Faculty of Engineering - Ain Shams University, Home

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Control Systems

What Will Learn?

  • Course Aims
    provide students with the needed knowledge and skills, which enable them to analyze control systems in time domain, in S-domain, and in frequency domain. Also, it enables them to design and implement suitable controllers, based on pertinent criteria.
  • Course Goals
  • Decent Work and Economic Growth
  • Industry, Innovation and Infrastructure
  • Sustainable Cities and Communities

Requirements

ECE261

Description

  • English Description

    Block diagram representation of physical control systems. Introduction to feedback control systems. Characteristics of closed loop systems. Introduction to discrete event control systems. Obtainment of transfer functions along with illustrative examples. Block diagram reduction. Signal flow graphs. Performance of control systems. Time response of first and second order systems and response specifications. Identification of systems from time response. Static error analysis. Classical controllers: P, PI, PD, PID. Routh method for stability analysis. Root locus. Frequency response. State space representation in canonical forms. Introduction to digital control systems. Model of the sampling process. Z-transform
  • Arabic Description

    Block diagram representation of physical control systems. Introduction to feedback control systems. Characteristics of closed loop systems. Introduction to discrete event control systems. Obtainment of transfer functions along with illustrative examples. Block diagram reduction. Signal flow graphs. Performance of control systems. Time response of first and second order systems and response specifications. Identification of systems from time response. Static error analysis. Classical controllers: P, PI, PD, PID. Routh method for stability analysis. Root locus. Frequency response. State space representation in canonical forms. Introduction to digital control systems. Model of the sampling process. Z-transform
  • Department
    Computer and Systems Engineering
  • Credit Hours
    3
  • Grades
    Total ( 100 ) = Midterm (25) + tr.Major Assessment (30 = tr.Industry 0% , tr.Project 15% , tr.Self_learning 5% , tr.Seminar 15% ) + tr.Minor Assessment (5) + Exam Grade (40)
  • Hours
    Lecture Hours: 3, Tutorial Hours: 1, Lab Hours: 0
  • Required SWL
    125
  • Equivalent ECTS
    5
  • − Ajit k. Mandal, "Introduction to Control Engineering – Modeling, Analysis and Design", New Academic Science; 3rd edition. March 15, 2016.
  • − Roland S. Burns, "Advanced Control Engineering", Elsevier Ltd, 2011.
  • (Available on the following EKB link:https://08101gutc-1105-y-https-www sciencedirectcom.mplbci.ekb.eg/book/9780750651004/advanced-control-engineering) - Ajit k. Mandal, Introduction to Control Engineering – Modeling, Analysis and Design, New Academic Science; 3rd edition. March 15, 2016.