000 | 01894nam a2200241Ia 4500 | ||
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999 |
_c98 _d98 |
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001 | 0000286 | ||
003 | OSt | ||
005 | 20190225154555.0 | ||
008 | 170602s9999 xx 000 0 und d | ||
020 | _a978007133269 | ||
028 |
_q2016 _bAllied Informatics, Jaipur |
||
040 |
_bEnglish _aBSDU _cBSDU |
||
082 |
_a629.831 2 _bGOP |
||
100 | _aGopal, M | ||
245 | 0 | _aControl Systems : Principles and Design | |
250 | _a4th | ||
260 |
_bMcGraw Hill Education (India) Pvt. Ltd. _a New Delhi _c2013,c2012 |
||
300 | _a878 | ||
500 | _aThis 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. | ||
504 | _a1. 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 | ||
650 | _aElectrical | ||
942 |
_2ddc _cBK |