ME220 INTRODUCTION TO MECHATRONICS

Course Code:5690220
METU Credit (Theoretical-Laboratory hours/week):1 (1.00 - 0.00)
ECTS Credit:5.0
Department:Mechanical Engineering
Language of Instruction:English
Level of Study:Undergraduate
Course Coordinator:Assoc.Prof.Dr. ALİ EMRE TURGUT
Offered Semester:Fall Semesters.

Course Objectives

At the end of this course, the student will

  • become familiar with various software tools that can be used in the integration of electro/mechanical systems,
  • have a deeper understanding of the factors involved in a mechatronic design, and conceptually become aware of the (functionality of) components involved in such a design,
  • be able to make a small-scale mechatronic design and implement this within laboratory environment.

Course Content

Introduction to mechatronic systems, components and machines, engineering and non-engineering features of mechatronic products, role of synergy in developing mechatronic products, trends in technological developments.


Course Learning Outcomes

  • Ability to integrate sensors and actuators to solve small scale problems 

  • Ability to use different programming tools at an elementary level 

  • Ability to choose a programming platform depending on the nature of a problem (PC or Microcontroller)

  • Ability to systematically analyze a problem towards creating a design 

  • Ability to analyze and understand an existing solution and make improvements on it 

  • Ability to integrate sensors and actuators to solve small scale problems 


Program Outcomes Matrix

Contribution
#Program OutcomesNoYes
1Ability to establish the relationship between mathematics, basic sciences and engineering sciences with engineering applications.
2Ability to find and interpret information
3Ability to follow the literature and technology related to his/her topic of interest
4Recognition of the need to keep oneself up to date in his/her profession
5Possession of written and oral communication skills
6Ability to conduct team work (within the discipline, inter-disciplinary, multi-disciplinary)
7Ability to produce original solutions
8Use of scientific methodology in approaching and producing solutions to engineering problems and needs
9Openness to all that is new
10Ability to conduct experiments
11Ability to do engineering design
12Awareness of engineering ethics, knowledge and adoption of its fundamental elements
13Ability to take societal, environmental and economical considerations into account in professional activities
14Possession of pioneering and leadership characteristics in areas related to the profession