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Book
Design and Control of Power Converters 2019
Author:
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

In this book, 20 papers focused on different fields of power electronics are gathered. Approximately half of the papers are focused on different control issues and techniques, ranging from the computer-aided design of digital compensators to more specific approaches such as fuzzy or sliding control techniques. The rest of the papers are focused on the design of novel topologies. The fields in which these controls and topologies are applied are varied: MMCs, photovoltaic systems, supercapacitors and traction systems, LEDs, wireless power transfer, etc.

Keywords

Technology: general issues --- vehicle-grid coupling system --- low frequency oscillation --- traction line-side converter (LSC) --- model-based predictive current control (MBPCC) --- dSPACE semi-physical verification --- switching converters --- sliding-mode control --- current-mode control --- hysteresis control --- PV-connected inverter --- MPPT --- SPPT --- adaptive hysteresis current control --- hybrid storage systems --- power electronic converters --- half-bridge current-source converters --- supercapacitors --- cascaded H-bridge (CHB) --- dc-link voltage balance control --- multilevel converter --- power control --- single-phase system --- pulsating output current --- light emitting diode (LED) --- peak to average ratio (PTAR) --- power factor correction --- harmonic injection --- modelling --- feedback loop control --- three-port converter --- linear active disturbance rejection control --- virtual damping --- linear extended state observer --- power converters --- digital control --- design space --- frequency domain --- switched affine systems --- hybrid systems --- fuzzy identification --- fuzzy modeling --- two degrees of freedom --- fuzzy model predictive control --- PLC --- bus converter --- DC bus --- LED driver --- buck converter --- inversion formulae --- phase margin --- gain crossover frequency --- wireless power transfer --- inductive power transfer --- Pareto optimality --- coil design --- magnetics design --- GaN-based inverter and converter --- zeta inverter --- active clamp --- synchronous rectification --- power efficiency --- circulating current --- fuzzy --- proportional integral --- proportional resonant --- MMC --- DC–DC converter --- experimental verification --- Inductor–Diode --- Inductor–Capacitor–Diode --- nonisolated --- step-down --- two-stage buck converter --- voltage regulation --- power electronic converter --- AC/AC converter --- matrix converter --- reliability --- DPWM --- photovoltaic power system --- differential flatness --- nonlinear control --- networked power converters --- PFC converters --- reactive power resources --- supervisory controller --- HIL Testbed --- binary particle swarm optimization (BPSO) --- nonsingular terminal sliding mode control (NTSMC) --- global best solution --- total harmonic distortion (THD) --- DC–AC converter --- decoupling --- reduced order generalized integrator (ROGI) --- optimal gain --- distributed power generation system (DPGS) --- grid-connected voltage source converters (GC-VSCs) --- vehicle-grid coupling system --- low frequency oscillation --- traction line-side converter (LSC) --- model-based predictive current control (MBPCC) --- dSPACE semi-physical verification --- switching converters --- sliding-mode control --- current-mode control --- hysteresis control --- PV-connected inverter --- MPPT --- SPPT --- adaptive hysteresis current control --- hybrid storage systems --- power electronic converters --- half-bridge current-source converters --- supercapacitors --- cascaded H-bridge (CHB) --- dc-link voltage balance control --- multilevel converter --- power control --- single-phase system --- pulsating output current --- light emitting diode (LED) --- peak to average ratio (PTAR) --- power factor correction --- harmonic injection --- modelling --- feedback loop control --- three-port converter --- linear active disturbance rejection control --- virtual damping --- linear extended state observer --- power converters --- digital control --- design space --- frequency domain --- switched affine systems --- hybrid systems --- fuzzy identification --- fuzzy modeling --- two degrees of freedom --- fuzzy model predictive control --- PLC --- bus converter --- DC bus --- LED driver --- buck converter --- inversion formulae --- phase margin --- gain crossover frequency --- wireless power transfer --- inductive power transfer --- Pareto optimality --- coil design --- magnetics design --- GaN-based inverter and converter --- zeta inverter --- active clamp --- synchronous rectification --- power efficiency --- circulating current --- fuzzy --- proportional integral --- proportional resonant --- MMC --- DC–DC converter --- experimental verification --- Inductor–Diode --- Inductor–Capacitor–Diode --- nonisolated --- step-down --- two-stage buck converter --- voltage regulation --- power electronic converter --- AC/AC converter --- matrix converter --- reliability --- DPWM --- photovoltaic power system --- differential flatness --- nonlinear control --- networked power converters --- PFC converters --- reactive power resources --- supervisory controller --- HIL Testbed --- binary particle swarm optimization (BPSO) --- nonsingular terminal sliding mode control (NTSMC) --- global best solution --- total harmonic distortion (THD) --- DC–AC converter --- decoupling --- reduced order generalized integrator (ROGI) --- optimal gain --- distributed power generation system (DPGS) --- grid-connected voltage source converters (GC-VSCs)


Book
Design and Control of Power Converters 2019
Author:
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

In this book, 20 papers focused on different fields of power electronics are gathered. Approximately half of the papers are focused on different control issues and techniques, ranging from the computer-aided design of digital compensators to more specific approaches such as fuzzy or sliding control techniques. The rest of the papers are focused on the design of novel topologies. The fields in which these controls and topologies are applied are varied: MMCs, photovoltaic systems, supercapacitors and traction systems, LEDs, wireless power transfer, etc.

Keywords

Technology: general issues --- vehicle-grid coupling system --- low frequency oscillation --- traction line-side converter (LSC) --- model-based predictive current control (MBPCC) --- dSPACE semi-physical verification --- switching converters --- sliding-mode control --- current-mode control --- hysteresis control --- PV-connected inverter --- MPPT --- SPPT --- adaptive hysteresis current control --- hybrid storage systems --- power electronic converters --- half-bridge current-source converters --- supercapacitors --- cascaded H-bridge (CHB) --- dc-link voltage balance control --- multilevel converter --- power control --- single-phase system --- pulsating output current --- light emitting diode (LED) --- peak to average ratio (PTAR) --- power factor correction --- harmonic injection --- modelling --- feedback loop control --- three-port converter --- linear active disturbance rejection control --- virtual damping --- linear extended state observer --- power converters --- digital control --- design space --- frequency domain --- switched affine systems --- hybrid systems --- fuzzy identification --- fuzzy modeling --- two degrees of freedom --- fuzzy model predictive control --- PLC --- bus converter --- DC bus --- LED driver --- buck converter --- inversion formulae --- phase margin --- gain crossover frequency --- wireless power transfer --- inductive power transfer --- Pareto optimality --- coil design --- magnetics design --- GaN-based inverter and converter --- zeta inverter --- active clamp --- synchronous rectification --- power efficiency --- circulating current --- fuzzy --- proportional integral --- proportional resonant --- MMC --- DC–DC converter --- experimental verification --- Inductor–Diode --- Inductor–Capacitor–Diode --- nonisolated --- step-down --- two-stage buck converter --- voltage regulation --- power electronic converter --- AC/AC converter --- matrix converter --- reliability --- DPWM --- photovoltaic power system --- differential flatness --- nonlinear control --- networked power converters --- PFC converters --- reactive power resources --- supervisory controller --- HIL Testbed --- binary particle swarm optimization (BPSO) --- nonsingular terminal sliding mode control (NTSMC) --- global best solution --- total harmonic distortion (THD) --- DC–AC converter --- decoupling --- reduced order generalized integrator (ROGI) --- optimal gain --- distributed power generation system (DPGS) --- grid-connected voltage source converters (GC-VSCs)


Book
Design and Control of Power Converters 2019
Author:
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

In this book, 20 papers focused on different fields of power electronics are gathered. Approximately half of the papers are focused on different control issues and techniques, ranging from the computer-aided design of digital compensators to more specific approaches such as fuzzy or sliding control techniques. The rest of the papers are focused on the design of novel topologies. The fields in which these controls and topologies are applied are varied: MMCs, photovoltaic systems, supercapacitors and traction systems, LEDs, wireless power transfer, etc.

Keywords

vehicle-grid coupling system --- low frequency oscillation --- traction line-side converter (LSC) --- model-based predictive current control (MBPCC) --- dSPACE semi-physical verification --- switching converters --- sliding-mode control --- current-mode control --- hysteresis control --- PV-connected inverter --- MPPT --- SPPT --- adaptive hysteresis current control --- hybrid storage systems --- power electronic converters --- half-bridge current-source converters --- supercapacitors --- cascaded H-bridge (CHB) --- dc-link voltage balance control --- multilevel converter --- power control --- single-phase system --- pulsating output current --- light emitting diode (LED) --- peak to average ratio (PTAR) --- power factor correction --- harmonic injection --- modelling --- feedback loop control --- three-port converter --- linear active disturbance rejection control --- virtual damping --- linear extended state observer --- power converters --- digital control --- design space --- frequency domain --- switched affine systems --- hybrid systems --- fuzzy identification --- fuzzy modeling --- two degrees of freedom --- fuzzy model predictive control --- PLC --- bus converter --- DC bus --- LED driver --- buck converter --- inversion formulae --- phase margin --- gain crossover frequency --- wireless power transfer --- inductive power transfer --- Pareto optimality --- coil design --- magnetics design --- GaN-based inverter and converter --- zeta inverter --- active clamp --- synchronous rectification --- power efficiency --- circulating current --- fuzzy --- proportional integral --- proportional resonant --- MMC --- DC–DC converter --- experimental verification --- Inductor–Diode --- Inductor–Capacitor–Diode --- nonisolated --- step-down --- two-stage buck converter --- voltage regulation --- power electronic converter --- AC/AC converter --- matrix converter --- reliability --- DPWM --- photovoltaic power system --- differential flatness --- nonlinear control --- networked power converters --- PFC converters --- reactive power resources --- supervisory controller --- HIL Testbed --- binary particle swarm optimization (BPSO) --- nonsingular terminal sliding mode control (NTSMC) --- global best solution --- total harmonic distortion (THD) --- DC–AC converter --- decoupling --- reduced order generalized integrator (ROGI) --- optimal gain --- distributed power generation system (DPGS) --- grid-connected voltage source converters (GC-VSCs)


Book
Multilevel Converters: Analysis, Modulation, Topologies, and Applications
Authors: ---
ISBN: 3039214829 3039214810 Year: 2019 Publisher: MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

This book is a collection of scientific papers concerning multilevel inverters examined from different points of view. Many applications are considered, such as renewable energy interface, power conditioning systems, electric drives, and chargers for electric vehicles. Different topologies have been examined in both new configurations and well-established structures, introducing novel and particular modulation strategies, and examining the effect of modulation techniques on voltage and current harmonics and the total harmonic distortion.

Keywords

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 --- DC–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 --- substation’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)

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