Automatics and Control25982
- Centre
- Faculty of Engineering - Vitoria-Gasteiz
- Degree
- Doble Grado en Ingeniería Mecánica y en Administración y Dirección de Empresas
- Academic course
- 2023/24
- Academic year
- 3
- No. of credits
- 6
- Languages
- Spanish
- Basque
- Code
- 25982
TeachingToggle Navigation
Teaching guideToggle Navigation
Description and Contextualization of the SubjectToggle Navigation
This subject is an approximation to the automatic control systems and the devices used for this purpose (automatisms).
Automated systems are present in practically all the industries of both the first and second sectors so it is necessary to know their fundamentals and be able to design automated systems that can be implemented in different hardware platforms.This subject is fundamental for any of the engineering degrees that coexist in the second year being the degree of industrial and automatic electronic engineering that will complement this subject with subsequent others.
After an introduction to automation and industrial control, it will be deepened with the programming of Siemens programmable automatons and Matlab mathematical software to understand and develop the designs made.Subsequently, the main types of sensors and actuators present in the market will be analyzed and an introduction to automatic regulation will be made.
For the achievement of the competences set in the subject it is advisable that the student have approved the subjects of: Calculation, Physical Foundations of Engineering and Industrial Electronics.
Skills/Learning outcomes of the subjectToggle Navigation
General competences
The subject of Automatism and Control will encourage competences to:
- Solve problems, decision-making, creativity, critical reasoning.
- Search for information and bibliographic resources.
- Work in multidisciplinary teams.
Specific competences
1. Fundamentals of automation and control systems.
2. Know the main elements of the automation pyramid.
3. Know the main elements of control systems.
4. Recognize different kinds of systems.
5. Understand the operation of the control system.
Theoretical and practical contentToggle Navigation
1. Automation
- Introduction to automation and programmable automatons.
Practice: Organization of laboratories.
- Binary representation and Algebra of Boole.
Practice: Introduction of the platform.
Practice with a KOP AWL FUP lamp.
- Karnaugh combinational systems.
Practice: Implementing a logical function (Karnaugh) KOP.
- Quine-McCluskey combinational systems.
Practice: Implement a logical function Quine-McCluskey KOP.
- Sequential, bistable systems.
Practice: First KOP sequential practice.
- Timers.
Practice: Second KOP sequential practice.
- Comparators.
Practice: Practice with KOP timers and comparators that integrates sustainability and industrial automation.
- Counters.
Practice: Practices with KOP counters.
- Displacement and rotation of records.
- Logical operations with logs.
- Arithmetic operations with records.
2. Automatic control:
- Introduction Fundamentals of Automation.
- Introduction to Automatic Control Systems.
- Systems model: differential equations.
- Laplace transform and Laplace reverse transform.
- System Model: External Description.
- Stability of Systems- Transient Regime Analysis: Systems 1st and 2nd order.
- Analysis of Permanent Regime and Disturbances.
- Frequency analysis.
- PID Controllers.
- Computer as a control element.
Laboratory Practices Agenda:
Practice 1: Introduction to System Modeling with Matlab.
Practice 2: Transfer and Modelling Function with Simulink.
Practice 3: Transient Analysis of 1st and 2nd Order Systems.
Practice 4: Permanent and Frequent Regime Analysis.
Practice 5: PID Controller.
MethodologyToggle Navigation
Time distribution of the agenda of the subject in any of the engineering degrees that coexist: Double Degree in Mechanical Engineering and Business Management and Administration, Double Degree in Mechanical Engineering + Industrial Electronics and Automation Engineering, Bachelor's Degree in Mechanical Engineering, Bachelor's Degree in Industrial Electronics and Automation Engineering and Bachelor's Degree in Industrial Chemical Engineering.
The course includes 2 fundamental parts:
1. Automation
You will be given 2 hours of theory per week for 8 weeks and 2 hours of practice per week for 10 weeks.
2. Automatic control
You will be given 2 hours a week of theory for 7 weeks and 2 hours a week of practice for 5 weeks.
Assessment systemsToggle Navigation
- Final Assessment System
- Tools and qualification percentages:
- Written test to be taken (%): 60
- Realization of Practical Work (exercises, cases or problems) (%): 10
- Team projects (problem solving, project design)) (%): 20
- otros (%): 10
Ordinary Call: Orientations and DisclaimerToggle Navigation
The practices are mandatory and in those cases that do not do them must conduct an examination of practices upon request, before the final examination.
The final exam will take place in May. It will consist of two parts one of Automatismos and another of Control. If at least 50% of the internships are not performed, or there is no request for written examination of the internships, it is considered not presented in the subject, as well as if having submitted to more than 50%, submitted in writing to the professor resignation, 10 days before the examination.Each part will score over 10, obtaining a minimum of 3.5 in each part in order to be able to qualify so laboratory practices.
The final note will be:
30% obtained in the examination of Automatismos (up to 3 points) and 20% obtained in the practices of Automatismos, where the the group work will be evaluated (up to 2 points).30% obtained in the Control exam and 10% obtained in the Control practices, where the competence of the problem solving (up to 1 point) will be evaluated and 10% obtained in knowledge evaluations through test or development of the proposed theory
That is, it will be calculated according to the following mathematical operation:
(Note examination Automatismos) X 0.3 + (Note laboratory practices of Automatismos) X 0.2 + (Note of examination Control) X 0.3 + (Note of Control classroom practices) X 0.1 y (Note by tests of knowledge obtained in Control) X 0.1
If you do not get a 3.5 in each part of the exam, the subject will be suspended and the final note will be the sum of those obtained in the exams, divided by two and multiplied by 0.6 without being able to add the scores of the practices.
Extraordinary Call: Orientations and DisclaimerToggle Navigation
The practices are mandatory and in those cases that do not do them must conduct an examination of practices upon request, before the final examination.
The extraordinary examination in June-July. It will consist of two parts one of Automatismos and another of Control. If at least 50% of the internships are not performed, or there is no request for written examination of the internships, it is considered not presented in the subject, as well as if having submitted to more than 50%, submitted in writing to the professor resignation, 10 days before the examination.Each part will score over 10, obtaining a minimum of 3.5 in each part in order to be able to qualify so laboratory practices.
The final note will be:
30% obtained in the examination of Automatismos (up to 3 points) and 20% obtained in the practices of Automatismos, where the the group work will be evaluated (up to 2 points).30% obtained in the Control exam and 10% obtained in the Control practices, where the competence of the problem solving (up to 1 point) and 10% obtained in knowledge evaluations through test or development of the proposed theory
That is, it will be calculated according to the following mathematical operation:
(Note examination Automatismos) X 0.3 + (Note laboratory practices of Automatismos) X 0.2 + (Note of examination Control) X 0.3 + (Note of Control classroom practices) X 0.1 y (Note by tests of knowledge obtained in Control) X 0.1
If you do not get a 3.5 in each part of the exam, the subject will be suspended and the final note will be the sum of those obtained in the exams, divided by two and multiplied by 0.6 without being able to add the scores of the practices.
Compulsory materialsToggle Navigation
The teaching materials will be made available to through the e-gela platform or the teacher's website.
BibliographyToggle Navigation
Basic bibliography
1.-Programmable automatons, Environment and applications. Enrique Mandado Pérez and others (Editorial Thomson)
2.-Ordenagailu bidezko sistemen kontrola, Ekaitz Zulueta, (Editorial Elhuyar)
3.-Control Digital Systems, Oscar Barambones (Editorial EHU-UPV)
4.-Erregulazio Automatikoa, Tapia A. and Florez, J. (Editorial Elhuyar)
In-depth bibliography
1.-Programmable Logic Controllers, Fourth edition, W. Bolton (Editorial elsevier)
2.-Industrial Automation Engineering. 2nd edition. Ramón Piedrafita Moreno (Editorial Ra-ma)
3.-Automation. Problems solved with programmable automatons. Juan Pedro et al (Editorial Paraninfo)
4. Automatic control systems 7th Edition. Benjamin C. Kuo, (aut. ).Prentice Hall
Journals
Revista Iberoamericana de Automática e Informática Industrial. Related links
This journal is of free access and has a wide set of scientific articles on the subject.
Automatic. http://www.journals.elsevier.com/automatic/
This magazine is a media outlet in this area and has free access content.
Web addresses
www.ehu.es
https://egela.ehu.eus (In this direction they will enter egela, where they will find the notes, presentations, summaries, practice scripts as well as the relevant dates of the subject)
http://w1.siemens.com/entry/es/
www.amazon.com (to buy the deepening books this very well)
http://www.diazdesantos.es/ (To buy the basic bibliography)
www.elhuyar.com (To buy the books in Euskara)
http://industrial.omron.es/
Related links
GroupsToggle Navigation
01 Teórico (Spanish - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
16-22 | 16:00-18:00 (1) | ||||
23-30 | 16:00-18:00 (2) |
Teaching staff
Classroom(s)
- AULA 205 - AULARIO LAS NIEVES (1)
- AULA 205 - AULARIO LAS NIEVES (2)
01 Applied laboratory-based groups-1 (Spanish - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
16-25 | 09:00-11:00 (1) | ||||
26-30 | 09:00-11:00 (2) |
Teaching staff
Classroom(s)
- LABORATORIO AUTOMATIZACION INDISTRIAL - ESCUELA DE INGENIERIA DE VITORIA-GASTEIZ (1)
- LAB. REGULACIÓN AUTOMÁTICA - ESCUELA DE INGENIERIA DE VITORIA-GASTEIZ (2)
01 Applied laboratory-based groups-2 (Spanish - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
16-25 | 11:00-13:00 (1) | ||||
26-30 | 11:00-13:00 (2) |
Teaching staff
Classroom(s)
- LABORATORIO AUTOMATIZACION INDISTRIAL - ESCUELA DE INGENIERIA DE VITORIA-GASTEIZ (1)
- LAB. REGULACIÓN AUTOMÁTICA - ESCUELA DE INGENIERIA DE VITORIA-GASTEIZ (2)
01 Applied laboratory-based groups-3 (Spanish - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
16-25 | 11:00-13:00 (1) | ||||
26-30 | 11:00-13:00 (2) |
Teaching staff
Classroom(s)
- LAB. REGULACIÓN AUTOMÁTICA - ESCUELA DE INGENIERIA DE VITORIA-GASTEIZ (1)
- LAB. REGULACIÓN AUTOMÁTICA - ESCUELA DE INGENIERIA DE VITORIA-GASTEIZ (2)
31 Teórico (Basque - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
16-30 | 16:00-18:00 (1) |
Teaching staff
Classroom(s)
- AULA 104 - AULARIO LAS NIEVES (1)
31 Applied laboratory-based groups-1 (Basque - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
16-30 | 16:00-18:00 (1) |
Teaching staff
Classroom(s)
- LAB. REGULACIÓN AUTOMÁTICA - ESCUELA DE INGENIERIA DE VITORIA-GASTEIZ (1)
31 Applied laboratory-based groups-2 (Basque - Mañana)Show/hide subpages
Weeks | Monday | Tuesday | Wednesday | Thursday | Friday |
---|---|---|---|---|---|
16-30 | 18:00-20:00 (1) |
Teaching staff
Classroom(s)
- LAB. REGULACIÓN AUTOMÁTICA - ESCUELA DE INGENIERIA DE VITORIA-GASTEIZ (1)