AC Motor Control and Electrical Vehicle Applications
Crc Press Inc (Verlag)
978-1-4398-1963-0 (ISBN)
- Titel erscheint in neuer Auflage
- Artikel merken
Motor control technology continues to play a vital role in the initiative to eliminate or at least decrease petroleum dependency and greenhouse gas emissions around the world. Increased motor efficiency is a crucial aspect of this science in the global transition to clean power use in areas such as industrial applications and home appliances—but particularly in the design of vehicles.
Summarizes the evolution of motor driving units toward high efficiency, low cost, high power density, and flexible interface with other components
AC Motor Control and Electric Vehicle Applications addresses the topics mentioned in its title but also elaborates on motor design perspective, such as back EMF harmonics, loss, flux saturation, and reluctance torque, etc. Maintaining theoretical integrity in AC motor modeling and control throughout, the author focuses on the benefits and simplicity of the rotor field-oriented control, describing the basics of PWM, inverter, and sensors. He also clarifies the fundamentals of electric vehicles and their associated dynamics, motor issues, and battery limits. A powerful compendium of practical information, this book serves as an overall useful tool for the design and control of high-efficiency motors.
Postech University, South Korea
Preliminaries for Motor Control
Basics of DC Machines
Types of Controllers
Rotating Field Theory
Construction of Rotating Field
Change of Coordinates
Induction Motor Basics
IM Operation Principle
Leakage Inductance and Circle Diagram
Slot Leakage Inductance and Current Displacement
IM Speed Control
Dynamic Modeling of Induction Motors
Voltage Equation
IM Dynamic Models
Steady State Models
Power and Torque Equations
Field Oriented Controls of Induction Motors
Direct versus Indirect Vector Controls
Rotor Field Orientated Scheme
Stator Field Oriented Scheme
Field Weakening Control
Speed Sensorless Control of IMs
PI Controller in the Synchronous Frame [5], [6]
Permanent Magnet AC Motors
PMSM and BLDC Motor
PMSM Dynamic Modeling
PMSM Torque Equations
PMSM Block Diagram and Control
PMSM High Speed Operation
Machine Sizing
Extending Constant Power Speed Range
Current Control Methods
Properties When ψm = LdIs
Per Unit Model of the PMSM
An EV Motor Example
Loss Minimizing Control
Motor Losses
Loss Minimizing Control for IMs
Loss Minimizing Control for IPMSMs
Sensorless Control of PMSMs
IPMSM Dynamics a Misaligned Frame
Sensorless Control for SPMSMs
Sensorless Controls for IPMSMs
Starting Algorithm by Signal Injection Method
High Frequency Signal Injection Methods
Pulse Width Modulation and Inverter
Switching Functions and Six Step Operation
PWM Methods
Speed/Position and Current Sensors
Vehicle Dynamics
Longitudinal Vehicle Dynamics
Acceleration Performance and Vehicle Power
Driving Cycle
Hybrid Electric Vehicles
HEV Basics
HEV Power Train Configurations
Planetary Gear
Power Split with Speeder and Torquer
Series/Parallel Drive Train
Series Drive Train
Parallel Drive Train
Battery EVs and PHEVs
Electric Vehicles Batteries
BEV and PHEV
BEVs
Plug-in Hybrid Electric Vehicles
EV Motor Design Issues
Types of Synchronous Motors
Distributed and Concentrated Windings
PM Eddy Current Loss and Demagnetization
EV Design Example
Index
| Erscheint lt. Verlag | 12.5.2010 |
|---|---|
| Zusatzinfo | 545; 28 Tables, black and white; 218 Illustrations, black and white |
| Verlagsort | Bosa Roca |
| Sprache | englisch |
| Maße | 178 x 254 mm |
| Gewicht | 975 g |
| Themenwelt | Technik ► Elektrotechnik / Energietechnik |
| ISBN-10 | 1-4398-1963-7 / 1439819637 |
| ISBN-13 | 978-1-4398-1963-0 / 9781439819630 |
| Zustand | Neuware |
| Haben Sie eine Frage zum Produkt? |
aus dem Bereich
