Preface,
Chapter 1 - Introduction
Chapter 2 - The power diode
Chapter 3 - Power bipolar transistors
Chapter 4 - The power MOSFET
Chapter 5 - Insulated gate bipolar transistor
Chapter 6 - Thyristors
Chapter 7 - Gate turn-off thyristors
Chapter 8 - MOS Controlled Thyristors (MCTs),
Chapter 9 - Static induction devices
Chapter 10 - Diode rectifiers
Chapter 11 - Single-phase controlled rectifiers
Chapter 12 - Three-Phase controlled rectifiers
Chapter 13 - DC-DC converters
Chapter 14 - DC/DC conversion technique and twelve series luo-converters
Chapter 15 - Inverters
Chapter 16 - Resonant and soft-switching converters
Chapter 17 - Multilevel power converters
Chapter 18 - AC-AC converters
Chapter 19 - Power factor correction circuits
Chapter 20 - Gate drive circuitry for power converters
Chapter 21 - Power electronics in capacitor charging applications
Chapter 22 - Electronic ballasts,
Chapter 23 - Power supplies,
Chapter 24 - Uninterruptible power supplies,
Chapter 25 - Automotive applications of power electronics
Chapter 26 - Solar power conversion,
Chapter 27 - Power electronics for renewable energy sources,
Chapter 28 - Fuel-cell power electronics for distributed generation,
Chapter 29 - Wind turbine applications
Chapter 30 - HVDC transmission
Chapter 31 - Flexible AC transmission systems, ,
Chapter 32 - Drives types and Specifications,
Chapter 33 - Motor drives,
Chapter 34 - Control methods for switching power converters
Chapter 35 - Fuzzy logic in electric drives
Chapter 36 - Artificial neural network applications in power electronics and electrical drives
Chapter 37 - DSP-based control of variable speed drives
Chapter 38 - Power quality
Chapter 39 - Active filters
Chapter 40 - EMI Effects of power converters,
Chapter 41 - Computer simulation of power electronics and motor drives
Chapter 42 - Packaging and smart power systems
Chapter 43-Renewable Energy Sources
Chapter 44- Renewable Energy Storage
Chapter 45- Renewable Electric Power Transmission
Chapter 46- Distributed and Cogeneration
Power electronics, which is a rapidly growing area in terms of research and applications, uses modern electronics technology to convert electric power from one form to another, such as ac-dc, dc-dc, dc-ac, and ac-ac with a variable output magnitude and frequency. It has many applications in our every day life such as air-conditioners, electric cars, sub-way trains, motor drives, renewable energy sources and power supplies for computers. This book covers all aspects of switching devices, converter circuit topologies, control techniques, analytical methods and some examples of their applications.
Designed to appeal to a new generation of engineering professionals, Power Electronics Handbook, 3rd Edition features four new chapters covering renewable energy, energy transmission, energy storage, as well as an introduction to Distributed and Cogeneration (DCG) technology, including gas turbines, gensets, microturbines, wind turbines, variable speed generators, photovoltaics and fuel cells, has been gaining momentum for quite some time now.smart grid technology. With this book readers should be able to provide technical design leadership on assigned power electronics design projects and lead the design from the concept to production involving significant scope and complexity.