Termin realizacji zamówienia: ok. 16-18 dni roboczych.
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The CRC Handbook of Power Electronics will be a reference book for pra cticing electrical engineers who need to obtain information about vari ous types of power electronics devices, circuits, and systems.
"This good resource includes individual authors who have familiar names and good reputations in the industry. This selection of topics is excellent with regard to devices and applications. Editor Skvarenina wisely has included the latest description of advanced motor and power control applications, offering this volume some staying power as a reference, as new technology and applications continue to emerge. Most of material is written at the upper academic level and would probably better satisfy the research or development engineer…" - CHOICE, September 2002
AC-AC Conversion Cycloconverters Matrix Converters Rectifiers Uncontrolled Single-Phase Uncontrolled and Controlled Rectifiers Three-Phase Pulse-Width-Modulated Boost-Type Rectifiers Inverters DC-AC Conversion Resonant Converters Series-Resonant Inverters Resonant DC-Link Inverters Auxiliary Resonant Commutated Pole Inverters Multilevel Converters Multilevel Voltage Source Modulation Fundamental Multilevel Converter Topologies Cascaded Multilevel Converter Topologies Multilevel Converter Laboratory Examples Modulation Strategies Six Step Modulation Pulse Widrth Modulation Third Harmonic Injection for Voltage Boost of SPWM Signals Generation of PWM Signals Using Microcontrollers and DSPs Voltage-Source-Based Current Regulation Hysteresis Feedback Control Sliding Mode Control of Switched Mode Power Supplies Introduction to Sliding-Mode Control Basics of Sliding-Mode Theory Application of Sliding-Mode Control to DC-DC Converters-Basic Principle Sliding=Mode Control of Buck DC-DC Coverters Extension to Boost and Buck-Boost DC-DC Converters Extension to Cuk and SEPIC DC-DC Converters General-Purpose Sliding-Mode Control Implementation
APPLICATIONS AND SYSTEM CONSIDERATIONS
DC Motor Drives DC Motor Basics DC Speed Control DC Derive Basics Transistor PWM DC Drives SCR DC Drives AC Machines Controlled as DC Machines Moachine Construction Motor Characteristics Power Electronic Converter Position Sension Pulsating Torque Components Torque-Speed Characteristics Applications Control of Induction Machine Drives Scalar Induction Machine Control Vector Control of Induction Machines Permanent-Magnet Synchronous Motor Drives Construction pf PMSM Drive Systems Simulation and Model Controlling the PMSM Advanced Topics in PMSM Drives Switched Reluctance Machines SRM Configuration Basic Principle of Operation Design Converter Topologies Control Strategies Sensorless Control Applications Step Motor Drives Types and Operation of Step Motorsw Step Motor Models Control of Step Motors Servo Drives DC Drives Induction Motor Drives Uninterruptible Power Supplies UPS Functions Static UPS Topologies Rotary UPSs Alternate AC and DC Sources Power Quality and Utility Interface Issues Power Quality Considerations Passive Harmonic Filters Active Filters for Power Conditioning Unity Power Factor Rectification Photovoltaic Cells and Systems Solar Cell Fundamentals Utility Interactive PV Applications Stand-Alone PV Systems Flexible, Reliable, Intelligent Electric Energy Delivery Systems The Concept of FRIENDS Development of FRIENDS The Advanced Power Electronic Technologies with QCCs Significance of FRIENDS Realization of FRIENDS Unified Power Flow Controller Power Flow on a Transmission Line UPFC Description and Operation UPFC Modeling Control Design Case Study More-Electric Vehicles Aircraft Terrestrial Vehicles Principles of Magnetics Nature of a Magnetic Field Electromagetism Magnetic Flux Density Magnetic Circuits Magnetic Field Intensity Maxwell's Equations Inductance Practical Considerations Computer Simulation of Power Electronics Code Qualification and Model Validation Basic Concepts-Simulation of a Buck Converter Advanced Techniques-Simulation of a Full-Bridge Converter