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    Power Electronics and Motor Drive Systems

    Power Electronics and Motor Drive Systems

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    • Format
    • Bog, paperback
    • Engelsk

    Beskrivelse

    Power Electronics and Motor Drive Systems is designed to aid electrical engineers, researchers, and students to analyze and address common problems in state-of-the-art power electronics technologies. Author Stefanos Manias supplies a detailed discussion of the theory of power electronics circuits and electronic power conversion technology systems, with common problems and methods of analysis to critically evaluate results. These theories are reinforced by simulation examples using well-known and widely available software programs, including SPICE, PSIM, and MATLAB/SIMULINK. Manias expertly analyzes power electronic circuits with basic power semiconductor devices, as well as the new power electronic converters. He also clearly and comprehensively provides an analysis of modulation and output voltage, current control techniques, passive and active filtering, and the characteristics and gating circuits of different power semiconductor switches, such as BJTs, IGBTs, MOSFETs, IGCTs, MCTs and GTOs.

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    Detaljer
    • SprogEngelsk
    • Sidetal1008
    • Udgivelsesdato06-12-2016
    • ISBN139780128117989
    • Forlag Academic Press Inc
    • FormatPaperback
    Størrelse og vægt
  • Vægt1160 g
    • coffee cup img
    10 cm
    book img
    15,2 cm
    22,9 cm

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    EMC Electric circuits Fourier series Simulation SMPS Heat Flow Power flow Heat sinks MCTS Passive Filter Thermal Resistance Buck Boost Harmonics Forward Active Filter TCR Switching Function Resonant Converters Reactive Power MOSFETs Triac International Standards Switching characteristics Thyristor EMI IGBTs Equivalent Circuit 60�-PWM ac chopper ac motor drive ac semiconductor switch ac�dc conversion Ac�dc power conversion active power AC Voltage Controller and TSC compensators Apparent Power Bidirectional topology Bidirectional switch BJTs Average current control Average value Classification of power electronics converters Boost rectifier Classification of power semiconductor devices dc chopper Buck�boost Dynamic switching characteristics Derating Factor Direct self control (DSC)Direct torque and flux control (DTC)Dynamic breaking Distortion power Diode switching angles Displacement factor Electric power conversion Director switch Distortion factor Flux vector modulation (FVM)Indirect field�oriented control (IFOC)Mechanical load Forward bias safe operating area (FBSOA)Gate driving circuits Full-wave diode rectifier Electric motor drive system Flying capacitors multilevel inverter (FCMI)H-bridge Continuous current mode Controlled rectifier Half-controlled rectifier Flyback Harmonic injected PWM (HIPWM)Hysteresis band current controlled PWM (HBCC-PWM)Inverter Current source inverter (CSI)dc�ac power conversion Δ-Connected controller DC Motor Drive dc�dc power conversion Discontinuous current mode Diode overlap interval Inversion mode I�V characteristics JFETs Injecting harmonics FACTS (flexible alternating current transmission system)Inductive susceptance Mount packages Frequency spectrum Full-bridge Multilevel rectifiers Full-wave thyristor rectifier Neutral point diode clamped multilevel inverter (NPDCMI)P�Q control Normally on Modular multilevel converter (MMC or M2C)Multicarrier SPWM (MCSPWM)Multilevel inverter Half-wave thyristor rectifier Parallel devices Peak-to-peak ripple GTOs Permanent magnet motor drive Normally off Power diode Power Factor Power semiconductor switch Rotor field-oriented control (FOC)Scalar control Half-Bridge Power Semiconductor Switches Ripple factor Rectification mode Pulse width modulation (PWM)Selected harmonic PWM (SHE-PWM)Simulation Single-phase diode rectifier Quadrant of operation Quadrants of operation Series filter Rectifier control techniques Resonant filter State�space model Hybrid filter Hysteresis control THD% factor Thyristor overlap interval Thyristor states of operation Uncontrolled rectifier Switched reluctance motor Switching power losses Switching waveforms Si and SiC devices Maximum current control Thyristor power circuit Twelve-pulse thyristor rectifier STATCOM (static synchronous compensator)SVAR Unity power factor Switching rectifier Overvoltage protection Parallel-loaded resonant (PLR)Peak-to-peak ripple power electronics applications Power Electronics Technology Pulse width modulation (PWM)Push�pull Regenerative breaking Regenerative rectifier Reverse bias safe operating area (RBSOA)Series devices Power transfer Series-loaded resonant (SLR)Simulation Operation modes Parallel filter Park and Clarke transformations Rectifier conduction states Transformerless Trapezoidal PWM (TPWM)Two-level inverter UPFC (Unified power flow controller) frequency response characteristic SiC JFET Miller effect Unidirectional switch Sinusoidal PWM (SPWM)Space vector PWM (SVPWM)Switching states Snubbers Rectification factor RMS Value Single-phase thyristor rectifier Three-level inverter Thyristor switching angles Twelve-pulse diode rectifier Switching trajectories Torque�speed characteristics

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