VTU B.TECH Aeronautical-Engineering 2nd year SEMESTER – VII Syllabus For Control engineering PDF 2022
February 12, 2022 2022-02-12 22:50VTU B.TECH Aeronautical-Engineering 2nd year SEMESTER – VII Syllabus For Control engineering PDF 2022
VTU B.TECH Aeronautical-Engineering 2nd year SEMESTER – VII Syllabus For Control engineering PDF 2022
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You will be able to find information about Control engineering along with its Course Objectives and Course outcomes and also a list of textbook and reference books in this blog.You will get to learn a lot of new stuff and resolve a lot of questions you may have regarding Control engineering after reading this blog. Control engineering has 5 units altogether and you will be able to find notes for every unit on the CynoHub app. Control engineering can be learnt easily as long as you have a well planned study schedule and practice all the previous question papers, which are also available on the CynoHub app.
All of the Topic and subtopics related to Control engineering are mentioned below in detail. If you are having a hard time understanding Control engineering or any other Engineering Subject of any semester or year then please watch the video lectures on the official CynoHub app as it has detailed explanations of each and every topic making your engineering experience easy and fun.
Control engineering Unit One
Introduction to Control Systems and Mathematical Models
Introduction: Concept of controls, Open loop and closed loop systems with examples, Concepts of feedback and basic structure of feedback control system, requirements of an ideal control system. Mathematical Models: Transfer function models of mechanical systems, electrical circuits, DC and AC motors in control systems, Analogous systems: Force voltage and Force current analogy.
Control engineering Unit Two
Module-2
Block Diagrams and Signal Flow Graphs Transfer functions definition and its properties, block representation of control systems and terminologies, block diagram algebra and reduction of block diagrams, Signal flow graph method, Mason’s gain formula and its applications Transient and Steady State Response Analysis Introduction, type and order of systems, time response specifications, first order and second order system response to step, ramp and impulse inputs, concepts of time constant and its importance in speed of response.
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Control engineering Unit Three
Module-3
System stability analysis using Routh’s – Hurwitz Criterion Root Locus Plots Definition of root loci, General rules for constructing root loci, Analysis using root locus plots, Determination of desired gain, limit gain, gain margin and conditional stability. Frequency Response Analysis Using Bode Plots: Bode attenuation diagrams for first and second order systems, Simplified Bode diagrams, Stability analysis using Bode plots and determination of phase margin and gain margin and gain
Control engineering Unit Four
Frequency Response Specification and Analysis using Polar plots
Specification: Frequency response definition, frequency response specifications and its relationship with time response specifications. Analysis: Polar plots, Nyquist stability criterion, Stability analysis, Relative stability concepts, Gain marginand phase margin, M&N circles.
Control engineering Unit Five
Module-5
Feedback control systems: Types of controllers – Proportional, Integral, Derivative controllers, Proportional – Integral, Proportional – Integral – Derivative controllers; Compensation methods – Series and feedback compensation, Lead, Lag and Lead-Lag Compensators. State Variable Characteristics of Linear Systems: Introduction to concepts of states and state variable representation of linear systems, Advantages andDisadvantages over conventional transfer function representation, state equations of linear continuous data system. Matrix representation of state equations, Solution of state equation, State transition matrix and its properties, controllability and observability, Kalman and Gilberts test.
Control engineering Course Objectives
Understand the basic concepts of control systems and mathematical models. •Acquire the knowledge on block diagrams and signal flow graphs. •Understand the frequency response analysis and various types of plots.
Control engineering Course Outcomes
At the end of the course the student will be able to:1.CO1: Apply the concepts of control systems. 2.CO2: Reduce the block diagrams and signal flow graphs. 3.CO3: Determine the frequency response analysis by using various types of plots.
Control engineering Text Books
Control Engineering-U.A. Bakshi and V.U. Bakshi
Control Systems Engineering-A. NagoorKani
Control engineering Reference Books
Modern Control Engineering-Katsuhiko Ogatta
Control Systems Engineering-I.J. Nagrath and M. Gopal
Modern Control Systems-Richard. C. Dorf and Robert.H. Bishop
Control Systems Engineering-N.S. Nise
Scoring Marks in Control engineering
Scoring a really good grade in Control engineering is a difficult task indeed and CynoHub is here to help!. Please watch the video below and find out how to get 1st rank in your B.tech examinations . This video will also inform students on how to score high grades in Control engineering . There are a lot of reasons for getting a bad score in your Control engineering exam and this video will help you rectify your mistakes and help you improve your grades.
Information about VTU B.Tech Control engineering was provided in detail in this article. To know more about the syllabus of other Engineering Subjects of JNTUH check out the official CynoHub application. Click below to download the CynoHub application.
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