| Code |
15263
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| Year |
1
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| Semester |
S1
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| ECTS Credits |
6
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| Workload |
PL(15H)/T(30H)/TP(15H)
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| Scientific area |
Electrotechnics and Electronics
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Entry requirements |
Strong knowledge of electric circuit Analysis.
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Mode of delivery |
Classroom
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Work placements |
Not applicable
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Learning outcomes |
The curricular unit has two main goals:
(1) at first intends to give to the student the knowledge that he needs to understand how the electronic systems found in the industry work;
(2) through the acquired teachings, the student must be able to conceive, design and develop solutions in the industrial electronics field.
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Syllabus |
1. Power electronics review: Principles of electronic power conversion, semiconductors, and topologies of AC / DC converters.
2. DC / DC converters: command / control strategies, analysis and applicability of each approach/topology.
3. DC / AC converters, command / control strategies, analysis and applicability of each approach/topology.
4. AC / DC converters (rectifiers) with improved power factor.
5. Introduction to Matrix Converters
6. Conversion topologies that integrate several conversion stages: Applicability of each of the solutions
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Main Bibliography |
D. S. B. Fonseca, Classroom slide presentation “Eletrónica Industrial” (Industrial electronics, in portuguese), UBI, Covilhã 2014 (available in the Moddle platform.
P. C. Sen: "Principles of Electric Machines and Power Electronics", John Wiley & Sons.
M. H. Rashid: "Power Electronics Circuits, and Applications", Prentice Hall.
N. Mohan, T. M. Undeland, W. P. Robbins: "Power Electronics: Converters, Applications, and Design", John Wiley & Sons.
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Teaching Methodologies and Assessment Criteria |
At the theoretical classes the course contents are presented through classic methodologies, which can be done by videoconference. The laboratory classrooms are devoted to the conduct of tests and computer model simulations. All need documentation is previously available on Moodle platform.
All students who are present in 80% of all classes and obtained positive grade in the practical component are allowed to do the exam.
Exemption from final examination is subject to obtaining a minimum grade of 10 (ten), in a maximum grade of 20 (twenty) in both the practical component and in the written test. The continuous evaluation grade is assigned according to: NFreq = 0.75xNT +0.25xNP.
The students allowed to do the exam must obtain a minimum grade of 10 (ten), in a maximum grade of 20 (twenty) in the written exam. The final grade is obtained according to: NF = Greatest of {(0.75x NE +0.25xNP);NFreq}.
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Language |
Portuguese. Tutorial support is available in English.
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