Code: | REID04 | Sigla: | EEE |
Áreas Científicas | |
---|---|
Classificação | Área Científica |
CNAEF | Electricity and energy |
Ativa? | Yes |
Unidade Responsável: | Departamento de Engenharia Eletrotécnica |
Curso/CE Responsável: | Professional Technical Higher Education Courses in Smart Grids and Home Automation |
Sigla | Nº de Estudantes | Plano de Estudos | Anos Curriculares | Créditos UCN | Créditos ECTS | Horas de Contacto | Horas Totais |
---|---|---|---|---|---|---|---|
REID | 22 | Plano de Estudos 2018/19 | 1 | - | 6 | 60 | 162 |
Docente | Responsabilidade |
---|---|
António Eusébio Velho Roque |
Theorethical and Practical : | 4,00 |
Type | Docente | Turmas | Horas |
---|---|---|---|
Theorethical and Practical | Totais | 2 | 8,00 |
Carlos Eduardo Vieira | 2,00 | ||
José Jorge da Silva Correia | 2,00 | ||
António Eusébio Velho Roque | 2,00 |
Be able to interpret and design signalling circuit command schemes.
Be able to interpret and design the control and starting solutions of electrical machines.
Be able to assemble in the laboratory lighting circuits, control circuits, signalling circuits and engine starting methods.
Be able to implement circuits in PLCsChapter 1 – Computer Aided Design – AutoCAD
1.1 – General concepts
1.2 - Introduction to AutoCAD
1.3 - Basic commands
1.4 - Symbology and Standardization
Chapter 2 – Electrical Lighting Circuits and Outlets
2.1 - Representation of electrical circuits through the principle, multi-strand and single-strand schemes
2.2 - Control of lighting points
2.3 - Classic fluorescent lamps with electronic ballast
2.4 - Outlet circuits
2.5 - Electrical panels
2.6 - Plumbing
2.7 - Apparatus and equipment (General switches, circuit breakers, fuses, differential switches and surge arresters)
2.8 – Two-wire video intercom system in a multi-storey building.
Chapter 3 - Signalling Systems
3.1 - Alarms
3.2 – Relays with instantaneous contacts and timed contacts
3.2 - Photoelectric cells, inductive and capacitive sensors, pressure switches, limit switches and probes for level control.
Chapter 4 - Motive Force Schemes
4.1 - Types and categories of contactors
4.2 – Reversing three-phase asynchronous motors speed
4.3 - Starting of three-phase asynchronous motors (direct, manual and star-delta, stator starting and rotary starting)
Chapter 5 - Automation in Electrical Systems
5.1 - Automatisms, general concepts
5.2 - PLCs
5.3 - Basic command circuits
5.4 - Sequential circuitsLecture, by the teacher, supported by interactive and experimental demonstrations to be applied in interpreting and designing electrical circuit diagrams, as well as knowledge of computer-aided drawing programs, Autocad and Cade_Simu.
Seminars can be scheduled on more specific topics, given by industrial experts.Designation | Peso (%) |
---|---|
Teste | 70,00 |
Trabalho laboratorial | 30,00 |
Total: | 100,00 |
Designation | Tempo (Horas) |
---|---|
Estudo autónomo | 42,00 |
Frequência das aulas | 60,00 |
Total: | 102,00 |
The evaluation of the theoretical component can be obtained through an exam, with 2 distinct periods: Normal period, Resource period (there is also a Special Period but only final year students, working students and association leaders have access) with a minimum grade of 9.5 values. In ALTERNATIVE to the regular period exam, the student can obtain success in the theoretical component through the realization of 2 interim tests.
The minimum grade of each test is 8 and the average of both tests being higher than 9.5. If the student obtains a grade lower than 8 in one of the tests, he can pass the theoretical component by taking the aforementioned exam.
Laboratory Grade - NL
NL higher than 9.5.
The grade of the laboratories (NL) is estimated based on the individual performance of the student and will depend on the factors referred in the course rules.
Final grade
The weight of NT (theoretical evaluation) or NE (evaluation by exam) is 70% in the final grade (NF), (rounded to the hundredths) and the weight of NL (laboratory evaluation) is 30% (rounded to theFinal Grade – tests:
NF=0.7(NT1+NT2)/2+0.3*NL
Minimum grade of NT1 and NT2 of 8, however the average of the two tests must be greater than 9.5 (rounded to the hundredths)
NL - Laboratory grade - minimum grade 9.5 (rounded to the hundredths)
NF - Final grade - minimum grade 9.5 (rounded to the units)
Final Grade – exam:
NF=0.7NE+0.3NL
NE - exam grade rounded to the tenths, with a minimum grade of 9.5
NL - laboratory grade, rounded to the tenths, with a minimum grade of 9.5
To calculate the NL, please see UC rules
According to general school rules
Working Students, Highly Competitive Athletes, Associative Leaders and Students under the Law of Religious Freedom must contact the person responsible for the course, within 15 calendar days from the 1st day of classes or 15 calendar days from the date of enrollment , writing their relevant specificities, under the terms provided in the respective legal decrees.
In case of fraud or plagiarism of the project, it is classified with a score of zero