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Miniprojecttorquecontrolofadcmotor 100215060150-phpapp01 Miniprojecttorquecontrolofadcmotor 100215060150-phpapp01 Presentation Transcript

  • Torque Control of a DC motorAuthor: University of HertfordshireDate created:Date revised: 2009AbstractThe following resources come from the 2009/10 BEng in Electrical Engineering (course number 2ELE0066) from the University of Hertfordshire.All the mini projects are designed as level two modules of the undergraduate programmes.To demonstrate within an industrial environment:•To use Matlab® (Simulink®)•To implement an appropriate analogue computer for modelling dynamic systems.A DC motor model, in specific prototyping stages, is more appropriate to use than the actual DC motor. This project aimed to design andimplement a DC motor model by using a simulation package (CAD) such as Matlab and implement the equivalent electronic hardware platform. © University of Hertfordshire 2009 This work is licensed under a Creative Commons Attribution 2.0 License. 1
  • Contents Section 1. Introduction 3 Section 2. Module Format 4 Section 3. Project Day 1 Brief 7 Section 4. Project Day 2 Brief 9 Section 5. Lecture Resources 10  A. First Order Systems 10  B. Second Order Systems 11  C. Simulink® 12  D. Unity Feedback Control 13  E. SISO tool 14  F. Summary 15 Assessment 17 Credits 20In addition to the resources found below there are supporting documents which should be used in combination withthis resource. Please see: Mini Projects - Introductory presentation. Mini Projects - E-Log. Mini Projects - Staff & Student Guide. Mini Projects - Standard Grading Criteria. Mini Projects - Reflection.You will also need the ‘Mini Project Torque Control of a DC Motor’ Word document. 2
  • Introduction During this mini project the design of a torque control for a DC motor is to be considered. In order to design this system the following subjects need to be considered: •First order systems and how are they designed. •Second order systems and how are they designed. •How to build models and validate their operation. The motor torque controller should have the following characteristics: Settling Time: x sec Overshoot : x% (c) University of Hertfordshire 3
  •  Series of three short projects Three key areas of your chosen field of study 3 weeks 3 Weeks 3 Weeks General Module Project 1 Project 2 Project 3 Introduction
  •  What is it? • Given a task • Work out how to solve it yourself – just like you will have to at work • Staff try to help you to work it out rather than giving answer Why use Problem based approach? • Extremely powerful and effective technique • Can increase self-confidence and resourcefulness • Skills highly valued by employers
  • Week 1 29/01/2009 Week 2 5/02/2009 Week 3 12/02/2009 Introductory Lecture and Project Day 1 Project Day 2 preparation session In week 1:  A two-hour introductory lecture  A 3-hour preparation session Weeks 2 & 3  6-hour practical session  Find out goal for the day when you arrive  Deliver solution by the end of the day
  • First order Systems Screen shots taken from Matlab® Simulink ®, The MathWorks, Inc. 10
  • Second Order SystemsScreen shots taken from Matlab® Simulink ®, The MathWorks, Inc. 11
  • Simulink Screen shots taken from Matlab® Simulink ®, The MathWorks, Inc. . 12
  • PI controller PI Controller The PI Controller consists of An amplifier (proportional part), and an integrator. 13
  • SISO tool Screen shots taken from Matlab® Simulink ®, The MathWorks, Inc. 14
  • Summary •Introduction to first order and second order systems. •Most of real life systems can be build by cascading this simple systems in series. •An example of using the Single Input Single Output (SISO) tool has been given. This was to demonstrate the power of Root Locus analysis and how to select the location of zeros and poles. 15
  • To Do list for today Topics to Read/Practice Progr ess 1 Review the unity feedback control theory 2 Find the help file for the SISO tool 3 Enter a plant with a pole at -1 in the SISO tool 4 Design a compensator that results in a settling time < 1msec. 5 Enter a second order plant with a pole at -1 +10j. 6 Design a compensator that results in a settling time of <1usec. Is this possible? 7 Design the Simulink setup up for the above two cases. 8 Find the general transfer function of the PI compensator.You will need to be familiar with the topics above for future session of the mini project.Make sure you are familiar with topics 5, 6 and 7 as you will not have time to do themduring the mini project future sessions. 16
  •  Lab-based Staff assess progress throughout session Submission of work at the end of the day Marks available for practical sessions: • Preparation session (10%) • Project Day 1 (30%) • Project Day 2 (30%)
  •  Mark availability: • Formal report (30%) • Three Completed reflection sheets (one after each practical session)  Practical marks for the day WILL BE HALVED if not submitted! Use correct templates and submit in .PDF format only. Templates and deadlines in “Assignments” on Studynet
  •  Turn up to everything – there is no referral for the practicals, only repeat! Plan - break down the day’s objective into a series of smaller tasks each morning before you start work Monitor your own progress during the day Submit everything correct format, correct template, on time Use reflection to improve your performance as the course progresses
  • This resource was created by the University of Hertfordshire and released as an open educational resource throughthe Open Engineering Resources project of the HE Academy Engineering Subject Centre. The Open EngineeringResources project was funded by HEFCE and part of the JISC/HE Academy UKOER programme.© University of Hertfordshire 2009This work is licensed under a Creative Commons Attribution 2.0 License.Screen shots taken from Matlab® and/or Simulink ®, both of which are trade marks of The MathWorks, Inc.The JISC logo is licensed under the terms of the Creative Commons Attribution-Non-Commercial-No Derivative Works 2.0 UK: England & Wales Licence. All reproductions mustcomply with the terms of that licence.The HEA logo is owned by the Higher Education Academy Limited may be freely distributed and copied for educational purposes only, provided that appropriateacknowledgement is given to the Higher Education Academy as the copyright holder and original publisher.