Module also offered within study programmes:
General information:
Name:
Power electronics
Course of study:
2019/2020
Code:
ZSDA-3-0104-s
Faculty of:
Szkoła Doktorska AGH
Study level:
Third-cycle studies
Specialty:
-
Field of study:
Szkoła Doktorska AGH
Semester:
0
Profile of education:
Academic (A)
Lecture language:
English
Form and type of study:
Full-time studies
Course homepage:
 
Responsible teacher:
dr hab. inż. Stala Robert (stala@agh.edu.pl)
Dyscypliny:
automatyka, elektronika i elektrotechnika
Module summary

Selected issues of modern power electronic energy conversion. Semiconductor switches, converter topologies and control methods.

Description of learning outcomes for module
MLO code Student after module completion has the knowledge/ knows how to/is able to Connections with FLO Method of learning outcomes verification (form of completion)
Social competence: is able to
M_K001 Ability of analysis of research works for power electronic systems development SDA3A_K01 Presentation
Skills: he can
M_U001 Ability of research analysis of operation of selected power electronic converters and systems SDA3A_U01 Presentation
Knowledge: he knows and understands
M_W001 Knowledge of selected research issues of modern power electronic technology SDA3A_W02 Presentation
M_W002 Research methodology in power electronic field applcable for doctoral thesis implementation. SDA3A_W01 Presentation
Number of hours for each form of classes:
Sum (hours)
Lecture
Audit. classes
Lab. classes
Project classes
Conv. seminar
Seminar classes
Pract. classes
Zaj. terenowe
Zaj. warsztatowe
Prace kontr. przejść.
Lektorat
20 0 0 0 0 0 20 0 0 0 0 0
FLO matrix in relation to forms of classes
MLO code Student after module completion has the knowledge/ knows how to/is able to Form of classes
Lecture
Audit. classes
Lab. classes
Project classes
Conv. seminar
Seminar classes
Pract. classes
Zaj. terenowe
Zaj. warsztatowe
Prace kontr. przejść.
Lektorat
Social competence
M_K001 Ability of analysis of research works for power electronic systems development - - - - - + - - - - -
Skills
M_U001 Ability of research analysis of operation of selected power electronic converters and systems - - - - - + - - - - -
Knowledge
M_W001 Knowledge of selected research issues of modern power electronic technology - - - - - + - - - - -
M_W002 Research methodology in power electronic field applcable for doctoral thesis implementation. - - - - - - - - - - -
Student workload (ECTS credits balance)
Student activity form Student workload
Summary student workload 80 h
Module ECTS credits 3 ECTS
Udział w zajęciach dydaktycznych/praktyka 20 h
Preparation for classes 20 h
przygotowanie projektu, prezentacji, pracy pisemnej, sprawozdania 20 h
Realization of independently performed tasks 20 h
Module content
Seminar classes (20h):
-
Additional information
Teaching methods and techniques:
  • Seminar classes: Classes includes presentations discussions and problems analysis.
Warunki i sposób zaliczenia poszczególnych form zajęć, w tym zasady zaliczeń poprawkowych, a także warunki dopuszczenia do egzaminu:

Presence on classes is obligatory according to the general study regulation. If the requirement is not met the chief lecturer may specify additional conditions for the positive final grade or issue the negative grade (negative assessment).
Marks are issued on the basis of presentation delivered by students as well as activity during classes.

Participation rules in classes:
  • Seminar classes:
    – Attendance is mandatory: Yes
    – Participation rules in classes: Attendance is mandatory.
Method of calculating the final grade:

The final grade is calculation from marks achieved from presentation as well as activity during classes.
The teacher holds the right to lower the final grade due to lack of presence on classes.

Sposób i tryb wyrównywania zaległości powstałych wskutek nieobecności studenta na zajęciach:

Attendance is obligatory according to the general study regulation. Failure to meet the requirement may result in negative assessment.
For a student who was absent (due to any reason) other term may be also agreed depending on both the room and the teacher availability.

Prerequisites and additional requirements:

Prerequisites and additional requirements not specified

Recommended literature and teaching resources:

1. Mohan N.: Power Electronics: Converters, Applications, and Design, John Wiley & Sons Inc.
2. Rashid M.H. (editor-in-chief): Power Electronics Handbook, Academic Press 2001.
3. Piróg S.: Energoelektronika. Układy o komutacji sieciowej i komutacji twardej, Wydawnictwa, AGH Kraków 2006.
4. Strzelecki R., Supronowicz H.: „Współczynnik mocy w systemach zasilania prądu przemiennego i metody jego poprawy”, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa 2000.
5. Singh B., Al–Haddad K., Chandra A.: „A review of active filters for power quality improvement”, IEEE Trans. on Industrial Electronics, Vol. 46, No. 5, October 1999.
6. Akagi H.: „The state-of-the-art of active filters for power conditioning”, Proc. of the EPE ’05, Dresden, 2005
7. Citko, T.: „Energoelektronika: układy wysokiej częstotliwości”, Wydawnictwo Politechniki Białostockiej, 2007.

Scientific publications of module course instructors related to the topic of the module:

1. R. Stala, S. Pirog, M. Baszynski, A. Mondzik, A. Penczek, J. Czekonski, S. Gasiorek: „Results of Investigation of Multicell Converters With Balancing Circuit—Part I”, IEEE Transaction on Industrial Electronics, Vol. 56, July 2009, pp. 2610-2619.
2. R. Stala, S. Pirog, A. Mondzik, M. Baszynski, A. Penczek, J. Czekonski, S. Gasiorek: „Results of Investigation of Multicell Converters With Balancing Circuit—Part II”, IEEE Transaction on Industrial Electronics, Vol. 56, July 2009, pp. 2620-2628 .
3. R Stala: “The Switch-Mode Flying Capacitor DC/DC Converters With Improved Natural Balancing”, IEEE Transaction on Industrial Electronics, Vol. 57, April 2010, pp. 1369-1382.
4. R. Stala: “Application of Balancing Circuit for DC-Link Voltages Balance in a Single-Phase Diode-Clamped Inverter With Two Three-Level Legs”, IEEE Transactions on Industrial Electronics, vol. 58, no. 9, pp. 4185-4195, Sept. 2011.
5. R. Stala, “A Natural DC-Link Voltage Balancing of Diode-Clamped Inverters in Parallel Systems”, IEEE Transactions on Industrial Electronics, vol. 60, no. 11, pp. 5008-5018, Nov. 2013.
6. A. Mondzik, Z. Waradzyn, R. Stala and A. Penczek, “High efficiency switched capacitor voltage doubler with planar core-based resonant choke,” 2016 10th International Conference on Compatibility, Power Electronics and Power Engineering (CPE-POWERENG), Bydgoszcz, 2016, pp. 402-409.
7. R. Stala, “Natural capacitor voltage balance in multilevel flying capacitor converters. A review of research achievements”, Power Electronics and Drives (PE&D), ISSN 2451-0262, Vol. 1, No. 2, pp. 5–33, 2016. DOI: 10.5277/PED160201.
8. R. Stala, Z. Waradzyn, A. Penczek, A. Mondzik and A. Skala, “A Switched-Capacitor DC-DC Converter with Variable Number of Voltage Gains and Fault-tolerant Operation,” in IEEE Transactions on Industrial Electronics. doi: 10.1109/TIE.2018.2851962
9. Stala, R., Piróg, S., Penczek, A., et al., “A family of high-power multilevel switched capacitor-based resonant DC-DC converters – operational parameters and novel concepts of topologies”, Bulletin of the Polish Academy of Sciences Technical Sciences, 65(5), pp. 639-651, Oct. 2017. doi: 10.1515/bpasts-2017-0069.
10. A. Penczek, A. Mondzik, Z. Waradzyn, R. Stala, A. Skała and S. Pirog, “Switching strategies of a resonant switched-capacitor voltage multiplier,” 2017 19th European Conference on Power Electronics and Applications (EPE’17 ECCE Europe), Warsaw, Poland, 2017, pp. P.1-P.10.
11. A. Kawa and R. Stala, “Bidirectional multilevel switched-capacitor resonant converter based on SiC MOSFET switches,” 2017 19th European Conference on Power Electronics and Applications (EPE’17 ECCE Europe), Warsaw, Poland, 2017, pp. P.1-P.10.
12. Z. Waradzyn, R. Stala, A. Mondzik, A. Penczek, A. Skala and S. Pirog, “Efficiency Analysis of MOSFET-Based Air-Choke Resonant DC–DC Step-Up Switched-Capacitor Voltage Multipliers,” in IEEE Transactions on Industrial Electronics, vol. 64, no. 11, pp. 8728-8738, Nov. 2017. doi: 10.1109/TIE.2017.2698368

Additional information:

None