Katedra Energoelektroniki, Napędu Elektrycznego i Robotyki KENER

	Katedra Energoelektroniki, Napędu Elektrycznego i Robotyki
	Dla studentów / Tematy prac dyplomowych i projektów inżynierskich

Rodzaj studiów: stacjonarne, Kierunek: Electrical Engineering, Typ pracy: inżynierska, Lokalizacja: Gliwice, rok obrony: 2026

l.p.	temat	promotor	dostępność
1	Design of an automated conveyor control system for automotive assembly line	Krzysztof Habelok	zajęty
2	Design of an automated robot cell for body welding operations	Krzysztof Habelok	zajęty
3	Design of an Automated Robot Cell for Body Welding Operations	Krzysztof Habelok	zajęty
4	Design of a Power and Control Cabinet for Automotive Paint Line Robots	Krzysztof Habelok	zajęty
5	Design of a PLC-Based Robot Handling Station with Integrated Safety Functions	Krzysztof Habelok	zajęty
6	Design of a Digital Twin for a Modular Automotive Assembly Cell (Smart Factory Concept)	Krzysztof Habelok
7	Design of a Smart Energy Distribution and Monitoring System for Automotive Plant	Krzysztof Habelok	zajęty
8	Design and simulation of a 2-phase boost converter with a 100 kHz switching frequency and 500 W output power	Zbigniew Kaczmarczyk	zajęty
9	Design and simulation of a 2-phase boost converter with a 300 kHz switching frequency and 200 W output power	Zbigniew Kaczmarczyk	zajęty
10	Design and simulation of a cascaded boost converter with a 100 kHz switching frequency and 500 W output power	Zbigniew Kaczmarczyk	zajęty
11	Design and simulation of a cascaded boost converter with a 300 kHz switching frequency and 200 W output power	Zbigniew Kaczmarczyk	zajęty
12	Inductive wireless power transfer system with a 100 kHz switching frequency and 1 kW output power	Zbigniew Kaczmarczyk	zajęty
13	Inductive wireless power transfer system with a 300 kHz switching frequency and 200 W output power	Zbigniew Kaczmarczyk	zajęty
14	Frequency Impact Analysis on Efficiency of Inductive Wireless Power Transfer Systems	Paweł Lasek	zajęty
15	Analysis of Resonant Frequency and Quality Factor in Inductive Power Transfer Circuits	Paweł Lasek	zajęty
16	Analysis of LC Compensation Topologies on Output Voltage and Efficiency in Inductive Wireless Power Transfer Systems	Paweł Lasek	zajęty
17	Forecasting Power Generation Using Meteorological Data with Neural Networks	Paweł Lasek	zajęty
18	Design and Simulation of a High-Efficiency LCC-Compensated Inductive Charging System	Paweł Lasek	zajęty
19	Comparison of Series and Parallel Compensation Circuits in High-Power Inductive Wireless Energy Transfer	Paweł Lasek	zajęty
20	Evaluation of PV system in Dunhuang city	Andrzej Latko	zajęty
21	Evaluation of PV system in Gliwice city	Andrzej Latko	zajęty
22	Evaluation of the Wind Turbine Generator (WTG) system of Haiyan Wind Farm	Andrzej Latko	zajęty
23	Evaluation of the Wind Turbine Generator (WTG) system of Whitelee Wind Farm	Andrzej Latko	zajęty
24	Evaluation of the wind turbine generator (WTG) system of Hornsea Project Two	Andrzej Latko	zajęty
25	Evaluation of PV system in Xinjiang in China, case with single-axis tracker	Andrzej Latko	zajęty
26	Characterisation of a Four-Switch Buck-Boost Converter	Marcin Zygmanowski	zajęty
27	Analysis and Experimental Verification of a Step-Down DC/DC Converter with Option of Inverting Output Voltage	Marcin Zygmanowski	zajęty
28	Analysis of a Step-Up DC/DC Converter Based on the LTM4656 Module	Marcin Zygmanowski	zajęty
29	Analysis of a Step-Down DC-DC Converter Based on the LTM4622 Module	Marcin Zygmanowski	zajęty
30	Operation of the Buck-Boost DC-DC Converter based on PMLK PRO Evaluation Board with the LM5118 Controller	Marcin Zygmanowski	zajęty

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