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Course Description

Course Code Semester Teoric Credit ECTS
MECHATRONIC SYSTEMS MEP 311 3 2 + 0 2 3
Prerequisite Courses
Recommended Elective Courses
Course Language Türkçe
Level of the Course Önlisans
Course Type SECMELI
Course Coordinator Öğr. Gör. MÜKREMİN AY
Instructor
Course Assistants
Course Category
Course Objective
Improve students self confidence and skills by presentation, modeling, simulation, structure and control of different mechatronic systems
Course Content
Presentation, modeling, mechanical construction and control system preparation of mechatronic systems used in different industries
Learning Outcomes of the Course Teaching Methods Measurement Methods
1 - Acknowledge about mechatronic systems used in different industries 16 - 1 - D - A -
2 - Comprehend basics of mechatronic systems, structure blocks, integrated system design and capable of prototyping 16 - 1 - D - A -
3 - Capability of modeling and simulation of simple mechatronic systems 16 - 4 - 1 - D - A -
4 - Comprehend mechanical structure, electrical and electronic control systems of different mechatronic systems and able to develop mechatronic products 16 - 8 - D -
Teaching Methods: 16:Project Based Learning 8:Group Study 4:Drilland Practice 1:Lecture
Measurement Methods: D:Project / Design A:Testing

Course Flow

Week Topics Preliminary
13 Applications 5: Presentation (video / animation), structure, characteristics, mechanical construction, electrical and electronic control system, cost of a mobile robot and list of required materials. Related homework
14 Applications 6: Presentation (video / animation), structure, characteristics, mechanical construction, electrical and electronic control system, hardware – software and cost of a intelligent mechatronic system (self-decide) and list of required materials
12 Applications 4: Presentation (video / animation), structure, characteristics, mechanical construction, electrical and electronic control system of a force, load and weight control based mechatronic system (weighbridge, dosage unit, etc.) and list of requ
1 Mechatronic system approach, background, classification; lifting in manufacturing, transportation, health, agriculture industries, mechatronic system examples of transportation, food, packing, house technology, test and measurement processes
2 Basics of mechatronic systems, structure blocks, integrated system design, mechatronic product design stage and prototyping
3 Modeling and simulation of physical systems. Presentation and use of a widespread mechatronic product design simulation software
4 Modeling and simulation of simple mechanical systems. Exercises and homework
5 Modeling and simulation of simple thermal systems. Exercises and homework
6 Modeling and simulation of simple hydraulic systems. Exercises and homework
7 Modeling and simulation of simple electrical systems. Exercises and homework
8 Modeling and simulation of integrated systems. Exercises and homework
9 Applications 1: Presentation (video / animation), structure, mechanical construction, electrical and electronic control system of a motion based mechatronic system (bench slide, conveyor, automatic door, etc.) and list of required materials
10 Applications 2: Presentation (video / animation), structure, characteristics, mechanical construction, electrical and electronic control system of a flow control based mechatronic system (level, pressure, flow control, etc.) and list of required material
11 Applications 3: Presentation (video / animation), structure, characteristics, mechanical construction, electrical and electronic control system, cost of a temperature control based mechatronic (thermal process furnace, etc. ) system and list of required

Resources

Lecture Notes
Course Resources

Document Sharing


Contribution of the Course to Program Outcomes

No Program Learning Outcomes Contribution Level
1 2 3 4 5

Evaluation System

Contribution Level Order Percentage of Contribution
Odev 1 100
Total 100
The Ratio of the Semester to Success 30
Final to Success Ratio 70
Total 100

ECTS Workload

Activity Sayısı Time (Hour) Total Workload (Hour)
Course Duration (Including the exam week: 16x Total course hours) 16 2 32
Hours for off-the-classroom study (Pre-study, practice) 16 1 16
Mid-terms 1 8 8
Quiz 2 2 4
Assignment 0 0 0
Project / Design 1 12 12
Final examination 1 7 7
Total Workload 79
Total Workload / 25 (h)Toplam İş Yükü /25(s) 3.16
ECTS Credit of the Course 3.16
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