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Intro; Preface; Contents; Chapter 1: Introduction; 1.1 Impact of Grid-Connected VSWGs on the Small-Signal Angular Stability of Power System; 1.1.1 Impact of the VSWGs: A Brief Review; 1.1.1.1 Representatives of Earlier Study; 1.1.1.2 Representatives Study: The VSWG Displacing the SG; 1.1.1.3 Representatives Study: Adding the VSWG in the Power System; 1.1.2 Impact of the VSWGs: Discussions; 1.1.2.1 Strategy of Adding the VSWG in the Power System; 1.1.2.2 Separate Examination of Affecting Factors; 1.1.2.3 Strategy of the VSWG Displacing the SG
1.1.2.4 Impact of the VSWG Reactive Power/Terminal Voltage Control1.1.2.5 Effect of the Phase Locked Loop (PLL); 1.2 Small-Signal Stability of the VSC-Based DC/AC Power System; 1.2.1 Small-Signal Stability of a Single Grid-Connected VSC System; 1.2.1.1 Main Affecting Factors: Weak Grid Connection and the PLL; 1.2.1.2 Impact of Dynamic Interactions Introduced by the PLL; 1.2.1.3 Summary: The Single VSC System; 1.2.2 Small-Signal Stability of Integrated VSC-Based DC/AC Power Systems; 1.2.2.1 Small-Signal Stability of AC Power System Integrated with a VSC-Based HVDC Line
1.2.2.2 Small-Signal Stability of AC Power System Integrated with a VSC-Based MTDC Network1.2.2.3 Summary: The HVDC/AC and MTDC/AC Power System; References; Chapter 2: Linearized Model of a Power System with a Grid-Connected Variable Speed Wind Generator; 2.1 Linearized Model of a PMSG; 2.1.1 Linearized Model of the Permanent Magnet SG; 2.1.2 Linearized Model of Machine Side Converter and Associated Control System; 2.1.3 Linearized Model of Grid Side Converter and Associated Control System; 2.1.4 Linearized Model of the Entire PMSG System; 2.2 Linearized Model of a DFIG
2.2.1 Linearized Model of the Induction Generator and Two-Mass Shaft Rotational System2.2.2 Linearized Model of the RSC and Associated Control System; 2.2.3 Linearized Model of the GSC and Associated Control System; 2.2.4 Linearized Model of the Entire DFIG; 2.3 Linearized Model of the Power System; 2.4 Closed-Loop Interconnected Model of the Power System with a Grid-Connected VSWG; 2.4.1 Closed-Loop Interconnected Model of the Power System with a PMSG; 2.4.2 Closed-Loop Interconnected Model of the Power System with a DFIG
Chapter 3: Damping Torque Analysis of Small-Signal Angular Stability of a Power System Affected by Grid-Connected Wind Power I...3.1 Impact of Grid-Connected Wind Power Induction Generators on Small-Signal Angular Stability; 3.2 System Modeling for Damping Torque Analysis of a Power System Affected by Grid-Connected Wind Power Induction Generators; 3.2.1 Phillips-Heffron Model of a Power System with Wind Power Induction Generators as a Generic Open-Loop Controller; 3.2.2 Aggregate Model and Transfer Function of Wind Power Induction Generators
1.1.2.4 Impact of the VSWG Reactive Power/Terminal Voltage Control1.1.2.5 Effect of the Phase Locked Loop (PLL); 1.2 Small-Signal Stability of the VSC-Based DC/AC Power System; 1.2.1 Small-Signal Stability of a Single Grid-Connected VSC System; 1.2.1.1 Main Affecting Factors: Weak Grid Connection and the PLL; 1.2.1.2 Impact of Dynamic Interactions Introduced by the PLL; 1.2.1.3 Summary: The Single VSC System; 1.2.2 Small-Signal Stability of Integrated VSC-Based DC/AC Power Systems; 1.2.2.1 Small-Signal Stability of AC Power System Integrated with a VSC-Based HVDC Line
1.2.2.2 Small-Signal Stability of AC Power System Integrated with a VSC-Based MTDC Network1.2.2.3 Summary: The HVDC/AC and MTDC/AC Power System; References; Chapter 2: Linearized Model of a Power System with a Grid-Connected Variable Speed Wind Generator; 2.1 Linearized Model of a PMSG; 2.1.1 Linearized Model of the Permanent Magnet SG; 2.1.2 Linearized Model of Machine Side Converter and Associated Control System; 2.1.3 Linearized Model of Grid Side Converter and Associated Control System; 2.1.4 Linearized Model of the Entire PMSG System; 2.2 Linearized Model of a DFIG
2.2.1 Linearized Model of the Induction Generator and Two-Mass Shaft Rotational System2.2.2 Linearized Model of the RSC and Associated Control System; 2.2.3 Linearized Model of the GSC and Associated Control System; 2.2.4 Linearized Model of the Entire DFIG; 2.3 Linearized Model of the Power System; 2.4 Closed-Loop Interconnected Model of the Power System with a Grid-Connected VSWG; 2.4.1 Closed-Loop Interconnected Model of the Power System with a PMSG; 2.4.2 Closed-Loop Interconnected Model of the Power System with a DFIG
Chapter 3: Damping Torque Analysis of Small-Signal Angular Stability of a Power System Affected by Grid-Connected Wind Power I...3.1 Impact of Grid-Connected Wind Power Induction Generators on Small-Signal Angular Stability; 3.2 System Modeling for Damping Torque Analysis of a Power System Affected by Grid-Connected Wind Power Induction Generators; 3.2.1 Phillips-Heffron Model of a Power System with Wind Power Induction Generators as a Generic Open-Loop Controller; 3.2.2 Aggregate Model and Transfer Function of Wind Power Induction Generators