| Titre : | Control of induction motors | | Type de document : | texte imprimé | | Auteurs : | Andrzej M. Trzynadlowski, Auteur | | Editeur : | San Diego, London, Boston : Academic Press | | Année de publication : | 2001 | | Collection : | Academic Press Series in Engineering Series | | Importance : | 228 p. | | Présentation : | couv. ill. en coul., ill. | | Format : | 24 cm. | | ISBN/ISSN/EAN : | 978-0-12-701510-1 | | Langues : | Anglais (eng) | | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-05 Electronique de puissance et industrielle | | Résumé : | This book is a comprehensive reference source for practicing engineers and students specializing in electric power engineering and industrial electronics. It will illustrate the state of the art in induction motors. Beginning with characteristics and basic dynamic models of induction motors, and progressing to low- and high- performance drive systems. The book will be rich in useful information, without an excessive mathematical burden. Computer simulations resulting in mock oscillograms of physical quantities are used for illustration of basic control concepts. The content of this book is divided into three basic parts: 1) control-oriented description of induction motors, 2) control methods, and systems, 3) control means. An induction motor is presented as an electromechanical power converter, and basic relations between the electrical, magnetic and mechanical quantities in the motor will be explained. Control methods and systems will be classified according to the controlled variables(torque, speed, flux), actuating variables(voltage, current), and dynamic performance (uncontrolled, low-performance, and high-performance). An overview of power electronic converters and information processing equipment used in the modern induction motor drives is included. Such systematic approach will give the readers a comprehensive overview of the field of induction motor control.
| | Note de contenu : | Contents:
Chapter 1. Background
1.1 Induction Motors
1.2 Drive Systems with Induction Motors
1.3 Common Loads
1.4 Operating Quadrants
1.5 Scalar and Vector Control Methods
Chapter 2. Construction and Steady-State Operation of Induction Motors
2.1 Construction
2.2 Revolving Magnetic Field
2.3 Steady-State Equivalent Circuit
2.4 Developed Torque
2.5 Steady-State Characteristics
2.6 Induction Generator
Chapter 3. Uncontrolled Induction Motor Drives
3.1 Uncontrolled Operation of Induction Motors
3.2 Assisted Starting
3.3 Braking and Reversing
3.4 Pole Changing
3.5 Abnormal Operating Conditions
Chapter 4. Power Electronic Converters for Induction Motor Drives
4.1 Control of Stator Voltage
4.2 Rectifiers
4.3 Inverters
4.4 Frequency Changers
4.5 Control of Voltage Source Inverters
4.6 Control of Current Source Inverters
4.7 Side Effects of Converter Operation in Adjustable Speed Drives
Chapter 5. Scalar Control Methods
5.1 Two-Inductance Equivalent Circuits of the Induction Motor
5.2 Open-Loop Scalar Speed Control (Constant Volts/Hertz)
5.3 Closed-Loop Scalar Speed Control
5.4 Scalar Torque Control
Chapter 6. Dynamic Model of the Induction Motor
6.1 Space Vectors of Motor Variables
6.2 Dynamic Equations of the Induction Motor
6.3 Revolving Reference Frame
Chapter 7. Field Orientation
7.1 Torque Production and Control in the DC Motor
7.2 Principles of Field Orientation
7.3 Direct Field Orientation
7.4 Indirect Field Orientation
7.5 Stator and Airgap Flux Orientation
7.6 Drives with Current Source Inverters
Chapter 8. Direct Torque and Flux Control
8.1 Induction Motor Control by Selection of Inverter States
8.2 Direct Torque Control
8.3 Direct Self-Control
8.4 Space-Vector Direct Torque and Flux Control
Chapter 9. Speed and Position Control
9.1 Variables Controlled in Induction Motor Drives
9.2 Speed Control
9.3 Machine Intelligence Controllers
9.4 Position Control
Chapter 10. Sensorless Drives
10.1 Issues in Sensorless Control of Induction Motors
10.2 Flux Calculators
10.3 Speed Calculators
10.4 Parameter Adaptation and Self-Commissioning
10.5 Commercial Adjustable Speed Drives
Literature
Glossary of Symbols
Index |
Control of induction motors [texte imprimé] / Andrzej M. Trzynadlowski, Auteur . - San Diego, London, Boston : Academic Press, 2001 . - 228 p. : couv. ill. en coul., ill. ; 24 cm.. - ( Academic Press Series in Engineering Series) . ISBN : 978-0-12-701510-1 Langues : Anglais ( eng) | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-05 Electronique de puissance et industrielle | | Résumé : | This book is a comprehensive reference source for practicing engineers and students specializing in electric power engineering and industrial electronics. It will illustrate the state of the art in induction motors. Beginning with characteristics and basic dynamic models of induction motors, and progressing to low- and high- performance drive systems. The book will be rich in useful information, without an excessive mathematical burden. Computer simulations resulting in mock oscillograms of physical quantities are used for illustration of basic control concepts. The content of this book is divided into three basic parts: 1) control-oriented description of induction motors, 2) control methods, and systems, 3) control means. An induction motor is presented as an electromechanical power converter, and basic relations between the electrical, magnetic and mechanical quantities in the motor will be explained. Control methods and systems will be classified according to the controlled variables(torque, speed, flux), actuating variables(voltage, current), and dynamic performance (uncontrolled, low-performance, and high-performance). An overview of power electronic converters and information processing equipment used in the modern induction motor drives is included. Such systematic approach will give the readers a comprehensive overview of the field of induction motor control.
| | Note de contenu : | Contents:
Chapter 1. Background
1.1 Induction Motors
1.2 Drive Systems with Induction Motors
1.3 Common Loads
1.4 Operating Quadrants
1.5 Scalar and Vector Control Methods
Chapter 2. Construction and Steady-State Operation of Induction Motors
2.1 Construction
2.2 Revolving Magnetic Field
2.3 Steady-State Equivalent Circuit
2.4 Developed Torque
2.5 Steady-State Characteristics
2.6 Induction Generator
Chapter 3. Uncontrolled Induction Motor Drives
3.1 Uncontrolled Operation of Induction Motors
3.2 Assisted Starting
3.3 Braking and Reversing
3.4 Pole Changing
3.5 Abnormal Operating Conditions
Chapter 4. Power Electronic Converters for Induction Motor Drives
4.1 Control of Stator Voltage
4.2 Rectifiers
4.3 Inverters
4.4 Frequency Changers
4.5 Control of Voltage Source Inverters
4.6 Control of Current Source Inverters
4.7 Side Effects of Converter Operation in Adjustable Speed Drives
Chapter 5. Scalar Control Methods
5.1 Two-Inductance Equivalent Circuits of the Induction Motor
5.2 Open-Loop Scalar Speed Control (Constant Volts/Hertz)
5.3 Closed-Loop Scalar Speed Control
5.4 Scalar Torque Control
Chapter 6. Dynamic Model of the Induction Motor
6.1 Space Vectors of Motor Variables
6.2 Dynamic Equations of the Induction Motor
6.3 Revolving Reference Frame
Chapter 7. Field Orientation
7.1 Torque Production and Control in the DC Motor
7.2 Principles of Field Orientation
7.3 Direct Field Orientation
7.4 Indirect Field Orientation
7.5 Stator and Airgap Flux Orientation
7.6 Drives with Current Source Inverters
Chapter 8. Direct Torque and Flux Control
8.1 Induction Motor Control by Selection of Inverter States
8.2 Direct Torque Control
8.3 Direct Self-Control
8.4 Space-Vector Direct Torque and Flux Control
Chapter 9. Speed and Position Control
9.1 Variables Controlled in Induction Motor Drives
9.2 Speed Control
9.3 Machine Intelligence Controllers
9.4 Position Control
Chapter 10. Sensorless Drives
10.1 Issues in Sensorless Control of Induction Motors
10.2 Flux Calculators
10.3 Speed Calculators
10.4 Parameter Adaptation and Self-Commissioning
10.5 Commercial Adjustable Speed Drives
Literature
Glossary of Symbols
Index |
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