Modelling, analysis, and design of switching converters

The principal objective of this work on modeling and analysis of switching dc-to-dc converters and regulators is to obtain a linear model (either through state-space or linear circuit description), subject to appropriate restrictions, for the inherently nonlinear power state in which the dc conversi...

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Main Author: Cuk, Slobodan
Format: Others
Published: 1977
Online Access:https://thesis.library.caltech.edu/1157/1/Cuk_sm_1977.pdf
Cuk, Slobodan (1977) Modelling, analysis, and design of switching converters. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/SNGW-0660. https://resolver.caltech.edu/CaltechETD:etd-03262008-110336 <https://resolver.caltech.edu/CaltechETD:etd-03262008-110336>
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spelling ndltd-CALTECH-oai-thesis.library.caltech.edu-11572019-12-21T03:03:05Z Modelling, analysis, and design of switching converters Cuk, Slobodan The principal objective of this work on modeling and analysis of switching dc-to-dc converters and regulators is to obtain a linear model (either through state-space or linear circuit description), subject to appropriate restrictions, for the inherently nonlinear power state in which the dc conversion is accomplished. A general unified approach to modeling and analysis of switching dc-to-dc converters is developed which is directly applicable to any dc-to-dc operating in either of two conduction modes (continuous or discontinuous inductor current), and which results in a final dynamic linear model either in terms of state-space equations or in terms of their corresponding linear circuit models. In particular, in Part I this analysis technique, called state-space averaging, is applied to the continuous conduction mode of converter operation, while in Part II appropriate extension of the method to the discontinuous conduction mode is made. In each case, the culmination of modeling and analysis is achieved in the development of canonical circuit models which represent any such converter regardless of its detailed configuration. The insights that emerge from the general state-space modeling approach (Parts I and II) lead in Parts III and IV to the design of new converter topologies through the study of generic properties of the cascade connection of basic buck and boost converters. This study paves the way in Part IV to the discovery of a new switching converter based upon capacitive rather than the usual inductive energy transfer. The new converter is shown to have substantial advantages over the conventional converters in its class in efficiency, performance, and also in size and weight. Bothe the state-space averaged models and their corresponding circuit realizations provide the circuit designer with a powerful tool for analysis of existing converters as well as for synthesis of new converter topologies. 1977 Thesis NonPeerReviewed application/pdf https://thesis.library.caltech.edu/1157/1/Cuk_sm_1977.pdf https://resolver.caltech.edu/CaltechETD:etd-03262008-110336 Cuk, Slobodan (1977) Modelling, analysis, and design of switching converters. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/SNGW-0660. https://resolver.caltech.edu/CaltechETD:etd-03262008-110336 <https://resolver.caltech.edu/CaltechETD:etd-03262008-110336> https://thesis.library.caltech.edu/1157/
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sources NDLTD
description The principal objective of this work on modeling and analysis of switching dc-to-dc converters and regulators is to obtain a linear model (either through state-space or linear circuit description), subject to appropriate restrictions, for the inherently nonlinear power state in which the dc conversion is accomplished. A general unified approach to modeling and analysis of switching dc-to-dc converters is developed which is directly applicable to any dc-to-dc operating in either of two conduction modes (continuous or discontinuous inductor current), and which results in a final dynamic linear model either in terms of state-space equations or in terms of their corresponding linear circuit models. In particular, in Part I this analysis technique, called state-space averaging, is applied to the continuous conduction mode of converter operation, while in Part II appropriate extension of the method to the discontinuous conduction mode is made. In each case, the culmination of modeling and analysis is achieved in the development of canonical circuit models which represent any such converter regardless of its detailed configuration. The insights that emerge from the general state-space modeling approach (Parts I and II) lead in Parts III and IV to the design of new converter topologies through the study of generic properties of the cascade connection of basic buck and boost converters. This study paves the way in Part IV to the discovery of a new switching converter based upon capacitive rather than the usual inductive energy transfer. The new converter is shown to have substantial advantages over the conventional converters in its class in efficiency, performance, and also in size and weight. Bothe the state-space averaged models and their corresponding circuit realizations provide the circuit designer with a powerful tool for analysis of existing converters as well as for synthesis of new converter topologies.
author Cuk, Slobodan
spellingShingle Cuk, Slobodan
Modelling, analysis, and design of switching converters
author_facet Cuk, Slobodan
author_sort Cuk, Slobodan
title Modelling, analysis, and design of switching converters
title_short Modelling, analysis, and design of switching converters
title_full Modelling, analysis, and design of switching converters
title_fullStr Modelling, analysis, and design of switching converters
title_full_unstemmed Modelling, analysis, and design of switching converters
title_sort modelling, analysis, and design of switching converters
publishDate 1977
url https://thesis.library.caltech.edu/1157/1/Cuk_sm_1977.pdf
Cuk, Slobodan (1977) Modelling, analysis, and design of switching converters. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/SNGW-0660. https://resolver.caltech.edu/CaltechETD:etd-03262008-110336 <https://resolver.caltech.edu/CaltechETD:etd-03262008-110336>
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