Search results:
Found 9
Listing 1  9 of 9 
Sort by

Choose an application
Interest in permanent magnet synchronous machines (PMSMs) is continuously increasing worldwide, especially with the increased use of renewable energy and the electrification of transports. This book contains the successful submissions of fifteen papers to a Special Issue of Energies on the subject area of “Permanent Magnet Synchronous Machines”. The focus is on permanent magnet synchronous machines and the electrical systems they are connected to. The presented work represents a wide range of areas. Studies of control systems, both for permanent magnet synchronous machines and for brushless DC motors, are presented and experimentally verified. Design studies of generators for wind power, wave power and hydro power are presented. Finite element method simulations and analytical design methods are used. The presented studies represent several of the different research fields on permanent magnet machines and electric drives.
PMSM (permanent magnet synchronous motor)  DBDTFC (deadbeatdirect torque and flux control)  torque control  stability  permanentmagnet machine  brushless machine  Vernier machine  flux switching machine  multiphase machine  outer rotor  electric vehicle  interior permanent magnet synchronous machines  magnetic reluctance network  brushless dc motor  phaseadvanced method  winding inductance  subfractional slotconcentrated winding  field weakening  periodic timer interrupt  Brushless DC motors  current ripples  current spikes  modeling  back electromotive force  RC filter  cogging torque  permanent magnet synchronous generator  small wind turbines  finite element method  renewable energy  energy conversion  finite element analysis  pulse width modulation  permanent magnet synchronous generator  wind generator  MPC  PMSM  vector control  speed tracking  brushless DC (BLDC) motor  sensorless motor  commutation error compensation  freewheeling period  permanent magnet synchronous motor (PMSM)  sliding mode observer (SMO)  parameter perturbation  predictive current control (PCC)  digital simulation  motor drives  interior permanentmagnet machines  finiteelement analysis  modeling  automotive applications  electric vehicle (EV)  hybrid electric vehicle (HEV)  mathematical model  saturation  coils  design tools  energy efficiency  linear generator  power control  stator  wave power  permanent magnet synchronous generator  electrical machine design  permanent magnet material  bulk electric system  condition monitoring  electrical signature analysis  fault diagnosis  predictive maintenance  synchronous generator  permanent magnet synchronous machine (PMSM)  flying start  sensorless control  permanent magnet synchronous generator  permanent magnet synchronous motor  electric propulsion systems  renewable energy  energy conversion
Choose an application
Electronic engineering and design innovation are both academic and practical engineering fields that involve systematic technological materialization through scientific principles and engineering designs. Technological innovation via electronic engineering includes electrical circuits and devices, computer science and engineering, communications and information processing, and electrical engineering communications. The Special Issue selected excellent papers presented at the International Conference on Knowledge Innovation and Invention 2018 (IEEE ICKII 2018) on the topic of electronics and their applications. This conference was held on Jeju Island, South Korea, 23–27 July 2018, and it provided a unified communication platform for researchers from all over the world. The main goal of this Special Issue titled “Selected papers from IEEE ICKII 2018” is to discover new scientific knowledge relevant to the topic of electronics and their applications.
bandpass filter  integrated passive device  intertwined spiral inductor  spiral capacitor  interdigital capacitor  full pixel search algorithm  digital speckle correlation measurement method  hardware implementation  interior permanent magnet synchronous motor  fuzzy logic  maximum torque per ampere (MTPA)  field weakening  maximum torque per voltage (MTPV)  hardware in the loop (HIL)  global navigation satellite system (GNSS)  inertial navigation system (INS)  long short term memory (LSTM)  gated recurrent unit (GRU)  microelectronics system (MEMS)  finitetime convergence control (FTCC)  discrete grey prediction model (DGPM)  chattering  AC power supply  total harmonic distortion (THD)  n/a
Choose an application
The everincreasing need for higher efficiency, smaller size, and lower cost make the analysis, understanding, and design of energy conversion systems extremely important, interesting, and even imperative. One of the most neglected features in the study of such systems is the effect of the inherent nonlinearities on the stability of the system. Due to these nonlinearities, these devices may exhibit undesirable and complex dynamics, which are the focus of many researchers. Even though a lot of research has taken place in this area during the last 20 years, it is still an active research topic for mainstream power engineers. This research has demonstrated that these systems can become unstable with a direct result in increased losses, extra subharmonics, and even uncontrollability/unobservability. The detailed study of these systems can help in the design of smaller, lighter, and less expensive converters that are particularly important in emerging areas of research like electric vehicles, smart grids, renewable energy sources, and others. The aim of this Special Issue is to cover control and nonlinear aspects of instabilities in different energy conversion systems: theoretical, analysis modelling, and practical solutions for such emerging applications. In this Special Issue, we present novel research works in different areas of the control and nonlinear dynamics of energy conversion systems.
datadriven  prediction  neural network  airhandling unit (AHU)  supply air temperature  pulverizing system  soft sensor  inferential control  moving horizon estimation  multimodel predictive control  microgrid  droop control  virtual impedance  harmonic suppression  power quality  combined heat and power unit  twostage bypass  dynamic model  coordinated control system  predictive control  decoupling control  power conversion  model–plant mismatches  disturbance observer  performance recovery  offsetfree  electrical machine  electromagnetic vibration  multiphysics  rotor dynamics  air gap eccentricity  calculation method  magnetic saturation  corrugated pipe  whistling noise  Helmholtz number  excited modes  switched reluctance generator  capacitance current pulse train control  voltage ripple  capacitance current  feedback coefficient  distributed architecture  maximum power point tracking  sliding mode control  overvoltage  permanent magnet synchronous motor (PMSM)  single artificial neuron goal representation heuristic dynamic programming (SANGrHDP)  single artificial neuron (SAN)  reinforcement learning (RL)  goal representation heuristic dynamic programming (GrHDP)  adaptive dynamic programming (ADP)  sliding mode observer (SMO)  permanent magnet synchronous motor (PMSM)  extended back electromotive force (EEMF)  position sensorless  bridgeless converter  discontinuous conduction mode (DCM)  high stepup voltage gain  power factor correction (PFC)  space mechanism  multiclearance  nonlinear dynamic model  planetary gears  vibration characteristics  new stepup converter  ultrahigh voltage conversion ratio  smallsignal model  averagecurrent mode control  slope compensation  monodromy matrix  current mode control  boostflyback converter  explosionmagnetic generator  plasma accelerator  currentpulse formation  DCDC buck converter  contraction analysis  global stability  matrix norm  DC micro grid  efficiency optimization  variable bus voltage MG  variable switching frequency DCDC converters  centralized vs. decentralized control  local vs. global optimization  buck converter  DC motor  bifurcations in control parameter  sliding control  zero average dynamics  fixedpoint inducting control  DCDC converters  quadratic boost  maximum power point tracking (MPPT)  nonlinear dynamics  subharmonic oscillations  photovoltaic (PV)  steel catenary riser  rigid body rotation  wave  the load of suspension point in the z direction  Cable3D
Choose an application
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 gridconnected converters and ?smart control of power electronics in devices, microgrids, and at system levels.
energy storage  lithiumion battery  battery management system BMS  battery modeling  state of charge SoC  gridconnected inverter  power electronics  multiobjective optimization  switching frequency  total demand distortion  switching losses  EMI filter  power converter  power density  optimal design  electrical drives  axial flux machines  magnetic equivalent circuit  torque ripple  back EMF  permanentmagnet machines  fivephase permanent magnet synchronous machine  fiveleg voltage source inverter  multiphase space vector modulation  sliding mode control  extended Kalman filter  voltage source inverters (VSI)  voltage control  current control  digital control  predictive controllers  advanced controllers  stability  response time  lithiumion batteries  electric vehicles  battery management system  electric power  dynamic PV model  gridconnected VSI  HFlink MPPT converter  nanocrystalline core  SiC PV Supply  DC–DC converters  multilevel control  renewable energy resources control  electrical engineering communications  microgrid control  distributed control  power system operation and control  variable speed pumped storage system  droop control  vector control  phasor model technique  nine switch converter  synchronous generator  digital signal controller  static compensator, distribution generation  hybrid converter  multilevel converter (MLC)  series active filter  power factor correction (PFC)  fieldprogrammable gate array  particle swarm optimization  selective harmonic elimination method  voltage source converter  plugin hybrid electric vehicles  power management system  renewable energy sources  fuzzy  smart microgrid  fivephase machine  faulttolerant control  induction motor  one phase open circuit fault (1Ph)  adjacent twophase open circuit fault (A2Ph)  voltperhertz control (scalar control)  currentfed inverter  LCLS topology  semiactive bridge  soft switching  voltage boost  wireless power transfer  DC–DC conversion  zerovoltage switching (ZVS)  transient control  DC–DC conversion  bidirectional converter  power factor correction  line frequency instability  one cycle control  nonlinear phenomena  bifurcation  boost converter  converter  ice melting  modular multilevel converter (MMC)  optimization design  transmission line  static var generator (SVG)  hardwareintheloop  floatingpoint  fixedpoint  realtime emulation  field programmable gate array  slim DClink drive  VPI active damping control  total harmonic distortion  cogging torque  realtime simulation  power converters  nonlinear control  embedded systems  high level programing  SHIL  DHIL  4T analog MOS control  high frequency switching power supply  water purification  modulation index  electromagnetic interference  chaotic PWM  DCDC buck converter  CMOS chaotic circuit  triangular ramp generator  spreadspectrum technique  system in package  electric vehicle  wireless power transfer  inductive coupling  coupling factor  phaseshift control  seriesseries compensation  PSpice  fixedfrequency double integral slidingmode (FFDISM)  classD amplifier  Qfactor  GaN cascode  direct torque control (DTC)  composite active vectors modulation (CVM)  permanent magnet synchronous motor (PMSM)  effect factors  double layer capacitor (DLC) models  energy storage modelling  simulation models  current control loops  dual threephase (DTP) permanent magnet synchronous motors (PMSMs)  space vector pulse width modulation (SVPWM)  vector control  voltage source inverter  active rectifiers  singleswitch  analog phase control  digital phase control  wireless power transfer  threelevel boost converter (TLBC)  DClink cascade Hbridge (DCLCHB) inverter  conducting angle determination (CAD) techniques  total harmonic distortion (THD)  threephase bridgeless rectifier  fault diagnosis  fault tolerant control  hardware in loop  compensation topology  electromagnetic field (EMF)  electromagnetic field interference (EMI)  misalignment  resonator structure  wireless power transfer (WPT)  WPT standards  EMI filter  electromagnetic compatibility  AC–DC power converters  electromagnetic interference filter  matrix converters  current source  power density  battery energy storage systems  battery chargers  active receivers  frequency locking  reference phase calibration  synchronization  wireless power transfer  lithiumion batteries  SOC estimator  parameter identification  particle swarm optimization  improved extended Kalman filter  battery management system  PMSG  DClink voltage control  variable control gain  disturbance observer  lithiumion power battery pack  composite equalizer  active equalization  passive equalization  control strategy and algorithm  n/a  commonmode inductor  highfrequency modeling  electromagnetic interference  filter  fault diagnosis  condition monitoring  induction machines  support vector machines  expert systems  neural networks  DCAC power converters  frequencydomain analysis  impedancebased model  Nyquist stability analysis  small signal stability analysis  harmonic linearization  line start  permanent magnet  synchronous motor  efficiency motor  rotor design  harmonics  hybrid power filter  active power filter  power quality  total harmonic distortion  equivalent inductance  leakage inductance  switching frequency modelling  induction motor  current switching ripple  multilevel inverter  cascaded topology  voltage doubling  switched capacitor  nearest level modulation (NLM)  total harmonic distortion (THD)  deadtime compensation  power converters  harmonics  n/a
Choose an application
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 gridconnected converters and ?smart control of power electronics in devices, microgrids, and at system levels.
energy storage  lithiumion battery  battery management system BMS  battery modeling  state of charge SoC  gridconnected inverter  power electronics  multiobjective optimization  switching frequency  total demand distortion  switching losses  EMI filter  power converter  power density  optimal design  electrical drives  axial flux machines  magnetic equivalent circuit  torque ripple  back EMF  permanentmagnet machines  fivephase permanent magnet synchronous machine  fiveleg voltage source inverter  multiphase space vector modulation  sliding mode control  extended Kalman filter  voltage source inverters (VSI)  voltage control  current control  digital control  predictive controllers  advanced controllers  stability  response time  lithiumion batteries  electric vehicles  battery management system  electric power  dynamic PV model  gridconnected VSI  HFlink MPPT converter  nanocrystalline core  SiC PV Supply  DC–DC converters  multilevel control  renewable energy resources control  electrical engineering communications  microgrid control  distributed control  power system operation and control  variable speed pumped storage system  droop control  vector control  phasor model technique  nine switch converter  synchronous generator  digital signal controller  static compensator, distribution generation  hybrid converter  multilevel converter (MLC)  series active filter  power factor correction (PFC)  fieldprogrammable gate array  particle swarm optimization  selective harmonic elimination method  voltage source converter  plugin hybrid electric vehicles  power management system  renewable energy sources  fuzzy  smart microgrid  fivephase machine  faulttolerant control  induction motor  one phase open circuit fault (1Ph)  adjacent twophase open circuit fault (A2Ph)  voltperhertz control (scalar control)  currentfed inverter  LCLS topology  semiactive bridge  soft switching  voltage boost  wireless power transfer  DC–DC conversion  zerovoltage switching (ZVS)  transient control  DC–DC conversion  bidirectional converter  power factor correction  line frequency instability  one cycle control  nonlinear phenomena  bifurcation  boost converter  converter  ice melting  modular multilevel converter (MMC)  optimization design  transmission line  static var generator (SVG)  hardwareintheloop  floatingpoint  fixedpoint  realtime emulation  field programmable gate array  slim DClink drive  VPI active damping control  total harmonic distortion  cogging torque  realtime simulation  power converters  nonlinear control  embedded systems  high level programing  SHIL  DHIL  4T analog MOS control  high frequency switching power supply  water purification  modulation index  electromagnetic interference  chaotic PWM  DCDC buck converter  CMOS chaotic circuit  triangular ramp generator  spreadspectrum technique  system in package  electric vehicle  wireless power transfer  inductive coupling  coupling factor  phaseshift control  seriesseries compensation  PSpice  fixedfrequency double integral slidingmode (FFDISM)  classD amplifier  Qfactor  GaN cascode  direct torque control (DTC)  composite active vectors modulation (CVM)  permanent magnet synchronous motor (PMSM)  effect factors  double layer capacitor (DLC) models  energy storage modelling  simulation models  current control loops  dual threephase (DTP) permanent magnet synchronous motors (PMSMs)  space vector pulse width modulation (SVPWM)  vector control  voltage source inverter  active rectifiers  singleswitch  analog phase control  digital phase control  wireless power transfer  threelevel boost converter (TLBC)  DClink cascade Hbridge (DCLCHB) inverter  conducting angle determination (CAD) techniques  total harmonic distortion (THD)  threephase bridgeless rectifier  fault diagnosis  fault tolerant control  hardware in loop  compensation topology  electromagnetic field (EMF)  electromagnetic field interference (EMI)  misalignment  resonator structure  wireless power transfer (WPT)  WPT standards  EMI filter  electromagnetic compatibility  AC–DC power converters  electromagnetic interference filter  matrix converters  current source  power density  battery energy storage systems  battery chargers  active receivers  frequency locking  reference phase calibration  synchronization  wireless power transfer  lithiumion batteries  SOC estimator  parameter identification  particle swarm optimization  improved extended Kalman filter  battery management system  PMSG  DClink voltage control  variable control gain  disturbance observer  lithiumion power battery pack  composite equalizer  active equalization  passive equalization  control strategy and algorithm  n/a  commonmode inductor  highfrequency modeling  electromagnetic interference  filter  fault diagnosis  condition monitoring  induction machines  support vector machines  expert systems  neural networks  DCAC power converters  frequencydomain analysis  impedancebased model  Nyquist stability analysis  small signal stability analysis  harmonic linearization  line start  permanent magnet  synchronous motor  efficiency motor  rotor design  harmonics  hybrid power filter  active power filter  power quality  total harmonic distortion  equivalent inductance  leakage inductance  switching frequency modelling  induction motor  current switching ripple  multilevel inverter  cascaded topology  voltage doubling  switched capacitor  nearest level modulation (NLM)  total harmonic distortion (THD)  deadtime compensation  power converters  harmonics  n/a
Choose an application
This book covers the technological progress and developments of a largescale wind energy conversion system along with its future trends, with each chapter constituting a contribution by a different leader in the wind energy arena. Recent developments in wind energy conversion systems, system optimization, stability augmentation, power smoothing, and many other fascinating topics are included in this book. Chapters are supported through modeling, control, and simulation analysis. This book contains both technical and review articles.
squirrel cage induction generator (SCIG)  doubly fed induction generator (DFIG)  fuzzy logic controller (FLC)  PI controller  low voltage ride through (LVRT)  power system  wind power forecasting  wavelet neural network  multiobjective artificial bee colony algorithm  prediction intervals  DFIGbased wind farm  transmission line  real fault cases  fault characteristics  distance protection  power smoothing  wind farm  wind turbine allocation  rotor inertia  power wind turbine  control wind turbine  battery energy storage system  wake effect  optimization  kinetic energy storage  wind farm  reliability of electricity supplies  fault diagnosis and isolation  multiple sensor faults  LPV observer  permanent magnet synchronous generator  largescale wind farm  automatic generation control  load frequency control  fractional order proportionalintegraldifferential controller  deloading  droop curve  hardwareintheloop  reserve power  primary frequency control  optimal control  wind forecast  fault current limiters  doublyfed induction generator  fault ridethrough  superconductor  series dynamic braking resistor  wind farm  Fault Ride Through (FRT)  DistributedFlexible AC Transmission system (DFACTS)  Distribution Static VAr Compensator(DSVC)  Distribution Static Synchronous Compensator (DSTATCOM)
Choose an application
This book offers a collection of 30 scientific papers which address the problems associated with the use of power electronic converters in renewable energy sourcebased systems. Relevant problems associated with the use of power electronic converters to integrate renewable energy systems to the power grid are presented. Some of the covered topics relate to the integration of photovoltaic and wind energy generators into the rest of the system, and to the use of energy storage to mitigate power fluctuations, which are a characteristic of renewable energy systems. The book provides a good overview of the abovementioned topics.
modular multilevel converter  battery energy storage system  stateofcharge balancing  secondlife battery  multienergy complementary  microgrid  demand response  operation optimization  electricity price  peakcurrentmode control  dynamic modeling  dutyratio constraints  discontinuous conduction mode  FACTS devices  active power filter  static compensator  control strategies  gridconnected converter  SPWM  SVM  maximum power point tracking  open circuit voltage  perturb and observe  thermoelectric generator  twostage photovoltaic power  virtual synchronous generator  adaptiveMPPT (maximum power point tracking)  improvedVSG (virtual synchronous generator)  power matching  failure zone  governor  frequency regulation  inverter  voltagetype control  static frequency characteristics  gridconnected converter  adaptive resonant controller  PLL  impedance analysis  distorted grid  digital signal processor (DSP) TMS320F28335  gridconnected inverter  internal model  linear quadratic regulator  LCL filter  photovoltaic systems  multilevel power converter  soft switching  selective harmonic mitigation  phase shifted  voltage cancellation  adaptive control  sliding mode control  speed control  wind energy system  microgrid (MG)  droop control  washout filter  hardware in the loop (HIL)  active frontend converter  backtoback converter  permanent magnet synchronous generator (PMSG)  THD  type4 wind turbine  wind energy system  OpalRT Technologies®  synchronization  adaptive notch filter (ANF)  phaselocked loop (PLL)  wind power prediction  phase space reconstruction  multivariate linear regression  cloud computing  time series  multiple VSGs  oscillation mitigation  coordinated control  smallsignal and transient stability  coordination control  energy storage  grid support function  inertia  photovoltaic  virtual synchronous generator  weak grid  parallel inverters  oscillation suppression  notch filter  impedance reshaping  boost converter  peakcurrentmode control  dynamic modeling  discontinuous operation mode  doublyfed induction generator  shortcircuit fault  frequency regulation  variable power tracking control  improved additional frequency control  variable coefficient regulation  inertia and damping characteristics  generator speed control  electrical power generation  turbine and generator  gridconnected converter  organic Rankine cycle  renewable energy  multiport converter (MPC)  single ended primary inductor converter (SEPIC)  multiinput single output (MISO)  renewable power system  coupled oscillators  virtual impedance  synchronization  power converters  droop control  virtual admittance  distributed generation  energy  renewable energy  microgrids  Energy Internet  energy router  microgrid  electric vehicle  PV  batteryenergy storage  DCAC power converters  impedance emulation  stability analysis  powerhardwarein theloop  photovoltaic generators  maximum power point tracking  step size  perturbation frequency  source and load impedance  transient dynamics  stability  grid synchronization  power electronics  power grid  inverter  gridconnected  microgrid  experiment  modules  synchronverter  power ripple elimination  resonant controller  unbalanced power grid  ROCOF  PLL  error  low inertia  VSC  n/a
Choose an application
The editors of this Special Issue titled “Intelligent Control in Energy Systems” have attempted to create a book containing original technical articles addressing various elements of intelligent control in energy systems. In response to our call for papers, we received 60 submissions. Of those submissions, 27 were published and 33 were rejected. In this book, we offer the 27 accepted technical articles as well as one editorial. Authors from 15 countries (China, Netherlands, Spain, Tunisia, United Sates of America, Korea, Brazil, Egypt, Denmark, Indonesia, Oman, Canada, Algeria, Mexico, and the Czech Republic) elaborate on several aspects of intelligent control in energy systems. The book covers a broad range of topics including fuzzy PID in automotive fuel cell and MPPT tracking, neural networks for fuel cell control and dynamic optimization of energy management, adaptive control on power systems, hierarchical Petri Nets in microgrid management, model predictive control for electric vehicle battery and frequency regulation in HVAC systems, deep learning for power consumption forecasting, decision trees for wind systems, risk analysis for demand side management, finite state automata for HVAC control, robust ?synthesis for microgrids, and neurofuzzy systems in energy storage.
lithiumion battery pack  soft internal short circuit  modelbased fault detection  battery safety  internal short circuit resistance  load frequency control  model uncertainty  ?synthesis  differential evolution  decision tree  preventive control  Fault Ride Through Capability  doublyfed induction generator  ancillary service  frequency regulation  demand response  commercial/residential buildings  HVAC systems  model predictive control  rulebased control  position control  static friction  exhaust gas recirculation (EGR) valve system  automotive application  hybrid electric vehicle  compound structured permanentmagnet motor  energy management strategy  instantaneous optimization minimum power loss  back propagation (BP) neural network  power transformer winding  vibration characteristics  multiphysical field analysis  shortcircuit experiment  windingfault characteristics  occupancy model  occupancybased control  model predictive control  energy efficiency  building climate control  solar monitoring system  photovoltaic array  energy management  demand side management  operation limit violations  probabilistic power flow  network sensitivity  neural networks  railway  highspeed railway  neutral section  medium voltage  thyristor  AC static switch  adaptive backstepping  nonlinear power systems  sliding mode control  error compensation  ?class function  energy internet  multienergy complementary  integrated energy systems  distribution network planning  electric power consumption  multistep forecasting  long short term memory  convolutional neural network  system identification  parameter estimation  system modelling  model reduction  polynomial expansion  orthogonal least square  industrial process  electric vehicle  battery packs  active balance  model predictive control  hierarchical Petri nets  urban microgrids  phaseload balancing  fuzzy logic controller  MPPT: maximum power point tracking  photovoltaic system  stepup boost converter  proton exchange membrane fuel cell  four phases interleaved boost converter  neural network controller  ACDC converters  bridgeless SEPIC PFC converter  repetitive controller  current distortion  current controller design  stochastic power system operating point drift  wind integrated power system  power oscillations  adaptive damping control  continuous voltage control  multiplepoint control  interaction minimization  pilot point  adjacent areas  ANFIS  artificial neural network  fuzzy  small scale compressed air energy storage (SSCAES)  voltage controlling  electric meter  error estimation  line loss  RLS  double forgetting factors  hybrid power plant  control architecture  coordination of reserves  frequency support  frequency control dead band  fast frequency response  frequency containment reserve  line switching  voltage violations  threestage  fractional order fuzzy PID controller  neural network algorithm  PEM fuel cell  MPPT operation  sensitivity analysis  intelligent control  artificial intelligence  energy management system  smart microgrid  energy systems  intelligent buildings  forecasting  multiagent control  optimization
Choose an application
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 wellestablished structures, introducing novel and particular modulation strategies, and examining the effect of modulation techniques on voltage and current harmonics and the total harmonic distortion.
DC–DC conversion  interleaved buck  parasitic switching states  threelevel converter  simplified PWM strategy  redundant switching combination  voltage balance control  modular multilevel converter  IGBT shortcircuit  fault detection  fault location  Differential Comparison LowVoltage Detection Method (DCLVDM)  Continuous Wavelet Transform  digital controller  digital signal processors (DSP)  modular multilevel converters (MMC)  multiterminal DC network (MTDC)  MMCMTDC  hybrid modulated model predictive control  optimal output voltage level  multipoint DC control  neutralpointclamped (NPC) inverter  dclink capacitor voltage balance  offset voltage injection  harmonic component  modular multilevel converters  capacitor voltage balancing  sorting networks  fieldprogrammable gate array  lowharmonic DC icemelting device  transmission line  voltage fluctuation  harmonic  dynamic reactive  substation’s voltage stability  alternating current (AC) motor drive  current estimation  current reconstruction method  current unmeasurable areas  total harmonic distortion (THD)  single shunt resistor  space vector pulse width modulation (SVPWM)  shift method  minimum voltage injection (MVI) method  threelevel neutral point clamped inverter (NPCI)  threelevel boost  automatic current balance  threeloop  voltage imbalance  DClink voltage balancing  fieldoriented control  fieldprogrammable gate array  multilevel activeclamped converter  motor drive  buckchopper  PVsimulator  Ttype converter  real time simulator  threelevel boost DCDC converter  small signal modeling  voltage balance control  multilevel converter  selected harmonic elimination  genetic algorithm  imperialist competitive algorithm  voltage ripple  voltage source inverter  threephase inverter  DClink capacitor design  Cascaded Hbridge multilevel inverter (CHBMI)  fieldprogrammable gate array  total harmonic distortion (THD)  modulation techniques  multilevel converter  electric vehicle  onboard battery charger  power factor correction  power quality  smart grid  model predictive control  singlephase threelevel NPC converter  commutation  modular multilevel converter (MMC)  Submodule (SM) fault  faulttolerant control  Phase Disposition PWM  finite control set model predictive control  Ttype inverter  computational cost  LC filter  DClink capacitor voltage balancing  multilevel converter  DC side fault blocking  predictive control  battery energy storage system (BESS)  modular multilevel converter (MMC)  stateofcharge (SOC) balancing control  tolerance for battery power unbalance  model predictive control (MPC)  computational burden  reverse prediction  modular multilevel converter (MMC)  multilevel inverters  total harmonic distortion  levelshifted PWM  phaseshifted PWM  electrical drives  energy saving  multilevel power converters  permanent magnet synchronous generator  openend winding configuration  voltage balancing  power factor  improved PQ algorithm  power flow analysis  threephase to singlephase cascaded converter  ACTPSS  NPC/H Bridge  fivelevel  Balance of capacitor voltage  Suppression of CMV  SVPWM  multilevel converter  multimotor drive  harmonic mitigation  active filter  open end winding motor  high efficiency drive  high reliability applications
Listing 1  9 of 9 
Sort by

2019 (9)