Course Information
SemesterCourse Unit CodeCourse Unit TitleT+P+LCreditNumber of ECTS CreditsLast Updated Date
3MEK212Mechatronic Systems2+2+03422.11.2024

 
Course Details
Language of Instruction Turkish
Level of Course Unit Associate Degree
Department / Program Mechanics
Type of Program Formal Education
Type of Course Unit Elective
Course Delivery Method Face To Face
Objectives of the Course Teoretical and practical training of mechatronics systems applications.
Course Content Definition of mechatronic systems, examples, basic information about the place in the industry. Sensors used in mechatronic systems, actuators (actuators), transfer elements and basic kinematics. Analysis of mechatronic systems, application areas and components, engineering design methods in mechatronics, structure and sub-components of systems, basic elements of automation, control units and sensors. Selection of hardware elements for mechatronics, dimensioning of basic mechanical and standard elements, preliminary calculations, standard selection and sample applications. Modeling and design methodology for mechatronic systems, advanced control techniques, moving systems, linear actuators and application calculations, rotary actuators and application calculations, motor calculations applications. Machatronic applications in manufacturing systems, design and calculations of conveyor and linear motion systems, CNC machine tools design and calculations, 3d printer design and calculations.
Course Methods and Techniques
Prerequisites and co-requisities None
Course Coordinator None
Name of Lecturers Instructor Hüseyin Kaygısız
Assistants None
Work Placement(s) No

Recommended or Required Reading
Resources Bolton, W., "Mechatronics: Electronic Control System in Mechanical Engineering", Longman Publishing, 1999.
Çinkılıç, E., Yentürk. H., Otomasyon Sistemleri, Modül Yayınları, 2007.
Dahlhoff, H., Metzger, ML, "Modular Production System, Storage Station with PLC controlled gear motor, Training Documantatiori\ Festo, 1993.
Ebel, F., Terzi, E., "Mechatronics, Training Material, Festo Didactic, Denkendorf , Germany, 2000.
Eminoğlu, Y., Pnömatik Elektropnömatik Kumanda, Ege Basım, 2006.
Course Notes Lecture, Question-Answer, Lab. Application, Submit Visual
Exams Vize 40%, Final 60%

Course Category
Mathematics and Basic Sciences %10
Engineering %30
Engineering Design %30
Field %30

Planned Learning Activities and Teaching Methods
Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria
In-Term Studies Quantity Percentage
Mid-terms 1 % 40
Final examination 1 % 60
Total
2
% 100

 
ECTS Allocated Based on Student Workload
Activities Quantity Duration Total Work Load
Course Duration 14 2 28
Hours for off-the-c.r.stud 14 3 42
Mid-terms 1 5 5
Practice 14 2 28
Final examination 1 5 5
Total Work Load   Number of ECTS Credits 4 108

 
Course Learning Outcomes: Upon the successful completion of this course, students will be able to:
NoLearning Outcomes
1 To be able to define mechatronics exactly and correctly
2 Having a horizon about the history of the mechatronics, the present and the future
3 Gaining knowledge about the basic components and scope of mechatronics
4 Being able to know examples of existing mechatronic systems and having preliminary knowledge about advanced applications in mechatronics

 
Weekly Detailed Course Contents
WeekTopicsStudy MaterialsMaterials
1 Definition of mechatronic systems, examples, basic information about the place in the industry.
2 Sensors, actuators (actuators) used in mechatronic systems.
3 Transmission elements and basic kinematics.
4 Analysis of mechatronic systems, application areas and components, engineering design methods in mechatronics, structure and sub-components of systems.
5 Basic elements of automation, control units and sensors.
6 Selection of hardware elements for mechatronics, dimensioning of basic mechanical and standard elements, preliminary calculations, standard selection and sample applications.
7 Midterm exam.
8 Modeling and design methodology for mechatronic systems, advanced control techniques.
9 Moving systems, linear actuators and application calculators, rotary actuators and application calculations, motor calculations applications.
10 Design and calculation of mechatronic applications, conveyor and linear motion systems in manufacturing systems.
11 CNC machine tools design and calculations -1
12 CNC machine tools design and calculations -2
13 3D Printerler design and calculations -1.
14 3D Printerler design and calculations -2.

 
Contribution of Learning Outcomes to Programme Outcomes
P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11 P12
All 3 3 3 3 4 3 5 3 3 3 4
C1
C2
C3
C4

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  https://obs.gedik.edu.tr/oibs/bologna/progCourseDetails.aspx?curCourse=238433&curProgID=48&lang=en