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Applications of Power Electronics

Power electronics technology is still an emerging technology, and it has found its way into many applications, from renewable energy generation (i.e., wind power and solar power) to electrical vehicles (EVs), biomedical devices, and small appliances, such as laptop chargers. In the near future, elec...

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Bibliographic Details
Main Author:	Blaabjerg, Frede
Other Authors:	Dragicevic, Tomislav, Davari, Pooya
Format:	eBook
Language:	English
Published:	MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:	Sic Pv Supply Reference Phase Calibration Distributed Control Lithium-ion Batteries Frequency Locking Back Emf Fuzzy Electrical Drives Selective Harmonic Elimination Method Power Converter Conducting Angle Determination (cad) Techniques Phase-shift Control Dead-time Compensation Multiphase Space Vector Modulation Neural Networks Transient Control Leakage Inductance Battery Management System Class-d Amplifier Optimization Design Hardware In Loop Real-time Emulation Modular Multilevel Converter (mmc) Matrix Converters Dhil Predictive Controllers Static Compensator Misalignment Electric Vehicles Q-factor Series-series Compensation Multi-objective Optimization Active Receivers Parameter Identification Synchronous Motor Efficiency Motor Power Factor Correction (pfc) Control Strategy And Algorithm Electromagnetic Compatibility Volt-per-hertz Control (scalar Control) 4t Analog Mos Control Power Quality Direct Torque Control (dtc) Response Time Zero-voltage Switching (zvs) Field Programmable Gate Array Total Demand Distortion Chaotic Pwm Active Equalization Synchronization Real-time Simulation Total Harmonic Distortion (thd) Vector Control Wpt Standards Electromagnetic Interference Filter High-frequency Modeling Total Harmonic Distortion Grid-connected Inverter Voltage Source Converter Emi Filter Power Factor Correction Power System Operation And Control Field-programmable Gate Array Digital Control Hardware-in-the-loop Nonlinear Control Energy Storage Hybrid Power Filter Single-switch N/a Bifurcation Impedance-based Model Line Frequency Instability Nyquist Stability Analysis Spread-spectrum Technique Transmission Line Switching Frequency Power Converters One Phase Open Circuit Fault (1-ph) Induction Machines Power Density Small Signal Stability Analysis Embedded Systems Five-phase Machine Modulation Index Triangular Ramp Generator Hf-link Mppt Converter Digital Phase Control Ac-dc Power Converters Variable Speed Pumped Storage System Composite Active Vectors Modulation (cvm) Pmsg Coupling Factor Equivalent Inductance Effect Factors Static Var Generator (svg) Permanent Magnet Extended Kalman Filter Synchronous Generator Harmonics State Of Charge Soc Fixed-point Voltage Boost Digital Signal Controller Rotor Design Current-fed Inverter Compensation Topology Floating-point Frequency-domain Analysis Current Control Wireless Power Transfer Lcl-s Topology Switching Frequency Modelling Dc-dc Converters Double Layer Capacitor (dlc) Models Renewable Energy Sources Multi-level Control Converter Dc-link Cascade H-bridge (dclchb) Inverter Electromagnetic Field (emf) Filter Inductive Coupling Electric Power Voltage Source Inverters (vsi) Switched Capacitor Renewable Energy Resources Control Composite Equalizer Five-phase Permanent Magnet Synchronous Machine Cmos Chaotic Circuit Permanent Magnet Synchronous Motor (pmsm) Multilevel Inverter One Cycle Control Ice Melting Electric Vehicle Common-mode Inductor Magnetic Equivalent Circuit Wireless Power Transfer (wpt) Permanent-magnet Machines Dc-dc Buck Converter Current Switching Ripple Droop Control Improved Extended Kalman Filter Fixed-frequency Double Integral Sliding-mode (ffdism) Current Source Active Power Filter Expert Systems Current Control Loops Stability Electrical Engineering Communications Fault Diagnosis Five-leg Voltage Source Inverter Passive Equalization Axial Flux Machines Dc-dc Conversion Switching Losses Electromagnetic Field Interference (emi) Cascaded Topology Advanced Controllers Lithium-ion Power Battery Pack Distribution Generation Soc Estimator Shil Lithium-ion Battery Water Purification Particle Swarm Optimization Energy Storage Modelling Dc-link Voltage Control High Frequency Switching Power Supply Gan Cascode Condition Monitoring Battery Chargers Support Vector Machines Cogging Torque Fault Tolerant Control Three-level Boost Converter (tlbc) Power Management System Simulation Models Optimal Design Nearest Level Modulation (nlm) Battery Energy Storage Systems Phasor Model Technique Dc-ac Power Converters Soft Switching Adjacent Two-phase Open Circuit Fault (a2-ph) History Of Engineering And Technology / Bicssc Harmonic Linearization Dynamic Pv Model Active Rectifiers Disturbance Observer Grid-connected Vsi Multi-level Converter (mlc) Hybrid Converter Non-linear Phenomena Three-phase Bridgeless Rectifier Voltage Source Inverter Plug-in Hybrid Electric Vehicles Resonator Structure Analog Phase Control Bidirectional Converter Microgrid Control Dual Three-phase (dtp) Permanent Magnet Synchronous Motors (pmsms) Voltage Control Voltage Doubling Induction Motor Slim Dc-link Drive High Level Programing Pspice Power Electronics Fault-tolerant Control Semi-active Bridge Electromagnetic Interference Vpi Active Damping Control Space Vector Pulse Width Modulation (svpwm) Battery Modeling Nanocrystalline Core Boost Converter Variable Control Gain Sliding Mode Control Nine Switch Converter System In Package Line Start Torque Ripple Smart Micro-grid Series Active Filter Battery Management System Bms
Online Access:	https://www.mdpi.com/books/pdfview/book/1368 https://directory.doabooks.org/handle/20.500.12854...
Collection:	Directory of Open Access Books - Collection details see MPG.ReNa


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007	cr\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|
008	210512 \|\|\| eng
020			\|a 9783038979753
020			\|a books978-3-03897-975-3
020			\|a 9783038979746
100	1		\|a Blaabjerg, Frede
245	0	0	\|a Applications of Power Electronics \|h Elektronische Ressource
260			\|b MDPI - Multidisciplinary Digital Publishing Institute \|c 2019
300			\|a 1 electronic resource (476 p.)
653			\|a SiC PV Supply
653			\|a reference phase calibration
653			\|a distributed control
653			\|a lithium-ion batteries
653			\|a frequency locking
653			\|a back EMF
653			\|a fuzzy
653			\|a electrical drives
653			\|a selective harmonic elimination method
653			\|a power converter
653			\|a conducting angle determination (CAD) techniques
653			\|a phase-shift control
653			\|a dead-time compensation
653			\|a multiphase space vector modulation
653			\|a neural networks
653			\|a transient control
653			\|a leakage inductance
653			\|a battery management system
653			\|a class-D amplifier
653			\|a optimization design
653			\|a hardware in loop
653			\|a real-time emulation
653			\|a modular multilevel converter (MMC)
653			\|a matrix converters
653			\|a DHIL
653			\|a predictive controllers
653			\|a static compensator
653			\|a misalignment
653			\|a electric vehicles
653			\|a Q-factor
653			\|a series-series compensation
653			\|a multi-objective optimization
653			\|a active receivers
653			\|a parameter identification
653			\|a synchronous motor
653			\|a efficiency motor
653			\|a power factor correction (PFC)
653			\|a control strategy and algorithm
653			\|a electromagnetic compatibility
653			\|a volt-per-hertz control (scalar control)
653			\|a 4T analog MOS control
653			\|a power quality
653			\|a direct torque control (DTC)
653			\|a response time
653			\|a zero-voltage switching (ZVS)
653			\|a field programmable gate array
653			\|a total demand distortion
653			\|a chaotic PWM
653			\|a active equalization
653			\|a synchronization
653			\|a real-time simulation
653			\|a total harmonic distortion (THD)
653			\|a vector control
653			\|a WPT standards
653			\|a electromagnetic interference filter
653			\|a high-frequency modeling
653			\|a total harmonic distortion
653			\|a grid-connected inverter
653			\|a voltage source converter
653			\|a EMI filter
653			\|a power factor correction
653			\|a power system operation and control
653			\|a field-programmable gate array
653			\|a digital control
653			\|a hardware-in-the-loop
653			\|a nonlinear control
653			\|a energy storage
653			\|a hybrid power filter
653			\|a single-switch
653			\|a n/a
653			\|a bifurcation
653			\|a impedance-based model
653			\|a line frequency instability
653			\|a Nyquist stability analysis
653			\|a spread-spectrum technique
653			\|a transmission line
653			\|a switching frequency
653			\|a power converters
653			\|a one phase open circuit fault (1-Ph)
653			\|a induction machines
653			\|a power density
653			\|a small signal stability analysis
653			\|a embedded systems
653			\|a five-phase machine
653			\|a modulation index
653			\|a triangular ramp generator
653			\|a HF-link MPPT converter
653			\|a digital phase control
653			\|a AC-DC power converters
653			\|a variable speed pumped storage system
653			\|a composite active vectors modulation (CVM)
653			\|a PMSG
653			\|a coupling factor
653			\|a equivalent inductance
653			\|a effect factors
653			\|a static var generator (SVG)
653			\|a permanent magnet
653			\|a extended Kalman filter
653			\|a synchronous generator
653			\|a harmonics
653			\|a state of charge SoC
653			\|a fixed-point
653			\|a voltage boost
653			\|a digital signal controller
653			\|a rotor design
653			\|a current-fed inverter
653			\|a compensation topology
653			\|a floating-point
653			\|a frequency-domain analysis
653			\|a current control
653			\|a wireless power transfer
653			\|a LCL-S topology
653			\|a switching frequency modelling
653			\|a DC-DC converters
653			\|a double layer capacitor (DLC) models
653			\|a renewable energy sources
653			\|a multi-level control
653			\|a converter
653			\|a DC-link cascade H-bridge (DCLCHB) inverter
653			\|a electromagnetic field (EMF)
653			\|a filter
653			\|a inductive coupling
653			\|a electric power
653			\|a voltage source inverters (VSI)
653			\|a switched capacitor
653			\|a renewable energy resources control
653			\|a composite equalizer
653			\|a five-phase permanent magnet synchronous machine
653			\|a CMOS chaotic circuit
653			\|a permanent magnet synchronous motor (PMSM)
653			\|a multilevel inverter
653			\|a one cycle control
653			\|a ice melting
653			\|a electric vehicle
653			\|a common-mode inductor
653			\|a magnetic equivalent circuit
653			\|a wireless power transfer (WPT)
653			\|a permanent-magnet machines
653			\|a DC-DC buck converter
653			\|a current switching ripple
653			\|a droop control
653			\|a improved extended Kalman filter
653			\|a fixed-frequency double integral sliding-mode (FFDISM)
653			\|a current source
653			\|a active power filter
653			\|a expert systems
653			\|a current control loops
653			\|a stability
653			\|a electrical engineering communications
653			\|a fault diagnosis
653			\|a five-leg voltage source inverter
653			\|a passive equalization
653			\|a axial flux machines
653			\|a DC-DC conversion
653			\|a switching losses
653			\|a electromagnetic field interference (EMI)
653			\|a cascaded topology
653			\|a advanced controllers
653			\|a lithium-ion power battery pack
653			\|a distribution generation
653			\|a SOC estimator
653			\|a SHIL
653			\|a lithium-ion battery
653			\|a water purification
653			\|a particle swarm optimization
653			\|a energy storage modelling
653			\|a DC-link voltage control
653			\|a high frequency switching power supply
653			\|a GaN cascode
653			\|a condition monitoring
653			\|a battery chargers
653			\|a support vector machines
653			\|a cogging torque
653			\|a fault tolerant control
653			\|a three-level boost converter (TLBC)
653			\|a power management system
653			\|a simulation models
653			\|a optimal design
653			\|a nearest level modulation (NLM)
653			\|a battery energy storage systems
653			\|a phasor model technique
653			\|a DC-AC power converters
653			\|a soft switching
653			\|a adjacent two-phase open circuit fault (A2-Ph)
653			\|a History of engineering and technology / bicssc
653			\|a harmonic linearization
653			\|a dynamic PV model
653			\|a active rectifiers
653			\|a disturbance observer
653			\|a grid-connected VSI
653			\|a multi-level converter (MLC)
653			\|a hybrid converter
653			\|a non-linear phenomena
653			\|a three-phase bridgeless rectifier
653			\|a voltage source inverter
653			\|a plug-in hybrid electric vehicles
653			\|a resonator structure
653			\|a analog phase control
653			\|a bidirectional converter
653			\|a microgrid control
653			\|a dual three-phase (DTP) permanent magnet synchronous motors (PMSMs)
653			\|a voltage control
653			\|a voltage doubling
653			\|a induction motor
653			\|a slim DC-link drive
653			\|a high level programing
653			\|a PSpice
653			\|a power electronics
653			\|a fault-tolerant control
653			\|a semi-active bridge
653			\|a electromagnetic interference
653			\|a VPI active damping control
653			\|a space vector pulse width modulation (SVPWM)
653			\|a battery modeling
653			\|a nanocrystalline core
653			\|a boost converter
653			\|a variable control gain
653			\|a sliding mode control
653			\|a nine switch converter
653			\|a system in package
653			\|a line start
653			\|a torque ripple
653			\|a smart micro-grid
653			\|a series active filter
653			\|a battery management system BMS
700	1		\|a Dragicevic, Tomislav
700	1		\|a Davari, Pooya
041	0	7	\|a eng \|2 ISO 639-2
989			\|b DOAB \|a Directory of Open Access Books
500			\|a Creative Commons (cc), https://creativecommons.org/licenses/by-nc-nd/4.0/
024	8		\|a 10.3390/books978-3-03897-975-3
856	4	0	\|u https://www.mdpi.com/books/pdfview/book/1368 \|7 0 \|x Verlag \|3 Volltext
856	4	2	\|u https://directory.doabooks.org/handle/20.500.12854/41073 \|z DOAB: description of the publication
082	0		\|a 900
082	0		\|a 333
082	0		\|a 380
082	0		\|a 700
082	0		\|a 600
082	0		\|a 620
520			\|a Power electronics technology is still an emerging technology, and it has found its way into many applications, from renewable energy generation (i.e., wind power and solar power) to electrical vehicles (EVs), biomedical devices, and small appliances, such as laptop chargers. In the near future, electrical energy will be provided and handled by power electronics and consumed through power electronics; this not only will intensify the role of power electronics technology in power conversion processes, but also implies that power systems are undergoing a paradigm shift, from centralized distribution to distributed generation. Today, more than 1000 GW of renewable energy generation sources (photovoltaic (PV) and wind) have been installed, all of which are handled by power electronics technology. The main aim of this book is to highlight and address recent breakthroughs in the range of emerging applications in power electronics and in harmonic and electromagnetic interference (EMI) issues at device and system levels as discussed in ?robust and reliable power electronics technologies, including fault prognosis and diagnosis technique stability of grid-connected converters and ?smart control of power electronics in devices, microgrids, and at system levels.

Applications of Power Electronics

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