EEP582 Control Technique with Microprocessor Controllers

Code EEP582
Name Control Technique with Microprocessor Controllers
Status Compulsory/Courses of Limited Choice
Level and type Post-graduate Studies, Professional
Field of study Power and Electrical Engineering
Faculty
Academic staff Leonīds Ribickis, Aivars Pumpurs, Andrejs Potapovs, Mihails Gorobecs
Credit points 3.0 (4.5 ECTS)
Parts 1
Annotation The technologic process continuous automatic control systems are studied. The basic principles and the necessary control elements for closed loop control are studied. The regulator programming for system optimum operation is studied..
Contents
Content Full- and part-time intramural studies Part time extramural studies
Contact hours Independent work Contact hours Independent work
Technological processes, automation, automation tasks. 2 0 1 2
Technological process parameters, the analogue and digital processing. 2 0 2 2
Microprocessor controller design principles. 2 0 1 2
Microprocessor controller architecture. 2 0 1 2
Data input and output from the controller. 2 4 1 4
Controller programming basics. 4 4 2 6
Controller programming examples. 2 6 0 6
Lab.w. No. 1. Introduction to programming environment and commands. 4 4 2 8
Lab.w. No. 2. Algoritmization of technological process No.1. 4 8 2 8
Lab.w. No.3. Input of the algorithm of technological process No. 1 on the computer. 4 6 2 8
Lab.w. No.4. Control system test of technological process No. 1. 4 8 2 10
Lab.w. No.5. Elaboration and test of Control system of technological process No. 2. 4 8 2 10
Lab.w. No.6. Elaboration and test of Control system of technological process No. 3. 4 8 2 10
Lab.w. No.7. Elaboration and test of Control system of technological process No. 4. 4 8 2 10
Tests lesson. 4 8 2 8
Total: 48 72 24 96
Goals and objectives
of the course in terms
of competences and skills
The aim of the study course is to provide knowledge how to build the automation systems by using controllers. The tasks of the study course are to provide information about sensor and actuator interfacing to controller device and the programming of the controller to achieve the optimum operation of the system.
Learning outcomes
and assessment
Is able to create a control algorithm for given technological process. - Accomplished homework.
Understands basic principles of controller programming. - A working controller program has been compiled for given control algorithm. Successfully accomplished laboratory work.
Is able to select the controller device for given automatization task. - Accomplished homework. Successfully accomplished laboratory work. Successfully passed exam.
Understands basic principles of process visualisation and can create user interface. - Successfully accomplished laboratory work. Successfully passed exam.
Understands the principles of closed control loop design. - Accomplished homework. Successfully accomplished laboratory work. Successfully passed exam.
Evaluation criteria of study results
Laboratory works - 30%
Home works - 30%
Exam - 40%
 
Course prerequisites Industrial electronics, industrial process automation.
Course planning
Part CP ECTS Hours Tests
Lectures Practical Lab. Test Exam Work
1 3.0 4.5 1.0 0.0 2.0 *

[Extended course information PDF]