- 电气工程与自动化专业英语(第3版普通高等教育电气工程自动化系列教材)
- - 作者：编者:王伟//张殿海//黄少坡|责编:王雅新//刘琴琴
  - 出版社：机械工业
  - ISBN：9787111743446
  - 出版日期：2024/01/01
  - 页数：234
- 售价：19.6

内容大纲
本书分为电气工程基础、控制理论与技术、电机与电器、电力系统4大部分，共20章，涵盖了电气工程及其自动化、自动化专业的主要专业基础理论内容，其中包括目前电气工程领域研究的热点内容。本书专业性和实用性强，注重从实际应用出发培养学生的专业英语阅读、表述和写作能力。书中所涉及的新能源技术、特种电机及微电网技术等内容可以作为思政元素，引导学生牢固树立低碳、节能、环保的意识及社会责任感。本书每章后均补充了必要的专业英语词汇及句子注释，并以二维码形式给出了各章词汇的音频，便于读者对各章知识点的正确理解和自学。
本书既可作为高等院校电气工程及其自动化、自动化及相关专业学生的专业英语教材，也可作为工程技术人员的自学参考用书。
作者介绍
目录
PART 1  FUNDAMENTALS OF ELECTRIC ENGINEERING
  Chapter 1  Circuit Fundamentals
    1.1  Electrostatic Charges
    1.2  Conductors, Insulators and Semiconductors
    1.3  Current, Voltage and Resistance
    1.4  Measuring Resistance, Voltage and Current
    1.5  DC Series Electrical Circuit
    1.6  Alternating Current Voltage
  Chapter 2  Analog Electronics
    2.1  Introduction
    2.2  Operational Amplifiers
    2.3  Differential Amplifiers
    2.4  Integrator and Differentiator
    2.5  Active Filters
  Chapter 3  Digital Electronics
    3.1  Introduction
    3.2  Digital Number Systems
    3.3  Binary Logic Circuits
    3.4  Combination Logic Gates
    3.5  Timing and Storage Elements
  Chapter 4  Power Electronics Technology
    4.1  Introduction
    4.2  Applications and the Roles of Power Electronics
    4.3  Structure of Power Electronics Interface
    4.4  Voltage-Link Structure Applications
    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
    5.4  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
  Chapter 7  Motor Drives and Controls
    7.1  DC Motor Drives
    7.2  Inverter-Fed Induction Motor Drives
  Chapter 8  Programmable Logic Controller Technology
    8.1  Introduction
    8.2  PLC Operation Process
    8.3  PLC Maintenance Management
    8.4  The Application Future of PLC
  Chapter 9  Single Chip Microcomputer Control Technology
    9.1  Foundation
    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
    11.3  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
    14.3  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
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

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