Key Benefits:
Obtained the verification of the curriculum by the Council of Universities, prior to the positive report of the National Agency for the Evaluation of Quality and Accreditation, and declared the official character of the title by Agreement of the Council of Ministers, of 1 October 2010 (published by Resolution of the Secretary of State of Universities, 18 October 2010, in the BOE No. 273, 11 November),
This Rectorate, in accordance with the provisions of Article 35 of the Organic Law 6/2001, of Universities, in the wording given by the Organic Law 4/2007, has resolved to publish the plan of studies leading to obtaining the official degree of Graduate/a in Industrial Electronics Engineering.
The curriculum referred to in this resolution shall be structured as set out in Annex I thereto.
Almeria, October 7, 2011. -Rector, Pedro Roque Molina Garcia.
ANNEX I
Study Plan leading to the degree of Graduate degree in Industrial Electronics Engineering
Center: Superior School of Engineering.
Knowledge Branch: Engineering and Architecture.
Implementation Course: 2010-2011.
Certificates to be extinguished: None.
Overall distribution of the curriculum in ECTS credits, by type of subject
ECTS | ||
---|---|---|
training (FB) | 60 | |
(OB) | 150 | |
| ||
6 | 6 | |
12 | 12 | |
Total | 240 |
Structure of the Degree of Studies in Industrial Electronics Engineering: Modules and Materies
ECTS Module | Module Name | Matter Name |
Character of the matter and branch of Annex II RD1393/07 | |||
---|---|---|---|---|---|---|
60 |
Enterprise. | Enterprise. |
|
6 | ||
6 | ||||||
6 | ||||||
. | Basic (Physical). | |||||
|
6 |
Math. | Basic (Math) | Basic (Mathematics). | 24 | |
Chemistry. | Basic (Chemistry). | 6 |
||||
60 |
Automatic. | Required. | 6 | 6 |
||
Science and Engineering of Materials I. | Required. | 6 | ||||
. | Required. |
6 | ||||
Engineering I. | Required. | 6 |
||||
6 | 6 | |||||
. | Required. |
| ||||
6 |
6 | 6 | ||||
Solid I. | Required. | 6 | ||||
Projects. | Required. | 6 |
||||
Mechanical Technology I. | Required. | 6 | ||||
6 | Complementary Training in another Specific Technology. | elasticity and Resistance of Materials. |
Required. | 6 | ||
Required. | Required. |
6 | ||||
Chemical and Biotech Processes. | Required. | 6 | ||||
Neumatic and Oleohydraulics. |
Required. | 6 | ||||
Industrial Chemistry. | Required. | 6 | ||||
48 | Industrial Electronics. | Electronic Applications I. |
| |||
Fundamental II. | Required. | 15 | ||||
Industrial Computing and Robotics I. |
Required. | 12 | ||||
Engineering II. | Required. | 6 | ||||
and Control I. | Required. | 9 | ||||
6 |
Optativity. | Elasticity and Resistance of Materials. | Optional. | 6 | ||
Industrial Manufacturing. |
6 | |||||
6 | Optional. | Optional. | 6 | |||
Engineering of Chemicals and Bitechnologicals. | Optional. | |||||
Neumatic and Oleohydraulics. | Optional. | 6 | ||||
Industrial Chemistry. | Optional. | 6 | ||||
30 | Industrial Electronics Intensification. | Electronic Applications II. |
| |||
| ||||||
12 | 12 | 12 | 12 | 12 | 12 |
|
6 | 6 | 6 |
| |||
6 | 6 The_table_table_izq"> Cross-training in technology specifies electricity. | Electrical Installations. | Required. |
12 | Enterprise Practices. | Operations in Industrial Engineering. | Required. | 6 |
Business Initiative. | Required. | 6 | ||||
Enterprise External Practices. | External Practices. | 12 | ||||
12 | Job End Job. | Grade End Job. | Grade End Job. | 12 |
Temporary structure by subjects of the Degree of Studies in Industrial Electronics Engineering
Materies | Matter character | |||
---|---|---|---|---|
. º | Enterprise | FB | 6 | |
FB | 6 | |||
FB | ||||
FB | 6 | |||
FB | FB | 18 | ||
Chemistry | FB | 6 | ||
Technology Mechanics I | OB | 6 | ||
2. º |
FB | FB | 6 | |
Engineering I | OB | 6 | ||
Science and Materials Engineering I | OB | 6 | ||
Engineering I | OB | |||
| 6 | |||
OB | ||||
OB | 6 | |||
| OB | |||
I Mechanics | OB | 6 | ||
OB | OB | OB |
| |
OB | 6 | 6 | ||
Electronics Fundamental II | OB | 15 | ||
Modeling and Control of Industrial Processes I |
OB | 9 | ||
Industrial Computing and Robotics I | OB |
6 | ||
Industrial Computing and Robotics II | OB | 6 | ||
Elasticity and Resistance of Materials |
6 | |||
OP | OP | OP |
| |
Engineering Foundations |
OP | 6 | ||
and Biotechnological Process Engineering |
6 | |||
OP | OP |
| 6 | |
OP | ||||
OB | OB |
6 | ||
Modeling and Control of Industrial Processes II | OB | 6 | ||
Elasticity and Resistance of Materials (Mod. Supplemental Training) | OB | 6 | ||
Engineering Foundations (Mod.Training Supplemental) | OB | 6 | ||
and Biotechnological Process Engineering (Mod.Training Supplemental) | OB | 6 | ||
Neumatic and Oleohydraulics (Mod.supplementary Training) | OB | 6 | ||
OB | 6 | |||
4. º |
| 6 |
OB | |
Robotics I | OB | 6 | ||
Electrical Engineering II | OB | |||
|
OB | |||
OB | ||||
OB | 6 | |||
External Practices | PE | 12 | ||
| ||||
TFG | TFG |
Industrial Engineering | OB | 6 |
Electronic Applications II | OB | |||
OB | OB |