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Course Catalog 2012-2013
MEC-3326 Mechatronics Components and Instrumentation, 5 cr |
Person responsible
Lihong Yuan
Lessons
Study type | P1 | P2 | P3 | P4 | Summer | Implementations | Lecture times and places |
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Requirements
Accepted examination, exercises,written seminar work, Labview exeicises, and lab works.
Learning outcomes
Mechatronics is introduced as an integration of microprocessor control system,electrical system and mechanical system. The student will familiarize basic mechanisms, mechanical components, actuators and sensors used in mechatronic systems and also with controllers of mechatronic systems.After the course,students should be capable of finding components and building mechatronic systems. Students gain the fundamental knowledge to mechatronics and link multidisiple fields with more specialized skills.
Content
Content | Core content | Complementary knowledge | Specialist knowledge |
1. | Introduction to mechatronics. -concept of mechatronics -key elements of mechatronic systems -various forms and elements of open-ioop and closed-loop control systems | Graphical development environment for control. | |
2. | Sensors and transducers. -performance of commonly used sensors -evaluation of sensors used in measurement of various applications | Sensors for measurment of displacement,position and proximity,velocity and motion,force,fluid pressure,liquid flow,liquid level,temperature, and light intensity. | |
3. | Signal conditioning and data presentation systems. -requirements for signal conditioning -operational amplifiers -principles of the Wheatstone bridge -digital signals -multiplexers | Measurement and signal handling techniques. Requirements for protection and filtering. Applications of Stain gauges. Sampling theorem | |
4. | Mechanical and electrical actuators -determination of mechanical actuation systems -evaluation of capabilities of various mechanisms -operational characteristics of electrical actuation systems -principles of motors | Motion transmission involving linear-to rotary, rotary-to rotary, and cyclic motion transmission.Application of different mechanisms. | |
5. | Pnematic and hydraulic actuation systems -basic designs for sequential control systems involving hydraulic/pneumatic directional control valves and cylinders | Applications for both type actuation systems. | |
6. | Microprocessors and programmable logic controllers -structures of microprocessors,microprocessors,microcontrollers -general PLC and its principle | Statement list programming. Application of PLC in lab work. | |
7. | Closed-loop controllers -the behaviour of systems with different type modes -digital closed-loop control system | ||
8. | Mechatronics system -mechatronics designs | ||
9. | Virtual instrumentation | LabVIEW programming for virtual instrumentation |
Evaluation criteria for the course
The score of the course is determined by the total sum of points from examination(70%),and others(30%)including exercises,lab work report(mandatory) and LabVIEW exercies(mandatory).
Assessment scale:
Numerical evaluation scale (1-5) will be used on the course
Study material
Type | Name | Author | ISBN | URL | Edition, availability, ... | Examination material | Language |
Book | Mechatronics | Cetinkunt | 978-0-471-47987-1 | English | |||
Book | Mechatronics electronoc control systems in mechanical and electrical engineering | W. Bolton | 978-0-13-240763-2 | English | |||
Lecture slides | Mechatronics Components and Instrumentation | Lihong Yuan, Juha Miettinen | Available from lecturer | English |
Prerequisite relations (Requires logging in to POP)
Correspondence of content
Course | Corresponds course | Description |
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More precise information per implementation
Implementation | Description | Methods of instruction | Implementation |
Mechatronics is introduced as an integration of microprocessor control system, electrical systems and mechanical systems. The course provides a fundamental background to mechatronics and links through to more specialized skills. Students will learn the basic components of mechatronics devices, actuations, signal conditioning and microprocessor system. Learning Labview will be through exercises. | Lectures Excercises |
Contact teaching: 0 % Distance learning: 0 % Self-directed learning: 0 % |