Power Electronic Converters
Dynamics and Control in Conventional and Renewable Energy Applications
(Sprache: Englisch)
Filling the need for a reference that explains the behavior of power electronic converters, this book provides information currently unavailable in similar texts on power electronics.Clearly organized into four parts, the first treats the dynamics and...
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Klappentext zu „Power Electronic Converters “
Filling the need for a reference that explains the behavior of power electronic converters, this book provides information currently unavailable in similar texts on power electronics.Clearly organized into four parts, the first treats the dynamics and control of conventional converters, while the second part covers the dynamics and control of DC-DC converters in renewable energy applications, including an introduction to the sources as well as the design of current-fed converters applying duality-transformation methods. The third part treats the dynamics and control of three-phase rectifiers in voltage-sourced applications, and the final part looks at the dynamics and control of three-phase inverters in renewable-energy applications.With its future-oriented perspective and advanced, first-hand knowledge, this is a prime resource for researchers and practicing engineers needing a ready reference on the design and control of power electronic converters.
Inhaltsverzeichnis zu „Power Electronic Converters “
INTRODUCTIONIntroductionImplementation of Current-Fed ConvertersDynamic Modeling of Power Electronic ConvertersLinear Equivalent CircuitsImpedance-Based Stability AssessmentTime-Domain-Based Dynamic AnalysisRenewable Energy System PrinciplesContent ReviewDYNAMIC ANALYSIS AND CONTROL DYNAMICSIntroductionGeneral Dynamic Representations - DC-DCGeneral Dynamic Representations - DC-AC, AC-DCGeneral Source and Load Interaction FormulationsGeneral Impedance-Based Stability AnalysisControl Design BasicsPART I: Voltage-Fed DC-DC ConvertersDYNAMIC MODELING OF DIRECT-ON-TIME CONTROLIntroductionDirect-on-Time ControlGeneralized Modeling TechniqueFixed-Frequency Operation in CCMFixed-Frequency Operation in DCMSource and Load InteractionsImpedance-Based-Stability IssuesDynamic ReviewDYNAMIC MODELING OF CURRENT-MODE CONTROLSIntroductionPCM-Control PrinciplePCM Modeling in CCMPCM Modeling in DCMACM Modeling in CCMSource and Load InteractionsImpedance-Based-Stability AnalysisDynamic ReviewDYNAMIC MODELING OF CURRENT-OUTPUT CONVERTERSIntroductionDynamic Models for Current-Output ConvertersSource and Load InteractionsImpedance-Based-Stability AnalysisDynamic ReviewCONTROL DESIGN ISSUESIntroductionFeedback Loop Design PrinciplesInput-Voltage FeedforwardOutput-Current FeedforwardOutput-Voltage Remote SensingPART II: Current-Fed DC-DC ConvertersINTRODUCTION TO DESIGN OF CURRENT-FED CONVERTERSIntroductionDuality Transformation TechniqueApplication of Duality Transformation TechniqueAdding a Capacitor at the Input TerminalINTRODUCTION TO PHOTOVOLTAIC GENERATOR AS AN INPUT SOURCEIntroductionEquivalent Circuit ModelBehavior of PV Generator Under Varying Environmental ConditionsShort Introduction to MPP-Tracking MethodsShort Introduction to MPP-Tracking Design IssuesShort Introduction to CF Converter Power-Stage Design IssuesDYNAMIC MODELING OF DIRECT-DUTY-RATIO-CONTROLLED CF CONVERTERSIntroductionDynamics Model of Duality-Transformed ConvertersDynamics Model of Input-Capacitor Added
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ConvertersSource and Load InteractionsImpedance-Based Stability IssuesDynamic ReviewDYNAMIC MODELING OF PEAK-CURRENT AND PEAK-VOLTAGE-CONTROLLED CURRENT-FED CONVERTERSIntroductionDynamic Modeling of PCM ControlDynamic Modeling of PVM ControlSource and Load InteractionsImpedance-Based Stability IssuesDynamic ReviewCONTROL DESIGN ISSUESIntroductionFeedback Loop Design PrinciplesCascaded Feedback Loop Design PrinciplesPART III: Three-Phase AC-DC PWM Rectifiers DYNAMIC MODELING OF THREE-PHASE PWM RECTIFIERSIntroductionDynamic Model of Three-Phase PWM Rectifier with Constant Voltage and Current LoadsDynamic Modeling of Cascaded Control SchemeDynamic Modeling of Phase-Locked-LoopEffect of Grid and Load ImpedancesThe Appearance of RHP-Pole in Regenerative ModeCONTROL DESIGN OF THREE-PHASE PWM RECTIFIERSPhase-Locked-LoopAC-Current-ControlDC-Voltage-ControlControl Design in Regenerative ModeIMPEDANCE SHAPING OF THREE-PHASE PWM RECTIFIERSClosed-Loop AC and DC-Side Impedance of Cascade-Controlled PWM RectifierNegative Resistance in Rectifier ModeNegative Resistance in Regenerative ModeShaping Impedance Using Feedforward CompensationEffect of Space-Vector ModulationShaping Impedance Using Active DampingPART IV: Three-Phase VSI-Based DC-AC InvertersDYNAMIC MODELING OF VOLTAGE AND CURRENT-FED INVERTERSIntroductionDynamic Model of Three-Phase Inverter in Voltage-Fed ApplicationsDynamic Model of Three-Phase Inverter in Current-Fed ApplicationsDynamic Model of Three-Phase Inverter with LCL-FilterMODELING OF GRID-CONNECTED VOLTAGE-FED INVERTERIntroductionDynamic Modeling of Control LoopsControl Design of Voltage-Fed InvertersImpedance-Shaping of Voltage-Fed InvertersMODELING OF GRID-CONNTECTED CURRENT-FED INVERTERIntroductionDynamic Modeling of Control LoopsThe Effect of Voltage-Boosting DC-DC StageControl Design of Current-Fed InvertersImpedance-Shaping of Current-Fed InvertersMODELING OF VOLTAGE AND CURRENT-FED INVERTERS IN ISLANDING MODEIntroductionDynamic Modeling of AC-Side Voltage Control LoopOperational Limits in Photovoltaic and Wind ApplicationsControl DesignImpedance-Shaping of Output-Voltage-Controlled Inverters
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Autoren-Porträt von Teuvo Suntio, Tuomas Messo, Joonas Puukko
Teuvo Suntio is Professor in Power Electronics at Tampere University of Technology, Finland. He has been also Adjunct Professor in Control Engineering at the Aalto University (TKK) in 2001-2011, and in Power Electronics at the University of Oulu since 2004. He has also served 20 years in power electronics industry as a design engineer and an R&D manager prior to starting the academic career in 1998. He has authored or co-authored over 200 international conference and journal articles, supervised close to 100 MSc students as well as 18 PhD students during the nineteen years in academy.Tuomas Messo is Assistant Professor in Power Electronics at Tampere University of Technology, Finland. His current research aims to identify the source of harmonic resonance problems reported in grid-connected power electronic systems through dynamic modeling and mitigating the problems by shaping the inverter impedance. His teaching activities include basic power electronic courses and advanced courses, which concentrate on DC-DC converter design and dynamic analysis of three-phase DC-AC converters.Joonas Puukko is with ABB Oy High Power Drives in Helsinki, Finland. Previously he was with ABB Oy Solar Inverters and ABB Inc. United States Corporate Research. He obtained his PhD from Tampere University of Technology, Finland, for a work on dynamics of grid-connected three-phase converters. He has expertise in hardware and control system design in various power electronics applications ranging from few tens of watts to hundreds of kilowatts.
Bibliographische Angaben
- Autoren: Teuvo Suntio , Tuomas Messo , Joonas Puukko
- 2017, 720 Seiten, 2 Schwarz-Weiss-Abbildungen, Masse: 17,4 x 25,1 cm, Gebunden, Englisch
- Verlag: Wiley-VCH
- ISBN-10: 352734022X
- ISBN-13: 9783527340224
- Erscheinungsdatum: 14.11.2017
Sprache:
Englisch
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