1 / 16

بسم الله الرحمن الرحيم Islamic University of Gaza Electrical Engineering Department

بسم الله الرحمن الرحيم Islamic University of Gaza Electrical Engineering Department. Feedback Control Systems EELE 3361. Basil Hamed, Ph. D. Control Systems Engineering http://site.iugaza.edu.ps/bhamed/ bhamed@iugaza.edu. Course Syllabus. Islamic University of Gaza

brant
Download Presentation

بسم الله الرحمن الرحيم Islamic University of Gaza Electrical Engineering Department

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. بسم الله الرحمن الرحيمIslamic University of GazaElectrical Engineering Department

  2. Feedback Control Systems EELE 3361 Basil Hamed, Ph. D. Control Systems Engineering http://site.iugaza.edu.ps/bhamed/ bhamed@iugaza.edu

  3. Course Syllabus Islamic University of Gaza Faculty of Engineering Department of Electrical and Computer Engineering Feedback Control SystemsEELE 3361 Prerequisite: Signals & Linear System (EELE 3310) Instructor : Basil Hamed, Ph.D. Control Systems Engineering Office : B228 e-mail : bhamed@ iugaza.edu bahamed@hotmail.com WebSite : http://site.iugaza.edu.ps/bhamed/ Phone : 2860700 Ext. 2874 Meeting : (S,M,W) 1:00-2:00 (K 512) 12:00-1:00 (L 512)

  4. Course Syllabus • Course Description: Mathematical representations of systems, feedback control systems, frequency response and transient response, First and second order systems; Block diagram algebra; Signal flow graphs; Masons rule; Stability; Routh-Hurwitz criterion; Steady state errors; Root locus theory and sketching frequency domain and state variable representation, controllability, observably, introduction to control system design

  5. Course Syllabus Text Book: Control Systems Engineering, 6th Edition by Norman Nise, 2011 References: • Feedback Control Systems by C.L. Phillips, R.D. Harbor, Third edition • Feedback Control of Dynamics Systems, G.F. Franklin, J.D. Powell and A. Emami-Naeini • Linear Control Systems: Analysis and Design..J. D’Azzo and C.H.Houpis, • Linear Systems Theory, F. Szidarovszky and A. Terry Bahill • Problem Solvers, Automatic Control Systems/ Robotics. • Modern Control Engineering, 4th Edition, K.Ogata, • Automatic Control Systems by Benjamin C. Kuo, Seventh edition

  6. Course Syllabus Teaching Assistant • Eng. Adham Abu Shamla (Males) • Eng. Amany Abu Alqmboz (Females)

  7. Course Syllabus Course Aim: • To represent various type of dynamic systems, including transfer functions, block diagrams, and state- space. • Linear Control Systems aim to provide students with the ability to analyze closed loop system. • Learn the purposes, advantages and disadvantages, terminology, and configurations of feedback control systems • To develop a basic feel for the time-domain and frequency domain responses for simple systems. • To give students knowledge and ability of determining the stability of a system for both the classical and modern control. • To learn how to design a controller to meet time-domain specifications. These specifications include settling time, overshoot, steady state error, and maximum control effort. • To provide the students an opportunity to apply the knowledge of above material in a practical (project) experience

  8. Course Syllabus Materials Covered: • Introduction to feedback control systems and mathematical background. • Modeling of Dynamic Systems. Subjects include Electrical components, Translational mechanical components, Rotational mechanical components, Electro-Mechanical Components, Gears and transformers, Sensors and Actuators, Transfer function models, Block diagram reduction. • State Variables. Subjects include, Methods for obtaining State Variable Models from Transfer Functions and Differential Equation models, Simulation Diagrams, Canonical Forms, Model Transformations, Realizations and All-integrator Diagrams, Solution of State Variable Models, The State Transition Matrix and Model Correspondence (Similarity Transformations). • System Responses. Subjects include Time-Domain and Frequency-Domain Characteristics of dynamic systems, First and Second Order Responses, Dominant Poles. • System Properties. Subjects include an introduction to Stability, Regulation, Transient Performance, and Frequency Response. • Stability Analysis. Routh-Hurwitz Test, Poles of the System test and the Simulation Test. • Graphical Analysis. Analysis for stability is further explored using Bode and root locus diagrams. (As time permits). .

  9. Course Syllabus Grading System: Homework & Quizzes 20 % Mid term Exam 30 % (3/4/2013, 1:00-2:00) Final Exam 50 % (18 /5/2013, 12:00-2:00) Quizzes: Will be given in the discussion by the T.A Homework Homework assignments are to be returned on time. No excuses will be accepted for any delay. Office Hours Open-door policy, by appointment or as posted.

  10. Signals LTI System + H(z) G(z)

  11. Input Output System What is a System? System: Block box that takes input signal(s) and converts to output signal(s). • Continuous-Time System:

  12. Output Controller Process What is a Control System • A Process that needs to be controlled: • To achieve a desired output • By regulating inputs • A Controller: a mechanism, circuit or algorithm • Provides required input • For a desired output Desired Output Required Input

  13. Process Dynamics Controller/ Amplifier Desired Output Input Output + - Measurement Closed Loop Control • Open-loop control is ‘blind’ to actual output • Closed-loop control takes account of actual output and compares this to desired output

  14. Model of Control System Desired System Performance Control Noise Signal Capture Actuators Sensors Mechanical System Disturbances Environment

  15. See You next Monday

More Related