封面
前言
PART 1 FUNDAMENTALS OF ELECTRIC ENGINEERING
 Chapter 1 Circuit Fundamentals
  1.1 Electrostatic Charges
  1.2 Conductors，Insulators and Semiconductors
   1.2.1 Conductors
   1.2.2 Insulators
   1.2.3 Semiconductors
  1.3 Current，Voltage and Resistance
   1.3.1 Current
   1.3.2 Voltage
   1.3.3 Resistance
  1.4 Measuring Resistance，Voltage and Current
   1.4.1 Measuring Resistance
   1.4.2 Measuring Voltage
   1.4.3 Measuring Current
  1.5 DC Series Electrical Circuit
  1.6 Alternating Current Voltage
   1.6.1 Parameters Associated with AC Sine Wave
   1.6.2 Single-Phase and Three-Phase AC Voltages
 Chapter 2 Analog Electronics
  2.1 Introduction
  2.2 Operational Amplifiers
   2.2.1 Integrated-Circuit Amplifying Systems
   2.2.2 Properties and Construction
   2.2.3 Schematic Symbol of an OP-AMP
  2.3 Differential Amplifiers
   2.3.1 Simple Differential Amplifier
   2.3.2 Instrumentation-Quality Differential Amplifier
  2.4 Integrator and Differentiator
   2.4.1 Integrator Circuit
   2.4.2 Differentiator Circuit
  2.5 Active Filters
 Chapter 3 Digital Electronics
  3.1 Introduction
  3.2 Digital Number Systems
   3.2.1 Binary Number System
   3.2.2 Binary-Coded Decimal Number System
   3.2.3 Octal Number System
   3.2.4 Hexadecimal Number System
  3.3 Binary Logic Circuits
  3.4 Combination Logic Gates
  3.5 Timing and Storage Elements
   3.5.1 Flip-Flops
   3.5.2 Counters
 Chapter 4 Power Electronics Technology
  4.1 Introduction
  4.2 Applications and the Roles of Power Electronics
   4.2.1 Powering the Information Technology
   4.2.2 Robotics and Flexible Production
   4.2.3 Energy and the Environment
   4.2.4 Utility Applications of Power Electronics
   4.2.5 Strategic Space and Defense Applications
  4.3 Structure of Power Electronics Interface
   4.3.1 Voltage-Link Structure
   4.3.2 Current-Link Structure
   4.3.3 Matrix Converters(Direct-Link Structure）
  4.4 Voltage-Link Structure Applications
   4.4.1 Switch-Mode Conversion： Switching Power-Pole as the Building Block
   4.4.2 Pulse Width Modulation(PWM)of the Switching Power-Pole(constant fs ）
   4.4.3 Switching Power-Pole in a Buck DC-DC Converter
  4.5 Recent and Potential Advancements
 Chapter 5 Magnetism and Electromagnetism
  5.1 Introduction
  5.2 Permanent Magnets
  5.3 Magnetic Field around Conductors and a Coil
   5.3.1 Magnetic Field around Conductors
   5.3.2 Magnetic Field around a Coil
   5.3.3 Electromagnets
  5.4 Ohm's Law for Magnetic Circuits
  5.5 Domain Theory of Magnetism
  5.6 Electricity Produced by Magnetism
PART 2 CONTROL THEORY AND TECHNOLOGY
 Chapter 6 Knowledge of Control Theory
  6.1 What Is Control？
  6.2 Feedback
  6.3 PID Control
  6.4 Adaptive Control
   6.4.1 Introduction
   6.4.2 Formulation of Adaptive Control Problem
 Chapter 7 Motor Drives and Controls
  7.1 DC Motor Drives
   7.1.1 Thyristor DC Drives-General
   7.1.2 Control Arrangements for DC Drives
   7.1.3 Chopper-Fed DC Motor Drives
  7.2 Inverter-Fed Induction Motor Drives
   7.2.1 Introduction
   7.2.2 Torque-Speed V / F Operation Constant
   7.2.3 Vector(Field-Oriented)Control
 Chapter 8 Programmable Logic Controller Technology
  8.1 Introduction
   8.1.1 Central Processing Unit
   8.1.2 Memory
   8.1.3 Programming a PLC Controller
   8.1.4 Power Supply
   8.1.5 PLC Controller Inputs
   8.1.6 Input Adjustment Interface
   8.1.7 PLC Controller Output
   8.1.8 Output Adjustment Interface
   8.1.9 Extension Lines
  8.2 PLC Operation Process
   Step 1—Check Input Status
   Step 2—Execute Program
   Step 3—Update Output Status
  8.3 PLC Maintenance Management
   8.3.1 What Is A PLC
   8.3.2 How Many PLCs Is Your Bottom Line Depending on
   8.3.3 Do You Have an Up to Date List of All PLC for Your Company
   8.3.4 Do You Have Trained Person Per Shift to Maintain and Troubleshoot Your Plant PLCs
  8.4 The Application Future of PLC
 Chapter 9 Single Chip Microcomputer Control Technology
  9.1 Foundation
   9.1.1 Read Only Memory-ROM
   9.1.2 Random Access Memory-RAM
   9.1.3 Central Processing Unit
   9.1.4 Parallel Input / Output
   9.1.5 Serial Input / Output
   9.1.6 Timer / Counter Facilities
   9.1.7 Timing Components
  9.2 A Single-Chip Microcomputer Integrated Circuit
  9.3 Digital Signal Processors
 Chapter 10 Computer Networking Basics
  10.1 Foundation
  10.2 Applications
  10.3 Requirements
  10.4 Links，Nodes and Clouds
  10.5 Network Architecture
  10.6 Network Security
PART 3 ELECRICAL MACHINES AND DEVICES
 Chapter 11 Direct-Current Machines
  11.1 Introduction
  11.2 Basic Structural Feature
   11.2.1 Armature Winding
   11.2.2 Field Winding
   11.2.3 Commutators
   11.2.4 Brushes
  11.3 Effect of Armature MMF
 Chapter 12 Three-Phase Induction Motors
  12.1 Introduction
  12.2 Construction of Three-Phase Induction Motors
  12.3 Principle of Operation
  12.4 Equivalent Circuit
 Chapter 13 Synchronous Machines
  13.1 Introduction
  13.2 Principle of Operation
 Chapter 14 Transformers
  14.1 Introduction
  14.2 Transformer Construction
   14.2.1 Cores
   14.2.2 Windings(Fig.14-5）
  14.3 Ideal Transformers
 Chapter 15 Permanent Magnet Machines
  15.1 Introduction
  15.2 Introduction of PM Materials
  15.3 Classification of PM Motors
  15.4 Operational Principle of PM Motors
   15.4.1 Operationai Principle of PM Commutator Motors
   15.4.2 Operational Principle of PM Brushless DC Motors
   15.4.3 Operational Principle of PM Synchronous Motors
PART 4 POWER SYSTEMS
 Chapter 16 Operating Characteristics of Modern Power Systems
  16.1 Transmission and Distribution Systems
  16.2 Power System Controls
  16.3 Generator-Voltage Control
  16.4 Turbine-Governor Control
  16.5 Load-Frequency Control
  16.6 Optimal Power Flow
  16.7 Power System Stability
 Chapter 17 Generating Plants
  17.1 Electric Energy
  17.2 Fossil-Fuel Plants
  17.3 Nuclear Power Plants
  17.4 Hydroelectric Power Plants
  17.5 Wind Power Systems
  17.6 Photovoltaic Systems
 Chapter 18 Concepts and Models for Microgeneration and Microgrids
  18.1 Introduction
  18.2 The Foundation of Microgrid Concept
  18.3 The Microgrid Operational and Control Architecture
 Chapter 19 High Voltage Insulation
  19.1 Introduction
  19.2 Lightning
  19.3 Switching Surges
  19.4 Insulation Coordination
 Chapter 20 System Protection
  20.1 Introduction
  20.2 Protection of Radial Systems
  20.3 System with Two Sources
  20.4 Impedance(Distance)Relays
  20.5 Differential Protection of Generators
  20.6 Differential Protection of Transformers
  20.7 Computer Relaying