Impedance source power electronic converters
Impedance Source Power Electronic Converters brings together state of the art knowledge and cutting edge techniques in various stages of research related to the ever more popular impedance source converters/inverters. Significant research efforts are underway to develop commercially viable and techn...
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Chichester, West Sussex, United Kingdom
IEEE Press, Wiley
2016
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| Ausgabe: | First edition |
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| Online-Zugang: | DE-861 DE-473 DE-29 URL des Erstveröffentlichers |
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| 020 | |a 9781119037118 |c Online |9 978-1-119-03711-8 | ||
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| 100 | 1 | |a Liu, Yushan |e Verfasser |0 (DE-588)1119333687 |4 aut | |
| 245 | 1 | 0 | |a Impedance source power electronic converters |c Yushan Liu, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Haitham Abu-Rub, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Baoming Ge, Texas A&M University, College Station, USA; Frede Blaabjerg, Aalborg University, Aalborg East, Denmark; Omar Ellabban, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar, Helwan University, Cairo, Egypt; Poh Chiang Loh, Aalborg University, Aalborg East, Denmark 0002732136 |
| 250 | |a First edition | ||
| 264 | 1 | |a Chichester, West Sussex, United Kingdom |b IEEE Press, Wiley |c 2016 | |
| 300 | |a 1 Online-Ressource | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b c |2 rdamedia | ||
| 338 | |b cr |2 rdacarrier | ||
| 500 | |a Includes bibliographical references and index | ||
| 505 | 8 | |a Title Page ; Copyright Page; Contents; Preface; Acknowledgment; Bios; Chapter 1 Background and Current Status; 1.1 General Introduction to Electrical Power Generation; 1.1.1 Energy Systems; 1.1.2 Existing Power Converter Topologies; 1.2 Z-Source Converter as Single-Stage Power Conversion System ; 1.3 Background and Advantages Compared to Existing Technology; 1.4 Classification and Current Status; 1.5 Future Trends; 1.6 Contents Overview; Acknowledgment; References; Chapter 2 Voltage-Fed Z-Source/Quasi-Z-Source Inverters ; 2.1 Topologies of Voltage-Fed Z-Source/Quasi-Z-Source Inverters | |
| 505 | 8 | |a 2.2 Modeling of Voltage-Fed qZSI 2.2.1 Steady-State Model ; 2.2.2 Dynamic Model; 2.3 Simulation Results; 2.3.1 Simulation of qZSI Modeling; 2.3.2 Circuit Simulation Results of Control System; 2.4 Conclusion; References; Chapter 3 Current-Fed Z-Source Inverter ; 3.1 Introduction; 3.2 Topology Modification; 3.3 Operational Principles; 3.3.1 Current-Fed Z-Source Inverter ; 3.3.2 Current-Fed Quasi-Z-Source Inverter ; 3.4 Modulation; 3.5 Modeling and Control; 3.6 Passive Components Design Guidelines; 3.7 Discontinuous Operation Modes | |
| 505 | 8 | |a 3.8 Current-Fed Z-Source Inverter/Current-Fed Quasi-Z-Source Inverter Applications 3.9 Summary; References; Chapter 4 Modulation Methods and Comparison; 4.1 Sinewave Pulse-Width Modulations ; 4.1.1 Simple Boost Control; 4.1.2 Maximum Boost Control; 4.1.3 Maximum Constant Boost Control; 4.2 Space Vector Modulations; 4.2.1 Traditional SVM; 4.2.2 SVMs for ZSI/qZSI; 4.3 Pulse-Width Amplitude Modulation ; 4.4 Comparison of All Modulation Methods; 4.4.1 Performance Analysis; 4.4.2 Simulation and Experimental Results; 4.5 Conclusion; References | |
| 505 | 8 | |a Chapter 5 Control of Shoot-Through Duty Cycle: An Overview 5.1 Summary of Closed-Loop Control Methods ; 5.2 Single-Loop Methods ; 5.3 Double-Loop Methods ; 5.4 Conventional Regulators and Advanced Control Methods; References; Chapter 6 Z-Source Inverter: Topology Improvements Review ; 6.1 Introduction; 6.2 Basic Topology Improvements; 6.2.1 Bidirectional Power Flow; 6.2.2 High-Performance Operation ; 6.2.3 Low Inrush Current; 6.2.4 Soft-Switching ; 6.2.5 Neutral Point; 6.2.6 Reduced Leakage Current; 6.2.7 Joint Earthing; 6.2.8 Continuous Input Current; 6.2.9 Distributed Z-Network | |
| 505 | 8 | |a 6.2.10 Embedded Source6.3 Extended Boost Topologies; 6.3.1 Switched Inductor Z-Source Inverter ; 6.3.2 Tapped-Inductor Z-Source Inverter ; 6.3.3 Cascaded Quasi-Z-Source Inverter ; 6.3.4 Transformer-Based Z-Source Inverter ; 6.3.5 High Frequency Transformer Isolated Z-Source Inverter ; 6.4 L-Z-Source Inverter ; 6.5 Changing the ZSI Topology Arrangement; 6.6 Conclusion; References; Chapter 7 Typical Transformer-Based Z-Source/Quasi-Z-Source Inverters ; 7.1 Fundamentals of Trans-ZSI ; 7.1.1 Configuration of Current-Fed and Voltage-Fed Trans-ZSI | |
| 520 | |a Impedance Source Power Electronic Converters brings together state of the art knowledge and cutting edge techniques in various stages of research related to the ever more popular impedance source converters/inverters. Significant research efforts are underway to develop commercially viable and technically feasible, efficient and reliable power converters for renewable energy, electric transportation and for various industrial applications. This book provides a detailed understanding of the concepts, designs, controls, and application demonstrations of the impedance source converters/inverters. Key features: . Comprehensive analysis of the impedance source converter/inverter topologies, including typical topologies and derived topologies.. Fully explains the design and control techniques of impedance source converters/inverters, including hardware design and control parameter design for corresponding control methods.. Presents the latest power conversion solutions that aim to advance the role of power electronics into industries and sustainable energy conversion systems.. Compares impedance source converter/inverter applications in renewable energy power generation and electric vehicles as well as different industrial applications.. Provides an overview of existing challenges, solutions and future trends.. Supported by calculation examples, simulation models and results. Highly accessible, this is an invaluable resource for researchers, postgraduate/graduate students studying power electronics and its application in industry and renewable energy conversion as well as practising R&D engineers. Readers will be able to apply the presented material for the future design of the next generation of efficient power electronic converters/inverters | ||
| 650 | 7 | |a Electric current converters |2 fast | |
| 650 | 7 | |a Electric power production / Equipment and supplies |2 fast | |
| 650 | 7 | |a Energy conservation / Equipment and supplies |2 fast | |
| 650 | 7 | |a Transfer impedance |2 fast | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING / Mechanical |2 bisacsh | |
| 650 | 4 | |a Electric current converters | |
| 650 | 4 | |a Energy conservation / Equipment and supplies | |
| 650 | 4 | |a Transfer impedance | |
| 650 | 4 | |a Electric power production / Equipment and supplies | |
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Datensatz im Suchindex
| _version_ | 1819298448015360000 |
|---|---|
| any_adam_object | |
| author | Liu, Yushan |
| author_GND | (DE-588)1119333687 |
| author_facet | Liu, Yushan |
| author_role | aut |
| author_sort | Liu, Yushan |
| author_variant | y l yl |
| building | Verbundindex |
| bvnumber | BV043896830 |
| classification_rvk | ZN 8340 |
| collection | ZDB-35-WIC |
| contents | Title Page ; Copyright Page; Contents; Preface; Acknowledgment; Bios; Chapter 1 Background and Current Status; 1.1 General Introduction to Electrical Power Generation; 1.1.1 Energy Systems; 1.1.2 Existing Power Converter Topologies; 1.2 Z-Source Converter as Single-Stage Power Conversion System ; 1.3 Background and Advantages Compared to Existing Technology; 1.4 Classification and Current Status; 1.5 Future Trends; 1.6 Contents Overview; Acknowledgment; References; Chapter 2 Voltage-Fed Z-Source/Quasi-Z-Source Inverters ; 2.1 Topologies of Voltage-Fed Z-Source/Quasi-Z-Source Inverters 2.2 Modeling of Voltage-Fed qZSI 2.2.1 Steady-State Model ; 2.2.2 Dynamic Model; 2.3 Simulation Results; 2.3.1 Simulation of qZSI Modeling; 2.3.2 Circuit Simulation Results of Control System; 2.4 Conclusion; References; Chapter 3 Current-Fed Z-Source Inverter ; 3.1 Introduction; 3.2 Topology Modification; 3.3 Operational Principles; 3.3.1 Current-Fed Z-Source Inverter ; 3.3.2 Current-Fed Quasi-Z-Source Inverter ; 3.4 Modulation; 3.5 Modeling and Control; 3.6 Passive Components Design Guidelines; 3.7 Discontinuous Operation Modes 3.8 Current-Fed Z-Source Inverter/Current-Fed Quasi-Z-Source Inverter Applications 3.9 Summary; References; Chapter 4 Modulation Methods and Comparison; 4.1 Sinewave Pulse-Width Modulations ; 4.1.1 Simple Boost Control; 4.1.2 Maximum Boost Control; 4.1.3 Maximum Constant Boost Control; 4.2 Space Vector Modulations; 4.2.1 Traditional SVM; 4.2.2 SVMs for ZSI/qZSI; 4.3 Pulse-Width Amplitude Modulation ; 4.4 Comparison of All Modulation Methods; 4.4.1 Performance Analysis; 4.4.2 Simulation and Experimental Results; 4.5 Conclusion; References Chapter 5 Control of Shoot-Through Duty Cycle: An Overview 5.1 Summary of Closed-Loop Control Methods ; 5.2 Single-Loop Methods ; 5.3 Double-Loop Methods ; 5.4 Conventional Regulators and Advanced Control Methods; References; Chapter 6 Z-Source Inverter: Topology Improvements Review ; 6.1 Introduction; 6.2 Basic Topology Improvements; 6.2.1 Bidirectional Power Flow; 6.2.2 High-Performance Operation ; 6.2.3 Low Inrush Current; 6.2.4 Soft-Switching ; 6.2.5 Neutral Point; 6.2.6 Reduced Leakage Current; 6.2.7 Joint Earthing; 6.2.8 Continuous Input Current; 6.2.9 Distributed Z-Network 6.2.10 Embedded Source6.3 Extended Boost Topologies; 6.3.1 Switched Inductor Z-Source Inverter ; 6.3.2 Tapped-Inductor Z-Source Inverter ; 6.3.3 Cascaded Quasi-Z-Source Inverter ; 6.3.4 Transformer-Based Z-Source Inverter ; 6.3.5 High Frequency Transformer Isolated Z-Source Inverter ; 6.4 L-Z-Source Inverter ; 6.5 Changing the ZSI Topology Arrangement; 6.6 Conclusion; References; Chapter 7 Typical Transformer-Based Z-Source/Quasi-Z-Source Inverters ; 7.1 Fundamentals of Trans-ZSI ; 7.1.1 Configuration of Current-Fed and Voltage-Fed Trans-ZSI |
| ctrlnum | (ZDB-35-WIC)ocn949669676 (OCoLC)966678410 (DE-599)BVBBV043896830 |
| dewey-full | 621.3815/322 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.3815/322 |
| dewey-search | 621.3815/322 |
| dewey-sort | 3621.3815 3322 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | First edition |
| format | Electronic eBook |
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5.4 Conventional Regulators and Advanced Control Methods; References; Chapter 6 Z-Source Inverter: Topology Improvements Review ; 6.1 Introduction; 6.2 Basic Topology Improvements; 6.2.1 Bidirectional Power Flow; 6.2.2 High-Performance Operation ; 6.2.3 Low Inrush Current; 6.2.4 Soft-Switching ; 6.2.5 Neutral Point; 6.2.6 Reduced Leakage Current; 6.2.7 Joint Earthing; 6.2.8 Continuous Input Current; 6.2.9 Distributed Z-Network</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">6.2.10 Embedded Source6.3 Extended Boost Topologies; 6.3.1 Switched Inductor Z-Source Inverter ; 6.3.2 Tapped-Inductor Z-Source Inverter ; 6.3.3 Cascaded Quasi-Z-Source Inverter ; 6.3.4 Transformer-Based Z-Source Inverter ; 6.3.5 High Frequency Transformer Isolated Z-Source Inverter ; 6.4 L-Z-Source Inverter ; 6.5 Changing the ZSI Topology Arrangement; 6.6 Conclusion; References; Chapter 7 Typical Transformer-Based Z-Source/Quasi-Z-Source Inverters ; 7.1 Fundamentals of Trans-ZSI ; 7.1.1 Configuration of Current-Fed and Voltage-Fed Trans-ZSI</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Impedance Source Power Electronic Converters brings together state of the art knowledge and cutting edge techniques in various stages of research related to the ever more popular impedance source converters/inverters. Significant research efforts are underway to develop commercially viable and technically feasible, efficient and reliable power converters for renewable energy, electric transportation and for various industrial applications. This book provides a detailed understanding of the concepts, designs, controls, and application demonstrations of the impedance source converters/inverters. Key features: . Comprehensive analysis of the impedance source converter/inverter topologies, including typical topologies and derived topologies.. Fully explains the design and control techniques of impedance source converters/inverters, including hardware design and control parameter design for corresponding control methods.. Presents the latest power conversion solutions that aim to advance the role of power electronics into industries and sustainable energy conversion systems.. Compares impedance source converter/inverter applications in renewable energy power generation and electric vehicles as well as different industrial applications.. Provides an overview of existing challenges, solutions and future trends.. Supported by calculation examples, simulation models and results. Highly accessible, this is an invaluable resource for researchers, postgraduate/graduate students studying power electronics and its application in industry and renewable energy conversion as well as practising R&D engineers. 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| id | DE-604.BV043896830 |
| illustrated | Not Illustrated |
| indexdate | 2024-12-24T05:30:03Z |
| institution | BVB |
| isbn | 9781119037101 9781119037118 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029306228 |
| oclc_num | 949669676 966678410 |
| open_access_boolean | |
| owner | DE-861 DE-29 DE-83 |
| owner_facet | DE-861 DE-29 DE-83 |
| physical | 1 Online-Ressource |
| psigel | ZDB-35-WIC UBG_PDA_WIC ZDB-35-WIC FRO_PDA_WIC ZDB-35-WIC UBG_PDA_WIC ZDB-35-WIC UER_Einzelkauf |
| publishDate | 2016 |
| publishDateSearch | 2016 |
| publishDateSort | 2016 |
| publisher | IEEE Press, Wiley |
| record_format | marc |
| spelling | Liu, Yushan Verfasser (DE-588)1119333687 aut Impedance source power electronic converters Yushan Liu, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Haitham Abu-Rub, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Baoming Ge, Texas A&M University, College Station, USA; Frede Blaabjerg, Aalborg University, Aalborg East, Denmark; Omar Ellabban, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar, Helwan University, Cairo, Egypt; Poh Chiang Loh, Aalborg University, Aalborg East, Denmark 0002732136 First edition Chichester, West Sussex, United Kingdom IEEE Press, Wiley 2016 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier Includes bibliographical references and index Title Page ; Copyright Page; Contents; Preface; Acknowledgment; Bios; Chapter 1 Background and Current Status; 1.1 General Introduction to Electrical Power Generation; 1.1.1 Energy Systems; 1.1.2 Existing Power Converter Topologies; 1.2 Z-Source Converter as Single-Stage Power Conversion System ; 1.3 Background and Advantages Compared to Existing Technology; 1.4 Classification and Current Status; 1.5 Future Trends; 1.6 Contents Overview; Acknowledgment; References; Chapter 2 Voltage-Fed Z-Source/Quasi-Z-Source Inverters ; 2.1 Topologies of Voltage-Fed Z-Source/Quasi-Z-Source Inverters 2.2 Modeling of Voltage-Fed qZSI 2.2.1 Steady-State Model ; 2.2.2 Dynamic Model; 2.3 Simulation Results; 2.3.1 Simulation of qZSI Modeling; 2.3.2 Circuit Simulation Results of Control System; 2.4 Conclusion; References; Chapter 3 Current-Fed Z-Source Inverter ; 3.1 Introduction; 3.2 Topology Modification; 3.3 Operational Principles; 3.3.1 Current-Fed Z-Source Inverter ; 3.3.2 Current-Fed Quasi-Z-Source Inverter ; 3.4 Modulation; 3.5 Modeling and Control; 3.6 Passive Components Design Guidelines; 3.7 Discontinuous Operation Modes 3.8 Current-Fed Z-Source Inverter/Current-Fed Quasi-Z-Source Inverter Applications 3.9 Summary; References; Chapter 4 Modulation Methods and Comparison; 4.1 Sinewave Pulse-Width Modulations ; 4.1.1 Simple Boost Control; 4.1.2 Maximum Boost Control; 4.1.3 Maximum Constant Boost Control; 4.2 Space Vector Modulations; 4.2.1 Traditional SVM; 4.2.2 SVMs for ZSI/qZSI; 4.3 Pulse-Width Amplitude Modulation ; 4.4 Comparison of All Modulation Methods; 4.4.1 Performance Analysis; 4.4.2 Simulation and Experimental Results; 4.5 Conclusion; References Chapter 5 Control of Shoot-Through Duty Cycle: An Overview 5.1 Summary of Closed-Loop Control Methods ; 5.2 Single-Loop Methods ; 5.3 Double-Loop Methods ; 5.4 Conventional Regulators and Advanced Control Methods; References; Chapter 6 Z-Source Inverter: Topology Improvements Review ; 6.1 Introduction; 6.2 Basic Topology Improvements; 6.2.1 Bidirectional Power Flow; 6.2.2 High-Performance Operation ; 6.2.3 Low Inrush Current; 6.2.4 Soft-Switching ; 6.2.5 Neutral Point; 6.2.6 Reduced Leakage Current; 6.2.7 Joint Earthing; 6.2.8 Continuous Input Current; 6.2.9 Distributed Z-Network 6.2.10 Embedded Source6.3 Extended Boost Topologies; 6.3.1 Switched Inductor Z-Source Inverter ; 6.3.2 Tapped-Inductor Z-Source Inverter ; 6.3.3 Cascaded Quasi-Z-Source Inverter ; 6.3.4 Transformer-Based Z-Source Inverter ; 6.3.5 High Frequency Transformer Isolated Z-Source Inverter ; 6.4 L-Z-Source Inverter ; 6.5 Changing the ZSI Topology Arrangement; 6.6 Conclusion; References; Chapter 7 Typical Transformer-Based Z-Source/Quasi-Z-Source Inverters ; 7.1 Fundamentals of Trans-ZSI ; 7.1.1 Configuration of Current-Fed and Voltage-Fed Trans-ZSI Impedance Source Power Electronic Converters brings together state of the art knowledge and cutting edge techniques in various stages of research related to the ever more popular impedance source converters/inverters. Significant research efforts are underway to develop commercially viable and technically feasible, efficient and reliable power converters for renewable energy, electric transportation and for various industrial applications. This book provides a detailed understanding of the concepts, designs, controls, and application demonstrations of the impedance source converters/inverters. Key features: . Comprehensive analysis of the impedance source converter/inverter topologies, including typical topologies and derived topologies.. Fully explains the design and control techniques of impedance source converters/inverters, including hardware design and control parameter design for corresponding control methods.. Presents the latest power conversion solutions that aim to advance the role of power electronics into industries and sustainable energy conversion systems.. Compares impedance source converter/inverter applications in renewable energy power generation and electric vehicles as well as different industrial applications.. Provides an overview of existing challenges, solutions and future trends.. Supported by calculation examples, simulation models and results. Highly accessible, this is an invaluable resource for researchers, postgraduate/graduate students studying power electronics and its application in industry and renewable energy conversion as well as practising R&D engineers. Readers will be able to apply the presented material for the future design of the next generation of efficient power electronic converters/inverters Electric current converters fast Electric power production / Equipment and supplies fast Energy conservation / Equipment and supplies fast Transfer impedance fast TECHNOLOGY & ENGINEERING / Mechanical bisacsh Electric current converters Energy conservation / Equipment and supplies Transfer impedance Electric power production / Equipment and supplies Energiedirektumwandlung (DE-588)4152215-1 gnd rswk-swf Impedanz (DE-588)4128475-6 gnd rswk-swf Leistungselektronik (DE-588)4035235-3 gnd rswk-swf Stromrichter (DE-588)4058102-0 gnd rswk-swf Leistungselektronik (DE-588)4035235-3 s Energiedirektumwandlung (DE-588)4152215-1 s Impedanz (DE-588)4128475-6 s Stromrichter (DE-588)4058102-0 s DE-604 Erscheint auch als Druck-Ausgabe 9781119037088 Erscheint auch als Druckausgabe 978-1-119-03707-1 https://onlinelibrary.wiley.com/doi/book/10.1002/9781119037088 Verlag URL des Erstveröffentlichers Volltext |
| spellingShingle | Liu, Yushan Impedance source power electronic converters Title Page ; Copyright Page; Contents; Preface; Acknowledgment; Bios; Chapter 1 Background and Current Status; 1.1 General Introduction to Electrical Power Generation; 1.1.1 Energy Systems; 1.1.2 Existing Power Converter Topologies; 1.2 Z-Source Converter as Single-Stage Power Conversion System ; 1.3 Background and Advantages Compared to Existing Technology; 1.4 Classification and Current Status; 1.5 Future Trends; 1.6 Contents Overview; Acknowledgment; References; Chapter 2 Voltage-Fed Z-Source/Quasi-Z-Source Inverters ; 2.1 Topologies of Voltage-Fed Z-Source/Quasi-Z-Source Inverters 2.2 Modeling of Voltage-Fed qZSI 2.2.1 Steady-State Model ; 2.2.2 Dynamic Model; 2.3 Simulation Results; 2.3.1 Simulation of qZSI Modeling; 2.3.2 Circuit Simulation Results of Control System; 2.4 Conclusion; References; Chapter 3 Current-Fed Z-Source Inverter ; 3.1 Introduction; 3.2 Topology Modification; 3.3 Operational Principles; 3.3.1 Current-Fed Z-Source Inverter ; 3.3.2 Current-Fed Quasi-Z-Source Inverter ; 3.4 Modulation; 3.5 Modeling and Control; 3.6 Passive Components Design Guidelines; 3.7 Discontinuous Operation Modes 3.8 Current-Fed Z-Source Inverter/Current-Fed Quasi-Z-Source Inverter Applications 3.9 Summary; References; Chapter 4 Modulation Methods and Comparison; 4.1 Sinewave Pulse-Width Modulations ; 4.1.1 Simple Boost Control; 4.1.2 Maximum Boost Control; 4.1.3 Maximum Constant Boost Control; 4.2 Space Vector Modulations; 4.2.1 Traditional SVM; 4.2.2 SVMs for ZSI/qZSI; 4.3 Pulse-Width Amplitude Modulation ; 4.4 Comparison of All Modulation Methods; 4.4.1 Performance Analysis; 4.4.2 Simulation and Experimental Results; 4.5 Conclusion; References Chapter 5 Control of Shoot-Through Duty Cycle: An Overview 5.1 Summary of Closed-Loop Control Methods ; 5.2 Single-Loop Methods ; 5.3 Double-Loop Methods ; 5.4 Conventional Regulators and Advanced Control Methods; References; Chapter 6 Z-Source Inverter: Topology Improvements Review ; 6.1 Introduction; 6.2 Basic Topology Improvements; 6.2.1 Bidirectional Power Flow; 6.2.2 High-Performance Operation ; 6.2.3 Low Inrush Current; 6.2.4 Soft-Switching ; 6.2.5 Neutral Point; 6.2.6 Reduced Leakage Current; 6.2.7 Joint Earthing; 6.2.8 Continuous Input Current; 6.2.9 Distributed Z-Network 6.2.10 Embedded Source6.3 Extended Boost Topologies; 6.3.1 Switched Inductor Z-Source Inverter ; 6.3.2 Tapped-Inductor Z-Source Inverter ; 6.3.3 Cascaded Quasi-Z-Source Inverter ; 6.3.4 Transformer-Based Z-Source Inverter ; 6.3.5 High Frequency Transformer Isolated Z-Source Inverter ; 6.4 L-Z-Source Inverter ; 6.5 Changing the ZSI Topology Arrangement; 6.6 Conclusion; References; Chapter 7 Typical Transformer-Based Z-Source/Quasi-Z-Source Inverters ; 7.1 Fundamentals of Trans-ZSI ; 7.1.1 Configuration of Current-Fed and Voltage-Fed Trans-ZSI Electric current converters fast Electric power production / Equipment and supplies fast Energy conservation / Equipment and supplies fast Transfer impedance fast TECHNOLOGY & ENGINEERING / Mechanical bisacsh Electric current converters Energy conservation / Equipment and supplies Transfer impedance Electric power production / Equipment and supplies Energiedirektumwandlung (DE-588)4152215-1 gnd Impedanz (DE-588)4128475-6 gnd Leistungselektronik (DE-588)4035235-3 gnd Stromrichter (DE-588)4058102-0 gnd |
| subject_GND | (DE-588)4152215-1 (DE-588)4128475-6 (DE-588)4035235-3 (DE-588)4058102-0 |
| title | Impedance source power electronic converters |
| title_auth | Impedance source power electronic converters |
| title_exact_search | Impedance source power electronic converters |
| title_full | Impedance source power electronic converters Yushan Liu, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Haitham Abu-Rub, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Baoming Ge, Texas A&M University, College Station, USA; Frede Blaabjerg, Aalborg University, Aalborg East, Denmark; Omar Ellabban, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar, Helwan University, Cairo, Egypt; Poh Chiang Loh, Aalborg University, Aalborg East, Denmark 0002732136 |
| title_fullStr | Impedance source power electronic converters Yushan Liu, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Haitham Abu-Rub, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Baoming Ge, Texas A&M University, College Station, USA; Frede Blaabjerg, Aalborg University, Aalborg East, Denmark; Omar Ellabban, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar, Helwan University, Cairo, Egypt; Poh Chiang Loh, Aalborg University, Aalborg East, Denmark 0002732136 |
| title_full_unstemmed | Impedance source power electronic converters Yushan Liu, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Haitham Abu-Rub, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar; Baoming Ge, Texas A&M University, College Station, USA; Frede Blaabjerg, Aalborg University, Aalborg East, Denmark; Omar Ellabban, Texas A&M University at Qatar, Qatar Foundation, Doha, Qatar, Helwan University, Cairo, Egypt; Poh Chiang Loh, Aalborg University, Aalborg East, Denmark 0002732136 |
| title_short | Impedance source power electronic converters |
| title_sort | impedance source power electronic converters |
| topic | Electric current converters fast Electric power production / Equipment and supplies fast Energy conservation / Equipment and supplies fast Transfer impedance fast TECHNOLOGY & ENGINEERING / Mechanical bisacsh Electric current converters Energy conservation / Equipment and supplies Transfer impedance Electric power production / Equipment and supplies Energiedirektumwandlung (DE-588)4152215-1 gnd Impedanz (DE-588)4128475-6 gnd Leistungselektronik (DE-588)4035235-3 gnd Stromrichter (DE-588)4058102-0 gnd |
| topic_facet | Electric current converters Electric power production / Equipment and supplies Energy conservation / Equipment and supplies Transfer impedance TECHNOLOGY & ENGINEERING / Mechanical Energiedirektumwandlung Impedanz Leistungselektronik Stromrichter |
| url | https://onlinelibrary.wiley.com/doi/book/10.1002/9781119037088 |
| work_keys_str_mv | AT liuyushan impedancesourcepowerelectronicconverters |