Power Electronic System Design
Linking Differential Equations, Linear Algebra, and Implicit Functions
- 1st Edition - June 23, 2021
- Imprint: Elsevier
- Author: Keng C. Wu
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 8 8 5 4 2 - 3
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 8 8 5 4 3 - 0
Power Processing Circuits Design seamlessly infuses important mathematical models and approaches into the optimization of power processing circuits and linear systems. The work u… Read more
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Power Processing Circuits Design seamlessly infuses important mathematical models and approaches into the optimization of power processing circuits and linear systems. The work unites a constellation of challenging mathematical topics centered on differential equations, linear algebra and implicit functions, with multiple perspectives from electrical, mathematical and physical viewpoints, including power handling components, power filtering and power regulation. Power applications covered encompass first order RC and RL, second order RLC circuits with periodic drives, constant current source, close-loop feedback practices, control loop types, linear regulator, switch-mode regulator and rotation control.
- Outlines the physical meaning of differential forms and integral forms in designing circuits for power applications
- Delivers techniques to set up linear algebraic matrix representations of complex circuits
- Explores key approaches obtaining steady state and describes methods using implicit functions for close-loop representation
- Describes how to implement vector representation of rotational driving sources
- Supplemented by MATLAB implementations
Early career power and electrical engineers interested in the use of mathematics to design power processing solutions, component selections, and performance verification in power engineering applications. Researchers and practitioners in power systems and electrical engineering interested in power electronics-enabled electric power distribution systems and smart grids
1. Capacitor and Inductor2. First Order Circuits3. Current Source4. Second Order5. Gain Blocks6. Feedback Approaches7. Control Practices8. Linear Regulator9. Switch-mode DC/DC converters10. AC drives, rectification and inductive loads11. Rotation, Three Phase Synthesis, and Space Vector Concepts
- Edition: 1
- Published: June 23, 2021
- Imprint: Elsevier
- Language: English
KW
Keng C. Wu
Keng C. Wu is a recognized expert in high reliability power supply, power systems, and power electronics product design, including all component selection, board layout, modeling, large scale system dynamic study, prototype, testing and specification verification. He received a B.S. degree from Chiaotung University, Taiwan, in 1969 and a M.S. degree from Northwestern University, Evanston, Illinois in 1973. He was a lead member technical staff of Lockheed Martin, Moorestown, NJ. He has written five books. He also holds a dozen U.S. patents, was awarded “Author of the Year” twice (2003 and 2006 Lockheed Martin), and presented a 3-hour educational seminar at IEEE APEC-2007.
Affiliations and expertise
Former Lead Engineer, Lockheed Martin, Cranbury, NJ, USARead Power Electronic System Design on ScienceDirect