Enhanced phase-locked loop structures for power and energy applications / / Masoud Karimi-Ghartemani |
Autore | Karimi-Ghartema Masoud |
Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons, , 2014 |
Descrizione fisica | 1 online resource (230 p.) |
Disciplina | 621.31/7 |
Collana | IEEE Press Series on Microelectronic Systems |
Soggetto topico |
Phase-locked loops
Electric power systems - Equipment and supplies Power electronics |
ISBN |
1-118-79513-X
1-118-79516-4 |
Classificazione | TEC008010 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ENHANCED PHASE-LOCKED LOOP STRUCTURES FOR POWER AND ENERGY APPLICATIONS; Copyright; BRIEF CONTENTS; CONTENTS; PREFACE; ACKNOWLEDGMENTS; ACRONYMS; SYMBOLS; INTRODUCTION; I PLL STRUCTURES FOR SINGLE-PHASEAPPLICATIONS; 1 PLL Basics and Standard Structure; 1.1 Standard PLL Structure; 1.2 Approximate Linear Model; 1.3 Loop Filter Design; 1.4 Remarks; 1.5 Numerical Results; 1.6 Summary and Conclusion; Problems; 2 Enhanced Phase-Locked Loop; 2.1 Structure of EPLL; 2.2 Removal of Double-Frequency Error; 2.3 Linear Analysis; 2.4 Derivation of EPLL Using Gradient Method; 2.5 Pseudolinear EPLL
2.6 Derivation of PL-EPLL from Newton Approach2.7 Linear Time Invariant EPLL; 2.8 LTI-EPLL as a Resonant Controller; 2.9 Extension of LTI-EPLL as a General Transfer Function; 2.10 Resonant Controller with Phase Compensation; 2.11 VCO-Less Representation of EPLL; 2.12 VCO-Less EPLL versus ANF and SOGI-FLL; 2.13 EPLL and Droop Control Method; 2.14 Adjustment of EPLL Parameters; 2.15 Numerical Results; 2.16 Summary and Conclusion; Problems; 3 EPLL Extensions and Modifications; 3.1 Prefiltering and Postfiltering; 3.2 In-Loop Filters and Concept of Windowing; 3.3 Design of W-EPLL 3.4 Estimation and Rejection of DC Component3.5 Estimation and Rejection of Harmonics; 3.6 Mitigation of Multiple Harmonics Using SingleBand-Stop Filter; 3.7 Estimation and Rejection of Interharmonics; 3.8 EPLL with Generalized Filtering; 3.9 Soft Start and Problem of Phase Jumps; 3.10 Summary and Conclusion; Problems; 4 Digital Implementation of EPLL; 4.1 First-Order Digitization; 4.2 LTI-EPLL Resonant Controller; 4.3 Robustness in Low Sampling Frequency Applications; 4.4 Robustness in Fixed-Point, High Sampling FrequencyApplications; 4.5 Summary and Conclusion; Problems 5 Integrated Synchronization and Control5.1 Brief Review of Synronization/Control Methods; 5.2 ISC Method; 5.3 Stability Analysis of ISC Method; 5.4 Design Algorithm for ISC Method; 5.5 Comments on Reference Values; 5.6 Power Quality Issues; 5.7 Soft Start Process; 5.8 LCL Output Filter; 5.9 Sensitivity Analysis; 5.10 Numerical Results; 5.11 Summary and Conclusion; Problems; II PLL STRUCTURES FOR THREE-PHASEAPPLICATIONS; 6 Synchronous Reference Frame PLL; 6.1 Structure of SRF-PLL; 6.2 Linear Model and Design; 6.3 Alternative Representation of SRF-PLL; 6.4 SRF-PLL Operation in Stationary Frame 6.5 Single-Phase SRF-PLL6.6 Correspondence between SRF-PLL and Single-PhaseEPLL; 6.7 Impact of Unbalance, DC, and Harmonics on SRF-PLL; 6.8 Numerical Results; 6.9 Summary and Conclusion; Problems; 7 Three-Phase EPLL-I; 7.1 Structure of Three-Phase EPLL-I; 7.2 Relationship between 3EPLL-I and SRF-PLL; 7.3 3EPLL-I in Stationary Frame; 7.4 Mathematical Derivation of 3EPLL-I; 7.5 LTI-3EPLL-I; 7.6 VCO-Less Representation of 3EPLL-I; 7.7 Design Guidelines for 3EPLL-I; 7.8 Numerical Results; 7.9 Summary and Conclusion; Problems; 8 Three-Phase EPLL-II; 8.1 Structure of Three-Phase EPLL-II 8.2 Derivation of Three-Phase EPLL-II |
Record Nr. | UNINA-9910132218303321 |
Karimi-Ghartema Masoud
![]() |
||
Hoboken, New Jersey : , : John Wiley & Sons, , 2014 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Enhanced phase-locked loop structures for power and energy applications / / Masoud Karimi-Ghartemani |
Autore | Karimi-Ghartema Masoud |
Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons, , 2014 |
Descrizione fisica | 1 online resource (230 p.) |
Disciplina | 621.31/7 |
Collana | IEEE Press Series on Microelectronic Systems |
Soggetto topico |
Phase-locked loops
Electric power systems - Equipment and supplies Power electronics |
ISBN |
1-118-79513-X
1-118-79516-4 |
Classificazione | TEC008010 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ENHANCED PHASE-LOCKED LOOP STRUCTURES FOR POWER AND ENERGY APPLICATIONS; Copyright; BRIEF CONTENTS; CONTENTS; PREFACE; ACKNOWLEDGMENTS; ACRONYMS; SYMBOLS; INTRODUCTION; I PLL STRUCTURES FOR SINGLE-PHASEAPPLICATIONS; 1 PLL Basics and Standard Structure; 1.1 Standard PLL Structure; 1.2 Approximate Linear Model; 1.3 Loop Filter Design; 1.4 Remarks; 1.5 Numerical Results; 1.6 Summary and Conclusion; Problems; 2 Enhanced Phase-Locked Loop; 2.1 Structure of EPLL; 2.2 Removal of Double-Frequency Error; 2.3 Linear Analysis; 2.4 Derivation of EPLL Using Gradient Method; 2.5 Pseudolinear EPLL
2.6 Derivation of PL-EPLL from Newton Approach2.7 Linear Time Invariant EPLL; 2.8 LTI-EPLL as a Resonant Controller; 2.9 Extension of LTI-EPLL as a General Transfer Function; 2.10 Resonant Controller with Phase Compensation; 2.11 VCO-Less Representation of EPLL; 2.12 VCO-Less EPLL versus ANF and SOGI-FLL; 2.13 EPLL and Droop Control Method; 2.14 Adjustment of EPLL Parameters; 2.15 Numerical Results; 2.16 Summary and Conclusion; Problems; 3 EPLL Extensions and Modifications; 3.1 Prefiltering and Postfiltering; 3.2 In-Loop Filters and Concept of Windowing; 3.3 Design of W-EPLL 3.4 Estimation and Rejection of DC Component3.5 Estimation and Rejection of Harmonics; 3.6 Mitigation of Multiple Harmonics Using SingleBand-Stop Filter; 3.7 Estimation and Rejection of Interharmonics; 3.8 EPLL with Generalized Filtering; 3.9 Soft Start and Problem of Phase Jumps; 3.10 Summary and Conclusion; Problems; 4 Digital Implementation of EPLL; 4.1 First-Order Digitization; 4.2 LTI-EPLL Resonant Controller; 4.3 Robustness in Low Sampling Frequency Applications; 4.4 Robustness in Fixed-Point, High Sampling FrequencyApplications; 4.5 Summary and Conclusion; Problems 5 Integrated Synchronization and Control5.1 Brief Review of Synronization/Control Methods; 5.2 ISC Method; 5.3 Stability Analysis of ISC Method; 5.4 Design Algorithm for ISC Method; 5.5 Comments on Reference Values; 5.6 Power Quality Issues; 5.7 Soft Start Process; 5.8 LCL Output Filter; 5.9 Sensitivity Analysis; 5.10 Numerical Results; 5.11 Summary and Conclusion; Problems; II PLL STRUCTURES FOR THREE-PHASEAPPLICATIONS; 6 Synchronous Reference Frame PLL; 6.1 Structure of SRF-PLL; 6.2 Linear Model and Design; 6.3 Alternative Representation of SRF-PLL; 6.4 SRF-PLL Operation in Stationary Frame 6.5 Single-Phase SRF-PLL6.6 Correspondence between SRF-PLL and Single-PhaseEPLL; 6.7 Impact of Unbalance, DC, and Harmonics on SRF-PLL; 6.8 Numerical Results; 6.9 Summary and Conclusion; Problems; 7 Three-Phase EPLL-I; 7.1 Structure of Three-Phase EPLL-I; 7.2 Relationship between 3EPLL-I and SRF-PLL; 7.3 3EPLL-I in Stationary Frame; 7.4 Mathematical Derivation of 3EPLL-I; 7.5 LTI-3EPLL-I; 7.6 VCO-Less Representation of 3EPLL-I; 7.7 Design Guidelines for 3EPLL-I; 7.8 Numerical Results; 7.9 Summary and Conclusion; Problems; 8 Three-Phase EPLL-II; 8.1 Structure of Three-Phase EPLL-II 8.2 Derivation of Three-Phase EPLL-II |
Record Nr. | UNINA-9910830130103321 |
Karimi-Ghartema Masoud
![]() |
||
Hoboken, New Jersey : , : John Wiley & Sons, , 2014 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|