UID:
almafu_9959327976102883
Format:
1 online resource
Edition:
First edition.
ISBN:
9781523114788
,
1523114789
Content:
In this original book on model predictive control (MPC) for power electronics, the focus is put on high-power applications with multilevel converters operating at switching frequencies well below 1 kHz, such as medium-voltage drives and modular multi-level converters. Consisting of two main parts, the first offers a detailed review of three-phase power electronics, electrical machines, carrier-based pulse width modulation, optimized pulse patterns, state-of-the art converter control methods and the principle of MPC. The second part is an in-depth treatment of MPC methods that fully exploit the performance potential of high-power converters. These control methods combine the fast control responses of deadbeat control with the optimal steady-state performance of optimized pulse patterns by resolving the antagonism between the two. MPC is expected to evolve into the control method of choice for power electronic systems operating at low pulse numbers with multiple coupled variables and tight operating constraints it. Model Predictive Control of High Power Converters and Industrial Drives will enable to reader to learn how to increase the power capability of the converter, lower the current distortions, reduce the filter size, achieve very fast transient responses and ensure the reliable operation within safe operating area constraints. Targeted at power electronic practitioners working on control-related aspects as well as control engineers, the material is intuitively accessible, and the mathematical formulations are augmented by illustrations, simple examples and a book companion website featuring animations. Readers benefit from a concise and comprehensive treatment of MPC for industrial power electronics, enabling them to understand, implement and advance the field of high-performance MPC schemes.
Note:
Cover; Title Page; Copyright; Dedication; Contents; Preface; Acknowledgments; List of Abbreviations; About the Companion Website; Part I Introduction; Chapter 1 Introduction; 1.1 Industrial Power Electronics; 1.2 Control and Modulation Schemes; 1.3 Model Predictive Control; 1.4 Research Vision and Motivation; 1.5 Main Results; 1.6 Summary of this Book; 1.7 Prerequisites; References; Chapter 2 Industrial Power Electronics; 2.1 Preliminaries; 2.2 Induction Machines; 2.3 Power Semiconductor Devices; 2.4 Multilevel Voltage Source Inverters; 2.5 Case Studies; References.
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Chapter 3 Classic Control and Modulation Schemes3.1 Requirements of Control and Modulation Schemes; 3.2 Structure of Control and Modulation Schemes; 3.3 Carrier-Based Pulse Width Modulation; 3.4 Optimized Pulse Patterns; 3.5 Performance Trade-Off for Pulse Width Modulation; 3.6 Control Schemes for Induction Machine Drives; Appendix 3.A: Harmonic Analysis of Single-Phase Optimized Pulse Patterns; Appendix 3.B: Mathematical Optimization; References; Part II Direct Model Predictive Control with Reference Tracking; Chapter 4 Predictive Control with Short Horizons.
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4.1 Predictive Current Control of a Single-Phase RL Load4.2 Predictive Current Control of a Three-Phase Induction Machine; 4.3 Predictive Torque Control of a Three-Phase Induction Machine; 4.4 Summary; References; Chapter 5 Predictive Control with Long Horizons; 5.1 Preliminaries; 5.2 Integer Quadratic Programming Formulation; 5.3 An Efficient Method for Solving the Optimization Problem; 5.4 Computational Burden; Appendix 5.A: State-Space Model; Appendix 5.B: Derivation of the Cost Function in Vector Form; References; Chapter 6 Performance Evaluation of Predictive Control with Long Horizons.
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6.1 Performance Evaluation for the NPC Inverter Drive System6.2 Suboptimal MPC via Direct Rounding; 6.3 Performance Evaluation for the NPC Inverter Drive System with an LC Filter; 6.4 Summary and Discussion; Appendix 6.A: State-Space Model; Appendix 6.B: Computation of the Output Reference Vector; References; Part III Direct Model Predictive Control with Bounds; Chapter 7 Model Predictive Direct Torque Control; 7.1 Introduction; 7.2 Preliminaries; 7.3 Control Problem Formulation; 7.4 Model Predictive Direct Torque Control; 7.5 Extension Methods; 7.6 Summary and Discussion.
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Appendix 7.A: Controller Model of the NPC Inverter Drive SystemReferences; Chapter 8 Performance Evaluation of Model Predictive Direct Torque Control; 8.1 Performance Evaluation for the NPC Inverter Drive System; 8.2 Performance Evaluation for the ANPC Inverter Drive System; 8.3 Summary and Discussion; Appendix 8.A: Controller Model of the ANPC Inverter Drive System; References; Chapter 9 Analysis and Feasibility of Model Predictive Direct Torque Control; 9.1 Target Set; 9.2 The State-Feedback Control Law; 9.3 Analysis of the Deadlock Phenomena; 9.4 Deadlock Resolution; 9.5 Deadlock Avoidance.
Additional Edition:
Print version: Geyer, Tobias, 1975- Model predictive control of high power converters and industrial drives. Chichester, West Sussex, United Kingdom : John Wiley & Sons, Inc., 2016 ISBN 9781119010906
Language:
English
Keywords:
Electronic books.
;
Electronic books.
URL:
https://onlinelibrary.wiley.com/doi/book/10.1002/9781119010883
URL:
https://onlinelibrary.wiley.com/doi/book/10.1002/9781119010883
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