Author | Kislovski, Andrรฉ S. author |
---|---|

Title | Dynamic Analysis of Switching-Mode DC/DC Converters [electronic resource] / by Andrรฉ S. Kislovski, Richard Redl, Nathan O. Sokal |

Imprint | Dordrecht : Springer Netherlands, 1991 |

Connect to | http://dx.doi.org/10.1007/978-94-011-7849-5 |

Descript | XVIII, 404 p. online resource |

SUMMARY

The most critical part of the modern switching-mode power supply is the regulated dc/dc converter. Its dynamic behavior directly determines or influences four of the important characteristics of the power supply: โ{128}ข Stability of the feedback loop โ{128}ข Rejection of input-voltage ripple and the closely-related transient reยญ sponse to input-voltage perturbation โ{128}ข Output impedance and the closely-related transient response to load perturbation โ{128}ข Compatibility with the input EMI filter Due to the complexity of the operation of the converter, predicting its dynamic behavior has not been easy. Without accurate prediction, and depending only on building the circuit and tinkering with it until the operation is satisfactory, the engineering cost can easily escalate and schedules can be missed. The situation is not much better when the circuit is built in the computer, using a general-purpose circuit-simulation program such as SPICE. (At the end of this book is a form for obtaining information on a computer program especially well suited for dynamic analysis of switching-mode power converters: DYANA, an acronym for "DYnamic ANAlysis. " DYANA is based on the method given in this book. ) The main goal of this book is to help the power-supply designer in the prediction of the dynamic behavior by providing user-friendly analytical tools, concrete results of already-made analyses, tabulated for easy application by the reader, and examples of how to apply the tools provided in the book

CONTENT

1. Survey of the Existing Analysis Methods -- 1. Introduction to the Injected-Absorbed-Current Method of Analysis -- 2. Elementary Converters Operating at Constant Frequency with Duty Ratio as Controlled Quantity -- 3. General Small-Signal, Low-Frequency Analysis of Switching Regulators -- 4. State-Variables-Averaging Method -- 2. Multiple-Loop Switching Power Cells -- 5. Elementary Switching Power Cells with Inductor Current as Controlled Quantity -- 6. Multiple-Loop Switching Cells Using Inductor Voltage in a Minor Feedback Loop -- 3. Special Configurations -- 7. ?uk and SEPIC Switching Cells -- 8. Analysis of Power Cells with Duty-Ratio Control at Variable Frequency -- 9. Free-Running Hysteretic Regulator -- 4. Applications of Linear Analysis Method -- 10. Interconnection of a Power Source and a Switching Regulator -- 11. Feedforward in Switching Regulators -- 12. Parallel Operation of Switching Regulators -- 5. Selected Analytic Approaches and Applications and Future Advances in Analysis Methods -- 13. Selected Analysis Examples -- 14. High-Frequency Extension of the Linear Cell Model -- Appendixes -- Appendix 1. Additional Information for Chapter 5 -- A1-1 Derivation of Time Delay Between Control and Injected Current for Constant Off Time Current-Mode Control -- A1-2 Control-to-Output Voltage Functions of CurrentMode-Controlled Buck Converter with Three Different Control Methods -- Appendix 2. Graphical-Analytical Representation of Transfer Functions -- A2-1 Introduction -- A2-2 Transfer Functions of Passive Networks -- References -- Appendix 3. Examples and Problems -- A3-1 Introduction -- A3-2 Appendix to Chapter 2โ{128}{148}Regulators Employing Elementary Cells, Operating at Constant Switching Frequency, and with Duty Ratio as the Controlled Quantity -- A3-3 Appendix to Chapter 14โ{128}{148}Successive Approximations of the Cell Controlled-Quantity-to-Output-Voltage Transfer Function -- Appendix 4. Sources of Technical Information -- A4-1 Conferences -- A4-2 Periodicals -- A4-3 Compendia -- A4-4 Textbooks

Science
Science
Science general