电气工程与自动化专业英语 本书特色
《电气工程与自动化专业英语》是普通高等教育“十二五”电气信息类规划教材之一。
电气工程与自动化专业英语 目录
PART 1 FUNDAMENTALS OF ELECTRIC ENGINEERINGChapter 1 Circuit Fundamentals1.1 Electrostatic Charges1.2 Conductors, Insulators and Semiconductors1.3 Current, Voltage and Resistance1.4 Measuring Resistance , Voltage and Current1.5 DC Series Electrical Circuit1.6 Alternating Current (AC) VoltageChapter 2 Analog Electronics2. 1 Introduction2.2 Operational Amplifiers2. 3 Differential and Instrumentation Amplifiers2. 4 Integrator and Differentiator2. 5 Active FiltersChapter 3 Digital Electronics3.1 Introduction3.2 Digital Number Systems3.3 Binary Logic Circuits3.4 Combination Logic Gates3.5 Timing and Storage ElementsChapter 4 Power Electronics Technology4. 1 Introduction ...4. 2 Applications and the Roles of Power Electronics4. 3 Energy and Environment4.4 Structure of Power Electronics Interface4. 5 Voltage-Link-Structure4. 6 Recent and Potential AdvancementsChapter 5 Magnetism and Electromagnetism5.1 Introduction5.2 Permanent Magnets5.3 Magnetic Field Around Conductors and a Coil5.4 Ohm's Law for Magnetic Circuits5.5 Domain Theory of Magnetism5.6 Electricity Produced by MagnetismPART 2 CONTROL THEORY AND TECHNOLOGYChapter 6 Knowledge of Control Theory6.1 What Is Control6.2 Feedback6.3 PID Control6.4 Adaptive ControlChapter 7 Motor Drives and Controls7.1 DC Motor Drives7.2 Inverter-fed Induction Motor DrivesChapter 8 Programmable Logic Controller Technology8.1 Introduction8.2 PLC Operation Process8.3 PLC Maintenance ManagementChapter 9 Single Chip Microcomputer Control Technology9.1 Foundation9.2 A Single chip Microcomputer Integrated CircuitChapter 10 Computer Networking Basics10.1 Foundation10.2 Applications10. 3 Reguirements10.4 Links, Nodes and Clouds10.5 Network ArchitecturePART 3 ELECRICAL MACHINES AND DEVICESChapter 11 Direct-Current Machine11.1 Introduction11.2 Basic Structural Feature11.3 Effect of Armature MMFChapter 12 Three-Phase Induction Motor12.1 Introduction12.2 Construction of Three-phase Induction Motor12.3 Principle of Operation12.4 Equivalent CircuitChapter 13 Synchronous Machine13.1 Introduction13.2 Principle of OperationChapter 14 Transformer14.1 Introduction14. 2 Transformer Construction14. 3 Ideal TransformerChapter 15 Alternating-Current Contactors and Relays15.1 Introduction 15.2 Alternating-Current Contactor15.3 RelaysPART 4 POWER SYSTEMSChapter 16 Operating Characteristics of Modern Power Systems16. 1 Transmission and Distribution Systems16.2 Power System Controls16. 3 Generator-Voltage Control16. 4 Turbine-Governor Control16.5 Load-Frequency Control16. 6 Optimal Power Flow16. 7 Power System StabilityChapter 17 Generating Plants17.1 Electric Energy17.2 Fossil-Fuel Plant17.3 Nuclear Power Plant17.4 Hydroelectric Power PlantChapter 18 New Energy Technology18.1 Wind Power Systems18.2 PhotovoRaic Systems18.3 Geothermal Energy18.4 Clean Energy18.5 Report on China Renewable Energy Market, 2008Chapter 19 High Voltage Insulation19.1 Introduction19.2 Lightning19.3 Switching Surges19. 4 Insulation CoordinationChapter 20 System Protection20. 1 Introduction20. 2 Protection of Radial Systems20. 3 System with Two Sources20. 4 Impedance (Distance) Relays20.5 Differential Protection of Generators20. 6 Differential Protection of Transformers20. 7 Computer Relaying
电气工程与自动化专业英语 节选
《电气工程与自动化专业英语》分为电气工程基础、控制理论与技术、电机与电器设备、电力系统4大部分,共20章。为便于学生对文章的正确理解,每章后均补充了必要的专业英语词汇、短语及句子注释。《电气工程与自动化专业英语》涵盖了电气工程与自动化专业的主要专业基础理论内容,注重从实际应用出发培养学生的专业英语阅读和写作能力。《电气工程与自动化专业英语》既可作为高等院校电气工程与自动化及相关专业高年级学生的专业英语教材,也可作为从事电气信息类各专业工程技术人员的参考用书。
电气工程与自动化专业英语 相关资料
插图:2. Electronic CircuitsCurrent flow takes place in electronic circuits. A circuit is a path for electric current flow. Electric current flows only when it has a complete, or closed-circuit, path. There must be a source of electrical energy to cause current to flow along a closed path. 4 The electrical energy is converted into more useful energy, for example, the light energy.Electric current cannot flow if a circuit is open. An open circuit does not provide a complete path for current flow. Free electrons of the conductor would no longer move from one atom to another. An example of an open circuit is a "burned-out" light bulb. Actually, the filament (the part that produces light) has become open. The open filament of a light bulb stops current flow from the source of electrical energy. This causes the bulb to stop burning, or producing light.Another common circuit term is a short circuit. A short circuit, which can be very harmful, occurs when a conductor connects directly across the terminals of an electrical energy source. For safety purposes, a short circuit should never happen because short circuits cause too much current to flow from the source. If a wire is placed across a battery, a short circuit occurs. The battery would probably be destroyed and the wire could get hot or possibly melt due to the short circuit.1.3.2 VoltageWater pressure is needed to force water along a pipe. Similarly, electrical pressure is needed to force current along a conductor. If a motor is rated at 220 V, it requires 220 V of electrical pressure applied to the motor to force the proper amount of current through it. More pressure would increase the current flow and less pressure would not force enough current to flow. The motor would not operate properly with too high or too low voltage. An electrical energy source such as a battery or generator produces current flow through a circuit. As voltage is increased, the a- mount of current in the circuit is also increased. Voltage is also called electromotive force (EMF).