內容大鋼
本書分為電氣工程基礎、控制理論與技術、電機與電器、電力系統4大部分,共20章,涵蓋了電氣工程及其自動化、自動化專業的主要專業基礎理論內容,其中包括目前電氣工程領域研究的熱點內容。本書專業性和實用性強,注重從實際應用出發培養學生的專業英語閱讀、表述和寫作能力。書中所涉及的新能源技術、特種電機及微電網技術等內容可以作為思政元素,引導學生牢固樹立低碳、節能、環保的意識及社會責任感。本書每章后均補充了必要的專業英語辭彙及句子註釋,並以二維碼形式給出了各章辭彙的音頻,便於讀者對各章知識點的正確理解和自學。
本書既可作為高等院校電氣工程及其自動化、自動化及相關專業學生的專業英語教材,也可作為工程技術人員的自學參考用書。
目錄
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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