Circuit Analysis II with MATLAB Computing and Simulink - SimPowerSystems Modeling | Date: 28 April 2011, 03:37
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Circuit Analysis II with MATLAB Computing and Simulink / SimPowerSystems Modeling
By Steven Karris
* Publisher: Orchard Publications
* Number Of Pages: 676
* Publication Date: 2009-06-30
* ISBN-10 / ASIN: 1934404195
* ISBN-13 / EAN: 9781934404195
Product Description:
This text is written for use in a second course in circuit analysis. It encompasses a spectrum of subjects ranging from the most abstract to the most practical, and the material can be covered in one semester or two quarters.The reader of this book should have the traditional undergraduate knowledge of an introductory circuit analysis material such as Circuit Analysis I with MATLAB Computing and Simulink / SimPowerSystems Modeling, ISBN 978-1-934404-17-1. Another prerequisite would be a basic knowledge of differential equations, and in most cases, engineering students at this level have taken all required mathematics courses. Appendix H serves as a review of differential equations with emphasis on engineering related topics and it is recommended for readers who may need a review of this subject. For additional information. please visit the Orchard Publications site.
This text includes the following chapters and appendices:
• Second Order Circuits • Resonance • Elementary Signals • The Laplace Transformation • The
Inverse Laplace Transformation • Circuit Analysis with Laplace Transforms • State Variables and
State Equations • Frequency Response and Bode Plots • Self and Mutual Inductances - Transformers
• One- and Two-Port Networks • Balanced Three-Phase Systems • Unbalanced Three-
Phase Systems • Introduction to MATLAB® • Introduction to Simulink® • Introduction to
SimPowerSystems® • Review of Complex Numbers • Matrices and Determinants • Scaling •
Matrices and Determinants • Per Unit System • Review of Differential Equations
Each chapter and each appendix contains numerous practical applications supplemented with
detailed instructions for using MATLAB, Simulink, and SimPowerSystems to obtain quick and accurate
results.
Preface
This text is written for use in a second course in circuit analysis. It encompasses a spectrum of
subjects ranging from the most abstract to the most practical, and the material can be covered in
one semester or two quarters.The reader of this book should have the traditional undergraduate
knowledge of an introductory circuit analysis material such as Circuit Analysis I with
MATLAB®Computing and Simulink®/ SimPowerSystems®Modeling, ISBN 978-1-934404-17-1.
Another prerequisite would be a basic knowledge of differential equations, and in most cases,
engineering students at this level have taken all required mathematics courses. Appendix H serves
as a review of differential equations with emphasis on engineering related topics and it is
recommended for readers who may need a review of this subject.
There are several textbooks on the subject that have been used for years. The material of this
book is not new, and this author claims no originality of its content. This book was written to fit
the needs of the average student. Moreover, it is not restricted to computer oriented circuit
analysis. While it is true that there is a great demand for electrical and computer engineers,
especially in the internet field, the demand also exists for power engineers to work in electric
utility companies, and facility engineers to work in the industrial areas.
Chapter 1 is an introduction to second order circuits and it is essentially a sequel to first order
circuits discussed in the last chapter of Circuit Analysis I with MATLAB®Computing and
Simulink®/ SimPowerSystems®Modeling, ISBN 978-1-934404-17-1. Chapter 2 is devoted to
resonance, and Chapter 3 presents practical methods of expressing signals in terms of the
elementary functions, i.e., unit step, unit ramp, and unit impulse functions. Accordingly, any
signal can be represented in the complex frequency domain using the Laplace transformation.
Chapters 4 and 5 are introductions to the unilateral Laplace transform and Inverse Laplace
transform respectively, while Chapter 6 presents several examples of analyzing electric circuits
using Laplace transformation methods. Chapter 7 is an introduction to state space and state
equations. Chapter 8 begins with the frequency response concept and Bode magnitude and
frequency plots. Chapter 9 is devoted to transformers with an introduction to self and mutual
inductances. Chapter 10 is an introduction to one- and two-terminal devices and presents several
practical examples. Chapters 11 and 12 are introductions to three-phase circuits.
It is not necessary that the reader has previous knowledge of MATLAB®. The material of this
text can be learned without MATLAB. However, this author highly recommends that the reader
studies this material in conjunction with the inexpensive MATLAB Student Version package that
is available at most college and university bookstores. Appendix A of this text provides a practical
introduction to MATLAB, Appendix B is an introduction to Simulink, and Appendix C
introduces SimPowerSystems. The pages where MATLAB scripts, Simulink / SimPowerSystems
models appear are indicated in the Table of Contents.
The author highly recommends that the reader studies this material in conjunction with the
inexpensive Student Versions of The MathWorks™ Inc., the developers of these outstanding
products, available from:
The MathWorks, Inc.
Appendix D is a review of complex numbers, Appendix E is an introduction to matrices,
Appendix F discusses scaling methods, Appendix G introduces the per unit system used
extensively in power systems and in SimPwerSystems examples and demos. As stated above,
Appendix H is a review of differential equations. Appendix I provides instructions for
constructing semilog templates to be used with Bode plots.
In addition to numerous examples, this text contains several exercises at the end of each
chapter. Detailed solutions of all exercises are provided at the end of each chapter. The
rationale is to encourage the reader to solve all exercises and check his effort for correct
solutions and appropriate steps in obtaining the correct solution. And since this text was
written to serve as a self-study or supplementary textbook, it provides the reader with a
resource to test his knowledge.
The author is indebted to several readers who have brought some errors to our attention.
Additional feedback with other errors, advice, and comments will be most welcomed and
greatly appreciated.
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