 |
| Detailed information |
| Original study plan |
Master's programme Mechatronics 2023W |
| Objectives |
Students know and understand the basic principles and most prominent topologies for DC-DC converters. Students understand how to evaluate and reason the operating performance and possibilities and limitations regarding the applicability of specific configurations. Additionally, they know and understand major control techniques for inverters.
The level for considering the mentioned topics roughly corresponds to the relevant chapters in Ehsani, Mehrdad et al: Modern Electric, Hybrid Electric, and Fuel Cell Vehicles, 2. Ausgabe, CRC Press, (2017) and Hayes, John G. et al: Electric powertrain : energy systems, power electronics and drives for hybrid, electric and fuel cell vehicles, .1. Auflage, Wiley, (2018).
|
| Subject |
- History and Introduction
- Vehicle Dynamics
- Powertrain Architectures
- Electric Machines
- Power Electronics and Drives
- Energy Storage and Charging
- Further Fields for More Electric Transportation
|
| Criteria for evaluation |
written exam
|
| Methods |
Lecture, guided and independent analysis of power electronic circuits and control techniques, occasionally independent studies of introductory videos
|
| Language |
(*)Deutsch, Englisch auf Anfrage, Foliensatz in englischer Sprache ausgeführt |
| Study material |
- Lecture slides
- Ehsani, Mehrdad et al: Modern Electric, Hybrid Electric, and Fuel Cell Vehicles, 2. Auflage, CRC Press, (2017)
- Hayes, John G. et al: Electric powertrain : energy systems, power electronics and drives for hybrid, electric and fuel cell vehicles, .1. Auflage, Wiley, (2018).
- Emadi, A.: Advanced Electric Drive Vehicles, 1. Auflage, Taylor & Francis Ltd, (2015).
|
| Changing subject? |
No |
| Corresponding lecture |
(*)MEMWAVOAKEA: VO Ausgewählte Kapitel der elektrischen Antriebstechnik (3 ECTS)
|
|
