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200 00$aPower Converter of Electric Machines, Renewable Energy Systems, and Transportation
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021
215   $a1 online resource (218 p.)
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330   $aPower converters and electric machines represent essential components in all fields of electrical engineering. In fact, we are heading towards a future where energy will be more and more electrical: electrical vehicles, electrical motors, renewables, storage systems are now widespread. The ongoing energy transition poses new challenges for interfacing and integrating different power systems. The constraints of space, weight, reliability, performance, and autonomy for the electric system have increased the attention of scientific research in order to find more and more appropriate technological solutions. In this context, power converters and electric machines assume a key role in enabling higher performance of electrical power conversion. Consequently, the design and control of power converters and electric machines shall be developed accordingly to the requirements of the specific application, thus leading to more specialized solutions, with the aim of enhancing the reliability, fault tolerance, and flexibility of the next generation power systems.
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610   $aconverter-machine association
610   $across feedback output current sharing
610   $aDC/AC converter
610   $adigital twin
610   $adirect drive machine
610   $adoubly fed induction generator
610   $adoubly-fed induction generator
610   $adoubly-fed induction generator, electrical machines
610   $aenergy storage system
610   $afault-tolerant photovoltaic inverter
610   $afeedback linearization
610   $afield oriented control
610   $afinite elements method
610   $aflying capacitor inverter
610   $afractional-order control
610   $afull order observer
610   $afuzzy
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610   $ainput-series input-parallel output-series output-parallel multimodule converter
610   $aislanding detection
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610   $alos minimization
610   $aModular Multilevel Converters
610   $amonitoring
610   $amultilevel inverter
610   $aneutral point clamped inverter
610   $aoptimization methods
610   $aPermanent Magnet Vernier Machine
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610   $apower systems for renewable energy
610   $aPV systems
610   $areal-time
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610   $asensorless control
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024 7 $a10.1007/978-3-030-76317-6
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200 10$a(In-)Stability of Differential Inclusions $eNotions, Equivalences, and Lyapunov-like Characterizations /$fby Philipp Braun, Lars Grüne, Christopher M. Kellett
205   $a1st ed. 2021.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2021.
215   $a1 online resource (123 pages)
225 1 $aSpringerBriefs in Mathematics,$x2191-8201
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327   $a1 Introduction -- 2 Mathematical Setting & Motivation -- 3 Strong (in)stability of differential inclusions & Lyapunov characterizations -- 4 Weak (in)stability of differential inclusions & Lyapunov characterizations -- 5 Outlook & Further Topics -- 6 Proofs of the Main Results -- 7 Auxiliary results -- 8 Conclusions.
330   $aLyapunov methods have been and are still one of the main tools to analyze the stability properties of dynamical systems. In this monograph, Lyapunov results characterizing the stability and stability of the origin of differential inclusions are reviewed. To characterize instability and destabilizability, Lyapunov-like functions, called Chetaev and control Chetaev functions in the monograph, are introduced. Based on their definition and by mirroring existing results on stability, analogue results for instability are derived. Moreover, by looking at the dynamics of a differential inclusion in backward time, similarities and differences between stability of the origin in forward time and instability in backward time, and vice versa, are discussed. Similarly, the invariance of the stability and instability properties of the equilibria of differential equations with respect to scaling are summarized. As a final result, ideas combining control Lyapunov and control Chetaev functions to simultaneously guarantee stability, i.e., convergence, and instability, i.e., avoidance, are outlined. The work is addressed at researchers working in control as well as graduate students in control engineering and applied mathematics.
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702   $aGru?ne$b Lars$f1967-
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