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210512 ||| eng |
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|a 9783038979753
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020 |
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|a books978-3-03897-975-3
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020 |
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|a 9783038979746
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100 |
1 |
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|a Blaabjerg, Frede
|
245 |
0 |
0 |
|a Applications of Power Electronics
|h Elektronische Ressource
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260 |
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|b MDPI - Multidisciplinary Digital Publishing Institute
|c 2019
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300 |
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|a 1 electronic resource (476 p.)
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653 |
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|a SiC PV Supply
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653 |
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|a reference phase calibration
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653 |
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|a distributed control
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653 |
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|a lithium-ion batteries
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653 |
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|a frequency locking
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653 |
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|a back EMF
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653 |
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|a fuzzy
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653 |
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|a electrical drives
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653 |
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|a selective harmonic elimination method
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653 |
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|a power converter
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653 |
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|a conducting angle determination (CAD) techniques
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653 |
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|a phase-shift control
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653 |
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|a dead-time compensation
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653 |
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|a multiphase space vector modulation
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653 |
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|a neural networks
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653 |
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|a transient control
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653 |
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|a leakage inductance
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653 |
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|a battery management system
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653 |
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|a class-D amplifier
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653 |
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|a optimization design
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653 |
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|a hardware in loop
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653 |
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|a real-time emulation
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653 |
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|a modular multilevel converter (MMC)
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653 |
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|a matrix converters
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653 |
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|a DHIL
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653 |
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|a predictive controllers
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653 |
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|a static compensator
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653 |
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|a misalignment
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653 |
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|a electric vehicles
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653 |
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|a Q-factor
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653 |
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|a series-series compensation
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653 |
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|a multi-objective optimization
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653 |
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|a active receivers
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653 |
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|a parameter identification
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653 |
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|a synchronous motor
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653 |
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|a efficiency motor
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653 |
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|a power factor correction (PFC)
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653 |
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|a control strategy and algorithm
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653 |
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|a electromagnetic compatibility
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653 |
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|a volt-per-hertz control (scalar control)
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653 |
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|a 4T analog MOS control
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653 |
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|a power quality
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653 |
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|a direct torque control (DTC)
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653 |
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|a response time
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653 |
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|a zero-voltage switching (ZVS)
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653 |
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|a field programmable gate array
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653 |
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|a total demand distortion
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653 |
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|a chaotic PWM
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653 |
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|a active equalization
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653 |
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|a synchronization
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653 |
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|a real-time simulation
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653 |
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|a total harmonic distortion (THD)
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653 |
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|a vector control
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653 |
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|a WPT standards
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653 |
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|a electromagnetic interference filter
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653 |
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|a high-frequency modeling
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653 |
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|a total harmonic distortion
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653 |
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|a grid-connected inverter
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653 |
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|a voltage source converter
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653 |
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|a EMI filter
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653 |
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|a power factor correction
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653 |
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|a power system operation and control
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653 |
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|a field-programmable gate array
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653 |
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|a digital control
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653 |
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|a hardware-in-the-loop
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653 |
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|a nonlinear control
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653 |
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|a energy storage
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653 |
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|a hybrid power filter
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653 |
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|a single-switch
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653 |
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|a n/a
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653 |
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|a bifurcation
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653 |
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|a impedance-based model
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653 |
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|a line frequency instability
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653 |
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|a Nyquist stability analysis
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653 |
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|a spread-spectrum technique
|
653 |
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|a transmission line
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653 |
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|a switching frequency
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653 |
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|a power converters
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653 |
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|a one phase open circuit fault (1-Ph)
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653 |
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|a induction machines
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653 |
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|a power density
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653 |
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|a small signal stability analysis
|
653 |
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|a embedded systems
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653 |
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|a five-phase machine
|
653 |
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|a modulation index
|
653 |
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|a triangular ramp generator
|
653 |
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|a HF-link MPPT converter
|
653 |
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|a digital phase control
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653 |
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|a AC-DC power converters
|
653 |
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|a variable speed pumped storage system
|
653 |
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|a composite active vectors modulation (CVM)
|
653 |
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|a PMSG
|
653 |
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|a coupling factor
|
653 |
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|a equivalent inductance
|
653 |
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|a effect factors
|
653 |
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|a static var generator (SVG)
|
653 |
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|a permanent magnet
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653 |
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|a extended Kalman filter
|
653 |
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|a synchronous generator
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653 |
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|a harmonics
|
653 |
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|a state of charge SoC
|
653 |
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|a fixed-point
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653 |
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|a voltage boost
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653 |
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|a digital signal controller
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653 |
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|a rotor design
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653 |
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|a current-fed inverter
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653 |
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|a compensation topology
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653 |
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|a floating-point
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653 |
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|a frequency-domain analysis
|
653 |
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|a current control
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653 |
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|a wireless power transfer
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653 |
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|a LCL-S topology
|
653 |
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|a switching frequency modelling
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653 |
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|a DC-DC converters
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653 |
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|a double layer capacitor (DLC) models
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653 |
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|a renewable energy sources
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653 |
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|a multi-level control
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653 |
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|a converter
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653 |
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|a DC-link cascade H-bridge (DCLCHB) inverter
|
653 |
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|a electromagnetic field (EMF)
|
653 |
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|a filter
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653 |
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|a inductive coupling
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653 |
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|a electric power
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653 |
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|a voltage source inverters (VSI)
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653 |
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|a switched capacitor
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653 |
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|a renewable energy resources control
|
653 |
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|a composite equalizer
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653 |
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|a five-phase permanent magnet synchronous machine
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653 |
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|a CMOS chaotic circuit
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653 |
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|a permanent magnet synchronous motor (PMSM)
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653 |
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|a multilevel inverter
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653 |
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|a one cycle control
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653 |
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|a ice melting
|
653 |
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|a electric vehicle
|
653 |
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|a common-mode inductor
|
653 |
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|a magnetic equivalent circuit
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653 |
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|a wireless power transfer (WPT)
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653 |
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|a permanent-magnet machines
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653 |
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|a DC-DC buck converter
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653 |
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|a current switching ripple
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653 |
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|a droop control
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653 |
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|a improved extended Kalman filter
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653 |
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|a fixed-frequency double integral sliding-mode (FFDISM)
|
653 |
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|a current source
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653 |
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|a active power filter
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653 |
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|a expert systems
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653 |
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|a current control loops
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653 |
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|a stability
|
653 |
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|a electrical engineering communications
|
653 |
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|a fault diagnosis
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653 |
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|a five-leg voltage source inverter
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653 |
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|a passive equalization
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653 |
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|a axial flux machines
|
653 |
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|a DC-DC conversion
|
653 |
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|a switching losses
|
653 |
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|a electromagnetic field interference (EMI)
|
653 |
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|a cascaded topology
|
653 |
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|a advanced controllers
|
653 |
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|a lithium-ion power battery pack
|
653 |
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|a distribution generation
|
653 |
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|a SOC estimator
|
653 |
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|a SHIL
|
653 |
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|a lithium-ion battery
|
653 |
|
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|a water purification
|
653 |
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|a particle swarm optimization
|
653 |
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|a energy storage modelling
|
653 |
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|a DC-link voltage control
|
653 |
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|a high frequency switching power supply
|
653 |
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|a GaN cascode
|
653 |
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|a condition monitoring
|
653 |
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|a battery chargers
|
653 |
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|a support vector machines
|
653 |
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|a cogging torque
|
653 |
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|a fault tolerant control
|
653 |
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|a three-level boost converter (TLBC)
|
653 |
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|a power management system
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653 |
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|a simulation models
|
653 |
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|a optimal design
|
653 |
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|a nearest level modulation (NLM)
|
653 |
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|a battery energy storage systems
|
653 |
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|a phasor model technique
|
653 |
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|a DC-AC power converters
|
653 |
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|a soft switching
|
653 |
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|a adjacent two-phase open circuit fault (A2-Ph)
|
653 |
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|a History of engineering and technology / bicssc
|
653 |
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|a harmonic linearization
|
653 |
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|a dynamic PV model
|
653 |
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|a active rectifiers
|
653 |
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|a disturbance observer
|
653 |
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|a grid-connected VSI
|
653 |
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|a multi-level converter (MLC)
|
653 |
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|a hybrid converter
|
653 |
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|a non-linear phenomena
|
653 |
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|a three-phase bridgeless rectifier
|
653 |
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|a voltage source inverter
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653 |
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|a plug-in hybrid electric vehicles
|
653 |
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|a resonator structure
|
653 |
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|a analog phase control
|
653 |
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|a bidirectional converter
|
653 |
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|a microgrid control
|
653 |
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|a dual three-phase (DTP) permanent magnet synchronous motors (PMSMs)
|
653 |
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|a voltage control
|
653 |
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|a voltage doubling
|
653 |
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|a induction motor
|
653 |
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|a slim DC-link drive
|
653 |
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|a high level programing
|
653 |
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|a PSpice
|
653 |
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|a power electronics
|
653 |
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|a fault-tolerant control
|
653 |
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|a semi-active bridge
|
653 |
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|a electromagnetic interference
|
653 |
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|a VPI active damping control
|
653 |
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|a space vector pulse width modulation (SVPWM)
|
653 |
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|a battery modeling
|
653 |
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|a nanocrystalline core
|
653 |
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|a boost converter
|
653 |
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|a variable control gain
|
653 |
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|a sliding mode control
|
653 |
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|a nine switch converter
|
653 |
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|a system in package
|
653 |
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|a line start
|
653 |
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|a torque ripple
|
653 |
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|a smart micro-grid
|
653 |
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|a series active filter
|
653 |
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|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 |
|
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|b DOAB
|a Directory of Open Access Books
|
500 |
|
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|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 |
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|a 900
|
082 |
0 |
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|a 333
|
082 |
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|a 380
|
082 |
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|a 700
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|a 600
|
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|a 620
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|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.
|