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Author Cupelli, Marco, author

Title Modern control of DC-based power systems : a problem-based approach / Marco Cupelli, Antonino Riccobono, Markus Mirz, Mohsen Ferdowsi and Antonello Monti
Published London, United Kingdom : Academic Press, an imprint of Elsevier, [2018]
Online access available from:
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Description 1 online resource
Contents Front Cover; Modern Control of DC-Based Power Systems; Copyright Page; Contents; List of Figures; List of Tables; List of Contributors; List of Acronyms; Symbols Used in this Work; Preface; References; Introduction; References; Further Reading; 1. Overview-Voltage Stabilization of Constant Power Loads; 1.1 Constant Power Load Connected to a DC Bus; 1.2 Compensating CPLs by Passive Components; 1.3 Compensating CPLs With Load Side Control; 1.4 Compensating CPLs With DC Bus Control; 1.5 Summary; References; Further Reading; 2. Small-Signal Analysis of Cascaded Systems
2.1 MVDC System Considerations Influencing Voltage Stability2.2 Converter Model; 2.2.1 Single Converter-Open Loop; 2.2.2 Single Converter-Closed Loop (VMC); 2.2.3 Single Converter Closed Loop (PCMC); 2.3 Cascaded System (VMC); 2.4 Load Models; 2.4.1 Constant Power Load Model; 2.4.2 First-Order Lag Impedance; 2.4.3 First-Order Unstable Impedance; 2.4.4 Nonminimum Phase Impedance; 2.4.5 Generalized Load Impedance; 2.5 Linear Control Design and Validation; 2.5.1 Practical PI and PID Control Design; Modeling and Design Procedure of Current Mode Control With PI Controllers Modeling and Design Procedure of Voltage Mode Control With PID Controller2.5.1.3 Simulation Example; 2.5.2 Network Analyzer Technique; 2.6 Small-Signal Stability Analysis of Cascade Systems; 2.6.1 The Nyquist Stability Criterion and Its Practical Usage; Simulation Example; Stable Cases; Unstable Cases; 2.6.2 Online Wideband System Identification Technique; The Implementation of the WSI Technique; PRBS Generation; Data Acquisition; Fast Fourier Transform; Calculation of Nonparametric Impedance Fitting Routine2.6.2.2 Performance of the WSI Technique and Overcoming Practical Challenges; Simulation Example; 2.7 Summary; References; 3. Background; 3.1 Frequency Response Approaches; 3.2 Nyquist Stability Criterion; 3.3 Bode Diagrams; 3.4 Linear State-Space; 3.4.1 Controllability; 3.4.2 Observability; 3.4.3 Pole Placement; 3.5 Observer; 3.6 Droop; 3.6.1 Voltage Droop; 3.6.2 Influence of Droop Coefficients on the Overall System Dynamics; References; 4. Generation Side Control; 4.1 MVDC Shipboard Power Systems; 4.2 State-Space Model; References; Further Reading
5. Control Approaches for Parallel Source Converter Systems5.1 Linearizing State Feedback; 5.1.1 Procedure of Linearizing State Feedback; 5.1.2 Application to MVDC System; 5.1.3 Simulation Results; Cascaded System; Shipboard Power System; 5.2 Synergetic Control; 5.2.1 Procedure of Synergetic Control; 5.2.2 Application to MVDC System; 5.2.3 Simulation Results; Cascaded System; Shipboard Power System; 5.3 Immersion and Invariance Control; 5.3.1 The Immersion and Invariance Stabilization; 5.3.2 Example; 5.3.3 Application to MVDC System; 5.3.4 Simulation Results
Bibliography Includes bibliographical references and index
Notes Description based on online record; title from digital title page (viewed on August 7, 2018)
Subject Electric power systems -- Control
Electric power systems -- Control.
Form Electronic book
Author Ferdowsi, Mohsen, author
Mirz, Markus, author
Monti, Antonello, author
Riccobono, Antonino, author
ISBN 0128132213