Power electronic converters for microgrids / (Record no. 42525)

000 -LEADER
fixed length control field 09349nam a2200961 i 4500
001 - CONTROL NUMBER
control field 6817684
003 - CONTROL NUMBER IDENTIFIER
control field IEEE
005 - DATE AND TIME OF LATEST TRANSACTION
control field 20191218152125.0
006 - FIXED-LENGTH DATA ELEMENTS--ADDITIONAL MATERIAL CHARACTERISTICS
fixed length control field m o d
007 - PHYSICAL DESCRIPTION FIXED FIELD--GENERAL INFORMATION
fixed length control field cr |n|||||||||
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 151222s2014 nju ob 001 eng d
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 9780470824054
Qualifying information ebook
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
Canceled/invalid ISBN 0470824034
Qualifying information hardback
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
Canceled/invalid ISBN 0470824050
Qualifying information electronic
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
Canceled/invalid ISBN 1306684943
Qualifying information ebook
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
Canceled/invalid ISBN 9780470824030
Qualifying information hardback
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
Canceled/invalid ISBN 9781306684941
Qualifying information ebook
024 7# - OTHER STANDARD IDENTIFIER
Standard number or code 10.1002/9780470824054
Source of number or code doi
035 ## - SYSTEM CONTROL NUMBER
System control number (CaBNVSL)mat06817684
035 ## - SYSTEM CONTROL NUMBER
System control number (IDAMS)0b0000648254aa6a
040 ## - CATALOGING SOURCE
Original cataloging agency CaBNVSL
Language of cataloging eng
Description conventions rda
Transcribing agency CaBNVSL
Modifying agency CaBNVSL
050 #4 - LIBRARY OF CONGRESS CALL NUMBER
Classification number TK7872.C8
Item number .P68 2014eb
245 00 - TITLE STATEMENT
Title Power electronic converters for microgrids /
Statement of responsibility, etc. Suleiman M. Sharkh...[and others].
264 #1 - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE
Place of production, publication, distribution, manufacture Singapore :
Name of producer, publisher, distributor, manufacturer Wiley-IEEE Press,
Date of production, publication, distribution, manufacture, or copyright notice [2014]
264 #2 - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE
Place of production, publication, distribution, manufacture [Piscataqay, New Jersey] :
Name of producer, publisher, distributor, manufacturer IEEE Xplore,
Date of production, publication, distribution, manufacture, or copyright notice [2014]
300 ## - PHYSICAL DESCRIPTION
Extent 1 PDF (352 pages).
336 ## - CONTENT TYPE
Content type term text
Source rdacontent
337 ## - MEDIA TYPE
Media type term electronic
Source isbdmedia
338 ## - CARRIER TYPE
Carrier type term online resource
Source rdacarrier
504 ## - BIBLIOGRAPHY, ETC. NOTE
Bibliography, etc. note Includes bibliographical references.phiques et un index.
505 0# - FORMATTED CONTENTS NOTE
Formatted contents note About the Authors xi -- Preface xiii -- Acknowledgments xv -- 1 Introduction 1 -- 1.1 Modes of Operation of Microgrid Converters 2 -- 1.1.1 Grid Connection Mode 2 -- 1.1.2 Stand-Alone Mode 3 -- 1.1.3 Battery Charging Mode 3 -- 1.2 Converter Topologies 4 -- 1.3 Modulation Strategies 6 -- 1.4 Control and System Issues 7 -- 1.5 Future Challenges and Solutions 9 -- References 10 -- 2 Converter Topologies 13 -- 2.1 Topologies 13 -- 2.1.1 The Two-Level Converter 13 -- 2.1.2 The NPC Converter 14 -- 2.1.3 The CHB Converter 15 -- 2.2 Pulse Width Modulation Strategies 16 -- 2.2.1 Carrier-Based Strategies 17 -- 2.2.2 SVM Strategies 22 -- 2.3 Modeling 27 -- References 28 -- 3 DC-Link Capacitor Current and Sizing in NPC and CHB Inverters 29 -- 3.1 Introduction 29 -- 3.2 Inverter DC-Link Capacitor Sizing 30 -- 3.3 Analytical Derivation of DC-Link Capacitor Current RMS Expressions 32 -- 3.3.1 NPC Inverter 33 -- 3.3.2 CHB Inverter 36 -- 3.4 Analytical Derivation of DC-Link Capacitor Current Harmonics 37 -- 3.4.1 NPC Inverter 38 -- 3.4.2 CHB Inverter 39 -- 3.5 Numerical Derivation of DC-Link Capacitor Current RMS Value and Voltage Ripple Amplitude 41 -- 3.6 Simulation Results 42 -- 3.7 Discussion 45 -- 3.7.1 Comparison of Capacitor Size for the NPC and CHB Inverters 45 -- 3.7.2 Comparison of Presented Methods for Analyzing DC-Link Capacitor Current 46 -- 3.7.3 Extension to Higher-Level Inverters 48 -- 3.8 Conclusion 48 -- References 48 -- 4 Loss Comparison of Two- and Three-Level Inverter Topologies 51 -- 4.1 Introduction 51 -- 4.2 Selection of IGBT-Diode Modules 53 -- 4.3 Switching Losses 54 -- 4.3.1 Switching Losses in the Two-Level Inverters 54 -- 4.3.2 Switching Losses in the NPC Inverter 57 -- 4.3.3 Switching Losses in the CHB Inverter 58 -- 4.4 Conduction Losses 58 -- 4.4.1 Conduction Losses in the Two-Level Inverter 60 -- 4.4.2 Conduction Losses in the NPC Inverter 61 -- 4.4.3 Conduction Losses in the CHB Inverter 63 -- 4.5 DC-Link Capacitor RMS Current 65 -- 4.6 Results 69.
505 8# - FORMATTED CONTENTS NOTE
Formatted contents note 4.7 Conclusion 70 -- References 71 -- 5 Minimization of Low-Frequency Neutral-Point Voltage Oscillations in NPC Converters 73 -- 5.1 Introduction 73 -- 5.2 NPC Converter Modulation Strategies 74 -- 5.3 Minimum NP Ripple Achievable by NV Strategies 77 -- 5.3.1 Locally Averaged NP Current 78 -- 5.3.2 Effect of Switching Constraints 79 -- 5.3.3 Zero-Ripple Region 81 -- 5.3.4 A Lower Boundary for the NP Voltage Ripple 81 -- 5.4 Proposed Band-NV Strategies 83 -- 5.4.1 Criterion Used by Conventional NV Strategies 83 -- 5.4.2 Proposed Criterion 84 -- 5.4.3 Regions of Operation 85 -- 5.4.4 Algorithm 88 -- 5.4.5 Switching Sequences - Conversion to Band-NV 90 -- 5.5 Performance of Band-NV Strategies 91 -- 5.5.1 NP Voltage Ripple 91 -- 5.5.2 Effective Switching Frequency - Output Voltage Harmonic Distortion 93 -- 5.6 Simulation of Band-NV Strategies 94 -- 5.7 Hybrid Modulation Strategies 100 -- 5.7.1 Proposed Hybrid Strategies 101 -- 5.7.2 Simulation Results 102 -- 5.8 Conclusions 106 -- References 107 -- 6 Digital Control of a Three-Phase Two-Level Grid-Connected Inverter 109 -- 6.1 Introduction 109 -- 6.2 Control Strategy 112 -- 6.3 Digital Sampling Strategy 113 -- 6.4 Effect of Time Delay on Stability 115 -- 6.5 Capacitor Current Observer 116 -- 6.6 Design of Feedback Controllers 119 -- 6.7 Simulation Results 121 -- 6.8 Experimental Results 123 -- 6.9 Conclusions 127 -- References 128 -- 7 Design and Control of a Grid-Connected Interleaved Inverter 131 -- 7.1 Introduction 131 -- 7.2 Ripple Cancellation 135 -- 7.3 Hardware Design 137 -- 7.3.1 Hardware Design Guidelines 138 -- 7.3.2 Application of the Design Guidelines 145 -- 7.4 Controller Structure 146 -- 7.5 System Analysis 149 -- 7.5.1 Effect of Passive Damping and Grid Impedance 151 -- 7.5.2 Effect of Computational Time Delay 151 -- 7.5.3 Grid Disturbance Rejection 154 -- 7.6 Controller Design 154 -- 7.7 Simulation and Practical Results 158 -- 7.8 Conclusions 167 -- References 167 -- 8 Repetitive Current Control of an Interleaved Grid-Connected Inverter 171.
505 8# - FORMATTED CONTENTS NOTE
Formatted contents note 8.1 Introduction 171 -- 8.2 Proposed Controller and System Modeling 172 -- 8.3 System Analysis and Controller Design 175 -- 8.4 Simulation Results 178 -- 8.5 Experimental Results 179 -- 8.6 Conclusions 182 -- References 182 -- 9 Line Interactive UPS 185 -- 9.1 Introduction 185 -- 9.2 System Overview 188 -- 9.3 Core Controller 192 -- 9.3.1 Virtual Impedance and Grid Harmonics Rejection 193 -- 9.4 Power Flow Controller 195 -- 9.4.1 Drooping Control Equations 195 -- 9.4.2 Small Signal Analysis 196 -- 9.4.3 Stability Analysis and Drooping Coefficients Selection 200 -- 9.5 DC Link Voltage Controller 206 -- 9.6 Experimental Results 209 -- 9.7 Conclusions 217 -- References 218 -- 10 Microgrid Protection 221 -- 10.1 Introduction 221 -- 10.2 Key Protection Challenges 221 -- 10.2.1 Fault Current Level Modification 221 -- 10.2.2 Device Discrimination 223 -- 10.2.3 Reduction in Reach of Impedance Relays 223 -- 10.2.4 Bidirectionality and Voltage Profile Change 224 -- 10.2.5 Sympathetic Tripping 224 -- 10.2.6 Islanding 224 -- 10.2.7 Effect on Feeder Reclosure 224 -- 10.3 Possible Solutions to Key Protection Challenges 225 -- 10.3.1 Possible Solutions to Key Protection Challenges for an Islanded Microgrid Having IIDG Units 225 -- 10.4 Case Study 229 -- 10.4.1 Fault Level Modification 231 -- 10.4.2 Blinding of Protection 232 -- 10.4.3 Sympathetic Tripping 233 -- 10.4.4 Reduction in Reach of Distance Relay 233 -- 10.4.5 Discussion 234 -- 10.5 Conclusions 235 -- References 236 -- 11 An Adaptive Relaying Scheme for Fuse Saving 239 -- 11.1 Introduction 239 -- 11.1.1 Preventive Solutions Proposed in the Literature 240 -- 11.1.2 Remedial Solutions Proposed in the Literature 241 -- 11.1.3 Contributions of the Chapter 242 -- 11.2 Case Study 242 -- 11.3 Simulation Results and Discussion 245 -- 11.4 Fuse Saving Strategy 247 -- 11.4.1 Options and Considerations for the Selection of Ipickup of the 50 Element 249 -- 11.4.2 Adaptive Algorithm 251 -- 11.5 How Reclosing Will Be Applied 252 -- 11.6 Observations 255.
505 8# - FORMATTED CONTENTS NOTE
Formatted contents note 11.7 Conclusions 257 -- References 257 -- Appendix A SVM for the NPC Converter-MATLABª-Simulink Models 261 -- A.1 Calculation of Duty Cycles for Nearest Space Vectors 261 -- A.2 Symmetric Modulation Strategy 262 -- A.3 MATLABª-Simulink Models 263 -- References 279 -- Appendix B DC-Link Capacitor Current Numerical Calculation 281 -- Index 285.
506 1# - RESTRICTIONS ON ACCESS NOTE
Terms governing access Restricted to subscribers or individual electronic text purchasers.
530 ## - ADDITIONAL PHYSICAL FORM AVAILABLE NOTE
Additional physical form available note Also available in print.
538 ## - SYSTEM DETAILS NOTE
System details note Mode of access: World Wide Web
588 ## - SOURCE OF DESCRIPTION NOTE
Source of description note Description based on PDF viewed 12/22/2015.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name entry element Electric current converters.
655 #0 - INDEX TERM--GENRE/FORM
Genre/form data or focus term Electronic books.
695 ## -
-- Adaptive systems
695 ## -
-- Bandwidth
695 ## -
-- Batteries
695 ## -
-- Capacitance
695 ## -
-- Capacitors
695 ## -
-- Circuit faults
695 ## -
-- Delay effects
695 ## -
-- Fault currents
695 ## -
-- Frequency conversion
695 ## -
-- Fuses
695 ## -
-- Generators
695 ## -
-- Harmonic analysis
695 ## -
-- Impedance
695 ## -
-- Inductors
695 ## -
-- Insulated gate bipolar transistors
695 ## -
-- Inverters
695 ## -
-- Legged locomotion
695 ## -
-- Microgrids
695 ## -
-- Modulation
695 ## -
-- Oscillators
695 ## -
-- Power electronics
695 ## -
-- Power harmonic filters
695 ## -
-- Power system stability
695 ## -
-- Pulse width modulation
695 ## -
-- Relays
695 ## -
-- Resonant frequency
695 ## -
-- Sections
695 ## -
-- Semiconductor diodes
695 ## -
-- Switches
695 ## -
-- Switching frequency
695 ## -
-- Switching loss
695 ## -
-- Topology
695 ## -
-- Uninterruptible power systems
695 ## -
-- Vectors
695 ## -
-- Voltage control
695 ## -
-- Voltage measurement
695 ## -
-- Wind turbines
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name Sharkh, S. M.
Fuller form of name (Suleiman M.),
Relator term author.
710 2# - ADDED ENTRY--CORPORATE NAME
Corporate name or jurisdiction name as entry element IEEE Xplore (Online Service),
Relator term distributor.
710 2# - ADDED ENTRY--CORPORATE NAME
Corporate name or jurisdiction name as entry element Wiley,
Relator term publisher.
776 08 - ADDITIONAL PHYSICAL FORM ENTRY
Relationship information Print version:
International Standard Book Number 9780470824030
856 42 - ELECTRONIC LOCATION AND ACCESS
Materials specified Abstract with links to resource
Uniform Resource Identifier https://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=6817684

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