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The rapid increase in new power electronic devices and converters for electric transportation and smart grid technologies requires a deepanalysis of their component performances, considering all of the different environmental scenarios, overload conditions, and high stressoperations. Therefore, evaluation of the reliability and availability of these devices becomes fundamental both from technical and economicalpoints of view. The rapid evolution of technologies and the high reliability level offered by these components have shown that estimating reliability through the traditional approaches is difficult, as historical failure data and/or past observed scenarios demonstrate. With the aim topropose new approaches for the evaluation of reliability, in this book, eleven innovative contributions are collected, all focusedon the reliability assessment of power electronic devices and related components.
Technology: general issues --- Energy industries & utilities --- photovoltaic system --- battery --- DC-coupled configuration --- AC-coupled configuration --- mission profile --- reliability --- LED --- thermal cycling test --- accelerated test --- solder joint --- cracks --- current harmonics --- voltage harmonics --- power electronic converters --- cables --- capacitors --- PPS --- high-power thyristors --- reverse recovery currents --- electromagnetic launching field --- segmented LSTM --- microgrid inverter --- IGBT reliability --- online evaluation --- fusion algorithm --- multi-chip IGBT module --- bond wire --- module transconductance --- temperature calibration --- failure monitoring --- sensor lamp --- low-light mode --- high-light mode --- AC motor drive --- junction temperature --- lifetime prediction --- power MOSFET --- loss modeling --- SiC MOSFET --- AlGaN/GaN HEMT --- cascode structure --- single event effects --- technology computer-aided design simulation --- heavy-ion irradiation experiment --- photovoltaic systems --- DC/AC converter --- maintenance --- power system faults --- availability --- condition monitoring --- power device --- power electronics --- photovoltaic system --- battery --- DC-coupled configuration --- AC-coupled configuration --- mission profile --- reliability --- LED --- thermal cycling test --- accelerated test --- solder joint --- cracks --- current harmonics --- voltage harmonics --- power electronic converters --- cables --- capacitors --- PPS --- high-power thyristors --- reverse recovery currents --- electromagnetic launching field --- segmented LSTM --- microgrid inverter --- IGBT reliability --- online evaluation --- fusion algorithm --- multi-chip IGBT module --- bond wire --- module transconductance --- temperature calibration --- failure monitoring --- sensor lamp --- low-light mode --- high-light mode --- AC motor drive --- junction temperature --- lifetime prediction --- power MOSFET --- loss modeling --- SiC MOSFET --- AlGaN/GaN HEMT --- cascode structure --- single event effects --- technology computer-aided design simulation --- heavy-ion irradiation experiment --- photovoltaic systems --- DC/AC converter --- maintenance --- power system faults --- availability --- condition monitoring --- power device --- power electronics
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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.
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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The rapid increase in new power electronic devices and converters for electric transportation and smart grid technologies requires a deepanalysis of their component performances, considering all of the different environmental scenarios, overload conditions, and high stressoperations. Therefore, evaluation of the reliability and availability of these devices becomes fundamental both from technical and economicalpoints of view. The rapid evolution of technologies and the high reliability level offered by these components have shown that estimating reliability through the traditional approaches is difficult, as historical failure data and/or past observed scenarios demonstrate. With the aim topropose new approaches for the evaluation of reliability, in this book, eleven innovative contributions are collected, all focusedon the reliability assessment of power electronic devices and related components.
Technology: general issues --- Energy industries & utilities --- photovoltaic system --- battery --- DC-coupled configuration --- AC-coupled configuration --- mission profile --- reliability --- LED --- thermal cycling test --- accelerated test --- solder joint --- cracks --- current harmonics --- voltage harmonics --- power electronic converters --- cables --- capacitors --- PPS --- high-power thyristors --- reverse recovery currents --- electromagnetic launching field --- segmented LSTM --- microgrid inverter --- IGBT reliability --- online evaluation --- fusion algorithm --- multi-chip IGBT module --- bond wire --- module transconductance --- temperature calibration --- failure monitoring --- sensor lamp --- low-light mode --- high-light mode --- AC motor drive --- junction temperature --- lifetime prediction --- power MOSFET --- loss modeling --- SiC MOSFET --- AlGaN/GaN HEMT --- cascode structure --- single event effects --- technology computer-aided design simulation --- heavy-ion irradiation experiment --- photovoltaic systems --- DC/AC converter --- maintenance --- power system faults --- availability --- condition monitoring --- power device --- power electronics --- n/a
Choose an application
The rapid increase in new power electronic devices and converters for electric transportation and smart grid technologies requires a deepanalysis of their component performances, considering all of the different environmental scenarios, overload conditions, and high stressoperations. Therefore, evaluation of the reliability and availability of these devices becomes fundamental both from technical and economicalpoints of view. The rapid evolution of technologies and the high reliability level offered by these components have shown that estimating reliability through the traditional approaches is difficult, as historical failure data and/or past observed scenarios demonstrate. With the aim topropose new approaches for the evaluation of reliability, in this book, eleven innovative contributions are collected, all focusedon the reliability assessment of power electronic devices and related components.
photovoltaic system --- battery --- DC-coupled configuration --- AC-coupled configuration --- mission profile --- reliability --- LED --- thermal cycling test --- accelerated test --- solder joint --- cracks --- current harmonics --- voltage harmonics --- power electronic converters --- cables --- capacitors --- PPS --- high-power thyristors --- reverse recovery currents --- electromagnetic launching field --- segmented LSTM --- microgrid inverter --- IGBT reliability --- online evaluation --- fusion algorithm --- multi-chip IGBT module --- bond wire --- module transconductance --- temperature calibration --- failure monitoring --- sensor lamp --- low-light mode --- high-light mode --- AC motor drive --- junction temperature --- lifetime prediction --- power MOSFET --- loss modeling --- SiC MOSFET --- AlGaN/GaN HEMT --- cascode structure --- single event effects --- technology computer-aided design simulation --- heavy-ion irradiation experiment --- photovoltaic systems --- DC/AC converter --- maintenance --- power system faults --- availability --- condition monitoring --- power device --- power electronics --- n/a
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This book provides extensive information about advanced control techniques in electric drives. Multiple control and estimation methods are studied for position and speed tracking in different drives. Artificial intelligence tools, such as fuzzy logic and neural networks, are used for specific applications using electric drives.
History of engineering & technology --- PMSM drive --- current control --- deadbeat predictive control --- equivalent input disturbance --- BSAII --- Euclidean distance --- energy management --- E-REV --- overhead transmission line --- UAV inspection --- safe distance --- multi-source data fusion --- adaptive threshold --- permanent magnet synchronous motor --- second-order sliding mode control --- cascade control --- robustness --- PMSM --- model predictive control --- parameter identification --- hybrid electric vehicles (HEVs) --- mode transition --- adaptive sliding mode control (A-SMC) --- clutch actuator --- PI observer --- fractional order proportional-integral-differential (FOPID) --- indirect vector control --- position control of motor --- induction motor --- sensorless control --- sliding mode observer --- RBFNN-based self-tuning PID controller --- I-f startup strategy --- PMLSM --- position sensorless control --- high-frequency square-wave voltage injection --- FIR filter --- maglev train --- automotive electric powertrain --- rotor position sensor --- resolver --- inductive position sensor --- eddy current position sensor --- Hall sensor --- magnetoresistive position sensor --- Hall sensors --- brushless direct current motor drive system --- power electronics --- industrial application --- integrated electric drive system --- electromechanical coupling --- harmonic torque reduction strategy --- quantized --- nonlinear systems --- time delay --- lyapunov approach --- real-time implementation --- neural fuzzy controller --- I-f control strategy --- fractional order control --- synergetic control --- sliding mode control --- motor drives --- advanced control --- power converters --- estimation --- sensor --- artificial intelligence --- PMSM drive --- current control --- deadbeat predictive control --- equivalent input disturbance --- BSAII --- Euclidean distance --- energy management --- E-REV --- overhead transmission line --- UAV inspection --- safe distance --- multi-source data fusion --- adaptive threshold --- permanent magnet synchronous motor --- second-order sliding mode control --- cascade control --- robustness --- PMSM --- model predictive control --- parameter identification --- hybrid electric vehicles (HEVs) --- mode transition --- adaptive sliding mode control (A-SMC) --- clutch actuator --- PI observer --- fractional order proportional-integral-differential (FOPID) --- indirect vector control --- position control of motor --- induction motor --- sensorless control --- sliding mode observer --- RBFNN-based self-tuning PID controller --- I-f startup strategy --- PMLSM --- position sensorless control --- high-frequency square-wave voltage injection --- FIR filter --- maglev train --- automotive electric powertrain --- rotor position sensor --- resolver --- inductive position sensor --- eddy current position sensor --- Hall sensor --- magnetoresistive position sensor --- Hall sensors --- brushless direct current motor drive system --- power electronics --- industrial application --- integrated electric drive system --- electromechanical coupling --- harmonic torque reduction strategy --- quantized --- nonlinear systems --- time delay --- lyapunov approach --- real-time implementation --- neural fuzzy controller --- I-f control strategy --- fractional order control --- synergetic control --- sliding mode control --- motor drives --- advanced control --- power converters --- estimation --- sensor --- artificial intelligence
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In a modern technological society, electronic engineering and design innovations are both academic and practical engineering fields that involve systematic technological materialization through scientific principles and engineering designs. Engineers and designers must work together with a variety of other professionals in their quest to find systems solutions to complex problems. Rapid advances in science and technology have broadened the horizons of engineering while simultaneously creating a multitude of challenging problems in every aspect of modern life. Current research is interdisciplinary in nature, reflecting a combination of concepts and methods that often span several areas of mechanics, mathematics, electrical engineering, control engineering, and other scientific disciplines. In addition, the 2nd IEEE International Conference on Knowledge Innovation and Invention 2019 (IEEE ICKII 2019) was held in Seoul, South Korea, on 12–15 July, 2019. This book, “Intelligent Electronic Devices”, includes 13 excellent papers form 260 papers presented in this conference about intelligent electronic devices. The main goals of this book were to encourage scientists to publish their experimental and theoretical results in as much detail as possible and to provide new scientific knowledge relevant to the topics of electronics.
wearable robot --- electrical circuits and devices --- threshold voltage --- broadcast circuit --- dual-input converter --- built-in self-test --- n-channel lateral diffused MOSFET (nLDMOS) --- multi-robots --- current-voltage characteristics --- actuator --- electromagnetic interference --- sound recognition module --- brushless DC motor --- tabu search --- transmission-line pulse system (TLP system) --- skeletal feature representation --- communications and information processing --- 180-degree conduction --- mosquitoes --- regions with convolutional neural network (R-CNN) --- oscillator --- secondary freeform lens device (SFLD) --- low-dosed --- ZnO-based nanowires --- adaptive network-based fuzzy inference system (ANFIS) --- galvanic isolation --- lateral diffusion MOS (LDMOS) --- non-uniform conduction --- photoluminescence properties --- Aedes albopictus --- test pattern generation --- stearic --- high-definition multimedia interface --- sensorless motor drive --- PCB layout --- leakage energy recycling --- latchup (LU) --- Aedes aegypti --- secondary breakdown current (It2) --- 6-DOF robot arm --- lower limb exoskeleton --- as low as diagnostically acceptable (ALADA) --- voltage-controlled oscillator --- Eu3+ and In3+ ions --- electromagnetic lock --- computer science and engineering --- holding voltage (Vh) --- low cost --- voltage clamping --- cone-beam computerized tomography (CBCT) --- selective anatomy analytic iteration reconstruction (SA2IR) --- action quality assessment --- diagnostic ability --- high voltage gain --- laser pointer --- sparse projections --- speed control --- multiple simple current mirror --- human activity analysis --- path programming --- negative differential resistance --- drift region --- electrostatic discharge (ESD) --- radiation resistance --- hydrothermal method
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This book provides extensive information about advanced control techniques in electric drives. Multiple control and estimation methods are studied for position and speed tracking in different drives. Artificial intelligence tools, such as fuzzy logic and neural networks, are used for specific applications using electric drives.
History of engineering & technology --- PMSM drive --- current control --- deadbeat predictive control --- equivalent input disturbance --- BSAII --- Euclidean distance --- energy management --- E-REV --- overhead transmission line --- UAV inspection --- safe distance --- multi-source data fusion --- adaptive threshold --- permanent magnet synchronous motor --- second-order sliding mode control --- cascade control --- robustness --- PMSM --- model predictive control --- parameter identification --- hybrid electric vehicles (HEVs) --- mode transition --- adaptive sliding mode control (A-SMC) --- clutch actuator --- PI observer --- fractional order proportional-integral-differential (FOPID) --- indirect vector control --- position control of motor --- induction motor --- sensorless control --- sliding mode observer --- RBFNN-based self-tuning PID controller --- I-f startup strategy --- PMLSM --- position sensorless control --- high-frequency square-wave voltage injection --- FIR filter --- maglev train --- automotive electric powertrain --- rotor position sensor --- resolver --- inductive position sensor --- eddy current position sensor --- Hall sensor --- magnetoresistive position sensor --- Hall sensors --- brushless direct current motor drive system --- power electronics --- industrial application --- integrated electric drive system --- electromechanical coupling --- harmonic torque reduction strategy --- quantized --- nonlinear systems --- time delay --- lyapunov approach --- real-time implementation --- neural fuzzy controller --- I-f control strategy --- fractional order control --- synergetic control --- sliding mode control --- motor drives --- advanced control --- power converters --- estimation --- sensor --- artificial intelligence
Choose an application
This book provides extensive information about advanced control techniques in electric drives. Multiple control and estimation methods are studied for position and speed tracking in different drives. Artificial intelligence tools, such as fuzzy logic and neural networks, are used for specific applications using electric drives.
PMSM drive --- current control --- deadbeat predictive control --- equivalent input disturbance --- BSAII --- Euclidean distance --- energy management --- E-REV --- overhead transmission line --- UAV inspection --- safe distance --- multi-source data fusion --- adaptive threshold --- permanent magnet synchronous motor --- second-order sliding mode control --- cascade control --- robustness --- PMSM --- model predictive control --- parameter identification --- hybrid electric vehicles (HEVs) --- mode transition --- adaptive sliding mode control (A-SMC) --- clutch actuator --- PI observer --- fractional order proportional-integral-differential (FOPID) --- indirect vector control --- position control of motor --- induction motor --- sensorless control --- sliding mode observer --- RBFNN-based self-tuning PID controller --- I-f startup strategy --- PMLSM --- position sensorless control --- high-frequency square-wave voltage injection --- FIR filter --- maglev train --- automotive electric powertrain --- rotor position sensor --- resolver --- inductive position sensor --- eddy current position sensor --- Hall sensor --- magnetoresistive position sensor --- Hall sensors --- brushless direct current motor drive system --- power electronics --- industrial application --- integrated electric drive system --- electromechanical coupling --- harmonic torque reduction strategy --- quantized --- nonlinear systems --- time delay --- lyapunov approach --- real-time implementation --- neural fuzzy controller --- I-f control strategy --- fractional order control --- synergetic control --- sliding mode control --- motor drives --- advanced control --- power converters --- estimation --- sensor --- artificial intelligence
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