- Tapa dura: 360 páginas
- Editor: CRC Press; Edición: 1 (29 de septiembre de 2003)
- Colección: Power Electronics and Applications Series
- Idioma: Inglés
- ISBN-10: 0849319188
- ISBN-13: 978-0849319181
- Valoración media de los clientes: Sé el primero en opinar sobre este producto
- Ver el Índice completo
DSP-Based Electromechanical Motion Control (Power Electronics and Applications Series) (Inglés) Tapa dura – 29 sep 2003
|Nuevo desde||Usado desde|
Descripción del producto
Reseña del editor
Although the programming and use of a Digital Signal Processor (DSP) may not be the most complex process, utilizing DSPs in applications such as motor control can be extremely challenging for the first-time user. DSP-Based Electromechanical Motion Control provides a general application guide for students and engineers who want to implement DSP-based motion control systems in products and industrial systems.
This overview explains the benefits of integrating DSP into motion control, detailing the degree of freedom provided by a a DSP for the development of constructive, computationally extensive algorithms. The authors explain how the use of these advanced algorithms can drastically increase the performance and efficiency of an electromechanical system.
Chapters are supported by laboratory exercises, enabling you to immediately apply the information to practical scenarios. Following an extensive analysis of the LF2407 DSP processor, the book presents numerous real-world applications, demonstrating current use and inspiring future development.
No es necesario ningún dispositivo Kindle. Descárgate una de las apps de Kindle gratuitas para comenzar a leer libros Kindle en tu smartphone, tablet u ordenador.
Obtén la app gratuita:
Detalles del producto
Si eres el vendedor de este producto, ¿te gustaría sugerir ciertos cambios a través del servicio de atención al vendedor?
Opiniones de clientes
|5 estrellas (0%)|
|4 estrellas (0%)|
|3 estrellas (0%)|
|2 estrellas (0%)|
|1 estrella (0%)|
Opiniones de clientes más útiles en Amazon.com
Unfortunately, about half the book is devoted to discussing details of the Texas Instruments 2407 DSP, which I was already familiar with, since the datasheets & appnotes are available for free from TI's website. There's a little bit of "value-added" explanation by the authors, but not something I'd consider worthy of trying to publish into a textbook since technology changes so fast (usually before the ink is dry).
Quite a bit of the remainder of the book is also TI 2407-specific and includes assembly code excerpts -- It would have been better if the authors had stuck with general software & algorithm advice, in a high level language like C, or in block diagrams, rather than using a specific processor's assembly language, which takes more effort to understand and is in danger of becoming obsolete when new processors appear. (TI already has a 2800-series DSP. We use C -- assembly gives me a headache to read and I only use it when I have to.)
There is little to no analysis of control loops -- this seems to be something the authors assume the reader is already familiar with. Practical issues like PWM dead-time distortion are not even mentioned.
Good points: (there are a few, otherwise I would have given it one star) There are a few chapters on switched-reluctance motors and matrix converters which had some material I hadn't seen elsewhere. The sections on permanent magnet motors and induction motors do have the basic voltage equations for these motors -- though the chapters on them are kind of short, and other books have handled them in more detail.
I'm returning my copy to Amazon, though, and am waiting for someone to write a good in-depth practical book on DSP-based motor control that's useable on many different DSPs, not just the TI 2407 -- I can read the datasheets on that for free.
The methods which athors are using shows that they do not know anything about motor control and never have made a real working systems.
I wonder how CRC-Press has published such a quickie book.
It would be good to add in depth mathematics background.
I have had to write BLDC motion controllers and this is a bit out of my field so I had to go out and learn it. There is a sea of documentation either on the theory of motion control or specific cases for specific chips. This is the only reference I have seen that ties both.
Four starts because I agree that it would have been better in C, although it is sobering to see how a few screenfuls of assembly can do FOC of PMSMs. It does show you what's the bottom line.