XSL Content
Industrial Automation
- Centre
- Faculty of Engineering - Bilbao
- Degree
- Bachelor's Degree in Industrial Electronics and Automation Engineering
- Academic course
- 2024/25
- Academic year
- 3
- No. of credits
- 6
- Languages
- Spanish
- Basque
TeachingToggle Navigation
Study type | Hours of face-to-face teaching | Hours of non classroom-based work by the student |
---|---|---|
Lecture-based | 30 | 45 |
Applied classroom-based groups | 15 | 23 |
Applied laboratory-based groups | 15 | 22 |
Teaching guideToggle Navigation
AimsToggle Navigation
- Ability to identify and analyse subsystems and electronic devices applicable to the automation of industrial processes.
- Ability to develop and manage comprehensive projects for the design and implementation of control and automation systems applied to industrial processes.
- Ability to handle computer programming tools for general-purpose devices used in the automation of industrial processes.
- Ability to handle technical documentation from electronic product manufacturers in order to be able to provide improvements in production processes through the modernization and integration of new modules in the electronic automation system.
TemaryToggle Navigation
Theoretical Contents
Topic 1: Introduction
Introduction. Industry 4.0. Reference Architectures 4.0. Standards 4.0: Hierarchical Levels (S95-S88), Communications (OPC - UA) and Implementation (IEC 61131-3). MeiAl 4.0 methodology.
Topic2: PLC Software
- Case Studies: DISA FMS 200 User Requirements and Station S1: Arrrangement of the Base.
- IEC 61131 Standard. Introduction. Software Model. Communication and Program Model. Type of data. Programming languages.
-ANSI/ISA-88 Standard. Introduction. Process , Procedure, Physical and Equipment Entity Models.
Topic3: PLC Hardware
Introduction. Construction and configuration of a PLC. Internal Structure of a PLC (Memories; CPU, Input/Output Interfaces, Power Supply, Other Modules). Basic Functional Structure of a PLC - IEC 61131-1.
Topic4: Communications
Introduction. MQTT. OPC UA.
Practical Contents (TIA Portal and Siemens PLCs)
Practice1: New Concepts for Design Implementations made with the GRAFCET Modeling Language following the MeiA methodology.
Base Example: Transfer of Parts. Libraries in TIA Portal. HMI as a testing tool. CPU memories. Input/Output variables in the FBs (SFC). Structured Programming (ST) and programming in contacts (LD) of the FBs. Documentation
Practice2: Structured Programming
Introduction to Structured programming. Flow control. MAIN (PRG) of the initial example in ST. Unboxing Process (array management for outputs). Warehouse Process (array management for inputs)
Practice 3: Communications
OPC UA and MQTT communications.
MethodologyToggle Navigation
- Master Classes: presentations of theoretical content by the teaching staff, carrying out various individual activities by the students.
- Classroom Practices: Work on practice scripts and development of group activities by students.
- Laboratory Practices: Development of the practices.
Assessment systemsToggle Navigation
- Written exam (60%) to be developed in one or several tests. It will take place on the date set by the school for the Ordinary Call. The written exams will include the topics of the master classes and concepts developed in the Practices.
- Laboratory Practices (30%): Preparation, presentation and reports.
- Group Work (10%).
It will be necessary to obtain at least a 5 over 10 in each part in order to pass the course and take all the percentages into account for the final grade.
b)Final Evaluation (for students who request it):
- Written exam (60%) that will include the topics of the master classes and concepts developed in the Practices.
- Practical Laboratory Test (30%).
- Individual work (10%).
It will be necessary to obtain at least a 5 over 10 in each part in order to pass the course and take all the percentages into account for the final grade.
To request the final evaluation system, students must present a request in writing to the teaching staff responsible for the subject the renunciation of continuous evaluation, for which You will have a period of 9 weeks from the beginning of the semester.
To request the final evaluation system, students must submit in writing to the teaching staff responsible for the subject the waiver of the continuous evaluation, for which they will have a period of 9 weeks counting from the beginning of the semester.
Resignation of students from a call:
In the case of continuous evaluation, students may resign from the call within a period of one month before the end date of the teaching period of the subject. This resignation must be submitted in writing to the teaching staff responsible for the subject.
In the case of continuous evaluation, students may withdraw from the call within a period of one month before the end date of the teaching period for the subject. This resignation must be submitted in writing to the teaching staff responsible for the subject.
In the case of final evaluation, failure to take the tests set on the official exam date will mean automatic resignation from the corresponding call.
Compulsory materialsToggle Navigation
The documentation corresponding to the slides to support the theory and laboratory practices that are available in the eGela virtual classroom of the subject.
Within each topic and in the practice scripts, supporting bibliography, standards and internet pages of interest are presented and updated every year.
BibliographyToggle Navigation
Basic bibliography
-OCW Course (https://ocw.ehu.eus): " MeiA. Metodología para Ingeniería de Automatización. Nivel de Diseño " that will serve as support for teaching. The MeiA methodology is presented in the course together with a collection of exercises solved according to the principles of the methodology will progressively train students at the design level.
-ISA-88 "ANSI/ISA–88.00.01–2010. Batch Control". ISA, (2010)
-IEC 61131-3 "Programmable Controllers - Part 3: Programming languages, International Standard Edition 3.0". IEC, (2003)
-IEC 60848 "GRAFCET specification language for sequential function chart". IEC 2013
-E. Mandado, J. Marcos, C.F. Silva, I. Armesto, J.L. Rivas and J.M. Nuñez (2018). " Sistemas de Automatización y Automatas Programables “.Ed.: Marcombo.
In-depth bibliography
Within each topic and in the practice scripts, supporting bibliography, standards and internet pages of interest are presented and updated every year.
GroupsToggle Navigation
01 Teórico (Spanish - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
20-32 | 08:00-10:00 | ||||
34-35 | 08:00-10:00 |
Teaching staff
Classroom(s)
- P3I 7A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P3I 7A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
01 Applied classroom-based groups-1 (Spanish - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
20-32 | 10:00-11:00 | ||||
34-35 | 10:00-11:00 |
Teaching staff
Classroom(s)
- P3I 7A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P3I 7A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
01 Applied laboratory-based groups-1 (Spanish - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
21-21 | 10:00-13:00 | ||||
24-24 | 10:00-13:00 | ||||
27-27 | 10:00-13:00 | ||||
31-31 | 10:00-11:30 11:30-13:00 | ||||
34-34 | 10:00-13:00 |
Teaching staff
Classroom(s)
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
01 Applied laboratory-based groups-2 (Spanish - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
22-22 | 10:00-13:00 | ||||
25-25 | 10:00-13:00 | ||||
28-28 | 10:00-13:00 | ||||
32-32 | 10:00-11:30 11:30-13:00 | ||||
35-35 | 10:00-13:00 |
Teaching staff
Classroom(s)
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
31 Teórico (Basque - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
20-28 | 08:00-10:00 | ||||
29-31 | 08:00-10:00 | ||||
32-32 | 08:00-10:00 | ||||
34-35 | 08:00-10:00 |
Teaching staff
Classroom(s)
- P5I 9A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P5I 9A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P5I 9A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P5I 9A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
31 Applied classroom-based groups-1 (Basque - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
20-28 | 11:00-12:00 | ||||
29-31 | 11:00-12:00 | ||||
32-32 | 11:00-12:00 | ||||
34-35 | 11:00-12:00 |
Teaching staff
Classroom(s)
- P5I 8A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 9A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P5I 8A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P5I 8A - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
31 Applied laboratory-based groups-1 (Basque - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
23-23 | 10:00-13:00 | ||||
26-26 | 10:00-13:00 | ||||
29-30 | 10:00-13:00 | ||||
34-34 | 10:00-13:00 |
Teaching staff
Classroom(s)
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II
- P6I 12L - ESCUELA DE INGENIERIA DE BILBAO-EDIFICIO II