| Educational guide School of Engineering |
english |
| Industrial Engineering (2013) |
 Subjects |
| ELECTRICAL ARCHITECTURE OF VEHICLES |
| Learning outcomes |
| IDENTIFYING DATA | 2023_24 |
| Subject | ELECTRICAL ARCHITECTURE OF VEHICLES | Code | 17655239 | |||||
| Study programme |
|
Cycle | 2nd | |||||
| Descriptors | Credits | Type | Year | Period | ||||
| 3 | Optional | 1Q |
||||||
| Competences | Learning outcomes | Contents |
| Planning | Methodologies | Personalized attention |
| Assessment | Sources of information | Recommendations |
| Type A | Code | Learning outcomes |
| CE2 |
Analyse the stationary behaviour of converters in the power distribution chain of an electric vehicle. Understand the main characteristics of the electric machinery in a propulsion system. Can design the power distribution chain of an electric vehicle. Can model the interactions between the power converter, the electrical machine and vehicle dynamics. Verify the design specifications of the powertrain by simulation | |
| Type B | Code | Learning outcomes |
| CT3 |
Recognise the situation as a problem in a multidisciplinary, research or professional environment, and take an active part in finding a solution Follow a systematic method with an overall approach to divide a complex problem into parts and identify the causes by applying scientific and professional knowledge Design a new solution by using all the resources necessary and available to cope with the problem Draw up a realistic model that specifies all the aspects of the solution proposed Assess the model proposed by contrasting it with the real context of application, find shortcomings and suggest improvements | |
| Type C | Code | Learning outcomes |
