Control of Electric Machine Drive Systems

Similar documents
Control of Electric Machine Drive Systems. Seung-Ki Sul

HIGH PERFORMANCE CONTROL OF AC DRIVES WITH MATLAB/SIMULINK MODELS

Contents. About the Authors. Abbreviations and Symbols

Bahram Amin. Induction Motors. Analysis and Torque Control. With 41 Figures and 50 diagrams (simulation plots) Springer

Type of loads Active load torque: - Passive load torque :-

CHAPTER 2 CURRENT SOURCE INVERTER FOR IM CONTROL

UNIT-III STATOR SIDE CONTROLLED INDUCTION MOTOR DRIVE

Fundamentals of Power Electronics

PART 2 - ACTUATORS. 6.0 Stepper Motors. 6.1 Principle of Operation

EEE, St Peter s University, India 2 EEE, Vel s University, India

A Dynamic Modeling Permanent Magnet Synchronous Motor Drive System

Sascha Stegen School of Electrical Engineering, Griffith University, Australia

Matlab Simulation of Induction Motor Drive using V/f Control Method

SPEED CONTROL OF PERMANENT MAGNET SYNCHRONOUS MOTOR USING VOLTAGE SOURCE INVERTER

EE 410/510: Electromechanical Systems Chapter 5

User Guide IRMCS3041 System Overview/Guide. Aengus Murray. Table of Contents. Introduction

3.1.Introduction. Synchronous Machines

CHAPTER 3 VOLTAGE SOURCE INVERTER (VSI)

CONVERTERS IN POWER VOLTAGE-SOURCED SYSTEMS. Modeling, Control, and Applications IEEE UNIVERSITATSBIBLIOTHEK HANNOVER. Amirnaser Yazdani.

ELECTRIC MACHINES MODELING, CONDITION MONITORING, SEUNGDEOG CHOI HOMAYOUN MESHGIN-KELK AND FAULT DIAGNOSIS HAMID A. TOLIYAT SUBHASIS NANDI

User Guide Introduction. IRMCS3043 System Overview/Guide. International Rectifier s imotion Team. Table of Contents

Simulation and Dynamic Response of Closed Loop Speed Control of PMSM Drive Using Fuzzy Controller

Chhattisgarh Swami Vivekanand Technical University, Bhilai

Page ENSC387 - Introduction to Electro-Mechanical Sensors and Actuators: Simon Fraser University Engineering Science

Experiment 3. Performance of an induction motor drive under V/f and rotor flux oriented controllers.

Generalized Theory Of Electrical Machines

Adaptive Flux-Weakening Controller for IPMSM Drives

Simulation and Dynamic Response of Closed Loop Speed Control of PMSM Drive Using Fuzzy Controller

Stability of Voltage using Different Control strategies In Isolated Self Excited Induction Generator for Variable Speed Applications

1. Introduction 1.1 Motivation and Objectives

Module 7. Electrical Machine Drives. Version 2 EE IIT, Kharagpur 1

CHAPTER 2 D-Q AXES FLUX MEASUREMENT IN SYNCHRONOUS MACHINES

POWER ISIPO 29 ISIPO 27

EE 560 Electric Machines and Drives. Autumn 2014 Final Project. Contents

Conventional Paper-II-2013

ELECTRONIC CONTROL OF A.C. MOTORS

Synchronous Current Control of Three phase Induction motor by CEMF compensation

Mitigation of Cross-Saturation Effects in Resonance-Based Sensorless Switched Reluctance Drives

SVPWM Based Speed Control of Induction Motor with Three Level Inverter Using Proportional Integral Controller

POWER ELECTRONICS. Converters, Applications, and Design. NED MOHAN Department of Electrical Engineering University of Minnesota Minneapolis, Minnesota

Three Phase Induction Motor Drive Using Single Phase Inverter and Constant V/F method

INSTANTANEOUS POWER THEORY AND APPLICATIONS TO POWER CONDITIONING

FOR the last decade, many research efforts have been made

International Journal of Advance Engineering and Research Development

Reduction of Harmonics and Torque Ripples of BLDC Motor by Cascaded H-Bridge Multi Level Inverter Using Current and Speed Control Techniques

Implementation and position control performance of a position-sensorless IPM motor drive system based on magnetic saliency

CHAPTER 1 INTRODUCTION

Analog Devices: High Efficiency, Low Cost, Sensorless Motor Control.

SYNCHRONOUS MACHINES

1. Explain in detail the constructional details and working of DC motor.

Compensation for Multilevel Voltage Waveform Generated by Dual Inverter System

Overview of IAL Software Programs for the Calculation of Electrical Drive Systems

Inductance Based Sensorless Control of Switched Reluctance Motor

SINGLE PHASE BRIDGELESS PFC FOR PI CONTROLLED THREE PHASE INDUCTION MOTOR DRIVE

ANALYSIS OF EFFECTS OF VECTOR CONTROL ON TOTAL CURRENT HARMONIC DISTORTION OF ADJUSTABLE SPEED AC DRIVE

Design of A Closed Loop Speed Control For BLDC Motor

Sistemi per il controllo motori

Cost Effective Control of Permanent Magnet Brushless Dc Motor Drive

Electrical Drives I. Week 4-5-6: Solid state dc drives- closed loop control of phase controlled DC drives

Placement Paper For Electrical

NEW ADAPTIVE SPEED CONTROLLER FOR IPMSM DRIVE

CHAPTER-III MODELING AND IMPLEMENTATION OF PMBLDC MOTOR DRIVE

Speed control of sensorless BLDC motor with two side chopping PWM

SPEED CONTROL OF SENSORLESS BLDC MOTOR WITH FIELD ORIENTED CONTROL

CHAPTER 3 EQUIVALENT CIRCUIT AND TWO AXIS MODEL OF DOUBLE WINDING INDUCTION MOTOR

TRACK VOLTAGE APPROACH USING CONVENTIONAL PI AND FUZZY LOGIC CONTROLLER FOR PERFORMANCE COMPARISON OF BLDC MOTOR DRIVE SYSTEM FED BY CUK CONVERTER

Latest Control Technology in Inverters and Servo Systems

Simulation of Speed Control of Induction Motor with DTC Scheme Patel Divyaben Lalitbhai 1 Prof. C. A. Patel 2 Mr. B. R. Nanecha 3

INSTITUTE OF AERONAUTICAL ENGINEERING (AUTONOMOUS) Dundigal, Hyderabad

Induction motor control by vector control method.

CONTENTS. Chapter 1. Introduction to Power Conversion 1. Basso_FM.qxd 11/20/07 8:39 PM Page v. Foreword xiii Preface xv Nomenclature

Low Cost Power Converter with Improved Performance for Switched Reluctance Motor Drives

Direct Grid Connection of Permanent Magnet Synchronus Motor Using Auxiliary Inverter and Matrix Converter with Transition Control

IOCL Electrical Engineering Technical Paper

IN MANY industrial applications, ac machines are preferable

Step vs. Servo Selecting the Best

BECAUSE OF their low cost and high reliability, many

PREDICTIVE CONTROL OF POWER CONVERTERS AND ELECTRICAL DRIVES

Power Factor Improvement with Single Phase Diode Rectifier in Interior Permanent Magnet Motor

Harnessing of wind power in the present era system

ROTOR FLUX VECTOR CONTROL TRACKING FOR SENSORLESS INDUCTION MOTOR

ELG2336 Introduction to Electric Machines

Rare-Earth-Less Motor with Field Poles Excited by Space Harmonics

CHAPTER 3 WAVELET TRANSFORM BASED CONTROLLER FOR INDUCTION MOTOR DRIVES

PMSM TECHNOLOGY IN HIGH PERFORMANCE VARIABLE SPEED APPLICATIONS

Comparative Analysis of Space Vector Pulse-Width Modulation and Third Harmonic Injected Modulation on Industrial Drives.

Analysis of Voltage Source Inverters using Space Vector PWM for Induction Motor Drive

TABLE OF CONTENTS CHAPTER NO. TITLE PAGE NO. LIST OF TABLES LIST OF FIGURES LIST OF SYMBOLS AND ABBREVIATIONS

IMPLEMENTATION OF NEURAL NETWORK IN ENERGY SAVING OF INDUCTION MOTOR DRIVES WITH INDIRECT VECTOR CONTROL

A Comparative Study of Sinusoidal PWM and Space Vector PWM of a Vector Controlled BLDC Motor

Modeling and Simulation of Induction Motor Drive with Space Vector Control

ADVANCED DC-DC CONVERTER CONTROLLED SPEED REGULATION OF INDUCTION MOTOR USING PI CONTROLLER

ANALYSIS OF POWER QUALITY IMPROVEMENT OF BLDC MOTOR DRIVE USING CUK CONVERTER OPERATING IN DISCONTINUOUS CONDUCTION MODE

Flux-Weakening in IPM Motor Drives: Comparison of State-of-Art Algorithms and a Novel Proposal for Controller Design

Selected Problems of Induction Motor Drives with Voltage Inverter and Inverter Output Filters

Test. Class 2 Tuesday, February 3,2015. Efficiency Voltage regulation, O.C.& S.C. Tests

Applying POWERSYS and SIMULINK to Modeling Switched Reluctance Motor

Chapter 10: Compensation of Power Transmission Systems

combine regular DC-motors with a gear-box and an encoder/potentiometer to form a position control loop can only assume a limited range of angular

Simulation and Analysis of SVPWM Based 2-Level and 3-Level Inverters for Direct Torque of Induction Motor

Transcription:

Control of Electric Machine Drive Systems Seung-Ki Sul IEEE 1 PRESS к SERIES I 0N POWER ENGINEERING Mohamed E. El-Hawary, Series Editor IEEE PRESS WILEY A JOHN WILEY & SONS, INC., PUBLICATION

Contents Preface xiii 1 Introduction 1 1.1 Introduction 1 1.1.1 Electric Machine Drive System 4 1.1.2 Trend of Development of Electric Machine Drive System 5 1.1.3 Trend of Development of Power Semiconductor 7 1.1.4 Trend of Development of Control Electronics 8 1.2 Basics of Mechanics 8 1.2.1 Basic Laws 9 1.2.2 Force and Torque 9 1.2.3 Moment of Inertia of a Rotating Body 11 1.2.4 Equations of Motion for a Rigid Body 13 1.2.5 Power and Energy 17 1.2.6 Continuity of Physical Variables 18 1.3 Torque Speed Curve of Typical Mechanical Loads 18 1.3.1 Fan, Pump, and Blower 18 1.3.2 Hoisting Load; Crane, Elevator 20 1.3.3 Traction Load (Electric Vehicle, Electric Train) 21 1.3.4 Tension Control Load 23 Problems 24 References 35 2 Basic Structure and Modeling of Electric Machines and Power Converters 36 2.1 Structure and Modeling of DC Machine 36 2.2 Analysis of Steady-State Operation 41 2.2.1 Separately Excited Shunt Machine 42 2.2.2 Series Excited DC Machine 45 2.3 Analysis of Transient State of DC Machine 46 2.3.1 Separately Excited Shunt Machine 47 2.4 Power Electronic Circuit to Drive DC Machine 50 2.4.1 Static Ward-Leonard System 51 2.4.2 Four-Quadrants Chopper System 52 2.5 Rotating Magnetic Motive Force 53 2.6 Steady-State Analysis of a Synchronous Machine 58 vn

viii Contents 2.7 Linear Electric Machine 62 2.8 Capability Curve of Synchronous Machine 63 2.8.1 Round Rotor Synchronous Machine with Field Winding 63 2.8.2 Permanent Magnet Synchronous Machine 64 2.9 Parameter Variation of Synchronous Machine 66 2.9.1 Stator and Field Winding Resistance 66 2.9.2 Synchronous Inductance 66 2.9.3 Back EMF Constant 67 2.10 Steady-State Analysis of Induction Machine 70 2.10.1 Steady-State Equivalent Circuit of an Induction Machine 72 2.10.2 Constant Air Gap Flux Operation 77 2.11 Generator Operation of an Induction Machine 79 2.12 Variation of Parameters of an Induction Machine 81 2.12.1 Variation of Rotor Resistance, R r 81 2.12.2 Variation of Rotor Leakage Inductance, L fr 82 2.12.3 Variation of Stator Resistance, R, 82 2.12.4 Variation of Stator Leakage Inductance, L & 83 2.12.5 Variation of Excitation Inductance, L m 84 2.12.6 Variation of Resistance Representing Iron Loss, R m 84 2.13 Classification of Induction Machines According to Speed-Torque Characteristics 84 2.14 Quasi-Transient State Analysis 87 2.15 Capability Curve of an Induction Machine 88 2.16 Comparison of AC Machine and DC Machine 90 2.16.1 Comparison of a Squirrel Cage Induction Machine and a Separately Excited DC Machine 90 2.16.2 Comparison of a Permanent Magnet AC Machine and a Separately Excited DC Machine 92 2.17 Variable-Speed Control of Induction Machine Based on Steady-State Characteristics 92 2.17.1 Variable Speed Control of Induction Machine by Controlling Terminal Voltage 93 2.17.2 Variable Speed Control of Induction Machine Based on Constant Air-Gap Flux (RSYF) Control 94 2.17.3 Variable Speed Control of Induction Machine Based on Actual Speed Feedback 95 2.17.4 Enhancement of Constant Air-Gap Flux Control with Feedback of Magnitude of Stator Current 96 2.18 Modeling of Power Converters 96 2.18.1 Three-Phase Diode/Thyristor Rectifier 97 2.18.2 PWM Boost Rectifier 98 2.18.3 Two-Quadrants Bidirectional DC/DC Converter 101 2.18.4 Four-Quadrants DC/DC Converter 102 2.18.5 Three-Phase PWM Inverter 103 2.18.6 Matrix Converter 105 2.19 Parameter Conversion Using Per Unit Method 106 Problems 108 References 114

Contents ix 3 Reference Frame Transformation and Transient State Analysis of Three-Phase AC Machines 116 3.1 Complex Vector 117 3.2 d-q-n Modeling of an Induction Machine Based on Complex Space Vector 119 3.2.1 Equivalent Circuit of an Induction Machine at d-q-n AXIS 120 3.2.2 Torque of the Induction Machine 125 3.3 d-q-n Modeling of a Synchronous Machine Based on Complex Space Vector 128 3.3.1 Equivalent Circuit of a Synchronous Machine at d-q-n AXIS 128 3.3.2 Torque of a Synchronous Machine 138 3.3.3 Equivalent Circuit and Torque of a Permanent Magnet Synchronous Machine 140 3.3.4 Synchronous Reluctance Machine (SynRM) 144 Problems 146 References 153 4 Design of Regulators for Electric Machines and Power Converters 154 4.1 Active Damping 157 4.2 Current Regulator 158 4.2.1 Measurement of Current 158 4.2.2 Current Regulator for Three-Phase-Controlled Rectifier 161 4.2.3 Current Regulator for a DC Machine Driven by a PWM Chopper 166 4.2.4 Anti-Wind-Up 170 4.2.5 AC Current Regulator 173 4.3 Speed Regulator 179 4.3.1 Measurement of Speed/Position of Rotor of an Electric Machine 179 4.3.2 Estimation of Speed with Incremental Encoder 182 4.3.3 Estimation of Speed by a State Observer 189 4.3.4 Р1ЛР Speed Regulator 198 4.3.5 Enhancement of Speed Control Performance with Acceleration Information 204 4.3.6 Speed Regulator with Anti-Wind-Up Controller 206 4.4 Position Regulator 208 4.4.1 Proportional-Proportional and Integral (P-PI) Regulator 208 4.4.2 Feed-Forwarding of Speed Reference and Acceleration Reference 209 4.5 Detection of Phase Angle of AC Voltage 210 4.5.1 Detection of Phase Angle on Synchronous Reference Frame 210 4.5.2 Detection of Phase Angle Using Positive Sequence Voltage on Synchronous Reference Frame 213 4.6 Voltage Regulator 215 4.6.1 Voltage Regulator for DC Link of PWM Boost Rectifier 215 Problems 218 References 228

x Contents 5 Vector Control 230 5.1 Instantaneous Torque Control 231 5.1.1 Separately Excited DC Machine 231 5.1.2 Surface-Mounted Permanent Magnet Synchronous Motor (SMPMSM) 233 5.1.3 Interior Permanent Magnet Synchronous Motor (IPMSM) 235 5.2 Vector Control of Induction Machine 236 5.2.1 Direct Vector Control 237 5.2.2 Indirect Vector Control 243 5.3 Rotor Flux Linkage Estimator 245 5.3.1 Voltage Model Based on Stator Voltage Equation of an Induction Machine 245 5.3.2 Current Model Based on Rotor Voltage Equation of an Induction Machine 246 5.3.3 Hybrid Rotor Flux Linkage Estimator 247 5.3.4 Enhanced Hybrid Estimator 248 5.4 Flux Weakening Control 249 5.4.1 Constraints of Voltage and Current to AC Machine 249 5.4.2 Operating Region of Permanent Magnet AC Machine in Current Plane at Rotor Reference Frame 250 5.4.3 Flux Weakening Control of Permanent Magnet Synchronous Machine 257 5.4.4 Flux Weakening Control of Induction Machine 262 5.4.5 Flux Regulator of Induction Machine 267 Problems 269 References 281 6 Position/Speed Sensorless Control of AC Machines 283 6.1 Sensorless Control of Induction Machine 286 6.1.1 Model Reference Adaptive System (MRAS) 286 6.1.2 Adaptive Speed Observer (ASO) 291 6.2 Sensorless Control of Surface-Mounted Permanent Magnet Synchronous Machine (SMPMSM) 297 6.3 Sensorless Control of Interior Permanent Magnet Synchronous Machine (IPMSM) 299 6.4 Sensorless Control Employing High-Frequency Signal Injection 302 6.4.1. Inherently Salient Rotor Machine 304 6.4.2 AC Machine with Nonsalient Rotor 305 Problems 317 References 320 7 Practical Issues 324 7.1 Output Voltage Distortion Due to Dead Time and Its Compensation 324 7.1.1 Compensation of Dead Time Effect 325

Contents xi 7.1.2 Zero Current Clamping (ZCC) 327 7.1.3 Voltage Distortion Due to Stray Capacitance of Semiconductor Switches 327 7.1.4 Prediction of Switching Instant 330 7.2 Measurement of Phase Current 334 7.2.1 Modeling of Time Delay of Current Measurement System 334 7.2.2 Offset and Scale Errors in Current Measurement 337 7.3 Problems Due to Digital Signal Processing of Current Regulation Loop 342 7.3.1 Modeling and Compensation of Current Regulation Error Due to Digital Delay 342 7.3.2 Error in Current Sampling 346 Problems 350 References 353 Appendix A Measurement and Estimation of Parameters of Electric Machinery 354 A. 1 Parameter Estimation 354 A. 1.1 DC Machine 355 A. 1.2 Estimation of Parameters of Induction Machine 357 A.2 Parameter Estimation of Electric Machines Using Regulators of Drive System 361 A.2.1 Feedback Control System 361 A.2.2 Back EMF Constant of DC Machine, К 363 A.2.3 Stator Winding Resistance of Three-Phase AC Machine, R s 363 A.2.4 Induction Machine Parameters 365 A.2.5 Permanent Magnet Synchronous Machine 370 A.3 Estimation of Mechanical Parameters 374 A.3.1 Estimation Based on Mechanical Equation 374 A.3.2 Estimation Using Integral Process 376 References 380 Appendix В d-q Modeling Using Matrix Equations 381 B.l Reference Frame and Transformation Matrix 381 B.2 d-q Modeling of Induction Machine Using Transformation Matrix 386 B.3 d-q Modeling of Synchronous Machine Using Transformation Matrix 390 Index 391 IEEE Press Series on Power Engineering 401

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback