Electrical Engineering and Electronics (FSI-6EE)

Academic year 2020/2021
Supervisor: Ing. Rostislav Huzlík, Ph.D.  
Supervising institute: ÚVSSR all courses guaranted by this institute
Teaching language: Czech
Aims of the course unit:
The objective of the subject is to familiarize the students with the principles of the advanced electrical engineering which are necessary for the study of other mechanical engineering disciplines, and mainly to be skill in technical practice.
Learning outcomes and competences:
The subject of electrical engineering and electronics takes up the previous study and deepens and extends the knowledge in the aforementioned field. Emphasis is laid on the practical application of theoretical knowledge in laboratories.
Prerequisites:
Knowledge in mathematics and physics in a scope of the study at Faculty of Mechanical Engineering is expected.
Course contents:
The subject is focused on the principles of electrical and electronic circuits, electrical machines and electrical drives in a scope of a bachelor study at faculties of mechanical engineering. Attention is devoted to the theory of electrical measurements and safety at work. Special attention is laid on laboratories where the students shall apply their theoretical knowledge in practice.
Teaching methods and criteria:
The course is taught through lectures explaining the basic principles and theory of the discipline. Teaching is suplemented by practical laboratory work.
Assesment methods and criteria linked to learning outcomes:

The course is completed by credit and exam.
To gain the credit, the conditions and requirements prescribed at the tutorial beginning must be met, i.e. compulsory attendance in laboratory, exercise preparation, all protocols processed and submitted in time and accepted by the teacher. At the beginning of the exercise, the teacher can check the readiness of the students for exercise. Furthermore, it is necessary to obtain at least half the number of points from the control tests. A maximum of 20 points that are part of the overall classification can be obtained from the control tests.
The exam is realized by a written test consisting of a theoretical part and a part with examples. The student can get up to 80 points from the exam.
Evaluation of the test result is given by the ECTS grading scale.
Controlled participation in lessons:
The presence of the students in laboratories shall be checked during the semester and each laboratory report shall be scored. In case of regularly apologized student’s absence in the laboratory practice, the student may attend the laboratory practice together with other student team if agreed with the lecturer, or again in case of an apologized absence to participate in the alternative laboratory practice at the end of the semester.
Type of course unit:
    Lecture  13 × 3 hrs. optionally                  
    Laboratory exercise  13 × 2 hrs. compulsory                  
Course curriculum:
    Lecture 1. Introduction, basic elements, solutions of DC circuits - basic circuit layout, basic elements, solutions of DC circuits
2. AC circuits, transient phenomena - alternating quantities, passive elements in AC circuits, alternating circuit solutions, transient phenomena, three-phase quantities
3. Semiconductor devices - semiconductors, diodes, transistors, thyristors
4. Power electronics - rectifiers, converters, switched power supplies
5. Magnetic circuits, transformers - magnetic materials, basic magnetic quantities, transformers
6. Rotating electrical machines, AC machines, synchronous machines, stepper motors, reluctance motors.
7. Asynchronous machines - principle of function, properties, speed control, reversing, braking, single-phase asynchronous motors
8. DC machines - principle of function, properties, speed control, electronically commutated motors, universal motors.
9. Electric drives - structure of drives, loading characteristics, properties, efficiency, warming, calculation of equivalent drive parameters
10. Sensors with electrical output - types of sensors, AD conversion, properties of measuring elements (sensors and inputs)
11. Electrical devices, electrical installations - elements of electrical installation, protection, switching, safety
12. Electric drives - drive control, modern electric drive
13. Application of electrical engineering in machines.
    Laboratory exercise Tutorials (two lectures once a week)

1. Introduction, administration affairs, safety at work.
2. Distribution of electrical energy
3. DC circuits and electronic elements.
4. AC electrical circuits.
5. Examples - circuit
6. Electronic circuits.
7. Three-phase transformer.
8. Asynchronous machine.
9. Asynchronous motor with frequency converter.
10. DC motor.
11. Examples - drives
12.Synchronous machine.
13.Application of contactors in practical terms, credit
Literature - fundamental:
1. HAMMER,Miloš. Elektrotechnika a elektronika. Přednášky. 1. vydání. Brno: Akademické nakladatelství CERM, s.r.o. Brno,2006. 134 s. Učební texty Vysokého učení technického v Brně. Fakulta strojního inženýrství. HAMMER, Miloš, 2006. Elektrotechnika a elektronika: přednášky. Brno: Akademické nakladatelství CERM. ISBN 80-214-3334-5.
2. VOŽENÍLEK, Petr, Vladimír NOVOTNÝ a Pavel MINDL, 2011. Elektromechanické měniče. 2. vyd. Praha: České vysoké učení technické v Praze. ISBN 978-80-01-04875-7.
3. KOBRLE, Pavel a Jiří PAVELKA. Elektrické pohony a jejich řízení. 3. přepracované vydání. V Praze: České vysoké učení technické, 2016. ISBN 978-80-01-06007-0.
4. NOVÁK, Martin, Jan CHYSKÝ, Ivan UHLÍŘ a Lukáš NOVÁK, 2017. Sbírka příkladů z elektrotechniky, elektroniky a elektrických strojů a pohonů. 2. vydání. V Praze: České vysoké učení technické. ISBN 978-80-01-06097-1.
Literature - recommended:
1. MICHALÍK,J; BUDAY,J. Elektrické stroje. 1. vydání. Žilina: EDIS –vydavatel´stvo ŽU, 2006, 192 stran. ISBN 80-8070-568-2.
2. HŰTTNER, L.; KLUG,L. Elektrické stroje. 1. vydání. Bratislava: Vydavatelství Slovenské technické univerzity v Bratislave, 2005, 172 stran. ISBN 80-227-2234-0.
3. JAVŮREK, J.Regulace moderních elektrických pohonů. 1. vydání. Praha: Grada Publishing, 2003. 263 s. ISBN 80-247-0507-9.
4. FITZGERALD, A. E., Charles KINGSLEY a Stephen D. UMANS, c2003. Electric machinery. 6th ed. Boston, Mass.: McGraw-Hill. ISBN 00-711-2193-5.
The study programmes with the given course:
Programme Study form Branch Spec. Final classification   Course-unit credits     Obligation     Level     Year     Semester  
B3S-P full-time study B-STI Fundamentals of Mechanical Engineering -- Cr,Ex 5 Compulsory 1 3 S
B3S-P full-time study B-KSB Quality, Reliability and Safety -- Cr,Ex 5 Compulsory 1 2 S