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Curriculum subjectElectrical Drives
| Subject |
| Subject code |
MET288 |
| Subject name |
Electrical Drives |
| Credit points |
6 ECTS |
| Grading method |
Grade prelim |
| Subject program |
|
|
| Curriculum subject |
| Curriculum |
2017 AT |
| Study year |
3 |
| Semester |
Fall semester |
| Subject type |
Mandatory |
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Subject loads
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| Lecture |
32 |
| Practice |
32 |
|
| General description |
|---|
| Hybrid- and electric drive vehicles features-, components- and types; safety; hybrid vehicle test measurement; electric machine nature-, types- and history; electromagnetism and electrical measurements; transformer; DC machine; asynchronous- and synchronous machines. |
|
| General aim |
|---|
| To give an overview of electrical machine types-, construction-, principle of operation- and physical processes. To give knowledges of hybrid- and electric drive vehicles principle of operation-, construction- and components. To view different battery technologies and charging processes. |
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| Aim |
|---|
| Has an overview of electrical machines and links them with hybrid- and electric drive vehicles. Knows hybrid- and electric drive vehicles features-, safety-, principle of operation- and construction. Has an overview of battery types and their charging processes. |
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| Form description |
|---|
| Lectures, practical works and homeworks. |
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| Literature |
|---|
1) Janson, K. (2013). Elektrimasinad. Tallinn: TTÜ Kirjastus.
2) Järvik, J. (2014). Üldelektrotehnika. Tallinn: TTÜ Kirjastus.
3) Pyrhönen, J., Jokinen, T., Hrabovcová, V. (2008). Design of Rotating Electrical Machines. Chichester, United Kingdom: John Wiley & Sons, Ltd.
4) Hendershot, J. R., Miller, T. (2011). Design of Brushless Permanent-Magnet Motors. New York: Oxford University Press Inc.
5) Lehtla, T. Elektriajamid. Tallinn, TTÜ, 2007.
6) Lehtla, T. Jõuelektroonika ja elektriajamid. Tallinn, TTÜ, 2003.
7) Larminie, J; Lowry, J. (2012). Electric Vehicle Technology Explained. Chichester, United Kingdom: John Wiley & Sons, Ltd.
8) Yangsheng Xu, Jingyu Yan, Huihuan Qian, Tin Lun Lam (2014). Hybrid electric vehicle design and control : intelligent omnidirectional hybrids. New York : McGraw-Hill Education
9) Vítor Monteiro, Henrique Gonçalves, João C. Ferreira, João L. Afonso. (2012). New Advances in Vehicular Technology and Automotive Engineering. Chapter 5: Batteries Charging Systems for Electric and Plug-In Hybrid Electric Vehicles. www.intechopen.com. |
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| Evaluation methods |
|---|
Subject final grade will develop from three parts:
1. Electrical machine part grade – 40% of final grade
2. Hybrid- and electric drive vehicle part grade – 50% of final grade
3. Second homework – 10% of final grade
Prerequisites of getting final grade are:
1. All practical works are done and reports submitted
2. First homework done and taken into account
3. Second homework done and taken into account |
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| Name of the e-learning course at Moodle environment (http://ekool.tktk.ee) |
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| "Elektriajamid MET288" |
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| Replacement Subjects |
| TAT013
Electrical Equipment of Cars |
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| Current rounds |
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| None |
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