[E436.Ebook] Ebook Download Analysis of Electric Machinery and Drive Systems, by Paul C. Krause, Oleg Wasynczuk, Scott D. Sudhoff, Steven Pekarek

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Introducing a new edition of the popular reference on machine analysis

Now in a fully revised and expanded edition, this widely used reference on machine analysis boasts many changes designed to address the varied needs of engineers in the electric machinery, electric drives, and electric power industries. The authors draw on their own extensive research efforts, bringing all topics up to date and outlining a variety of new approaches they have developed over the past decade.

Focusing on reference frame theory that has been at the core of this work since the first edition, this volume goes a step further, introducing new material relevant to machine design along with numerous techniques for making the derivation of equations more direct and easy to use.

Coverage includes:

• Completely new chapters on winding functions and machine design that add a significant dimension not found in any other text
• A new formulation of machine equations for improving analysis and modeling of machines coupled to power electronic circuits
• Simplified techniques throughout, from the derivation of torque equations and synchronous machine analysis to the analysis of unbalanced operation
• A unique generalized approach to machine parameters identification

A first-rate resource for engineers wishing to master cutting-edge techniques for machine analysis, Analysis of Electric Machinery and Drive Systems is also a highly useful guide for students in the field.

• Sales Rank: #758009 in Books
• Brand: Brand: Wiley-IEEE Press
• Published on: 2013-06-17
• Original language: English
• Number of items: 1
• Dimensions: 9.55" h x 1.50" w x 6.42" l, 2.25 pounds
• Binding: Hardcover
• 680 pages

Features

• Used Book in Good Condition

From the Back Cover

Introducing a new edition of the popular reference on machine analysis

Now in a fully revised and expanded edition, this widely used reference on machine analysis boasts many changes designed to address the varied needs of engineers in the electric machinery, electric drives, and electric power industries. The authors draw on their own extensive research efforts, bringing all topics up to date and outlining a variety of new approaches they have developed over the past decade.

Focusing on reference frame theory that has been at the core of this work since the first edition, this volume goes a step further, introducing new material relevant to machine design along with numerous techniques for making the derivation of equations more direct and easy to use.

Coverage includes:

• Completely new chapters on winding functions and machine design that add a significant dimension not found in any other text
• A new formulation of machine equations for improving analysis and modeling of machines coupled to power electronic circuits
• Simplified techniques throughout, from the derivation of torque equations and synchronous machine analysis to the analysis of unbalanced operation
• A unique generalized approach to machine parameters identification

A first-rate resource for engineers wishing to master cutting-edge techniques for machine analysis, Analysis of Electric Machinery and Drive Systems is also a highly useful guide for students in the field.

About the Author

PAUL KRAUSE, PhD, is founder of P.C. Krause and Associates. He is the sole author of the first edition of this book, an IEEE Fellow, and a winner of the prestigious Tesla Award. He is also the coauthor of Electromechanical Motion Devices, Second Edition, from Wiley-IEEE Press.

OLEG WASYNCZUK, PhD, is a Professor of Electrical and Computer Engineering at Purdue University. He is a Fellow of IEEE, an award-winning author of numerous papers, and is co-author of Electromechanical Motion Devices, Second Edition, from Wiley-IEEE Press.

SCOTT SUDHOFF, PhD, is Editor-in-Chief of IEEE Transactions on Energy Conversion and a Fellow of IEEE. He is also a Professor at Purdue University. He has produced extensive writings in the areas of electric machinery and power electronic converter analysis, simulation, and design.

STEVEN PEKAREK, PhD, is a Fellow of the IEEE and has served on the organizing committee of several conferences focusing on electric machinery and power electronics. He and his students have published many papers in these areas. He presently serves as a faculty member in ECE at Purdue University.

Most helpful customer reviews

2 of 2 people found the following review helpful.
Authoritative but not for the faint-hearted
By Y.Calleecharan, Ph.D.
This book by Krause as the lead author is now in its third edition. It is bigger than its previous edition. The book is carefully written and in particular I welcome the addition of a new chapter on the design of electric machinery though it feels short. The authors in this book demonstrate their experiences and knowledge, and show that they are abreast with the latest developments regarding electrical machines.

However, like its second edition which I have used, I do feel that there are not enough examples in the book. This makes the text a bit hard to follow and the materials hard to assimilate at times. This is a pity since the authors cover lots of materials that may be hard to find in other single textbooks. I started learning about the analysis of electric machines rather late in my academic career and while I have a background in electromagnetics, I will say that this book might not be appropriate for (junior) undergraduate students. That said, the subject of electric machinery analysis is complex in itself and if this book has gone in its third edition, this means that it is still being well-received. I did not find any typographical nor inadvertent errors in the book so far despite the abundance of mathematics; This is very welcomed since today's books are usually plagued with typographical errors.

To make the book more complete, I would have liked to see an introductory chapter on power electronics as well as program codes to accompany some of the results presented in the text which would be useful to the reader to reproduce these results. Reading a textbook without being given the opportunity to reproduce its results is not pedagogical. I would advise any reader not to skip the first chapter of the book while reading as it is useful to get acquainted to the writing style used by the authors. If you like the first chapter of this book, then you will be interested to read the rest of the book.

One negative aspect concerns the layout and typesetting of the text. As the text is heavy in mathematics and the subject matter itself is complex, I would urge the publisher to consider printing the book in a larger format since right now the lines feel close to each other and some indices on mathematical variables are very tiny. These factors tend to impede the proper reading of the book especially late at night.

1 of 1 people found the following review helpful.
The Must-Have Electric Machine Analysis Book!
By Paul A. Bonyak
For any electromechanical engineer looking to go beyond the estimates and bounds or limits derived from circuit model schematics and right into detailed motion computer simulation, this book is a must-have. Through powerful use of reference-framing, systems of differential equations are set up (usually nonlinear,i.e. requiring numerical solution) describing rotor motion and other concomitant quantities. This is the only source I know of that demonstrates these ideas and develops them to detailed motion computer simulation. Most other books are geared toward good estimates in real time-So what if an extraneous current is introduced-close enough! Thorough coverage of all motor systems and controls and now in this edition a chapter on designing a motor makes this a definite engineer's reference. (I have a 1st
edition bought used and ratty-big upgrade here!)
Update 5/19/2015: A friend read this review calling it too brief and billboardesque. So I decided to add a crude energy conversion model which does lead to a nonlinear differential equation and establishes the possibility or feasibility of the induction motor by the fact that such an equation can be found (determinism). Much of this book is concerned with making models such as this and then making operation smoother. So first I'll give this induction motor model which I'm pasting from one of my previous reviews and second I'll comment on smoothing the operation. The reader should note that in the model you are in a reference frame rotating with the stator field or sitting on one of its flux lines and watching the rotor motion from there. This then involves reference framing albeit conventional. This and the more involved type of reference framing which involves homogeneous coordinates is dealt with in chapter 3 which must be mastered. Here's the model:
We start with a circular conductor loop. This loop is the rotor which has axis of rotation about a diameter. About this same diameter a uniform(constant magnitude) magnetic field vector, perpendicular to the diameter and at its center, say, rotates at constant angular speed about the diameter. This vector is of course representative of a field of parallel vectors and this rotating effect is achieved through the stator by ac circuit theory means (easy). The conductor loop has a self inductance and a resistance and is free to rotate about the axis diameter. Faraday's law tells you that a voltage is induced in the loop by a time changing magnetic flux. What matters in calculating the flux is the projection of the magnetic field vector on the unit normal vector to the plane of the loop (dot product). To this end what is important is the angle between the magnetic field vector and the normal. Luckily we can deal with this angle exclusively since the magnetic field rotates at constant angular speed and we can subtract it out at the end to get loop motion. We assume in general a different angular velocity for the rotor of which the angle takes account. Anyway, set up the flux. Use Faraday's law to get the voltage which is a product of the sine of our angle and the derivative of our angle. Equate this voltage to the sum of resistance voltage drop and inductance voltage drop in the loop. This is a first order differential equation for the rotor current relating it to our angle. Assuming current flowing in the loop, it has a magnetic moment parallel (or anti-) to the normal with magnitude which is the product of current and loop area. The magnetic torque on the loop is given by the vector cross product of the magnetic moment and the magnetic field vector which gives a constant multiplied by the product of the rotor current and the sine of our angle. We can introduce a viscous torque like a fan which depends on the time derivative of the rotor angle or our angle. Use Newton's law with this and the magnetic torque on one side of equation and product of loop moment of inertia and loop angular acceleration (same as acceleration of our angle)on other side. This equation gives us the loop current in terms of our angle and its derivatives. Putting this into our voltage equation gives the sought after differential equation and proof that the rotor moves.
Pretty much chapter 1 covers the ideas involved in the example. As for smoothing the operation the reader can sense the induction effect in the example makes the operation jerky. This is corrected by modifying the stator field. The main tool presented for this is winding functions in chapter 2. In other books they'll extract the first harmonic of the stator field after Fourier analyzing it and use some ad hoc averaging process to use it like the entire field for the rotating MMF wave(assuming a more extended winding distribution here in effort to smooth out operation). The winding function approach allows all harmonics to be involved-mathematical consistency and no guessing. This approach is also amenable to computer methods. It must be mastered to proceed further. The rest of the book pretty much is an elaboration of these ideas. Some web search can help especially in motivating these ideas. Surprisingly they're somewhat new to the community. I should add that MEC (magnetic equivalent circuit-Scott Sudhoff text) and FEM (more accurate but requiring more computer time-see the text by Nicola Bianchi) can be used in place of the winding function approach with the same end.

0 of 0 people found the following review helpful.
and serves as a fantastic reference that can always be fallen back on
By Rabbit
Comprehensive and thorough. This book has everything you would want to know about when analyzing, designing, or controlling electric machines, and serves as a fantastic reference that can always be fallen back on. I use it in my graduate studies almost every day, both for course work and for research, and it always provides just what I'm looking for, whether I'm just looking up useful equations, or I need to know how to derive an expression or model.

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