ISS0065 Control Instumentation

Course description

News
  • Audience groups | 15.09.2017 09:48 | by Kristina Vassiljeva

    Dear all!

    Registration to laboratory works will be openned at 12:00.

    You can find the times of Audience groups in http://ois.ttu.ee system. Open tab Study Plans - Registration to Audience Groups. Then Select the right course: Control Instrumentation. If course is selected you can see pen image (edit) in front of it. Click on pen image and select the time for the practical work.

    NB! First training will be on  Tuesday 19.09. In order to use ABB PLC you need an UNI-ID.

  • Pass to LAB (Uni-ID) | 13.09.2017 12:42 | by Kristina Vassiljeva

    NB! In order to use PCs in the laboratories, students should have an Uni-ID account. Uni-ID username firstname.lastname can be acquired from https://pass.ttu.ee, by logging in with your Estonian ID card. 

    If you don’t have an ID card, then you can acquire the password from IT HelpDesk.

    location: Akadeemia tee 3 (SOC building), room 129 
    e-mail: helpdesk@ttu.ee 
    phone: 620 3333

Syllabus

Instructors: 

Semester: 

  • Autumn

Year: 

2017

Awarded ECTS points: 

5.0

Description: 

Realization of automation goals by technical instrumentation.

Policies: 

Policies: 

Course objectives:

  • To show control system design and control equipment types;
  • To describe PID controller types and tuning mechanisms;
  • Choice of the right sensor and actuator device for the process;
  • Eective representation of the information (HMI);
  • Ability to carry out the experiments and report its results.

Learning outcomes of the subject:

  • Knows and able to use electrical schemes;
  • Knows the most commonly used controllers and their operating principles;
  • Able to describe good and bad features of various controllers;
  • Understands the limitations that arise using simplified models in complex systems,
  • Understands representation of the systems;
  • Able to design simple SFS programs (A Structured Flow Charts);
  • Able to use instrumentation to test control systems;
  • Able to carry out laboratory tests on the system to achieve the desired results;
  • Able to determine system characteristics from experiments and simulations;
  • Able to select suitable sensors and actuators for the controller;
  • Able to use software to solve the control tasks.

Independent work:

Students have to be able to apply concepts and demonstrate understanding.

Additionaly homeworks have to be done during semester. Students have to be able to work with additional software:

  • Electrical CAD software PCSCHEMATIC Automation;
  • ABB Control Builder Plus based on CoDeSys Automation Platform.

Assessment methods:

  •  Home-works,
  •  PLC (training) + Laboratory works (Lab reports should be defended in 2 weeks after experiment was carried out).  

In general, 10 works (tasks) should be done.

Exam prerequisites:

All home-works must be done + at least 5 lavoratory works must defended.

The final grade consists of two parts: each defended work gives 5% (on time) or 2% (with delay) /max 10 x 5%/ and 50% exam.

 

Calendar

September 2017

Mon Tue Wed Thu Fri Sat Sun
28
29
30
31
1
2
3
 
 
 
 
 
 
 
4
5
6
7
8
9
10
 
 
11:45 to 13:15
 
 
 
 
 
 
11
12
13
14
15
16
17
 
 
11:45 to 13:15
 
 
 
 
 
 
18
19
20
21
22
23
24
 
 
08:00 to 09:30
 
 
11:45 to 13:15
 
 
14:00 to 15:30
 
 
08:00 to 09:30
 
 
08:30 to 10:00
 
 
 
 
25
26
27
28
29
30
1
 
 
08:00 to 09:30
 
 
11:45 to 13:15
 
 
14:00 to 15:30
 
 
08:00 to 09:30
 
 
08:30 to 10:00
 
 
 
 
Materials

Lectures

Title Publishedsort descending Short description Files
Lecture 01 12.09.2017 Assessment methods, Agenda, History of Automation, Trends AV17_L1s.pdf
Lecture 02 12.09.2017 Technical documentation and Signals AV17_L2.pdf
Lecture 03 18.09.2017 Discrete/Sequence Control AV17_L3.pdf

Exercises

Title Publishedsort descending Short description Files
Exercise 03 18.09.2017 Examples of Electrical Diagrams AV17_Ex3.pdf

Laboratory works

Title Publishedsort descending Short description Files
PLC Training 1 18.09.2017 AC500 system, Communication, Binary Variables PLC_1.pdf