Power electronics design : a practitioner's guide

Power electronics design a practitioner's guide

This book serves as an invaluable reference to Power Electronics Design, covering the application of high-power semiconductor technology to large motor drives, power supplies, power conversion equipment, electric utility auxiliaries and numerous other applications.Design engineers, design drafters a...

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Bibliographic Details
Main Author: Sueker, Keith H. (-)
Format: eBook
Language:Inglés
Published: Burlington, MA : Elsevier/Newnes c2005.
Edition:1st edition
Subjects:
Power electronics > Design and construction.
lectronics > Design and construction.
See on Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627213306719
Table of Contents:
  • front cover; copyright; table of contents; front matter; List of Figures; List of Tables; Preface; body; 1. Electric Power; 1.1. AC versus DC; 1.2. Pivotal Inventions; 1.3. Generation; 1.4. Electric Traction; 1.5. Electric Utilities; 1.6. In-Plant Distribution; 1.7. Emergency Power; 2. Power Apparatus; 2.1. Switchgear; 2.2. Surge Suppression; 2.3. Conductors; 2.4. Capacitors; 2.5. Resistors; 2.6. Fuses; 2.7. Supply Voltages; 2.8. Enclosures; 2.9. Hipot, Corona, and BIL; 2.10. Spacings; 2.11. Metal Oxide Varistors; 2.12. Protective Relays; 3. Analytical Tools; 3.1. Symmetrical Components
  • 3.2. Per Unit Constants 3.3. Circuit Simulation; 3.4. Simulation Software; 4. Feedback Control Systems; 4.1. Basics; 4.2. Amplitude Responses; 4.3. Phase Responses; 4.4. PID Regulators; 4.5. Nested Control Loops; 5. Transients; 5.1. Line Disturbances; 5.2. Circuit Transients; 5.3. Electromagnetic Interference; 6. Traveling Waves; 6.1. Basics; 6.2. Transient Effects; 6.3. Mitigating Measures; 7. Transformers and Reactors; 7.1. Transformer Basics; 7.2. Construction; 7.3. Insulation Systems; 7.4. Basic Insulation Level; 7.5. Eddy Current Effects; 7.6. Interphase Transformers
  • 7.7. Transformer Connections 7.8. Reactors; 7.9. Units; 7.10. Cooling; 7.11. Instrument Transformers; 8. Rotating Machines; 8.1. Direct Current Machines; 8.2. Synchronous Machines; 8.3. Induction (Asynchronous) Machines; 8.4. NEMA Designs; 8.5. Frame Types; 8.6. Linear Motors; 9. Rectifiers and Converters; 9.1. Early Rectifiers; 9.2. Mercury Vapor Rectifiers; 9.3. Silicon Diodes--The Semiconductor Age; 9.4. Rectifier Circuits--Single-Phase; 9.5. Rectifier Circuits--Multiphase; 9.6. Commutation; 10. Phase Control; 10.1. The SCR; 10.2. Forward Drop; 10.3. SCR Circuits--AC Switches
  • 10.4. SCR Motor Starters 10.5. SCR Converters; 10.6. Inversion; 10.7. Gate Drive Circuits; 10.8. Power to the Gates; 10.9. SCR Autotapchangers; 10.10. SCR DC Motor Drives; 10.11. SCR AC Motor Drives; 10.12. Cycloconverters; 11. Series and Parallel Operation; 11.1. Voltage Sharing; 11.2. Current Sharing; 11.3. Forced Sharing; 12. Pulsed Converters; 12.1. Protective Devices; 12.2. Transformers; 12.3. SCRs; 13. Switchmode Systems; 13.1. Pulse Width Modulation; 13.2. Choppers; 13.3. Boost Converters; 13.4. The 'H' Bridge; 13.5. High-Frequency Operation; 13.6. Harmonic Injection
  • 13.7. Series Bridges14. Power Factor and Harmonics; 14.1. Power Factor; 14.2. Harmonics; 14.3. Fourier Transforms; 14.4. Interactions with the Utility; 14.5. Telephone Influence Factor; 14.6. Distortion Limits; 14.7. Zero-Switching; 15. Thermal Considerations; 15.1. Heat and Heat Transfer; 15.2. Air Cooling; 15.3. Water Cooling; 15.4. Device Cooling; 15.5. Semiconductor Mounting; 16. Power Electronics Applications; 16.1. Motor Drives and SCR Starters; 16.2. Glass Industry; 16.3. Foundry Operations; 16.4. Plasma Arcs and Arc Furnaces; 16.5. Electrochemical Supplies; 16.6. Cycloconverters
  • 16.7. Extremely Low-Frequency Communications

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