| Statuss(Aktīvs) | Izdruka | Arhīvs(0) | Studiju plāns Vecais plāns | Kursu katalogs | Vēsture |
| Course title | Mechatronics II |
| Course code | MašZ3028 |
| Credit points (ECTS) | 2.25 |
| Total Hours in Course | 60.75 |
| Number of hours for lectures | 8 |
| Number of hours for laboratory classes | 16 |
| Independent study hours | 36 |
| Date of course confirmation | 07/02/2017 |
| Responsible Unit | Institute of Mechanics and Design |
| Course developers | |
| Dr. sc. ing., prof. Aivars Kaķītis |
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| There is no prerequisite knowledge required for this course | |
| Replaced course | |
| MmehB019 [GMMEB019] Mechatronics II |
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| Course abstract | |
| The aim of the study course is to gain an understanding of the principles of mechatronics, a systemic approach to the design and maintenance of mechatronic systems. Students learn the structure, dynamical properties and transmission functions of mechatronic systems. Students learn the principles of sensor operation and their use for measuring various physical quantities and controlling industrial process automation. Students learn the basics of electronic devices and programmable logic controllers programming. | |
| Learning outcomes and their assessment | |
| Knowledge - students understands the working principles of mechatronic systems. Gain in-depth knowledge of proportional hydraulic drive, electro-pneumatics and sensor applications, electronics, and PLC applications. The acquired knowledge serves as a basis for working with mechatronic systems. Knowledge is evaluated in tests and laboratory works.
Skills - students are able to use the acquired knowledge creatively in designing and servicing mechatronic systems. Able to perform system diagnostics and troubleshooting. Assessment - execution of laboratory work. Competence - students are able to use the acquired knowledge creatively in the evaluation and design of the operation of mechatronic systems. Students are able to justify their decisions and integrate the knowledge gained in this and other study courses with work with complex mechatronic systems. Competences is evaluated in tests and laboratory works. |
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| Course Content(Calendar) | |
| 1. Signals and their digital processing - 2h.
2. Signal transmission and disturbances suppression - 1h. 3. Test on measuring systems and signals. 4. Protection of sensors and semiconductor switches against switching overloads - 2h. (Laboratory work) 5. Design and calibration of force measurement system - 2h. (Laboratory work) 6. Investigating Transistor and Triac Switch Control Circuits and Setting Operating Mode - 2h. (Laboratory Work) 7. Use of optotriac for actuator control - 2h. (Laboratory work) 8. PLC programming and experimental testing of its operation - 4h. (Laboratory work) 9. Control of Electropneumatic Equipment with Microcontroller - 4h. (Laboratory work) 10. Actuators for mechatronic systems. Electric actuators, their construction and use - 1h. 11. Hydraulic and pneumatic actuators, conditions of their use - 1h. 12. Proportional hydraulic and pneumatic drive - 2h. 13. Test on Actuators for mechatronic systems. 14. Diagnostics of mechatronic systems - 1h. |
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| Requirements for awarding credit points | |
| The course ends with an exam. In order to pass the exam, must be defended laboratory works and completed homework. | |
| Description of the organization and tasks of students’ independent work | |
| During the independent work the students acquire in-depth the topics discussed in the lectures, carry out the necessary calculations for practical tasks and laboratory work. | |
| Criteria for Evaluating Learning Outcomes | |
| The student successfully defends the laboratory works, if he has made the necessary calculations and is able to answer any control question for the job. | |
| Compulsory reading | |
| 1. Janschek K. Mechatronic systems design: methods, models, concepts. Heidelberg: Springer, 2012. 805 p.
2. Boukas El-Kébir, AL-Sunni Fouad M. Mechatronic systems: analysis, design and implementation. Berlin: Springer, 2011. 501 p. 3. Kaķītis A., Galiņš A. Leščevics P. Sensori un mērīšanas sistēmas. Jelgava: LLU, 2008. 396 lpp. |
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| Further reading | |
| 1. Dynamic systems. Modeling, analysis and simulation. Trondheim, Tapir academic press, 2004. 213 p. 2. Proporcionālā hidrauliskā piedziņa. A. Kaķītis, A. Kirka, A. Galiņš, Ē. Kronbergs, R. Puronas, [B.v.: b.i.] 2001. 121 lpp. |
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| Periodicals and other sources | |
| Lekcijas un e-studiju materiāli | |
| Notes | |
| The study course is included in the Compulsory part of the Bachelor’s study program “Machine Design and Manufacturing”. 3rd study year 5th semester. | |