Key Benefits:
In accordance with the provisions of Article 28 of Royal Decree 1393/2007 of 29 October, as amended by Royal Decree 861/2010 of 2 July 2010 laying down the procedure for the amendment of curricula verified and once received the communication from the National Agency for the Evaluation of Quality and Accreditation-ANECA-accepting the modifications presented in the curriculum corresponding to the teaching of the University Master in Conversion of Electrical Energy and Power Systems by the University of Oviedo, official title established by the Agreement of the Council of Ministers of 11 October 2012, published by Resolution of 9 November 2012, of the General Secretariat of Universities, in the "Official Gazette of the State" dated 29 November 2012,
This Rectorate has resolved to order the publication of the modification of the curriculum of the Master University in Conversion of Electrical Energy and Power Systems by the University of Oviedo, being modified in the the terms set out in the Annex to this Resolution, which amends the curriculum published by the Rectoral Resolution of 19 July 2013, from the University of Oviedo, in the "Official State Gazette" of 5 August 2013.
This modification of the curriculum will take effect from the 2015/2016 course.
Oviedo, September 17, 2015. -Rector, Vicente Miguel Gotor Santamaria.
ANNEX
Plan of studies leading to the degree of Master's degree in Electrical Energy Conversion and Power Systems by the University of Oviedo
Knowledge Branch: Engineering and Architecture
RD 1393/2007, as amended by RD 861/2010, Annex I, paragraph 5.1. Structure of the teachings.
Overall distribution of the curriculum in ECTS credits, by type of subject:
| ECTS | |
|---|---|
|
(OB) | 48 |
|
Optives (OP) | 24 |
|
Work Master (TFM) | 18 |
|
| |
| Total Credits | 120 |
Structure of the curriculum by modules and/or subjects and subjects:
| Matter/Allocate | Character | Credits | Semester | ||
|---|---|---|---|---|---|
|
Igualation | Introduction to Systems Power of Renewable Energy, Electrical Traction and Energy Efficiency. | CF | 3 | 1 | |
|
, Operating Electrical Systems, and Electric Power Transport. | CF | 6 | 1 | ||
|
| CF | CF | 2 | 1 | |
| Hybrid Control and Processing Systems. |
3 | 1 | |||
| Microcontrollers. | CF | 3 | 1 |
||
|
CF | CF | 3 |
| 1 | |
| 3 | 1 | ||||
|
Machines for Generation and Traction. | CF | 3 | 1 | ||
|
|
4 | 1 | |||
| Electronic CAD. | CF |
| |||
|
1 |
1 | CF | 5 | 1 | |
| Total | 37 | ||||
|
Common Technologies | Industrial Electronics in Renewable Energy Generation Systems. | OB |
2 | ||
| OB | 6 | 2 | |||
| of the Distributed Generation on Electrical Power Quality. | OB |
2 | |||
| OB | 6 | 2 | |||
|
. | OB | 6 | 2 |
||
|
Applied to Power Systems. | OB | 3 | |||
| Systems with FACTS and HVDC: Analysis and Modeling. | OB | 3 | 3 | ||
| Total | 36 | 2, 3 | |||
| OP | 3 | ||||
| Financial Economic Analysis. |
OP | 6 | 3 | ||
|
Power Project Management (Renewable and Conventional). | OP |
| |||
| 3 | OP |
| |||
| 3 | OP |
3 | 3 | ||
| Total | 24 | 3 | |||
| Specialization in Scientific-Technological Research | Power Systems in Hybrid Vehicles (HEV) and Electrical (EV). | OP | 6 | ||
| Storage and Energy Recovery on Power Systems and Hybrid/Electric Vehicles (HEV/EV). | OP |
3 | |||
|
Topologies and Control Methods in FACTS and HVDC Applications. |
3 |
3 | 3 | ||
|
Micronetworks and Smart Networks. | OP | 6 | |||
| Applied to Hybrid/Electric Vehicles. | OP | 3 | 3 | ||
|
Total |
24 | 24 | 3 |
||
|
Generic and Specific Aspects of Scientific Research. | OB | 3 | |||
| and Trends in the Future Electrical Systems. | OB | 4.5 | 4 | ||
|
| OB | 4 | 4 | ||
| Total | 12 | 4 | |||
|
End Job | TFM | 18 | 4 | ||
|
Total | 18 |
4 | |||
The temporality of the subjects may, due to exceptional circumstances, undergo modifications, provided that it is authorized by the Vicerrectorate with competencies in Academic Management and before the beginning of the course academic.
