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Chaos in Switching Converters for Power Management [electronic resource] : Designing for Prediction and Control / by Enric Rodr�iguez Vilamitjana, Abdelali El Aroudi, Eduard Alarc�on.

By: Rodr�iguez Vilamitjana, Enric [author.].
Contributor(s): El Aroudi, Abdelali [author.] | Alarc�on, Eduard [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookPublisher: New York, NY : Springer New York : Imprint: Springer, 2013Description: X, 178 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9781461421283.Subject(s): Engineering | Electronics | Microelectronics | Electronic circuits | Engineering | Circuits and Systems | Electronics and Microelectronics, InstrumentationAdditional physical formats: Printed edition:: No titleDDC classification: 621.3815 Online resources: Click here to access online
Contents:
Introduction -- Complex Behavior of VMC Buck Converter: Characterization -- Design-Oriented Models for Predicting Instabilities in a Buck Switching Power Converter -- Control of FSI in Switching Power Converters -- Extension to Alternative Topologies and Functionalities Aiming Power Management Integrated Circuits.
In: Springer eBooksSummary: This book addresses the need for models and techniques to predict stability boundaries, given trends toward miniaturization of switching power supplies in battery-operated portable devices, which lead to the exhibition of fast-scale chaotic instabilities.  The authors describe a method to predict stability boundaries from a design-oriented perspective, which captures the effect of the different parameters of the system upon the particular boundary.  Unlike previous methods involving complex analysis based on the discrete-time mathematical model, the method introduced here allows for prediction of the overall stability boundaries within the complete design space and is based upon a simple design-oriented index. Provides a valuable reference to the field of nonlinear dynamical behavior and bifurcation analysis and control of switch-mode power supplies. Shows limitations of existing models for predicting chaotic instabilities in switching power converters; Describes a new approach to predict  instabilities from a simple, ripple-based index, showing the effect of different converter parameters on stability boundaries; Provides a design-oriented  model able to predict concurrently both slow-scale and fast-scale instabilities; Enables readers to understand the causes of chaos and design new chaos controllers for switching power converters.
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Introduction -- Complex Behavior of VMC Buck Converter: Characterization -- Design-Oriented Models for Predicting Instabilities in a Buck Switching Power Converter -- Control of FSI in Switching Power Converters -- Extension to Alternative Topologies and Functionalities Aiming Power Management Integrated Circuits.

This book addresses the need for models and techniques to predict stability boundaries, given trends toward miniaturization of switching power supplies in battery-operated portable devices, which lead to the exhibition of fast-scale chaotic instabilities.  The authors describe a method to predict stability boundaries from a design-oriented perspective, which captures the effect of the different parameters of the system upon the particular boundary.  Unlike previous methods involving complex analysis based on the discrete-time mathematical model, the method introduced here allows for prediction of the overall stability boundaries within the complete design space and is based upon a simple design-oriented index. Provides a valuable reference to the field of nonlinear dynamical behavior and bifurcation analysis and control of switch-mode power supplies. Shows limitations of existing models for predicting chaotic instabilities in switching power converters; Describes a new approach to predict  instabilities from a simple, ripple-based index, showing the effect of different converter parameters on stability boundaries; Provides a design-oriented  model able to predict concurrently both slow-scale and fast-scale instabilities; Enables readers to understand the causes of chaos and design new chaos controllers for switching power converters.

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