• Lecture Automatic control systems technology - Lesson 19: Process characteristics-1st order lag and dead-time processes

    Lecture Automatic control systems technology - Lesson 19: Process characteristics-1st order lag and dead-time processes

    Lecture Automatic control systems technology - Lesson 19: Process characteristics-1st order lag and dead-time processes. After this presentation you will be able to: describe typical 1st order lag and dead-time process models found in control systems; write mathematical formulas for 1st order and dead-time process models; compute the parameters of process models; identify the Bode plots of typical process models;... Please refer to the content...

     26 p ctuet 27/12/2023 10 0

  • Lecture Automatic control systems technology - Lesson 15: Bode plots of transfer functions

    Lecture Automatic control systems technology - Lesson 15: Bode plots of transfer functions

    Lecture Automatic control systems technology - Lesson 15: Bode plots of transfer functions. After this presentation you will be able to: compute the magnitude of a transfer function for a given radian frequency; compute the phase shift of a transfer function for a given radian frequency; construct a Bode plot that shows both magnitude and phase shift as functions of transfer function input frequency;... Please refer to the content of document.

     13 p ctuet 27/12/2023 11 0

  • Lecture Automatic control systems technology - Lesson 12: Transfer functions in the laplace domain

    Lecture Automatic control systems technology - Lesson 12: Transfer functions in the laplace domain

    Lecture Automatic control systems technology - Lesson 12: Transfer functions in the laplace domain. After this presentation you will be able to: define the terms pole, zero and eigenvalue as they pertain to transfer functions; identify the location of poles and zeros on the complex plane; develop transfer functions from OP AMP circuits using the Laplace variable;... Please refer to the content of document.

     12 p ctuet 27/12/2023 11 0

  • Lecture Automatic control systems technology - Lesson 16: Basic control modes

    Lecture Automatic control systems technology - Lesson 16: Basic control modes

    Lecture Automatic control systems technology - Lesson 16: Basic control modes. After this presentation you will be able to: describe the common control modes used in analog control systems; list the characteristics of common control modes; write the time, Laplace and transfer functions of common control modes;... Please refer to the content of document.

     30 p ctuet 27/12/2023 6 0

  • Lecture Automatic control systems technology - Lesson 21: Methods of system analysis

    Lecture Automatic control systems technology - Lesson 21: Methods of system analysis

    Lecture Automatic control systems technology - Lesson 21: Methods of system analysis. After this presentation you will be able to: compute the value of transfer function for given frequencies; compute the open loop response of a control system; compute and interpret the closed loop response of a control system; compute and interpret the error ratio of a control system;... Please refer to the content of document.

     29 p ctuet 27/12/2023 9 0

  • Lecture Automatic control systems technology - Lesson 9: Proportional control action

    Lecture Automatic control systems technology - Lesson 9: Proportional control action

    Lecture Automatic control systems technology - Lesson 9: Proportional control action. After this presentation you will be able to: identify the components of a proportional feedback control system; write a mathematical model for a proportional controller; compute the proportional bandwidth of a proportional controller;... Please refer to the content of document.

     22 p ctuet 27/12/2023 7 0

  • Lecture Automatic control systems technology - Lesson 7: Thermal and mechanical element math models in control systems

    Lecture Automatic control systems technology - Lesson 7: Thermal and mechanical element math models in control systems

    Lecture Automatic control systems technology - Lesson 7: Thermal and mechanical element math models in control systems. After this presentation you will be able to: explain how heat flows from conduction and convection in a thermal system; compute thermal resistance and determine heat flow; determine thermal capacitance; determine the mechanical resistance, capacitance and dead-time delay in a mechanical system;... Please refer to the content...

     24 p ctuet 27/12/2023 8 0

  • Lecture Automatic control systems technology - Lesson 6: Mathematical models of fluid flow components

    Lecture Automatic control systems technology - Lesson 6: Mathematical models of fluid flow components

    Lecture Automatic control systems technology - Lesson 6: Mathematical models of fluid flow components. After this presentation you will be able to: define the characteristics of a fluid flow system; identify if a fluid flow is Laminar or Turbulent based on fluid and system parameters; write mathematical models for fluid characteristics;... Please refer to the content of document.

     22 p ctuet 27/12/2023 8 0

  • Lecture Automatic control systems technology - Lesson 10: The laplace transform

    Lecture Automatic control systems technology - Lesson 10: The laplace transform

    Lecture Automatic control systems technology - Lesson 10: The laplace transform. After this presentation you will be able to: explain how the Laplace transform relates to the transient and sinusoidal responses of a system; convert time functions into the Laplace domain; use Laplace transforms to convert differential equations into algebraic equations; take the Inverse Laplace transform and find the time response of a system;... Please refer to...

     19 p ctuet 27/12/2023 8 0

  • Lecture Automatic control systems technology - Lesson 8: Modeling physical systems with linear differential equations

    Lecture Automatic control systems technology - Lesson 8: Modeling physical systems with linear differential equations

    Lecture Automatic control systems technology - Lesson 8: Modeling physical systems with linear differential equations. After this presentation you will be able to: explain what a differential equation is and how it can represent dynamics in physical systems; identify linear and non-linear differential equations; identify homogeneous and non-homogenous differential equations;... Please refer to the content of document.

     34 p ctuet 27/12/2023 6 0

  • Lecture Automatic control systems technology - Lesson 11: Solving mechanical system dynamics using laplace transforms

    Lecture Automatic control systems technology - Lesson 11: Solving mechanical system dynamics using laplace transforms

    Lecture Automatic control systems technology - Lesson 11: Solving mechanical system dynamics using laplace transforms. After this presentation you will be able to: draw a free body diagram of a translational mechanical system; write a differential equation that describes the position of a mechanical system as it varies in time; use Laplace transforms to convert differential equations into algebraic equations;... Please refer to the content of...

     14 p ctuet 27/12/2023 5 0

  • Lecture Automatic control systems technology - Lesson 1: Introduction to control systems technology

    Lecture Automatic control systems technology - Lesson 1: Introduction to control systems technology

    Lecture Automatic control systems technology - Lesson 1: Introduction to control systems technology. After this presentation you will be able to: explain the function of an automatic control system; identify a block diagram representation of a physical system; explain the difference between an open loop and closed loop control system;... Please refer to the content of document.

     28 p ctuet 27/12/2023 6 0

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