Control Systems: Principles and Design 4/e (絕)
- 20本以上,享 8.5折
售價
$
1,600
- 一般書籍
- ISBN:9780071333269
- 作者:M. Gopal
- 版次:4
- 年份:2012
- 出版商:McGraw-Hill
- 頁數/規格:878頁/平裝單色
書籍介紹
本書特色
目錄
Description
This book offers a comprehensive treatment of control engineering with a strong balance of analysis and design, mathematics and practice, and theory and hardware; written in a user-friendly style that has ushered in a refreshing excitement in the teaching and learning of the subject. For a first course at the introductory level, it provides a solid foundation of frequency-domain design methods for analysis and design of continuous time control systems, which form the essentials for industrial practice.
This book offers a comprehensive treatment of control engineering with a strong balance of analysis and design, mathematics and practice, and theory and hardware; written in a user-friendly style that has ushered in a refreshing excitement in the teaching and learning of the subject. For a first course at the introductory level, it provides a solid foundation of frequency-domain design methods for analysis and design of continuous time control systems, which form the essentials for industrial practice.
Features
- Strong emphasis on development of models for practical control systems design; knowledge of approximations made in modeling is crucial in investigation of robustness of the design.
- Thorough introduction to PID Control, the basic building block of industrial controllers.
- MATLAB/Simulink based problem solving integrated with pen-and-paper practice through sixteen chapter-wise MATLAB Modules given in web supplements of the book.
Table of Contents
1. Introduction To The Control Problem
2. System Models And Response: Transfer Function, Block Diagram, Signal Flow Graph
3. Development Of Models For Industrial Control Devices And Systems
4. Use Of Feedback For Control Of Uncertain Systems
5. Concepts Of Stability And The Routh Stability Criterion
6. Performance Specifications On System Time Response
7. Pid Control
8. Root Locus Plots And System Stability
9. Compensator Design Using Root Locus Plots
10. Nyquist/Bode Frequency Response Plots And System Stability
11. Performance Specifications On System Frequency Response
12. Compensator Design Using Bode Plots 13. Digital Control Systems
14. Control System Analysis Using State Variable Methods
15. Control System Design Using State Variable Methods
16. Nonlinear Systems Analysis
1. Introduction To The Control Problem
2. System Models And Response: Transfer Function, Block Diagram, Signal Flow Graph
3. Development Of Models For Industrial Control Devices And Systems
4. Use Of Feedback For Control Of Uncertain Systems
5. Concepts Of Stability And The Routh Stability Criterion
6. Performance Specifications On System Time Response
7. Pid Control
8. Root Locus Plots And System Stability
9. Compensator Design Using Root Locus Plots
10. Nyquist/Bode Frequency Response Plots And System Stability
11. Performance Specifications On System Frequency Response
12. Compensator Design Using Bode Plots 13. Digital Control Systems
14. Control System Analysis Using State Variable Methods
15. Control System Design Using State Variable Methods
16. Nonlinear Systems Analysis
