Course: Technologies in Electrical Engineering

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Course title Technologies in Electrical Engineering
Course code KET/TELN
Organizational form of instruction Lecture + Tutorial
Level of course Bachelor
Year of study not specified
Semester Summer
Number of ECTS credits 3
Language of instruction Czech, English
Status of course Compulsory
Form of instruction Face-to-face
Work placements This is not an internship
Recommended optional programme components None
Lecturer(s)
  • Janda Martin, Ing.
  • Kopřiva Jiří, Ing.
  • Michal Ondřej, Ing. Ph.D.
  • Trnka Pavel, Prof. Ing. Ph.D., MBA
  • Pretl Silvan, Ing. Ph.D.
  • Hornak Jaroslav, Ing. Ph.D.
  • Leffler Jan, Ing.
  • Kalaš David, Ing. Ph.D.
Course content
1. Introduction - summary of lectures, required knowledge, perspectives of the industry in the context of the Czech Republic, an overview of technological processes, low and High Voltage, definitions, concepts 2. Substrates for electronics (materials, technology, properties) 3. Realization of functional motives (photolithography, plating, etching, printing, vacuum deposition) 4. Printed circuits (single and multilayer, technological processes, equipment) 5. Electronic components (construction, housing, fittings) 6. Connectivity and contacting in electronics (bonding, flip-chip, soldering, gluing, pressure joints, welding, sintering) 7. Magnetic circuits, technologies in electric machines 8. Transformer Windings, electrical insulation systems, methods of winding manufacturing 9. Transformer cooling, container, transport, conservator, tap changer 10. Rotary machines, generators, low-speed, high-speed, cooling, EIS types and technologies 11. Cables - metallic, optical, HV, production technologies 12. The Technology of electrical machines and sustainable development, new materials, condition based management 13. Virtual excursion in the production of electric machines

Learning activities and teaching methods
  • Preparation for laboratory testing; outcome analysis (1-8) - 5 hours per semester
  • Preparation for comprehensive test (10-40) - 10 hours per semester
  • Contact hours - 39 hours per semester
  • Preparation for an examination (30-60) - 30 hours per semester
  • Presentation preparation (report) (1-10) - 4 hours per semester
  • unspecified - 27 hours per semester
  • Contact hours - 12 hours per semester
prerequisite
Knowledge
explain the basic principles of electrical equipment
Skills
use basic mathematical and statistical procedures
evaluate material properties
compare statistical data
apply basic knowledge of electrical measurements
apply material knowledge
use knowledge of the basics of electrical engineering
Competences
N/A
N/A
N/A
learning outcomes
Knowledge
describe basic technological processes and materials in the manufacture of printed circuit boards and electronic components
clarify the parameters and functional properties of the substrates for electronics
explain the technological procedures for the implementation of functional motifs in the manufacture of printed circuit boards
describe the internal construction of encapsulated electronic components
identify the ways of contacting and interconnecting at the level of the electronic components and the printed circuit boards
describe the basic technological procedures in the manufacture process of electrical equipment and machines
assess the effectiveness, respectively, evaluate the impact of losses (eg dielectric) of a given technical solution
justify the choice of the appropriate material in relation to the purpose of the electrical equipment or machine
describe the manufacturing technologies of transformers, rotary machines, cables, etc.
Skills
use electrotechnical materials in the context of application type and acting factors
recognize the critical parts in electrical equipment in terms of used materials and technologies
to design and implement a technological process
justify the choice of the technological process and its parameters
compare the properties of the prepared samples
Competences
N/A
N/A
teaching methods
Knowledge
Lecture
Lecture with visual aids
Lecture with a video analysis
Practicum
Skills
Skills demonstration
Practicum
Competences
Lecture with visual aids
Lecture with a video analysis
Practicum
assessment methods
Knowledge
Seminar work
Skills demonstration during practicum
Test
Skills
Skills demonstration during practicum
Seminar work
Test
Recommended literature
  • Coombs, Clyde F.; Holden, Happy T. Printed circuits handbook. Seventh Edition. 2016. ISBN 978-0-07-183395-0.
  • J. Starý, P. Kahle. Plošné spoje a povrchová montáž.
  • Mentlík, Václav. Diagnostika elektrických zařízení. Praha : BEN - technická literatura, 2008. ISBN 978-80-7300-232-9.
  • Mentlík, Václav. Spolehlivostní aspekty elektrotechnologie. 1. vyd. Praha : BEN - technická literatura, 2011. ISBN 978-80-7300-412-5.
  • P. Mach, V. Skočil, J. Urbánek. ontáž v Elektronice: Pouzdření Aktivních Součástek, Plošné Spoje.. ČVUT, 2001.
  • Saha. Transformer Ageing - Monitoring and Estimation Techniques. Wiley, 2017. ISBN 9781119239963.
  • Stone. Electrical Insulation for Rotating Machines Design, Evaluation, Aging, Testing and Repair. Wiley, 2014. ISBN 9781118057063.


Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester