MC 301 Digital Feedback Control Systems

This is the second course in the Mechatronics feedback control sequence.  It includes a review of Analog Control Systems and introduces the concepts and tools of Discrete-Time Systems as used in real-world control systems. Clarity in important concepts (e.g. sampling, aliasing, quantization, stability, etc.) is provided through simulation of Feedback Control and Discrete-Time systems using MatLab.  Extensive use is made of the “CTM Control System Tutorials”* for example control systems and analysis.
*see http://rclsgi.eng.ohio-state.edu/matlab/home.text.html or search the WWW on “CTM: Index”

Instructor:

Jeffrey N. Denenberg - Lecture
Vince McCarroll - Laboratory

Email:

jeffrey.denenberg@ieee.org
DrMac007@aol.com

Phone:

(203) 268-1021  (all day & evenings)

Credits:

3 (Includes Laboratory Time)

Pre-requisites:

MC 301 - Feedback Control Systems (or equivalent, e.g. EE 302)

Exams:

Two - 30% ea.
Comprehensive final - 40%

Textbook:

“Digital Control Systems Analysis and Design,” Third Edition, C. L. Phillips and H. T. Nagle, Prentice-Hall, 1995

Software:

MatLab, Simulink, Signal Processing Toolbox, DSP Blockset, & Control Toolbox

Topics:

Lecture

Laboratory

Reference

Introduction to Digital Control

Analog Control Review 1: Modeling

C1, Notes

Analog-to-Digital Conversion and Reconstruction

Analog Control Review 2:
Control Techniques

C3, Notes

Discrete-Time Signals and Systems (Difference Equations and z-Transforms)

Control Techniques (continued)

2.1-2.6, Notes

Block Diagrams, Causality, Realizability, and Signal Flow Graphs

Sampling, Aliasing, Reconstruction, Delay & Phase

2.7-2.13

Open Loop Discrete-Time Systems

FIR and IIR Digital Filters

C4

Closed-Loop Systems

Digital Control 1

C5

T, S, and Z

Digital Control 1 (continued)

C6

Stability Analysis

Digital Control 2

C7

Digital Controllers

Digital System Compensation (Phase Lead, Lag and Lead-Lag Equalizers)

PID

Root Locus

Digital Control 2 (continued)

8.1- 8.3

8.4-8.7

8.9-8.10

8.11-8.12

Course  Goals

1.

Develop an understanding of the relationship between the time and frequency domain representations of discrete-time real-world signals.

2.

Be prepared to analyze and design stable digital control systems.

3.

Be prepared to utilize digital controllers in real-world Mechanical, Electrical and Manufacturing Systems.

Estimated ABET category content as estimated by faculty member who prepared this course description:

Engineering Science:  1.5 credits or 50%            Engineering Design:  1.5 credit or 50%

Prepared by Jeffrey N. Denenberg                                                                    Date:  May 15, 1998