University of West Bohemia in Pilsen
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for academic year 2025/2026
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Course: Drives and power electronics 2

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Course title Drives and power electronics 2
Course code KEV/PVE2
Organizational form of instruction Lecture + Tutorial
Level of course Master
Year of study not specified
Semester Winter
Number of ECTS credits 5
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
Course availability The course is available to visiting students
Lecturer(s)
  • Nolč Jiří, doc. Ing. Ph.D.
  • Sochor Petr, Ing. Ph.D.
  • Větrovský Martin, prof. Ing. Ph.D.
  • Kuhn Jan, doc. Ing. Ph.D.
  • Frémund Václav, Ing. Ph.D.
  • Smolík Josef, Ing. Ph.D.
  • Skála Ondřej, doc. Ing. Ph.D.
  • Rubáš Jiří, Ing. Ph.D.
  • Kelemen Petr, Ing. Ph.D.
  • Žampa Martin, Ing. Ph.D.
  • Mařan Petr, Ing. Ph.D.
  • Heller Georg, Ing.
  • Grillinger Georg, Ing.
  • Dušan Oleksandr, Ing. Ph.D.
  • Eddhib Zdeněk, Ing.
  • Souček Ján, Ing.
  • Jílek Jan, doc. Ing. Ph.D.
  • Šipla Jan, Ing.
Course content
1. Space vector theory and transforms 2. Voltage-source inverters and their control - mainly carrier-based PWM and space-vector PWM 3. Voltage-source active rectifiers and their control - mainly control strategies in different reference frames 4. AC/AC converters - indirect and direct (matrix) converters 5. Resonant converters - soft-switching theory, fundamental power circuit configuraitons of resonant converters 6. Multilevel converters - part I - T-converter, NPC, ANPC 7. Multilevel converters - part II - FLC, cascaded converters and special topologies 8. General ac machine theory, induction machine models (including models necessary for IM drive control) 9. Control of induction motor drives - part I - mainly FOC 10. Control of induction motor drives - part II - mainly DSC, DTC 11. Models of synchronous machines - model of general synchronous motor and desription of the model for particular types of synchronous motors 12. Control of synchronous motor drives - mainly FOC and optimal drive control 13. Advanced control of power electronics converters and ac motor drives

Learning activities and teaching methods
Laboratory work, Lecture
  • Practical training (number of hours) - 26 hours per semester
  • Contact hours - 39 hours per semester
  • Preparation for an examination (30-60) - 50 hours per semester
  • Preparation for formative assessments (2-20) - 15 hours per semester
prerequisite
Knowledge
utilize the electromagnetic filed and circuits theory
utilize the electrical machines theory
utilize basic knowledge of the control theory
utilize basic knowledge of the power electronics
utilize basic knowledge of the electric drives
Skills
utilize the knowledge of the mathematics, particularly solution of ordinary differential equations
utilize the simulation tools, mainly MATLAB
describe the function of basic power electronics converters
describe the function of induction machine and synchronous machines
utilize PID controllers and basic control theory
Competences
N/A
learning outcomes
Knowledge
describe in detail the functionality of inverters, active rectifiers, ac/ac converters and multilevel converters and explain their control
describe the control of induction machine drives
describe the control of synchronous machine drives
utilize advanced control startegies of power electronics converters and ac motor drives
design simulation models of power electronics converters and electric drives
Skills
describe and design control of inverters, active rectifiers, ac/ac converters and multilevel converters
design the control of induction machine drives
design the control of synchronous machine drives
utilize simulation models and simulate the behaviour of power electronics converters and electric drives under both steady-state and transient conditions
Competences
N/A
teaching methods
Knowledge
Lecture
Laboratory work
Practicum
Skills
Lecture
Laboratory work
Practicum
Individual study
Competences
Lecture
Laboratory work
Practicum
Individual study
assessment methods
Knowledge
Combined exam
Skills demonstration during practicum
Test
Skills
Combined exam
Skills demonstration during practicum
Test
Competences
Combined exam
Recommended literature
  • Brandštetter, P. Střídavé regulované pohony - moderní způsoby řízení. TU Ostrava, 1999.
  • Geyer, Tobias. Model predictive control of high power converters and industrial drives. 2016. ISBN 978-1-119-01086-9.
  • Javůrek, Jiří. Regulace moderních elektrických pohonů. 1. vyd. Praha : Grada Publishing, 2003. ISBN 80-247-0507-9.
  • Kazmierkowski, Marian P.; Krishnan, R.; Blaabjerg, Frede. Control in power electronics : selected problems ; editors Marian P. Kazmierkowski, R. Krishnan, Frede Blaabjerg. [San Diego] : Academic Press, 2002. ISBN 0-12-402772-5.
  • Novotny, D. W.; Lipo, T. A. Vector control and dynamics of ac drives. 1st pub. Oxford : Clarendon Press, 1996. ISBN 0-19-856439-2.
  • Trzynadlowski, Andrzej M. Control of induction motors. San Diego : Academic Press, 2001. ISBN 0-12-701510-8.
  • Vas, P. Sensorless Vector and Direct Torque Control.. Oxford University Press, New York,, 1998.
  • Vondrášek, František; Glasberger, Tomáš,; Fořt, Jiří,; Jára, Martin. Výkonová elektronika. Svazek 3, Měniče s vlastní komutací a bez komutace.. 3., rozšířené vydání. 2017. ISBN 978-80-261-0688-3.
  • Zeman K., Peroutka Z., Janda M. Automatická regulace pohonů s asynchronními motory. ZČU Plzeň, 2004.


Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester
University of West Bohemia in Pilsen, date of update: 23.04.2025 23:52. Data created for academic year 2025/2026