Switch-mode power converters [[electronic resource] ] : design and analysis / / Keng C. Wu |
Autore | Wu Keng C. <1948-> |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier Academic Press, c2006 |
Descrizione fisica | 1 online resource (409 p.) |
Disciplina | 621.31/7 |
Soggetto topico |
Electric current converters
Switching power supplies |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-63331-X
9786610633319 0-08-045956-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Switch-Mode Power Converters: Design and Analysis; Copyright Page; Table of Contents; Preface; Chapter 1. Isolated Step-Down (Buck) Converter; 1.1 CCM Open-Loop Output and Duty Cycle Determination; 1.2 DCM Open-Loop Output and Duty Cycle Determination; 1.3 CCM to DCM Transition, Critical Inductance; 1.4 Gain Formula for Nonideal Operational Amplifiers; 1.5 Feedback under Voltage-Mode Control; 1.6 Voltage-Mode CCM Closed Loop; 1.7 Voltage-Mode DCM Closed Loop; 1.8 Voltage-Mode CCM Small-Signal Stability; 1.9 Current-Mode Control
1.10 CCM Current-Mode Control in a Closed-Loop Steady State 1.11 CCM Current-Mode Control Small-Signal Stability; 1.12 Output Capacitor Size and Accelerated Steady-State Analysis; 1.13 A Complete Example; 1.14 State Transition Technique; Chapter 2. Push-Pull Converter with Current-Mode Control and Slope Compensation; 2.1 Power Stage of a Center-Tapped Push-Pull Converter; 2.2 Discontinuous Conduction-Mode Operation; 2.3 Continuous Conduction-Mode Operation; Chapter 3. Nonisolated Forward Converter with Average Current-Mode Control; 3.1 Average Current Feedback; 3.2 Duty Cycle Determination 3.3 Steady-State Closed Loop 3.4 Closed-Loop Regulation and Output Sensitivity; 3.5 Small-Signal Loop Gain and Stability; 3.6 Example; 3.7 State Transition Technique; Chapter 4. Phase-Shifted Full-Bridge Converter; 4.1 Power-Stage Operation; 4.2 Current Doubler; 4.3 Steady-State Duty Cycle; 4.4 Steady-State Output Waveforms; 4.5 Steady-State Output Waveforms Example; Chapter 5. Current-Fed Push-Pull Converters; 5.1 Overlapping Continuous-Conduction Mode; 5.2 Overlapping Continuous Conduction, Steady State; 5.3 Overlapping Continuous Conduction, Example 5.4 Nonoverlapping Continuous-Conduction Mode 5.5 Load Current Sharing and Parallel Operation; 5.6 AC Small-Signal Studies Using State-Space Averaging; 5.7 State-Transition Technique; Chapter 6. Isolated Flyback Converters; 6.1 DCM Duty-Cycle Determination, Another Approach; 6.2 CCM Duty-Cycle Determination; 6.3 Critical Inductance; 6.4 Voltage-Mode DCM Closed Loop; 6.5 Voltage-Mode DCM Small-Signal Stability; 6.6 Voltage-Mode CCM Closed Loop; 6.7 Voltage-Mode CCM Small-Signal Stability; 6.8 Peak Current-Mode DCM Closed Loop; 6.9 Peak Current-Mode DCM Small-Signal Stability 6.10 Peak Current-Mode CCM Closed Loop 6.11 Peak Current-Mode CCM Small-Signal Stability; 6.12 Output Capacitor; 6.13 Accelerated Steady-State Output; 6.14 A Complete DCM Example; Chapter 7. Nonisolated Boost Converter; 7.1 Duty-Cycle Determination; 7.2 Critical Inductance; 7.3 Peak Current-Mode Closed-Loop Steady State in CCM; 7.4 Peak Current-Mode Small-Signal Stability in CCM; 7.5 Peak Current-Mode Closed-Loop Steady State in DCM; 7.6 Peak Current-Mode Small-Signal Stability in DCM; 7.7 DCM Output Capacitor Size; 7.8 CCM Output Capacitor Size; Chapter 8. Quasi-Resonant Converters 8.1 How Does It Work? |
Record Nr. | UNINA-9910458676703321 |
Wu Keng C. <1948->
![]() |
||
Amsterdam ; ; Boston, : Elsevier Academic Press, c2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Switch-mode power converters [[electronic resource] ] : design and analysis / / Keng C. Wu |
Autore | Wu Keng C. <1948-> |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier Academic Press, c2006 |
Descrizione fisica | 1 online resource (409 p.) |
Disciplina | 621.31/7 |
Soggetto topico |
Electric current converters
Switching power supplies |
ISBN |
1-280-63331-X
9786610633319 0-08-045956-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Switch-Mode Power Converters: Design and Analysis; Copyright Page; Table of Contents; Preface; Chapter 1. Isolated Step-Down (Buck) Converter; 1.1 CCM Open-Loop Output and Duty Cycle Determination; 1.2 DCM Open-Loop Output and Duty Cycle Determination; 1.3 CCM to DCM Transition, Critical Inductance; 1.4 Gain Formula for Nonideal Operational Amplifiers; 1.5 Feedback under Voltage-Mode Control; 1.6 Voltage-Mode CCM Closed Loop; 1.7 Voltage-Mode DCM Closed Loop; 1.8 Voltage-Mode CCM Small-Signal Stability; 1.9 Current-Mode Control
1.10 CCM Current-Mode Control in a Closed-Loop Steady State 1.11 CCM Current-Mode Control Small-Signal Stability; 1.12 Output Capacitor Size and Accelerated Steady-State Analysis; 1.13 A Complete Example; 1.14 State Transition Technique; Chapter 2. Push-Pull Converter with Current-Mode Control and Slope Compensation; 2.1 Power Stage of a Center-Tapped Push-Pull Converter; 2.2 Discontinuous Conduction-Mode Operation; 2.3 Continuous Conduction-Mode Operation; Chapter 3. Nonisolated Forward Converter with Average Current-Mode Control; 3.1 Average Current Feedback; 3.2 Duty Cycle Determination 3.3 Steady-State Closed Loop 3.4 Closed-Loop Regulation and Output Sensitivity; 3.5 Small-Signal Loop Gain and Stability; 3.6 Example; 3.7 State Transition Technique; Chapter 4. Phase-Shifted Full-Bridge Converter; 4.1 Power-Stage Operation; 4.2 Current Doubler; 4.3 Steady-State Duty Cycle; 4.4 Steady-State Output Waveforms; 4.5 Steady-State Output Waveforms Example; Chapter 5. Current-Fed Push-Pull Converters; 5.1 Overlapping Continuous-Conduction Mode; 5.2 Overlapping Continuous Conduction, Steady State; 5.3 Overlapping Continuous Conduction, Example 5.4 Nonoverlapping Continuous-Conduction Mode 5.5 Load Current Sharing and Parallel Operation; 5.6 AC Small-Signal Studies Using State-Space Averaging; 5.7 State-Transition Technique; Chapter 6. Isolated Flyback Converters; 6.1 DCM Duty-Cycle Determination, Another Approach; 6.2 CCM Duty-Cycle Determination; 6.3 Critical Inductance; 6.4 Voltage-Mode DCM Closed Loop; 6.5 Voltage-Mode DCM Small-Signal Stability; 6.6 Voltage-Mode CCM Closed Loop; 6.7 Voltage-Mode CCM Small-Signal Stability; 6.8 Peak Current-Mode DCM Closed Loop; 6.9 Peak Current-Mode DCM Small-Signal Stability 6.10 Peak Current-Mode CCM Closed Loop 6.11 Peak Current-Mode CCM Small-Signal Stability; 6.12 Output Capacitor; 6.13 Accelerated Steady-State Output; 6.14 A Complete DCM Example; Chapter 7. Nonisolated Boost Converter; 7.1 Duty-Cycle Determination; 7.2 Critical Inductance; 7.3 Peak Current-Mode Closed-Loop Steady State in CCM; 7.4 Peak Current-Mode Small-Signal Stability in CCM; 7.5 Peak Current-Mode Closed-Loop Steady State in DCM; 7.6 Peak Current-Mode Small-Signal Stability in DCM; 7.7 DCM Output Capacitor Size; 7.8 CCM Output Capacitor Size; Chapter 8. Quasi-Resonant Converters 8.1 How Does It Work? |
Record Nr. | UNINA-9910784542903321 |
Wu Keng C. <1948->
![]() |
||
Amsterdam ; ; Boston, : Elsevier Academic Press, c2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Switch-mode power converters : design and analysis / / Keng C. Wu |
Autore | Wu Keng C. <1948-> |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier Academic Press, c2006 |
Descrizione fisica | 1 online resource (409 p.) |
Disciplina |
621.31/7
621.317 |
Soggetto topico |
Electric current converters
Switching power supplies |
ISBN |
1-280-63331-X
9786610633319 0-08-045956-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Switch-Mode Power Converters: Design and Analysis; Copyright Page; Table of Contents; Preface; Chapter 1. Isolated Step-Down (Buck) Converter; 1.1 CCM Open-Loop Output and Duty Cycle Determination; 1.2 DCM Open-Loop Output and Duty Cycle Determination; 1.3 CCM to DCM Transition, Critical Inductance; 1.4 Gain Formula for Nonideal Operational Amplifiers; 1.5 Feedback under Voltage-Mode Control; 1.6 Voltage-Mode CCM Closed Loop; 1.7 Voltage-Mode DCM Closed Loop; 1.8 Voltage-Mode CCM Small-Signal Stability; 1.9 Current-Mode Control
1.10 CCM Current-Mode Control in a Closed-Loop Steady State 1.11 CCM Current-Mode Control Small-Signal Stability; 1.12 Output Capacitor Size and Accelerated Steady-State Analysis; 1.13 A Complete Example; 1.14 State Transition Technique; Chapter 2. Push-Pull Converter with Current-Mode Control and Slope Compensation; 2.1 Power Stage of a Center-Tapped Push-Pull Converter; 2.2 Discontinuous Conduction-Mode Operation; 2.3 Continuous Conduction-Mode Operation; Chapter 3. Nonisolated Forward Converter with Average Current-Mode Control; 3.1 Average Current Feedback; 3.2 Duty Cycle Determination 3.3 Steady-State Closed Loop 3.4 Closed-Loop Regulation and Output Sensitivity; 3.5 Small-Signal Loop Gain and Stability; 3.6 Example; 3.7 State Transition Technique; Chapter 4. Phase-Shifted Full-Bridge Converter; 4.1 Power-Stage Operation; 4.2 Current Doubler; 4.3 Steady-State Duty Cycle; 4.4 Steady-State Output Waveforms; 4.5 Steady-State Output Waveforms Example; Chapter 5. Current-Fed Push-Pull Converters; 5.1 Overlapping Continuous-Conduction Mode; 5.2 Overlapping Continuous Conduction, Steady State; 5.3 Overlapping Continuous Conduction, Example 5.4 Nonoverlapping Continuous-Conduction Mode 5.5 Load Current Sharing and Parallel Operation; 5.6 AC Small-Signal Studies Using State-Space Averaging; 5.7 State-Transition Technique; Chapter 6. Isolated Flyback Converters; 6.1 DCM Duty-Cycle Determination, Another Approach; 6.2 CCM Duty-Cycle Determination; 6.3 Critical Inductance; 6.4 Voltage-Mode DCM Closed Loop; 6.5 Voltage-Mode DCM Small-Signal Stability; 6.6 Voltage-Mode CCM Closed Loop; 6.7 Voltage-Mode CCM Small-Signal Stability; 6.8 Peak Current-Mode DCM Closed Loop; 6.9 Peak Current-Mode DCM Small-Signal Stability 6.10 Peak Current-Mode CCM Closed Loop 6.11 Peak Current-Mode CCM Small-Signal Stability; 6.12 Output Capacitor; 6.13 Accelerated Steady-State Output; 6.14 A Complete DCM Example; Chapter 7. Nonisolated Boost Converter; 7.1 Duty-Cycle Determination; 7.2 Critical Inductance; 7.3 Peak Current-Mode Closed-Loop Steady State in CCM; 7.4 Peak Current-Mode Small-Signal Stability in CCM; 7.5 Peak Current-Mode Closed-Loop Steady State in DCM; 7.6 Peak Current-Mode Small-Signal Stability in DCM; 7.7 DCM Output Capacitor Size; 7.8 CCM Output Capacitor Size; Chapter 8. Quasi-Resonant Converters 8.1 How Does It Work? |
Record Nr. | UNINA-9910826500703321 |
Wu Keng C. <1948->
![]() |
||
Amsterdam ; ; Boston, : Elsevier Academic Press, c2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|