Grid Connected Converters
-10%
portes grátis
Grid Connected Converters
Modeling, Stability and Control
Ise, Toshifumi; Kato, Toshiji; Inoue, Kaoru; Bevrani, Hassan
Elsevier - Health Sciences Division
08/2022
310
Mole
Inglês
9780323999021
15 a 20 dias
450
Descrição não disponível.
Part I: Concepts, Fundamentals, Modeling, and Dynamics Analysis 1. An Introduction to Grid-Connected Converters 2. Grid-Connected Converters: Configurations and Fundamentals 3. Dynamic Performance and Modeling of Grid-Connected Converters 4. Grid-Connected Converters: Stability Assessment and Sensitivity Analysis
PART II: Control Synthesis for Stabilising and Performance Enhancement 5. Control Structure of Grid-Connected Converters 6. Stabilizing and Performance improvement of Grid-Connected Converters 7. Robust and Intelligent Control Synthesis for Grid-Connected Converters 8. Converter-Based Grid Dynamics Shaping
PART II: Control Synthesis for Stabilising and Performance Enhancement 5. Control Structure of Grid-Connected Converters 6. Stabilizing and Performance improvement of Grid-Connected Converters 7. Robust and Intelligent Control Synthesis for Grid-Connected Converters 8. Converter-Based Grid Dynamics Shaping
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Analytical stability analysis; Ancillary service; Averaged analysis; Control loop; Control system; control; Control; Damping control; Damping emulator; Delay compensation; Demand response; Digital control; Distributed generators; Droop control; droop; Dynamic challenges; Dynamic characteristic; Dynamic impacts; Dynamic performance; Dynamic shaping; Dynamic timescales; Dynamics emulation; Energy storage system; Fault-ride through; Feedback control; Feedforward control; Finite control set MPC (FCS-MPC)Grid connected converter; Flexible GCC; Frequency characteristics; Frequency regulation support; Frequency response model; Frequency response; Frequency stability; Frequency-response model; GCC integration evaluation; Grid code; Grid connected converter (GCC)Grid-following GCC; Grid connected converter; grid connected converter; Grid-connected converter (GCC)Passive control; Grid-connected converter; Grid-following converter; Grid-forming converter; Grid-forming GCC; H? HVDC; Impedance method; Inner control loop; Line inductance; Linear quadratic regulation (LQR)Lyapunov method; Low inertia; Low-frequency transmission system; Low-pass filter; Low-voltage ride-through; Model predictive control (MPC)Optimal control; Modeling; Modern power grid; Nonlinear system; P-? P-? Participation factor; Passivity method; Phase-locked loop; Phasor measurement unit; Photovoltaic unit; Poincaremap method; Power quality; Qx-V control; Q-based control; Q-V droop; Reduced model; Reference frame; Renewable energy sources; Renewable integrated power grid; Resonance stability; Robust control; Sensitivity analysis; Sensitivity matrix; Shooting method; Simulator-based analysis; Sinusoidal tracking; Stability analysis; Stability assessment; Stability classification; State estimation; State-space model; Static output feedback; Static state feedback; Step response; Swing equation; Time-domain; VI-based control; Virtual impedance; Virtual inertia; Virtual resistor; Virtual synchronous generator (VSG)Virtual synchronous generator; Voltage response model; Wind turbine
Part I: Concepts, Fundamentals, Modeling, and Dynamics Analysis 1. An Introduction to Grid-Connected Converters 2. Grid-Connected Converters: Configurations and Fundamentals 3. Dynamic Performance and Modeling of Grid-Connected Converters 4. Grid-Connected Converters: Stability Assessment and Sensitivity Analysis
PART II: Control Synthesis for Stabilising and Performance Enhancement 5. Control Structure of Grid-Connected Converters 6. Stabilizing and Performance improvement of Grid-Connected Converters 7. Robust and Intelligent Control Synthesis for Grid-Connected Converters 8. Converter-Based Grid Dynamics Shaping
PART II: Control Synthesis for Stabilising and Performance Enhancement 5. Control Structure of Grid-Connected Converters 6. Stabilizing and Performance improvement of Grid-Connected Converters 7. Robust and Intelligent Control Synthesis for Grid-Connected Converters 8. Converter-Based Grid Dynamics Shaping
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Analytical stability analysis; Ancillary service; Averaged analysis; Control loop; Control system; control; Control; Damping control; Damping emulator; Delay compensation; Demand response; Digital control; Distributed generators; Droop control; droop; Dynamic challenges; Dynamic characteristic; Dynamic impacts; Dynamic performance; Dynamic shaping; Dynamic timescales; Dynamics emulation; Energy storage system; Fault-ride through; Feedback control; Feedforward control; Finite control set MPC (FCS-MPC)Grid connected converter; Flexible GCC; Frequency characteristics; Frequency regulation support; Frequency response model; Frequency response; Frequency stability; Frequency-response model; GCC integration evaluation; Grid code; Grid connected converter (GCC)Grid-following GCC; Grid connected converter; grid connected converter; Grid-connected converter (GCC)Passive control; Grid-connected converter; Grid-following converter; Grid-forming converter; Grid-forming GCC; H? HVDC; Impedance method; Inner control loop; Line inductance; Linear quadratic regulation (LQR)Lyapunov method; Low inertia; Low-frequency transmission system; Low-pass filter; Low-voltage ride-through; Model predictive control (MPC)Optimal control; Modeling; Modern power grid; Nonlinear system; P-? P-? Participation factor; Passivity method; Phase-locked loop; Phasor measurement unit; Photovoltaic unit; Poincaremap method; Power quality; Qx-V control; Q-based control; Q-V droop; Reduced model; Reference frame; Renewable energy sources; Renewable integrated power grid; Resonance stability; Robust control; Sensitivity analysis; Sensitivity matrix; Shooting method; Simulator-based analysis; Sinusoidal tracking; Stability analysis; Stability assessment; Stability classification; State estimation; State-space model; Static output feedback; Static state feedback; Step response; Swing equation; Time-domain; VI-based control; Virtual impedance; Virtual inertia; Virtual resistor; Virtual synchronous generator (VSG)Virtual synchronous generator; Voltage response model; Wind turbine
