Key Benefits:
Obtained the positive verification of the curriculum by the Council of Universities, prior to the favorable report of the National Agency for the Evaluation of Quality and Accreditation, and once established the official character of the Title by Agreement of the Council of Ministers of 1 October 2010 (BOE of 11 November 2010),
This Rectorate, in accordance with the provisions of Article 35.4 of the Organic Law 6/2001, of 21 December, of Universities, in the wording given by the Organic Law 4/2007, of 12 April, has resolved to order the publication of the Study plan leading to the obtaining of the degree of Graduate or Graduate in Industrial Electronic Engineering from the University of Seville, which will be structured as shown in the following annexes.
Sevilla, July 20, 2011. -Rector, Joaquin Luque Rodríguez.
ANNEX
Graduate Studies Plan in Industrial Electronics Engineering by the University of Seville
Knowledge Branch: Engineering and Architecture.
Impartition Centers: Higher Polytechnic School.
Distribution of the curriculum in ECTS credits by type of subject.
| Credits | |||
|---|---|---|---|
| F |
Basic Training | 60 | |
|
O | Required |
150 | |
| P |
| ||
| Job End Job | 18 |
| |
|
| Total | 240 |
Structure of teachings by modules:
| Module | Allocate | Subject Type | Credits | |||||
|---|---|---|---|---|---|---|---|---|
|
Basic Training. | Enterprise. | F | 6 | |||||
|
Expression. | F | 6 | ||||||
|
I. | F |
6 | ||||||
| Informatics. | F | 6 | ||||||
|
Math I. | F | 6 | ||||||
|
F | 6 | |||||||
| Basic Training in Engineering I. | Mathematics II. | F | 6 | |||||
|
Mathematics III. | F | |||||||
| Basic Training in Engineering II. | Physical II. | F | 6 | |||||
|
IV. | F | 6 | ||||||
|
| O | O | O |
| 6 | |||
| Electrical Machines. Control and Protections. | O | 6 | ||||||
|
Regulation. |
| |||||||
|
6 | 6 |
| O | O | 6 | |||
| Electronics. | O | 6 | ||||||
| Digital Electronics. | O | 6 | ||||||
|
Industrial Electronics Technology III. | Informatics and Industrial Communications. | O | 6 | |||||
|
Engineering. |
O | 6 | ||||||
|
Complementary Training to Industrial Branch. | Build and Topography. | O | 6 | |||||
| Projects II. | 6 | |||||||
| Common Training to Industrial Branch I. | Energy Engineering and Heat Transmission. | O |
6 | |||||
|
Engineering Fluidomechanics. | O | 6 | ||||||
|
Common Training to Industrial Branch II. |
Materials Engineering. | O | 6 | |||||
|
Technology Electrical. | O | 6 | ||||||
|
Common Training to Industrial Branch III. | Industrial Automation. | O | 6 | |||||
|
Industrial Electronics. | O | 6 | ||||||
|
Common Training to Industrial Branch IV. |
|
| ||||||
|
Machines and Mechanisms. | O | 6 | ||||||
|
Common Training to Industrial Branch V. | Manufacturing Processes. |
6 | ||||||
| O | 6 | |||||||
| Industrial Electronics Required I. | Conditioning and Conversion of Signals. |
O | 6 | |||||
|
|
| |||||||
|
| O | 6 | ||||||
|
Electronics Required II. |
| O |
6 | |||||
| Microprocessor-based Systems. | O | 6 | ||||||
|
Optativity. | Industrial Robotics Extension. | P |
6 | |||||
| Control of Systems Alternative Energy. | P | 6 | ||||||
|
Digital Design. | P | 6 | ||||||
| Metrological Engineering. | P | 6 | ||||||
|
Processes, Components, and Instrumentation for Waters. | P | 6 | ||||||
|
and Building Control Systems. |
P | 6 | ||||||
|
Electronic Monitoring, Control, and Functional Security Systems. |
6 | |||||||
| 6 | ||||||||
| 6 | 6 | |||||||
| 6 | ||||||||
| P | P | P |
6 | |||||
| Acoustic Applied to the Engineering. | P | 6 | ||||||
|
Quality of Engineering. | P | 6 | ||||||
| Corrosion and Protection of Materials. | P |
6 | ||||||
|
Enterprise, Culture Entrepreneur and Enterprise Plan. | P | 6 | ||||||
|
Sustainable Development. | P | |||||||
| Integrated Project Address | P |
6 | ||||||
|
Design Attended By Computer. | P | 6 | ||||||
| Renewables. | P | 6 | ||||||
| Metal and Concrete Structures. | P |
6 | ||||||
|
by Mechanized. | P | 6 | ||||||
| Engineering. | P |
6 | ||||||
| Technical English. | P | 6 | ||||||
|
Power Facilities. | P | 6 | ||||||
|
Engineering from a Global Perspective. | P | 6 | ||||||
| P | 6 |
|||||||
|
Advanced Engineering Application Materials. | P | 6 | ||||||
| Numeric Methods in Engineering. | P |
6 | ||||||
|
. | P | 6 | ||||||
| Representation and Interpretation of Planes. | P | 6 | ||||||
| Security and Hygiene at Work. | P |
6 | ||||||
| Environmental Technology. | P | 6 | ||||||
|
Nuclear Technology. | P | 6 | ||||||
|
Treatment. | P | 6 | ||||||
|
External Practices. | Practices in Companies. | P | 6 | |||||
|
| 12 |
Temporary Organization of Study Plan Subjects:
| Duration | Allocate | Type | Credits | |||
|---|---|---|---|---|---|---|
| First | C1 | Graphic Expression. | F | C1 | F | |
|
| F | F | F | F | C1 | |
|
| . | F | 6 | |||
| C1 |
|
F | 6 | |||
| C1 |
| F |
6 | |||
| C2 |
| F | F | C2 | ||
|
| II. | F | F |
| C2 | |
|
| II. | F | F |
| C2 | |
| C2 |
|
| ||||
|
Electrical Technology. | O | 6 | ||||
| Second | C1 | Mathematics III. | F | 6 | ||
| C1 | Electronics Industrial. | O | 6 | |||
| C1 | Engineering Materials. | O | 6 |
|||
|
C1 | Materials Resistance. Structures. | O |
C1 | |||
|
| Technology. | O | O |
| C2 | |
| C2 |
|
6 | ||||
| C2 |
|
| ||||
|
| O | O | C2 | |||
|
| Electronics. | O | O |
| C2 |
C2 | Energy Engineering and Heat Transmission |
| O | 6 | |||||
|
C1 |
C1 | O | C1 | |||
|
| Instrumentation. | O |
6 | |||
|
C1 |
| 6 | ||||
| C1 |
|
| C1 | |||
|
OR |
Machine and Mechanisms Theory. |
| ||||
|
C2 |
6 |
6 |
6 |
O | 6 | |
|
C2 | Industrial Automation. | O | 6 |
|||
| C2 | Power Electronics. | O | 6 |
|||
| C2 | Projects I. | O | 6 | |||
| C2 | Automatic Regulation. |
O | 6 | |||
|
Fourth | C1 |
Informatics and Industrial Communications. | O | 6 | ||
| C1 | Engineering of Automation. |
| ||||
| C1 | Electrical Machines. Control and Protections. | O | 6 | |||
| C1 |
| 6 | ||||
| C1 |
|
6 | ||||
| C2 | Optional 2. | P | 6 | |||
|
C2 | Optional 3. | P | 6 | |||
| C2 | Digital Signals Processed. |
|
| |||
| T |
Optional subject relationship:
| Credits | ||
|---|---|---|
|
routing and Control by Fluid: Hydraulics and Tire | 6 | |
| Applied acoustics to Engineering | 6 | |
| Industrial Robotics Extension | 6 | |
| Quality of Engineering | 6 | |
| Control Alternative Energy Systems | 6 | |
| corrosion and Material Protection | 6 | |
|
Enterprise, Empresing Culture, and Enterprise Plan | 6 | |
|
Sustainable Development | 6 | |
|
6 | ||
| Computer Aided Design | 6 | 6 | 6 |
| 6 | ||
|
Renewables | 6 | |
| and Concrete Structures |
6 | |
|
Manufacturing by Mechanized | 6 | |
|
Engineering Maintenance | 6 | |
|
| ||
| 6 | ||
|
Installations | 6 | |
|
Engineering from a Global Perspective |
6 | |
| Marketing and Engineering Commercial | 6 | |
| Advanced Application Materials in Engineering | 6 | |
|
Numeric Methods in Engineering | 6 | |
|
| 6 | |
| 6 | ||
| Processes, Components, and Instrumentation for Waters | 6 | |
|
6 | ||
| 6 | 6 | 6 |
| and Building Control Systems | 6 | |
|
Electronic Monitoring, Control, and Functional Security Systems | 6 |
|
| Environmental Technology | 6 | |
|
Industrial Communications Technology |
6 | |
| Nuclear Technology | 6 | |
|
Treatment | 6 |
A: Annual; C1: 1.er Cuatrimestre; C2: 2. º Cuatrimestre.
NOTE: According to the title verification memory, the student must, before the completion of his studies, accredit a level of language skills in a foreign language equivalent to at least the B1 level of the The European Common Framework of Reference for Languages.
