Course Details
Course Code: ELEN416 Course ID: 4604 Credit Hours: 3 Level: Undergraduate
This course covers the basic principles of frequency- and time-domain design techniques. Classical methods covered include Laplace transforms and transfer functions; root locus design; Routh-Hurwitz stability analysis; frequency response methods including Bode, Nyquist, and Nichols; steady state error for standard test signals; second order system approximations; and phase and gain margin and bandwidth. In addition, the state variable method is investigated including full state feedback design, and limitations of state variable feedback. The student will learn to use computers in the analysis and design of control systems. NOTE: This course requires the student to purchase additional materials that are not covered by the book grant. Please refer to the Course Materials section for additional details. (Prerequisite: ELEN310)
- ELEN310 - Continuous and Discrete Signals and Systems
Prerequisites
Course Schedule
Registration Dates | Course Dates | Start Month | Session | Weeks |
---|---|---|---|---|
11/27/2023 - 05/03/2024 | 05/06/2024 - 08/25/2024 | May | Spring 2024 Session K | 16 Week session |
03/25/2024 - 08/30/2024 | 09/02/2024 - 12/22/2024 | September | Summer 2024 Session C | 16 Week session |