PART 1FUNDAMENTALS OF ELECTRIC ENGINEERINGChapter 1Circuit Fundamentals1.1Electrostatic Charges 1.2Conductors, Insulators and Semiconductors 1.3Current, Voltage and Resistance 1.4Measuring Resistance, Voltage and Current1.5DC Series Electrical Circuit1.6Alternating Current VoltageChapter 2Analog Electronics2.1Introduction 2.2Operational Amplifiers 2.3Differential Amplifiers 2.4Integrator and Differentiator 2.5Active Filters Chapter 3Digital Electronics3.1Introduction 3.2Digital Number Systems3.3Binary Logic Circuits3.4Combination Logic Gates3.5Timing and Storage ElementsChapter 4Power Electronics Technology4.1Introduction 4.2Applications and the Roles of Power Electronics4.3Structure of Power Electronics Interface4.4Voltage-Link Structure Applications 4.5Recent and Potential Advancements Chapter 5Magnetism and Electromagnetism 5.1Introduction 5.2Permanent Magnets5.3Magnetic Field around Conductors and a Coil5.4Ohms Law for Magnetic Circuits5.5Domain Theory of Magnetism5.6Electricity Produced by MagnetismPART 2CONTROL THEORY AND TECHNOLOGYChapter 6Knowledge of Control Theory 6.1What Is Control6.2Feedback6.3PID Control6.4Adaptive ControlⅥ电气工程与自动化专业英语目录ⅤChapter 7Motor Drives and Controls7.1DC Motor Drives7.2Inverter-Fed Induction Motor DrivesChapter 8Programmable Logic Controller Technology8.1Introduction8.2PLC Operation Process8.3PLC Maintenance Management8.4The Application Future of PLCChapter 9Single Chip Microcomputer Control Technology9.1Foundation9.2A Single-Chip Microcomputer Integrated Circuit9.3Digital Signal ProcessorsChapter 10Computer Networking Basics10.1Foundation10.2Applications10.3Requirements10.4Links, Nodes and Clouds10.5Network Architecture10.6Network SecurityPART 3ELECRICAL MACHINES AND DEVICESChapter 11Direct-Current Machines11.1Introduction11.2Basic Structural Feature11.3Effect of Armature MMFChapter 12Three-Phase Induction Motors12.1Introduction12.2Construction of Three-Phase Induction Motors12.3Principle of Operation12.4Equivalent CircuitChapter 13Synchronous Machines13.1Introduction13.2Principle of OperationChapter 14Transformers14.1Introduction14.2Transformer Construction14.3Ideal TransformersChapter 15Permanent Magnet Machines15.1Introduction15.2Introduction of PM Materials15.3Classification of PM Motors15.4Operational Principle of PM MotorsPART 4POWER SYSTEMSChapter 16Operating Characteristics of Modern Power Systems 16.1Transmission and Distribution Systems16.2Power System Controls16.3Generator-Voltage Control16.4Turbine-Governor Control16.5Load-Frequency Control16.6Optimal Power Flow16.7Power System StabilityChapter 17Generating Plants 17.1Electric Energy 17.2Fossil-Fuel Plants 17.3Nuclear Power Plants 17.4Hydroelectric Power Plants17.5Wind Power Systems17.6Photovoltaic SystemsChapter 18Concepts and Models for Microgeneration and Microgrids18.1Introduction18.2The Foundation of Microgrid Concept18.3The Microgrid Operational and Control ArchitectureChapter 19High Voltage Insulation19.1Introduction19.2Lightning19.3Switching Surges19.4Insulation CoordinationChapter 20System Protection20.1Introduction20.2Protection of Radial Systems 20.3System with Two Sources20.4Impedance (Distance) Relays 20.5Differential Protection of Generators 20.6Differential Protection of Transformers 20.7Computer Relaying
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