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Grid converters for photovoltaic and wind power systems / Remus Teodorescu, Marco Liserre [and] Pedro Rodr�aiguez.

By: Teodorescu, Remus [author.].
Contributor(s): Rodriguez, Pedro | Liserre, Marco | John Wiley & Sons [publisher.] | IEEE Xplore (Online service) [distributor.].
Material type: materialTypeLabelBookSeries: Wiley - IEEE: Publisher: Chichester, West Sussex : Wiley, 2011Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2010]Description: 1 PDF (xvi, 398 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9780470667057.Subject(s): Electric current converters | Photovoltaic power systems -- Equipment and supplies | Wind energy conversion systems -- Equipment and supplies | Arrays | Capacitors | Conductors | Converters | Current control | Distributed power generation | Europe | Fourier series | Frequency control | Frequency conversion | Frequency domain analysis | Harmonic analysis | IEC standards | Indexes | Induction generators | Inductors | Inverters | Leakage current | Leg | Mathematical model | Modulation | Monitoring | Oscillators | Photovoltaic systems | Power control | Power conversion | Power harmonic filters | Power quality | Power system harmonics | Power system stability | Power systems | Printers | Reactive power | Reliability | Renewable energy resources | Resonant frequency | Rotors | Safety | Switches | Synchronization | Time domain analysis | Topology | Voltage control | Voltage measurement | Wind energy | Wind farms | Wind forecasting | Wind power generation | Wind turbinesGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 621.31/244 Online resources: Abstract with links to resource Also available in print.
Contents:
About the Authors -- Preface -- Acknowledgements -- 1 Introduction -- 1.1 Wind Power Development -- 1.2 Photovoltaic Power Development -- 1.3 The Grid Converter - The Key Element in Grid Integration of WT and PV Systems -- 2 Photovoltaic Inverter Structures -- 2.1 Introduction -- 2.2 Inverter Structures Derived from H-Bridge Topology -- 2.3 Inverter Structures Derived from NPC Topology -- 2.4 Typical PV Inverter Structures -- 2.5 Three-Phase PV Inverters -- 2.6 Control Structures -- 2.7 Conclusions and Future Trends -- 3 Grid Requirements for PV -- 3.1 Introduction -- 3.2 International Regulations -- 3.3 Response to Abnormal Grid Conditions -- 3.4 Power Quality -- 3.5 Anti-islanding Requirements -- 3.6 Summary -- 4 Grid Synchronization in Single-Phase Power Converters -- 4.1 Introduction -- 4.2 Grid Synchronization Techniques for Single-Phase Systems -- 4.3 Phase Detection Based on In-Quadrature Signals -- 4.4 Some PLLs Based on In-Quadrature Signal Generation -- 4.5 Some PLLs Based on Adaptive Filtering -- 4.6 The SOGI Frequency-Locked Loop -- 4.7 Summary -- 5 Islanding Detection -- 5.1 Introduction -- 5.2 Nondetection Zone -- 5.3 Overview of Islanding Detection Methods -- 5.4 Passive Islanding Detection Methods -- 5.5 Active Islanding Detection Methods -- 5.6 Summary -- 6 Grid Converter Structures forWind Turbine Systems -- 6.1 Introduction -- 6.2 WTS Power Configurations -- 6.3 Grid Power Converter Topologies -- 6.4 WTS Control -- 6.5 Summary -- 7 Grid Requirements for WT Systems -- 7.1 Introduction -- 7.2 Grid Code Evolution -- 7.3 Frequency and Voltage Deviation under Normal Operation -- 7.4 Active Power Control in Normal Operation -- 7.5 Reactive Power Control in Normal Operation -- 7.6 Behaviour under Grid Disturbances -- 7.7 Discussion of Harmonization of Grid Codes -- 7.8 Future Trends -- 7.9 Summary -- 8 Grid Synchronization in Three-Phase Power Converters -- 8.1 Introduction -- 8.2 The Three-Phase Voltage Vector under Grid Faults -- 8.3 The Synchronous Reference Frame PLL under Unbalanced and Distorted Grid Conditions.
8.4 The Decoupled Double Synchronous Reference Frame PLL (DDSRF-PLL) -- 8.5 The Double Second-Order Generalized Integrator FLL (DSOGI-FLL) -- 8.6 Summary -- 9 Grid Converter Control for WTS -- 9.1 Introduction -- 9.2 Model of the Converter -- 9.3 AC Voltage and DC Voltage Control -- 9.4 Voltage Oriented Control and Direct Power Control -- 9.5 Stand-alone, Micro-grid, Droop Control and Grid Supporting -- 9.6 Summary -- 10 Control of Grid Converters under Grid Faults -- 10.1 Introduction -- 10.2 Overview of Control Techniques for Grid-Connected Converters under Unbalanced Grid Voltage Conditions -- 10.3 Control Structures for Unbalanced Current Injection -- 10.4 Power Control under Unbalanced Grid Conditions -- 10.5 Flexible Power Control with Current Limitation -- 10.6 Summary -- 11 Grid Filter Design -- 11.1 Introduction -- 11.2 Filter Topologies -- 11.3 Design Considerations -- 11.4 Practical Examples of LCL Filters and Grid Interactions -- 11.5 Resonance Problem and Damping Solutions -- 11.6 Nonlinear Behaviour of the Filter -- 11.7 Summary -- 12 Grid Current Control -- 12.1 Introduction -- 12.2 Current Harmonic Requirements -- 12.3 Linear Current Control with Separated Modulation -- 12.4 Modulation Techniques -- 12.5 Operating Limits of the Current-Controlled Converter -- 12.6 Practical Example -- 12.7 Summary -- Appendix A Space Vector Transformations of Three-Phase Systems -- A.1 Introduction -- A.2 Symmetrical Components in the Frequency Domain -- A.3 Symmetrical Components in the Time Domain -- A.4 Components (Sab(B0 on the Stationary Reference Frame -- A.5 Components dq0 on the Synchronous Reference Frame -- Appendix B Instantaneous Power Theories -- B.1 Introduction -- B.2 Origin of Power Definitions at the Time Domain for Single-Phase Systems -- B.3 Origin of Active Currents in Multiphase Systems -- B.4 Instantaneous Calculation of Power Currents in Multiphase Systems -- B.5 The p-q Theory -- B.6 Generalization of the p-q Theory to Arbitrary Multiphase Systems.
B.7 The Modified p-q Theory -- B.8 Generalized Instantaneous Reactive Power Theory for Three-Phase Power Systems -- B.9 Summary -- Appendix C Resonant Controller -- C.1 Introduction -- C.2 Internal Model Principle -- C.3 Equivalence of the PI Controller in the dq Frame and the P+Resonant Controller in the (Sab(B Frame -- Index.
Summary: "Grid Converters for Photovoltaic and Wind Power Systems provides a comprehensive description of the control of grid converters for photovoltaic and wind power systems. The authors present a range of control methods for meeting the latest application, power quality and power conversion requirements and standards, as well as looking towards potential future control functions. Practical examples, exercises, and an accompanying website with simulation models using Matlab and Simulink environments, and PSIM software make this text a pragmatic resource for electrical engineers as well as students taking related courses"-- Provided by publisher.
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Includes bibliographical references and index.

About the Authors -- Preface -- Acknowledgements -- 1 Introduction -- 1.1 Wind Power Development -- 1.2 Photovoltaic Power Development -- 1.3 The Grid Converter - The Key Element in Grid Integration of WT and PV Systems -- 2 Photovoltaic Inverter Structures -- 2.1 Introduction -- 2.2 Inverter Structures Derived from H-Bridge Topology -- 2.3 Inverter Structures Derived from NPC Topology -- 2.4 Typical PV Inverter Structures -- 2.5 Three-Phase PV Inverters -- 2.6 Control Structures -- 2.7 Conclusions and Future Trends -- 3 Grid Requirements for PV -- 3.1 Introduction -- 3.2 International Regulations -- 3.3 Response to Abnormal Grid Conditions -- 3.4 Power Quality -- 3.5 Anti-islanding Requirements -- 3.6 Summary -- 4 Grid Synchronization in Single-Phase Power Converters -- 4.1 Introduction -- 4.2 Grid Synchronization Techniques for Single-Phase Systems -- 4.3 Phase Detection Based on In-Quadrature Signals -- 4.4 Some PLLs Based on In-Quadrature Signal Generation -- 4.5 Some PLLs Based on Adaptive Filtering -- 4.6 The SOGI Frequency-Locked Loop -- 4.7 Summary -- 5 Islanding Detection -- 5.1 Introduction -- 5.2 Nondetection Zone -- 5.3 Overview of Islanding Detection Methods -- 5.4 Passive Islanding Detection Methods -- 5.5 Active Islanding Detection Methods -- 5.6 Summary -- 6 Grid Converter Structures forWind Turbine Systems -- 6.1 Introduction -- 6.2 WTS Power Configurations -- 6.3 Grid Power Converter Topologies -- 6.4 WTS Control -- 6.5 Summary -- 7 Grid Requirements for WT Systems -- 7.1 Introduction -- 7.2 Grid Code Evolution -- 7.3 Frequency and Voltage Deviation under Normal Operation -- 7.4 Active Power Control in Normal Operation -- 7.5 Reactive Power Control in Normal Operation -- 7.6 Behaviour under Grid Disturbances -- 7.7 Discussion of Harmonization of Grid Codes -- 7.8 Future Trends -- 7.9 Summary -- 8 Grid Synchronization in Three-Phase Power Converters -- 8.1 Introduction -- 8.2 The Three-Phase Voltage Vector under Grid Faults -- 8.3 The Synchronous Reference Frame PLL under Unbalanced and Distorted Grid Conditions.

8.4 The Decoupled Double Synchronous Reference Frame PLL (DDSRF-PLL) -- 8.5 The Double Second-Order Generalized Integrator FLL (DSOGI-FLL) -- 8.6 Summary -- 9 Grid Converter Control for WTS -- 9.1 Introduction -- 9.2 Model of the Converter -- 9.3 AC Voltage and DC Voltage Control -- 9.4 Voltage Oriented Control and Direct Power Control -- 9.5 Stand-alone, Micro-grid, Droop Control and Grid Supporting -- 9.6 Summary -- 10 Control of Grid Converters under Grid Faults -- 10.1 Introduction -- 10.2 Overview of Control Techniques for Grid-Connected Converters under Unbalanced Grid Voltage Conditions -- 10.3 Control Structures for Unbalanced Current Injection -- 10.4 Power Control under Unbalanced Grid Conditions -- 10.5 Flexible Power Control with Current Limitation -- 10.6 Summary -- 11 Grid Filter Design -- 11.1 Introduction -- 11.2 Filter Topologies -- 11.3 Design Considerations -- 11.4 Practical Examples of LCL Filters and Grid Interactions -- 11.5 Resonance Problem and Damping Solutions -- 11.6 Nonlinear Behaviour of the Filter -- 11.7 Summary -- 12 Grid Current Control -- 12.1 Introduction -- 12.2 Current Harmonic Requirements -- 12.3 Linear Current Control with Separated Modulation -- 12.4 Modulation Techniques -- 12.5 Operating Limits of the Current-Controlled Converter -- 12.6 Practical Example -- 12.7 Summary -- Appendix A Space Vector Transformations of Three-Phase Systems -- A.1 Introduction -- A.2 Symmetrical Components in the Frequency Domain -- A.3 Symmetrical Components in the Time Domain -- A.4 Components (Sab(B0 on the Stationary Reference Frame -- A.5 Components dq0 on the Synchronous Reference Frame -- Appendix B Instantaneous Power Theories -- B.1 Introduction -- B.2 Origin of Power Definitions at the Time Domain for Single-Phase Systems -- B.3 Origin of Active Currents in Multiphase Systems -- B.4 Instantaneous Calculation of Power Currents in Multiphase Systems -- B.5 The p-q Theory -- B.6 Generalization of the p-q Theory to Arbitrary Multiphase Systems.

B.7 The Modified p-q Theory -- B.8 Generalized Instantaneous Reactive Power Theory for Three-Phase Power Systems -- B.9 Summary -- Appendix C Resonant Controller -- C.1 Introduction -- C.2 Internal Model Principle -- C.3 Equivalence of the PI Controller in the dq Frame and the P+Resonant Controller in the (Sab(B Frame -- Index.

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"Grid Converters for Photovoltaic and Wind Power Systems provides a comprehensive description of the control of grid converters for photovoltaic and wind power systems. The authors present a range of control methods for meeting the latest application, power quality and power conversion requirements and standards, as well as looking towards potential future control functions. Practical examples, exercises, and an accompanying website with simulation models using Matlab and Simulink environments, and PSIM software make this text a pragmatic resource for electrical engineers as well as students taking related courses"-- Provided by publisher.

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Description based on PDF viewed 12/21/2015.

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