|ENEE 3730 - Automatic Control Systems Analysis and Design|
Analysis and synthesis of feedback control systems for continuous and discrete time systems. Performance criteria. Routh-Hurwitz, root locus, Nyquist, Bode, and state space methods for stability determination. Analytic and computer-aided techniques for design of systems to meet performance standards. Spring semester. Lecture 3 hours. Prerequisites: ENEE 3250 with a minimum grade of C or department head approval. Electrical Engineering majors must take ENEE 3730L as a corequisite to this course. Supplementary Course Fee Assessed.
3.000 Credit hours
3.000 Lecture hours
Schedule Types: Lecture
Supplementary Course Fee
|ENEE 3730L - Linear Controls and Drives Laboratory|
Introduction to components in an electrical drive system, building real-time control system using Matlab/Simulink interface, PI and dual loop algorithm as applied to servomotor position control, state variable feedback control application, and experiments tailored towards electric drives systems such as open-loop speed control and characterization of dc-motor; dc motor speed control under load and control of induction and permanent magnet ac motors. Spring semester. Laboratory 3 hours. Corequisites: ENEE 3730 and ENEE 3800 or department head approval. Laboratory/Studio course fee will be assessed. Supplementary course fee assessed.
1.000 Credit hours
1.000 Lecture hours
Schedule Types: Lab or Contact Hours
Lab/Studio Fee, Supplementary Course Fee