Power system harmonics [[electronic resource] /] / Jos Arrillaga and Neville R. Watson |
Autore | Arrillaga J |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | West Sussex, England ; ; Hoboken, NJ, : J. Wiley & Sons, c2003 |
Descrizione fisica | 1 online resource (413 p.) |
Disciplina |
621.319/21
621.3191 621.31921 |
Altri autori (Persone) | WatsonN. R |
Soggetto topico |
Electric power systems
Harmonics (Electric waves) |
ISBN |
1-280-27391-7
9786610273911 0-470-29979-7 0-470-87121-0 1-60119-551-6 0-470-87122-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
POWER SYSTEM HARMONICS; Contents; Preface; 1 Subject Definition and Objectives; 1.1 Introduction; 1.2 The Mechanism of Harmonic Generation; 1.3 Definitions and Standards; 1.3.1 Factors Influencing the Development of Standards; 1.3.2 Existing Harmonic Standards; 1.3.3 General Harmonic Indices; 1.4 Relevance of the Topic; 1.5 References; 2 Harmonic Analysis; 2.1 Introduction; 2.2 Fourier Series and Coefficients; 2.3 Simplifications Resulting from Waveform Symmetry; 2.4 Complex Form of the Fourier Series; 2.5 Convolution of Harmonic Phasors; 2.6 The Fourier Transform; 2.7 Sampled Time Functions
2.8 Discrete Fourier Transform (DFT)2.9 The Nyquist Frequency and Aliasing; 2.10 Fast Fourier Transform (FFT); 2.11 Window Functions; 2.11.1 The Picket Fence; 2.11.2 Spectral Leakage Reduction; 2.11.3 Choice of Window Function; 2.11.4 Main-Lobe Width Reduction; 2.11.5 Application to Inter-Harmonic Analysis; 2.12 Efficiency of FFT Algorithms; 2.12.1 The Radix-2 FFT; 2.12.2 Mixed-Radix FFT; 2.12.3 Real-Valued FFTs; 2.12.4 Partial FFTs; 2.13 Alternative Transforms; 2.13.1 The Wavelet Transform; 2.13.2 Automation of Disturbance Recognition; 2.14 Discussion; 2.15 References; 3 Harmonic Sources 3.1 Introduction 3.2 Transformer Magnetisation Nonlinearities; 3.2.1 Normal Excitation Characteristics; 3.2.2 Determination of the Current Waveshape; 3.2.3 Symmetrical Overexcitation; 3.2.4 Inrush Current Harmonics; 3.2.5 D.C. Magnetisation; 3.3 Rotating Machine Harmonics; 3.3.1 M.m.f. Distribution of A.C. Windings; 3.3.2 Three-Phase Winding; 3.3.3 Slot Harmonics; 3.3.4 Voltage Harmonics Produced by Synchronous Machines; 3.3.5 Rotor Saliency Effects; 3.3.6 Voltage Harmonics Produced by Induction Motors; 3.4 Distortion Caused by Arcing Devices; 3.4.1 Electric Arc Furnaces 3.4.2 Discharge-Type Lighting 3.5 Single-Phase Rectification; 3.5.1 D.C. Power Supplies; 3.5.2 Line-Commutated Railway Rectifiers; 3.6 Three-Phase Current-Source Conversion; 3.6.1 Basic (Six-Pulse) Configuration; 3.6.2 Effect of Transformer Connection; 3.6.3 Twelve-Pulse Related Harmonics; 3.6.4 Higher-Pulse Configurations; 3.6.5 Effect of Transformer and System Impedance; 3.6.6 Direct Voltage Harmonics; 3.6.7 Imperfect D.C. Voltage Smoothing; 3.6.8 Half-Controlled Rectification; 3.6.9 Uncharacteristic Harmonic and Inter-Harmonic Generation 3.6.10 Frequency Cross-Modulation in Line-Commutated Converter Systems 3.7 Three-Phase Voltage-Source Conversion; 3.7.1 Multi-Level VSC Configurations; 3.8 Inverter-Fed A.C. Drives; 3.9 Thyristor-Controlled Reactors; 3.9.1 The Static VAR Compensator (SVC); 3.9.2 Thyristor-Controlled Series Compensation (TCSC); 3.10 Modulated Phase Control; 3.10.1 The Switching Function Approach; 3.10.2 Derivation of Input Current Harmonics; 3.11 A.C. Regulators; 3.11.1 Single-Phase Full-Wave Controller; 3.11.2 Integral Cycle Control; 3.12 Discussion; 3.13 References; 4 Effects of Harmonic Distortion 4.1 Introduction |
Record Nr. | UNINA-9910143480703321 |
Arrillaga J
![]() |
||
West Sussex, England ; ; Hoboken, NJ, : J. Wiley & Sons, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Power system harmonics [[electronic resource] /] / Jos Arrillaga and Neville R. Watson |
Autore | Arrillaga J |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | West Sussex, England ; ; Hoboken, NJ, : J. Wiley & Sons, c2003 |
Descrizione fisica | 1 online resource (413 p.) |
Disciplina |
621.319/21
621.3191 621.31921 |
Altri autori (Persone) | WatsonN. R |
Soggetto topico |
Electric power systems
Harmonics (Electric waves) |
ISBN |
1-280-27391-7
9786610273911 0-470-29979-7 0-470-87121-0 1-60119-551-6 0-470-87122-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
POWER SYSTEM HARMONICS; Contents; Preface; 1 Subject Definition and Objectives; 1.1 Introduction; 1.2 The Mechanism of Harmonic Generation; 1.3 Definitions and Standards; 1.3.1 Factors Influencing the Development of Standards; 1.3.2 Existing Harmonic Standards; 1.3.3 General Harmonic Indices; 1.4 Relevance of the Topic; 1.5 References; 2 Harmonic Analysis; 2.1 Introduction; 2.2 Fourier Series and Coefficients; 2.3 Simplifications Resulting from Waveform Symmetry; 2.4 Complex Form of the Fourier Series; 2.5 Convolution of Harmonic Phasors; 2.6 The Fourier Transform; 2.7 Sampled Time Functions
2.8 Discrete Fourier Transform (DFT)2.9 The Nyquist Frequency and Aliasing; 2.10 Fast Fourier Transform (FFT); 2.11 Window Functions; 2.11.1 The Picket Fence; 2.11.2 Spectral Leakage Reduction; 2.11.3 Choice of Window Function; 2.11.4 Main-Lobe Width Reduction; 2.11.5 Application to Inter-Harmonic Analysis; 2.12 Efficiency of FFT Algorithms; 2.12.1 The Radix-2 FFT; 2.12.2 Mixed-Radix FFT; 2.12.3 Real-Valued FFTs; 2.12.4 Partial FFTs; 2.13 Alternative Transforms; 2.13.1 The Wavelet Transform; 2.13.2 Automation of Disturbance Recognition; 2.14 Discussion; 2.15 References; 3 Harmonic Sources 3.1 Introduction 3.2 Transformer Magnetisation Nonlinearities; 3.2.1 Normal Excitation Characteristics; 3.2.2 Determination of the Current Waveshape; 3.2.3 Symmetrical Overexcitation; 3.2.4 Inrush Current Harmonics; 3.2.5 D.C. Magnetisation; 3.3 Rotating Machine Harmonics; 3.3.1 M.m.f. Distribution of A.C. Windings; 3.3.2 Three-Phase Winding; 3.3.3 Slot Harmonics; 3.3.4 Voltage Harmonics Produced by Synchronous Machines; 3.3.5 Rotor Saliency Effects; 3.3.6 Voltage Harmonics Produced by Induction Motors; 3.4 Distortion Caused by Arcing Devices; 3.4.1 Electric Arc Furnaces 3.4.2 Discharge-Type Lighting 3.5 Single-Phase Rectification; 3.5.1 D.C. Power Supplies; 3.5.2 Line-Commutated Railway Rectifiers; 3.6 Three-Phase Current-Source Conversion; 3.6.1 Basic (Six-Pulse) Configuration; 3.6.2 Effect of Transformer Connection; 3.6.3 Twelve-Pulse Related Harmonics; 3.6.4 Higher-Pulse Configurations; 3.6.5 Effect of Transformer and System Impedance; 3.6.6 Direct Voltage Harmonics; 3.6.7 Imperfect D.C. Voltage Smoothing; 3.6.8 Half-Controlled Rectification; 3.6.9 Uncharacteristic Harmonic and Inter-Harmonic Generation 3.6.10 Frequency Cross-Modulation in Line-Commutated Converter Systems 3.7 Three-Phase Voltage-Source Conversion; 3.7.1 Multi-Level VSC Configurations; 3.8 Inverter-Fed A.C. Drives; 3.9 Thyristor-Controlled Reactors; 3.9.1 The Static VAR Compensator (SVC); 3.9.2 Thyristor-Controlled Series Compensation (TCSC); 3.10 Modulated Phase Control; 3.10.1 The Switching Function Approach; 3.10.2 Derivation of Input Current Harmonics; 3.11 A.C. Regulators; 3.11.1 Single-Phase Full-Wave Controller; 3.11.2 Integral Cycle Control; 3.12 Discussion; 3.13 References; 4 Effects of Harmonic Distortion 4.1 Introduction |
Record Nr. | UNINA-9910830819903321 |
Arrillaga J
![]() |
||
West Sussex, England ; ; Hoboken, NJ, : J. Wiley & Sons, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Power system harmonics / / Jos Arrillaga and Neville R. Watson |
Autore | Arrillaga J |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | West Sussex, England ; ; Hoboken, NJ, : J. Wiley & Sons, c2003 |
Descrizione fisica | 1 online resource (413 p.) |
Disciplina | 621.319/21 |
Altri autori (Persone) | WatsonN. R |
Soggetto topico |
Electric power systems
Harmonics (Electric waves) |
ISBN |
1-280-27391-7
9786610273911 0-470-29979-7 0-470-87121-0 1-60119-551-6 0-470-87122-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
POWER SYSTEM HARMONICS; Contents; Preface; 1 Subject Definition and Objectives; 1.1 Introduction; 1.2 The Mechanism of Harmonic Generation; 1.3 Definitions and Standards; 1.3.1 Factors Influencing the Development of Standards; 1.3.2 Existing Harmonic Standards; 1.3.3 General Harmonic Indices; 1.4 Relevance of the Topic; 1.5 References; 2 Harmonic Analysis; 2.1 Introduction; 2.2 Fourier Series and Coefficients; 2.3 Simplifications Resulting from Waveform Symmetry; 2.4 Complex Form of the Fourier Series; 2.5 Convolution of Harmonic Phasors; 2.6 The Fourier Transform; 2.7 Sampled Time Functions
2.8 Discrete Fourier Transform (DFT)2.9 The Nyquist Frequency and Aliasing; 2.10 Fast Fourier Transform (FFT); 2.11 Window Functions; 2.11.1 The Picket Fence; 2.11.2 Spectral Leakage Reduction; 2.11.3 Choice of Window Function; 2.11.4 Main-Lobe Width Reduction; 2.11.5 Application to Inter-Harmonic Analysis; 2.12 Efficiency of FFT Algorithms; 2.12.1 The Radix-2 FFT; 2.12.2 Mixed-Radix FFT; 2.12.3 Real-Valued FFTs; 2.12.4 Partial FFTs; 2.13 Alternative Transforms; 2.13.1 The Wavelet Transform; 2.13.2 Automation of Disturbance Recognition; 2.14 Discussion; 2.15 References; 3 Harmonic Sources 3.1 Introduction 3.2 Transformer Magnetisation Nonlinearities; 3.2.1 Normal Excitation Characteristics; 3.2.2 Determination of the Current Waveshape; 3.2.3 Symmetrical Overexcitation; 3.2.4 Inrush Current Harmonics; 3.2.5 D.C. Magnetisation; 3.3 Rotating Machine Harmonics; 3.3.1 M.m.f. Distribution of A.C. Windings; 3.3.2 Three-Phase Winding; 3.3.3 Slot Harmonics; 3.3.4 Voltage Harmonics Produced by Synchronous Machines; 3.3.5 Rotor Saliency Effects; 3.3.6 Voltage Harmonics Produced by Induction Motors; 3.4 Distortion Caused by Arcing Devices; 3.4.1 Electric Arc Furnaces 3.4.2 Discharge-Type Lighting 3.5 Single-Phase Rectification; 3.5.1 D.C. Power Supplies; 3.5.2 Line-Commutated Railway Rectifiers; 3.6 Three-Phase Current-Source Conversion; 3.6.1 Basic (Six-Pulse) Configuration; 3.6.2 Effect of Transformer Connection; 3.6.3 Twelve-Pulse Related Harmonics; 3.6.4 Higher-Pulse Configurations; 3.6.5 Effect of Transformer and System Impedance; 3.6.6 Direct Voltage Harmonics; 3.6.7 Imperfect D.C. Voltage Smoothing; 3.6.8 Half-Controlled Rectification; 3.6.9 Uncharacteristic Harmonic and Inter-Harmonic Generation 3.6.10 Frequency Cross-Modulation in Line-Commutated Converter Systems 3.7 Three-Phase Voltage-Source Conversion; 3.7.1 Multi-Level VSC Configurations; 3.8 Inverter-Fed A.C. Drives; 3.9 Thyristor-Controlled Reactors; 3.9.1 The Static VAR Compensator (SVC); 3.9.2 Thyristor-Controlled Series Compensation (TCSC); 3.10 Modulated Phase Control; 3.10.1 The Switching Function Approach; 3.10.2 Derivation of Input Current Harmonics; 3.11 A.C. Regulators; 3.11.1 Single-Phase Full-Wave Controller; 3.11.2 Integral Cycle Control; 3.12 Discussion; 3.13 References; 4 Effects of Harmonic Distortion 4.1 Introduction |
Record Nr. | UNINA-9910878000603321 |
Arrillaga J
![]() |
||
West Sussex, England ; ; Hoboken, NJ, : J. Wiley & Sons, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Self-commutating converters for high power applications [[electronic resource] /] / Jos Arrillaga ... [et al.] |
Autore | Arrillaga J |
Pubbl/distr/stampa | Chichester, West Sussex, U.K., : J. Wiley, 2009 |
Descrizione fisica | 1 online resource (326 p.) |
Disciplina | 621.31/7 |
Altri autori (Persone) | ArrillagaJ |
Soggetto topico |
Commutation (Electricity)
Electric current converters Electric power distribution - High tension |
ISBN |
1-282-69002-7
9786612690020 0-470-68211-6 0-470-68212-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Self-Commutating Converters for High Power Applications; Contents; Preface; 1 Introduction; 1.1 Early developments; 1.2 State of the large power semiconductor technology; 1.2.1 Power ratings; 1.2.2 Losses; 1.2.3 Suitability for large power conversion; 1.2.4 Future developments; 1.3 Voltage and current source conversion; 1.4 The pulse and level number concepts; 1.5 Line-commutated conversion (LCC); 1.6 Self-commutating conversion (SCC); 1.6.1 Pulse width modulation (PWM); 1.6.2 Multilevel voltage source conversion; 1.6.3 High-current self-commutating conversion; 1.7 Concluding statement
References 2 Principles of Self-Commutating Conversion; 2.1 Introduction; 2.2 Basic VSC operation; 2.2.1 Power transfer control; 2.3 Main converter components; 2.3.1 DC capacitor; 2.3.2 Coupling reactance; 2.3.3 The high-voltage valve; 2.3.4 The anti-parallel diodes; 2.4 Three-phase voltage source conversion; 2.4.1 The six-pulse VSC configuration; 2.4.2 Twelve-pulse VSC configuration; 2.5 Gate driving signal generation; 2.5.1 General philosophy; 2.5.2 Selected harmonic cancellation; 2.5.3 Carrier-based sinusoidal PWM; 2.6 Space-vector PWM pattern 2.6.1 Comparison between the switching patterns 2.7 Basic current source conversion operation; 2.7.1 Analysis of the CSC waveforms; 2.8 Summary; References; 3 Multilevel Voltage Source Conversion; 3.1 Introduction; 3.2 PWM-assisted multibridge conversion; 3.3 The diode clamping concept; 3.3.1 Three-level neutral point clamped VSC; 3.3.2 Five-level diode-clamped VSC; 3.3.3 Diode clamping generalization; 3.4 Theying capacitor concept; 3.4.1 Three-level flying capacitor conversion; 3.4.2 Multi-level flying capacitor conversion; 3.5 Cascaded H-bridge conguration 3.6 Modular multilevel conversion (MMC) 3.7 Summary; References; 4 Multilevel Reinjection; 4.1 Introduction; 4.2 The reinjection concept in line-commutated current source conversion; 4.2.1 The reinjection concept in the double-bridge configuration; 4.3 Application of the reinjection concept to self-commutating conversion; 4.3.1 Ideal injection signal required to produce a sinusoidal output waveform; 4.3.2 Symmetrical approximation to the ideal injection; 4.4 Multilevel reinjection (MLR)-the waveforms; 4.5 MLR implementation-the combination concept; 4.5.1 CSC configuration 4.5.2 VSC configuration 4.6 MLR implementation-the distribution concept; 4.6.1 CSC configuration; 4.6.2 VSC configuration; 4.7 Summary; References; 5 Modelling and Control of Converter Dynamics; 5.1 Introduction; 5.2 Control system levels; 5.2.1 Firing control; 5.2.2 Converter state control; 5.2.3 System control level; 5.3 Non-linearity of the power converter system; 5.4 Modelling the voltage source converter system; 5.4.1 Conversion under pulse width modulation; 5.5 Modelling grouped voltage source converters operating with fundamental frequency switching 5.6 Modelling the current source converter system |
Record Nr. | UNINA-9910139503503321 |
Arrillaga J
![]() |
||
Chichester, West Sussex, U.K., : J. Wiley, 2009 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Self-commutating converters for high power applications / / Jos Arrillaga ... [et al.] |
Autore | Arrillaga J |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Chichester, West Sussex, U.K., : J. Wiley, 2009 |
Descrizione fisica | 1 online resource (326 p.) |
Disciplina | 621.31/7 |
Soggetto topico |
Commutation (Electricity)
Electric current converters Electric power distribution - High tension |
ISBN |
1-282-69002-7
9786612690020 0-470-68211-6 0-470-68212-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Self-Commutating Converters for High Power Applications; Contents; Preface; 1 Introduction; 1.1 Early developments; 1.2 State of the large power semiconductor technology; 1.2.1 Power ratings; 1.2.2 Losses; 1.2.3 Suitability for large power conversion; 1.2.4 Future developments; 1.3 Voltage and current source conversion; 1.4 The pulse and level number concepts; 1.5 Line-commutated conversion (LCC); 1.6 Self-commutating conversion (SCC); 1.6.1 Pulse width modulation (PWM); 1.6.2 Multilevel voltage source conversion; 1.6.3 High-current self-commutating conversion; 1.7 Concluding statement
References 2 Principles of Self-Commutating Conversion; 2.1 Introduction; 2.2 Basic VSC operation; 2.2.1 Power transfer control; 2.3 Main converter components; 2.3.1 DC capacitor; 2.3.2 Coupling reactance; 2.3.3 The high-voltage valve; 2.3.4 The anti-parallel diodes; 2.4 Three-phase voltage source conversion; 2.4.1 The six-pulse VSC configuration; 2.4.2 Twelve-pulse VSC configuration; 2.5 Gate driving signal generation; 2.5.1 General philosophy; 2.5.2 Selected harmonic cancellation; 2.5.3 Carrier-based sinusoidal PWM; 2.6 Space-vector PWM pattern 2.6.1 Comparison between the switching patterns 2.7 Basic current source conversion operation; 2.7.1 Analysis of the CSC waveforms; 2.8 Summary; References; 3 Multilevel Voltage Source Conversion; 3.1 Introduction; 3.2 PWM-assisted multibridge conversion; 3.3 The diode clamping concept; 3.3.1 Three-level neutral point clamped VSC; 3.3.2 Five-level diode-clamped VSC; 3.3.3 Diode clamping generalization; 3.4 Theying capacitor concept; 3.4.1 Three-level flying capacitor conversion; 3.4.2 Multi-level flying capacitor conversion; 3.5 Cascaded H-bridge conguration 3.6 Modular multilevel conversion (MMC) 3.7 Summary; References; 4 Multilevel Reinjection; 4.1 Introduction; 4.2 The reinjection concept in line-commutated current source conversion; 4.2.1 The reinjection concept in the double-bridge configuration; 4.3 Application of the reinjection concept to self-commutating conversion; 4.3.1 Ideal injection signal required to produce a sinusoidal output waveform; 4.3.2 Symmetrical approximation to the ideal injection; 4.4 Multilevel reinjection (MLR)-the waveforms; 4.5 MLR implementation-the combination concept; 4.5.1 CSC configuration 4.5.2 VSC configuration 4.6 MLR implementation-the distribution concept; 4.6.1 CSC configuration; 4.6.2 VSC configuration; 4.7 Summary; References; 5 Modelling and Control of Converter Dynamics; 5.1 Introduction; 5.2 Control system levels; 5.2.1 Firing control; 5.2.2 Converter state control; 5.2.3 System control level; 5.3 Non-linearity of the power converter system; 5.4 Modelling the voltage source converter system; 5.4.1 Conversion under pulse width modulation; 5.5 Modelling grouped voltage source converters operating with fundamental frequency switching 5.6 Modelling the current source converter system |
Record Nr. | UNINA-9910826277403321 |
Arrillaga J
![]() |
||
Chichester, West Sussex, U.K., : J. Wiley, 2009 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|