Component block diagram of feedback control systems and examples. Mathematical modeling of dynamic systems; state-pace representation and frequency domain representation of dynamic systems. Basic control actions and industrial controllers. Transient response analysis and steady-state error analysis. Root-locus analysis and design. Frequency response analysis; Nyquist stability criterion and analysis. Design and compensation techniques. Introduction to digital control systems.
This course may not be repeated for credit.
Prerequisite(s)
- Electrical Engineering 327.
Sections
| LEC 1 | MWF 12:00 - 12:50
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| Notes: RESTRICTED TO ENCM AND ENEL STUDENTS |
| LAB 1 | | | | | |
| LAB 2 | R 14:00 - 16:50
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| LAB 3 | | | | | |
| LAB 4 | R 14:00 - 16:50
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| LAB 5 | | | | | |
| LAB 6 | R 14:00 - 16:50
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| LAB 7 | | | | | |
| LAB 8 | R 14:00 - 16:50
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| LAB 9 | | | | | |
| LAB 10 | R 14:00 - 16:50
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| LAB 11 | | | | | |
| LAB 12 | R 14:00 - 16:50
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| TUT 1 | M 16:00 - 16:50
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This course will be offered next in
Fall 2012.