|Dynamic Simulations of Electric Machinery||
Dynamic Simulations of Electric Machinery
|124.20||approx. 7-9 days|
Appropriate for courses in Electrical Engineering.
This book covers the fundamentals of electrical system modeling and simulation using two of the industry's most popular software packages-MATLAB and SIMULINK-as well as how to interpret results and use them in the design process. Coverage reviews the basics of magnetics and line modeling and includes a wide range of electrical components and systems, such as transformers, electric machines, three-phase induction machines, synchronous machines, and DC machines.
Three- and single-phase transformers, modeling of core saturation. Pg.___
Three- and single-phase induction machines. Pg.___
Three- and six-phase synchronous machines, wound and permanent magnet field. Pg.___
DC machines: four-quadrant drive operation, starting, speed and torque control. Pg.___
Induction machine drives: volts/hertz control and field-oriented control. Pg.___
Synchronous machines in power system studies: multi-machine system, shaft torsionals, excitation control. Pg.___
Synchronous machine drives: self-control and permanent magnet field. Pg.___
2. Introduction to MATLAB/SIMULINK.
3. Basics on Magnetics and Line Modeling.
5. Basics of Electric Machines and Transformations.
6. Three-Phase Induction Machines.
7. Synchronous Machines.
8. DC Machines.
9. Control of Induction Machines.
10. Synchronous Machines in Power Systems and Drives.
Appendix A: Numerical Methods.
Appendix B: Website.
Everything you need to use MATLAB and SIMULINK for interactive modeling.
With today's personal computers, students have the power to create simulations of electric machinery that allow them to study transient and control performance and test conceptual designs. The outcome of these simulations can reveal behaviors that may not have been readily apparent from the theory and design of the machines.
This book and its accompanying website (at www.informit.com/title/0137237855) offer a complete treatment from background theory and models to implementation and verification techniques for simulations and linear analysis of frequently studies machine systems. They include:
Every chapter of Dynamic Simulation of Electric Machinery includes exercises and projects that can be explored using the accompanying software. A full chapter is devoted to the use of MATLAB and SIMULINK, and an appendix provides a convenient overview of key numerical methods used.
Dynamic Simulation of Electric Machinery provides professional engineers and students with a complete toolkit for modeling and analyzing power systems on their desktop computers.