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Control of Power Electronic Converters and Systems

- Volume 3

Forfatter: info mangler
Bog
  • Format
  • Bog, paperback
  • Engelsk

Beskrivelse

Control of Power Electronic Converters and Systems, Volume 3, explores emerging topics in the control of power electronics and converters, including the theory behind control, and the practical operation, modeling, and control of basic power system models. This book introduces the most important controller design methods, including both analog and digital procedures. This reference explains the dynamic characterization of terminal behavior for converters, as well as preserving the stability and power quality of modern power systems. Useful for engineers in emerging applications of power electronic converters and those combining control design methods into different applications in power electronics technology. Addressing controller interactions - in light of increasing renewable energy integration and related challenges with stability and power quality - is becoming more frequent in power converters and passive components.

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Detaljer
  • SprogEngelsk
  • Sidetal718
  • Udgivelsesdato07-04-2021
  • ISBN139780128194324
  • Forlag Academic Press Inc
  • FormatPaperback
Størrelse og vægt
  • Vægt1260 g
  • coffee cup img
    10 cm
    book img
    15,2 cm
    22,9 cm

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    Stability Passivity-based control Robust control Power electronics Modeling Control Synchronization Renewable energy integration Artificial intelligence PV inverters Power System Stability Power Converter Nonlinear control Cyber-security Distributed Generation Damping Control Phase Locked Loop Model-predictive control Stability Analysis Photovoltaic generation Renewables Robustness Power electronic converters Pulse width modulation Voltage Source Converters Integrated Inductor Cyber-attacks Cyber-physical systems Voltage Source Converter Artificial neural network Adaptive Predictive Control Adaptive control Grid Integration Adaptive Observer Lifetime Active Damping Eigenvalue Microgrids Maximum Power Point Tracking Electrical drives Large-signal Virtual synchronous machine Coupled inductor Impedance active power control Active Power Filter Adaptive boundary-layer SMC Carrier interleaving Cascaded H-bridge Boundary-layer SMC Circulating current suppression Constant power generation Circulating current control Circulating current modeling Fault ride-through Common-mode voltage (CMV)Current source converter (CSC)Parallel connection Common-mode inductor Grid-forming power converters Grid fault Grid-following power converters Harmonic state space model Current source converters Converter control Generalized averaging model Impedance stability Grid synchronization droop control Multilevel pulse width modulation Model reference adaptive control Grid code Grid codes Grid-connected converter Grid-forming converters Parallel interleaved inverters Identification system Port-controlled Hamiltonian Power electronic–based power systems Integral SMC Second-order SMC Selective harmonic current mitigation-PWM Power Electronic Systems Reactive power injection Terminal SMC Three-phase voltage source inverter (VSI)Uninterruptible power supply (UPS)Unbalanced grid voltages Vector current control Wind farm reactive power dispatch Wind turbine systems Wind generation systems Light-emitting diode (LED)Low voltage ride-through Synchronverter Wind farm control Wind farm layout optimization LED driver Low-inertia grids Parallel inverter Phase-locked loops (PLLs)Power electronics Synchronous power controller (SPC)Virtual impedance Virtual inertia Virtual synchronous generator (VSG)Virtual synchronous machine (VSM)Virtual synchronous generator Voltage source converters (VSCs)Weak grid Wind farm active power dispatch Single-phase PV systems Three-phase UPS Weak Grids Wind farm optimization wind generation Virtual impedance Voltage faults
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