems||equivalent inductance||SHIL||permanent magnet||static var generator (SVG)||permanent magnet synchronous motor (PMSM)||control strategy and algorithm||digital control||zero-voltage switching (ZVS)||SOC estimator||electric power||optimal design||electromagnetic field interference (EMI)||line frequency instability||analog phase control||five-phase permanent magnet synchronous machine||distribution generation||leakage inductance||adjacent two-phase open circuit fault (A2-Ph)||chaotic PWM||electric vehicles||CMOS chaotic circuit||series active filter||cascaded topology||total demand distortion||efficiency motor||triangular ramp generator||4T analog MOS control||inductive coupling||induction machines||nanocrystalline core||semi-active bridge||multi-level control||simulation models||voltage source inverters (VSI)||battery management system BMS||voltage source converter||current control loops||droop control||particle swarm optimization||variable control gain||state of charge SoC||extended Kalman filter||transient control||multi-objective optimization||composite equalizer||converter||DHIL||five-leg voltage source inverter||axial flux machines||bifurcation||active receivers||field programmable gate array||Nyquist stability analysis||electric vehicle||static compensator||stability||common-mode inductor||DC–DC converters||support vector machines||electromagnetic compatibility||real-time simulation||passive equalization||matrix converters||wireless power transfer||digital phase control||compensation topology||volt-per-hertz control (scalar control)||switching losses||voltage control||hybrid converter||bidirectional converter||coupling factor||selective harmonic elimination method||power electronics||soft switching||optimization design||multilevel inverter||five-phase machine||phase-shift control||lithium-ion battery||voltage boost||VPI active damping control||parameter identification||electrical engineering communications||current control||DC–DC conversion||battery management system||GaN cascode||single-switch||high-frequency modeling||synchronous motor||power quality||water purification||power factor correction (PFC)||composite active vectors modulation (CVM)||digital signal controller||line start||power density||hardware in loop||n/a||fault diagnosis||multi-level converter (MLC)||induction motor||dual three-phase (DTP) permanent magnet synchronous motors (PMSMs)||neural networks||electromagnetic interference filter||battery chargers||power converter||harmonics||multiphase space vector modulation||torque ripple||power factor correction||electrical drives||modular multilevel converter (MMC)||active power filter||double layer capacitor (DLC) models||PMSG||response time||resonator structure||floating-point||effect factors||DC-link voltage control||sliding mode control||phasor model technique||wireless power transfer (WPT)||slim DC-link drive||fault-tolerant control||lithium-ion batteries||DC-AC power converters||conducting angle determination (CAD) techniques||variable speed pumped storage system||impedance-based model||one cycle control||renewable energy sources||series-series compensation||cogging torque||active rectifiers||three-level boost converter (TLBC)||DC-link cascade H-bridge (DCLCHB) inverter||battery energy storage systems||filter||power management system||improved extended Kalman filter||dead-time compensation||disturbance observer||reference phase calibration||frequency locking||space vector pulse width modulation (SVPWM)||predictive controllers||nine switch converter||transmission line||spread-spectrum technique||energy storage||electromagnetic interference||renewable energy resources control||harmonic linearization||misalignment||plug-in hybrid electric vehicles||high level programing||nearest level modulation (NLM)||magnetic equivalent circuit||EMI filter||permanent-magnet machines||real-time emulation||switched capacitor||back EMF||fixed-point||HF-link MPPT converter||condition monitoring||WPT standards||switching frequency||switching frequency modelling||high frequency switching power supply||field-programmable gate array||three-phase bridgeless rectifier||ice melting||AC–DC power converters||hybrid power filter||PSpice||microgrid control||total harmonic distortion||grid-connected inverter||dynamic PV model||fuzzy||boost converter||SiC PV Supply||voltage doubling||nonlinear control||distributed control||power system operation and control||one phase open circuit fault (1-Ph)||direct torque control (DTC)||battery modeling||non-linear phenomena||frequency-domain analysis||advanced controllers||vector control||fixed-frequency double integral sliding-mode (FFDISM)||power converters||modulation index||DC-DC buck converter||small signal stability analysis||active equalization||voltage source inverter||hardware-in-the-loop||current source||synchronization||grid-connected VSI||synchronous generator||fault tolerant control