Subject description - BD1M14EPT1
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Explanatory Notes
Instructions
Anotation:
The course focuses on the principles of designing electric drives with AC motors in different ways and different types of load, reliability, design for explosive environments and for special purposes and the necessary technical documentation. Students learn the basics of electric traction drives for trams in public transport systems, electric locomotives, as well as the systems of hybrid cars and electric vehicles.
Course outlines:
| 1. | | Sizing and design of drives with asynchronous motors. |
| 2. | | Sizing of drives with asynchronous motors fed by the frequency converter. |
| 3. | | Drives with a fan characteristic. |
| 4. | | Electric drives in explosive environments. |
| 5. | | Reliability of electrical drives. |
| 6. | | Electric actuators for special purposes. |
| 7. | | Technical documentation. |
| 8. | | Mobility in society and its energy consequences. |
| 9. | | Hybridization and electrification drive cars. |
| 10. | | Systems of hybrid cars. |
| 11. | | Electrovehicles. |
| 12. | | Trams in public transport. |
| 13. | | Electric locomotives. |
| 14. | | Reserve. |
Exercises outline:
| 1. | | Introduction, occupational safety |
| 2. | | Dimensioning of drives with induction machines |
| 3. | | Mathematical model of a DC machine - deriving |
| 4. | | Mathematical model of a DC machine - realization |
| 5. | | Mathematical model of a DC machine - influence of parameters changing |
| 6. | | Control loops of a DC motor |
| 7. | | Mathematical model of an induction machine |
| 8. | | Field oriented control of an induction motor ? introduction |
| 9. | | Field oriented control of an induction motor ? model |
| 10. | | Field oriented control vs. scalar control of an induction motor, influence of parameters changing |
| 11. | | Traction drive - simulation 1 |
| 12. | | Traction drive - simulation 2 |
| 13. | | Traction drive - simulation 3 |
| 14. | | Reports checking |
Literature:
| [1] | | CHIASSON, John Nelson. Modeling and high performance control of electric machines. Hoboken: Wiley, 2005. ISBN 0-471-68449-X. |
| [2] | | LEONHARD, Werner. Control of electrical drives. 3rd ed. Berlin: Springer, 2001. xviii, 460 s. ISBN 3-540-41820-2. |
| [3] | | IWNICKI, S., ed. Handbook of railway vehicle dynamics. Boca Raton: CRC/Taylor & Francis, 2006. 535 s. ISBN 0-8493-3321-0. |
| [4] | | www.mathworks.com |
| [5] | | OGUNSOLA, Ade a Andrea MARISCOTTI. Electromagnetic compatibility in railways: analysis and management. 1st ed. New York: Springer, 2012. xix, 528 s. Lecture notes in electrical engineering; 168. ISBN 978-3-642-30280-0. |
| [6] | | Steimel, A.: Electric Traction-Motive Power and Energy Supply. München, Oldenburg Industrieverlag, 2008. |
Requirements:
Credit conditions: Attendance by the study laws, activity during the exercises, checled laboratory reports. Defense of the semestral work
Subject is included into these academic programs:
| Page updated 25.4.2024 17:51:17, semester: Z/2024-5, Z,L/2023-4, Send comments about the content to the Administrators of the Academic Programs |
Proposal and Realization: I. Halaška (K336), J. Novák (K336) |