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High Performance Control of AC Drives with Matlab /
A comprehensive guide to understanding AC machines with exhaustive simulation models to practice design and controlNearly seventy percent of the electricity generated worldwide is used by electrical motors. Worldwide, huge research efforts are being made to develop commercially viable three- and mul...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Hoboken :
John Wiley & Sons,
2012.
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| Temas: | |
| Acceso en línea: | Texto completo |
MARC
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| 100 | 1 | |a Abu-Rub, Haithem. | |
| 245 | 1 | 0 | |a High Performance Control of AC Drives with Matlab / |c Simulink Models. |
| 260 | |a Hoboken : |b John Wiley & Sons, |c 2012. | ||
| 300 | |a 1 online resource (502 pages) | ||
| 336 | |a text |b txt |2 rdacontent | ||
| 337 | |a computer |b c |2 rdamedia | ||
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| 505 | 0 | |6 880-01 |a High Performance Control of AC Drives with Matlab/simulink Models; Contents; Acknowledgment; Biographies; Preface; 1 Introduction to High Performance Drives; 1.1 Preliminary Remarks; 1.2 General Overview of High Performance Drives; 1.3 Challenges and Requirements for Electric Drives for Industrial Applications; 1.3.1 Power Quality and LC Resonance Suppression; 1.3.2 Inverter Switching Frequency; 1.3.3 Motor Side Challenges; 1.3.4 High dv/dt and Wave Reflection; 1.3.5 Use of Inverter Output Filters; 1.4 Organization of the Book; References; 2 Mathematical and Simulation Models of AC Machines. | |
| 505 | 8 | |a 2.1 Preliminary Remarks2.2 DC Motors; 2.2.1 Separately Excited DC Motor Control; 2.2.2 Series DC Motor Control; 2.3 Squirrel Cage Induction Motor; 2.3.1 Space Vector Representation; 2.3.2 Clarke Transformation (ABC to aß); 2.3.3 Park Transformation (aß to dq); 2.3.4 Per Unit Model of Induction Motor; 2.3.5 Double Fed Induction Generator (DFIG); 2.4 Mathematical Model of Permanent Magnet Synchronous Motor; 2.4.1 Motor Model in dq Rotating Frame; 2.4.2 Example of Motor Parameters for Simulation; 2.4.3 PMSM Model in Per Unit System; 2.4.4 PMSM Model in a-ß (x-y)-Axis; 2.5 Problems; References. | |
| 505 | 8 | |a 3 Pulse Width Modulation of Power Electronic DC-AC Converter3.1 Preliminary Remarks; 3.2 Classification of PWM Schemes for Voltage Source Inverters; 3.3 Pulse Width Modulated Inverters; 3.3.1 Single-Phase Half-bridge Inverters; 3.3.2 Single-Phase Full-bridge Inverters; 3.4 Three-phase PWM Voltage Source Inverter; 3.4.1 Carrier-based Sinusoidal PWM; 3.4.2 Third-harmonic Injection Carrier-based PWM; 3.4.3 Matlab/Simulink Model for Third Harmonic Injection PWM; 3.4.4 Carrier-based PWM with Offset Addition; 3.4.5 Space Vector PWM; 3.4.6 Discontinuous Space Vector PWM. | |
| 505 | 8 | |a 3.4.7 Matlab/Simulink Model for Space Vector PWM3.4.8 Space Vector PWM in Over-modulation Region; 3.4.9 Matlab/Simulink Model to Implement Space Vector PWM in Over-modulation Regions; 3.4.10 Harmonic Analysis; 3.4.11 Artificial Neural Network-based PWM; 3.4.12 Matlab/Simulink Model of Implementing ANN-based SVPWM; 3.5 Relationship between Carrier-based PWM and SVPWM; 3.5.1 Modulating Signals and Space Vectors; 3.5.2 Relationship between Line-to-line Voltages and Space Vectors; 3.5.3 Modulating Signals and Space Vector Sectors; 3.6 Multi-level Inverters. | |
| 505 | 8 | |a 3.6.1 Diode Clamped Multi-level Inverters3.6.2 Flying Capacitor Type Multi-level Inverter; 3.6.3 Cascaded H-Bridge Multi-level Inverter; 3.7 Impedance Source or Z-source Inverter; 3.7.1 Circuit Analysis; 3.7.2 Carrier-based Simple Boost PWM Control of a Z-source Inverter; 3.7.3 Carrier-based Maximum Boost PWM Control of a Z-source Inverter; 3.7.4 Matlab/Simulink Model of Z-source Inverter; 3.8 Quasi Impedance Source or qZSI Inverter; 3.8.1 Matlab/Simulink Model of qZ-source Inverter; 3.9 Dead Time Effect in a Multi-phase Inverter; 3.10 Summary; 3.11 Problems; References. | |
| 500 | |a 4 Field Oriented Control of AC Machines. | ||
| 520 | |a A comprehensive guide to understanding AC machines with exhaustive simulation models to practice design and controlNearly seventy percent of the electricity generated worldwide is used by electrical motors. Worldwide, huge research efforts are being made to develop commercially viable three- and multi-phase motor drive systems that are economically and technically feasible. Focusing on the most popular AC machines used in industry - induction machine and permanent magnet synchronous machine - this book illustrates advanced control techniques and topologies in practice and recently deployed. Exa. | ||
| 588 | 0 | |a Print version record. | |
| 504 | |a Includes bibliographical references and index. | ||
| 590 | |a ProQuest Ebook Central |b Ebook Central Academic Complete | ||
| 650 | 0 | |a Science. | |
| 650 | 6 | |a Sciences. | |
| 650 | 7 | |a sciences (philosophy) |2 aat | |
| 650 | 7 | |a science (modern discipline) |2 aat | |
| 650 | 7 | |a SCIENCE |x System Theory. |2 bisacsh | |
| 650 | 7 | |a Science |2 fast | |
| 700 | 1 | |a Iqbal, Atif. | |
| 700 | 1 | |a Guzinski, J. | |
| 758 | |i has work: |a High Performance Control of AC Drives with Matlab (Text) |1 https://id.oclc.org/worldcat/entity/E39PCFMGrFHQBFvDr6fv63fXh3 |4 https://id.oclc.org/worldcat/ontology/hasWork | ||
| 776 | 0 | 8 | |i Print version: |a Abu-Rub, Haitham. |t High Performance Control of AC Drives with Matlab / Simulink Models. |d Hoboken : John Wiley & Sons, ©2012 |z 9780470978290 |
| 856 | 4 | 0 | |u https://ebookcentral.uam.elogim.com/lib/uam-ebooks/detail.action?docID=881653 |z Texto completo |
| 880 | 8 | |6 505-00/(S |a 6.3.1 Matlab/Simulink Non-Linear Control Model -- 6.3.2 Non-Linear Control Systems -- 6.3.3 Speed Controller -- 6.3.4 Controller for Variable m -- 6.3.5 Field Current Controller -- 6.3.6 Simulation Results -- 6.4 Multiscalar model (MM) of Induction Motor -- 6.4.1 Multiscalar Variables -- 6.4.2 Non-Linear Linearization of Induction Motor Fed by Voltage Controlled VSI -- 6.4.3 Design of System Control -- 6.4.4 Non-Linear Linearization of Induction Motor Fed by Current Controlled VSI -- 6.4.5 Stator Oriented Non-Linear Control System (based on Ψs, is) -- 6.4.6 Rotor-Stator Fluxes-based Model -- 6.4.7 Stator Oriented Multiscalar Model -- 6.4.8 Multiscalar Control of Induction Motor -- 6.4.9 Induction Motor Model -- 6.4.10 State Transformations -- 6.4.11 Decoupled IM Model -- 6.5 MM of Double Fed Induction Machine (DFIM) -- 6.6 Non-Linear Control of Permanent Magnet Synchronous Machine -- 6.6.1 Non-Linear Control of PMSM for a dq Motor Model -- 6.6.2 Non-Linear Vector Control of PMSM in α-β Axis -- 6.6.3 PMSM Model in α-β (x-y) Axis -- 6.6.4 Transformations -- 6.6.5 Control System -- 6.6.6 Simulation Results -- 6.7 Problems -- References -- 7 Five-Phase Induction Motor Drive System -- 7.1 Preliminary Remarks -- 7.2 Advantages and Applications of Multi-Phase Drives -- 7.3 Modeling and Simulation of a Five-Phase Induction Motor Drive -- 7.3.1 Five-Phase Induction Motor Model -- 7.3.2 Five-Phase Two-Level Voltage Source Inverter Model -- 7.3.3 PWM Schemes of a Five-Phase VSI -- 7.4 Indirect Rotor Field Oriented Control of Five-Phase Induction Motor -- 7.4.1 Matlab/Simulink Model of Field-Oriented Control of Five-Phase Induction Machine -- 7.5 Field Oriented Control of Five-Phase Induction Motor with Current Control in the Synchronous Reference Frame -- 7.6 Model Predictive Control (MPC) -- 7.6.1 MPC Applied to a Five-Phase Two-Level VSI. | |
| 880 | 0 | |6 505-00/(S |a High Performance Control of AC Drives with Matlab/simulink Models -- Contents -- Acknowledgment -- Biographies -- Preface -- 1 Introduction to High Performance Drives -- 1.1 Preliminary Remarks -- 1.2 General Overview of High Performance Drives -- 1.3 Challenges and Requirements for Electric Drives for Industrial Applications -- 1.3.1 Power Quality and LC Resonance Suppression -- 1.3.2 Inverter Switching Frequency -- 1.3.3 Motor Side Challenges -- 1.3.4 High dv/dt and Wave Reflection -- 1.3.5 Use of Inverter Output Filters -- 1.4 Organization of the Book -- References -- 2 Mathematical and Simulation Models of AC Machines -- 2.1 Preliminary Remarks -- 2.2 DC Motors -- 2.2.1 Separately Excited DC Motor Control -- 2.2.2 Series DC Motor Control -- 2.3 Squirrel Cage Induction Motor -- 2.3.1 Space Vector Representation -- 2.3.2 Clarke Transformation (ABC to αβ) -- 2.3.3 Park Transformation (αβ to dq) -- 2.3.4 Per Unit Model of Induction Motor -- 2.3.5 Double Fed Induction Generator (DFIG) -- 2.4 Mathematical Model of Permanent Magnet Synchronous Motor -- 2.4.1 Motor Model in dq Rotating Frame -- 2.4.2 Example of Motor Parameters for Simulation -- 2.4.3 PMSM Model in Per Unit System -- 2.4.4 PMSM Model in α-β (x-y)-Axis -- 2.5 Problems -- References -- 3 Pulse Width Modulation of Power Electronic DC-AC Converter -- 3.1 Preliminary Remarks -- 3.2 Classification of PWM Schemes for Voltage Source Inverters -- 3.3 Pulse Width Modulated Inverters -- 3.3.1 Single-Phase Half-bridge Inverters -- 3.3.2 Single-Phase Full-bridge Inverters -- 3.4 Three-phase PWM Voltage Source Inverter -- 3.4.1 Carrier-based Sinusoidal PWM -- 3.4.2 Third-harmonic Injection Carrier-based PWM -- 3.4.3 Matlab/Simulink Model for Third Harmonic Injection PWM -- 3.4.4 Carrier-based PWM with Offset Addition -- 3.4.5 Space Vector PWM -- 3.4.6 Discontinuous Space Vector PWM. | |
| 880 | 8 | |6 505-00/(S |a 4.4.2 Vector Control of PMSM in dq Axis -- 4.4.3 Vector Control of PMSM in α-β Axis using PI Controller -- 4.4.4 Scalar Control of PMSM -- Exercises -- Additional Tasks -- Possible Tasks for DFIG -- Questions -- References -- 5 Direct Torque Control of AC Machines -- 5.1 Preliminary Remarks -- 5.2 Basic Concept and Principles of DTC -- 5.2.1 Basic Concept -- 5.2.2 Principle of DTC -- 5.3 DTC of Induction Motor with Ideal Constant Machine Model -- 5.3.1 Ideal Constant Parameter Model of Induction Motors -- 5.3.2 Direct Torque Control Scheme -- 5.3.3 Speed Control with DTC -- 5.3.4 Matlab/Simulink Simulation of Torque Control and Speed Control with DTC -- 5.4 DTC of Induction Motor with Consideration of Iron Loss -- 5.4.1 Induction Machine Model with Iron Loss Consideration -- 5.4.2 Matlab/Simulink Simulation of the Effects of Iron Losses in Torque Control and Speed Control -- 5.4.3 Modified Direct Torque Control Scheme for Iron Loss Compensation -- 5.5 DTC of Induction Motor with Consideration of both Iron Losses and Magnetic Saturation -- 5.5.1 Induction Machine Model with Consideration of Iron Losses and Magnetic Saturation -- 5.5.2 Matlab/Simulink Simulation of Effects of both Iron Losses and Magnetic Saturation in Torque Control and Speed Control -- 5.6 Modified Direct Torque Control of Induction Machine with Constant Switching Frequency -- 5.7 Direct Torque Control of Sinusoidal Permanent Magnet Synchronous Motors (SPMSM) -- 5.7.1 Introduction -- 5.7.2 Mathematical Model of Sinusoidal PMSM -- 5.7.3 Direct Torque Control Scheme of PMSM -- 5.7.4 Matlab/Simulink Simulation of SPMSM with DTC -- References -- 6 Non-Linear Control of Electrical Machines Using Non-Linear Feedback -- 6.1 Introduction -- 6.2 Dynamic System Linearization using Non-Linear Feedback -- 6.3 Non-Linear Control of Separately Excited DC Motors. | |
| 880 | 8 | |6 505-00/(S |a 3.4.7 Matlab/Simulink Model for Space Vector PWM -- 3.4.8 Space Vector PWM in Over-modulation Region -- 3.4.9 Matlab/Simulink Model to Implement Space Vector PWM in Over-modulation Regions -- 3.4.10 Harmonic Analysis -- 3.4.11 Artificial Neural Network-based PWM -- 3.4.12 Matlab/Simulink Model of Implementing ANN-based SVPWM -- 3.5 Relationship between Carrier-based PWM and SVPWM -- 3.5.1 Modulating Signals and Space Vectors -- 3.5.2 Relationship between Line-to-line Voltages and Space Vectors -- 3.5.3 Modulating Signals and Space Vector Sectors -- 3.6 Multi-level Inverters -- 3.6.1 Diode Clamped Multi-level Inverters -- 3.6.2 Flying Capacitor Type Multi-level Inverter -- 3.6.3 Cascaded H-Bridge Multi-level Inverter -- 3.7 Impedance Source or Z-source Inverter -- 3.7.1 Circuit Analysis -- 3.7.2 Carrier-based Simple Boost PWM Control of a Z-source Inverter -- 3.7.3 Carrier-based Maximum Boost PWM Control of a Z-source Inverter -- 3.7.4 Matlab/Simulink Model of Z-source Inverter -- 3.8 Quasi Impedance Source or qZSI Inverter -- 3.8.1 Matlab/Simulink Model of qZ-source Inverter -- 3.9 Dead Time Effect in a Multi-phase Inverter -- 3.10 Summary -- 3.11 Problems -- References -- 4 Field Oriented Control of AC Machines -- 4.1 Introduction -- 4.2 Induction Machines Control -- 4.2.1 Control of Induction Motor using V/f Method -- 4.2.2 Vector Control of Induction Motor -- 4.2.3 Direct and Indirect Field Oriented Control -- 4.2.4 Rotor and Stator Flux Computation -- 4.2.5 Adaptive Flux Observers -- 4.2.6 Stator Flux Orientation -- 4.2.7 Field Weakening Control -- 4.3 Vector Control of Double Fed Induction Generator (DFIG) -- 4.3.1 Introduction -- 4.3.2 Vector Control of DFIG Connected with the Grid (αβ Model) -- 4.3.3 Variables Transformation -- 4.3.4 Simulation Results -- 4.4 Control of Permanent Magnet Synchronous Machine -- 4.4.1 Introduction. | |
| 880 | 8 | |6 505-01/(S |a 7.6.2 Matlab/Simulink of MPC for Five-Phase VSI -- 7.6.3 Using Eleven Vectors with γ = 0 -- 7.6.4 Using Eleven Vectors with γ = 1 -- 7.7 Summary -- 7.8 Problems -- References -- 8 Sensorless Speed Control of AC Machines -- 8.1 Preliminary Remarks -- 8.2 Sensorless Control of Induction Motor -- 8.2.1 Speed Estimation using Open Loop Model and Slip Computation -- 8.2.2 Closed Loop Observers -- 8.2.3 MRAS (Closed-loop) Speed Estimator -- 8.2.4 The Use of Power Measurements -- 8.3 Sensorless Control of PMSM -- 8.3.1 Control system of PMSM -- 8.3.2 Adaptive Backstepping Observer -- 8.3.3 Model Reference Adaptive System for PMSM -- 8.3.4 Simulation Results -- 8.4 MRAS-based Sensorless Control of Five-Phase Induction Motor Drive -- 8.4.1 MRAS-based Speed Estimator -- 8.4.2 Simulation Results -- References -- 9 Selected Problems of Induction Motor Drives with Voltage Inverter and Inverter Output Filters -- 9.1 Drives and Filters -- Overview -- 9.2 Three-Phase to Two-Phase Transformations -- 9.3 Voltage and Current Common Mode Component -- 9.3.1 Matlab/Simulink Model of Induction Motor Drive with PWM Inverter and Common Mode Voltage -- 9.4 Induction Motor Common Mode Circuit -- 9.5 Bearing Current Types and Reduction Methods -- 9.5.1 Common Mode Choke -- 9.5.2 Common Mode Transformers -- 9.5.3 Common Mode Voltage Reduction by PWM Modifications -- 9.6 Inverter Output Filters -- 9.6.1 Selected Structures of Inverter Output Filters -- 9.6.2 Inverter Output Filters Design -- 9.6.3 Motor Choke -- 9.6.4 Matlab/Simulink Model of Induction Motor Drive with PWM Inverter and Differential Mode (Normal Mode) LC Filter -- 9.7 Estimation Problems in the Drive with Filters -- 9.7.1 Introduction -- 9.7.2 Speed Observer with Disturbances Model -- 9.7.3 Simple Observer based on Motor Stator Models -- 9.8 Motor Control Problems in the Drive with Filters -- 9.8.1 Introduction. | |
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