The laboratory serves scientific and research purposes, for teaching students of the first, second and third degree of study at the Department of Electrical Engineering, FEI. The laboratory can be used in an excellent way to combine the areas of EMC technical devices and EMC biological systems. In the area of EMC technical devices, problems that actually occur in the automotive industry, in telecommunications as well as in the area of high-current electrical engineering can be solved.
Subjects and learning outcomes:
Engineering study: Subject Electromagnetic compatibility: (basic knowledge and skills in the field of EMC technical devices and biological systems, the origin and propagation of electromagnetic interference, eliminating the influence of interference on electronic devices, the effects of impulse phenomena in low-voltage networks on electronic devices, principles of printed circuit board design with regard to electromagnetic immunity, methods of shielding and grounding of electronic devices).
Doctoral study: Subject Theoretical Power Engineering: acquisition of in-depth theoretical knowledge, using the latest research findings and trends in the development of power engineering. – modeling of elements in the power system. Mastering new methods of analyzing power systems. Ability to solve wave processes on power lines, model and analyze electromagnetic fields, solve surface phenomena in the transmission of electrical energy, investigate electromagnetic transient phenomena.
Doctoral study: Subject Scientific activity 1-5.: Ability to independently conceive, construct, implement and modify a substantial part of research with scientific integrity and contribute to the expansion of the boundaries of scientific knowledge through the implementation of an extensive set of works, some of which are worthy of peer-reviewed publication. Achieving original scientific results, acceptable at the international level. Based on the implementation of scientific research, the graduate is considered an expert in his field.
The EMC laboratory includes an anechoic chamber for measuring electromagnetic interference (EMI) of electrical and electronic devices in the frequency range from 30 Hz to 18 GHz and an anechoic transverse waveguide (GTEM) for performing radiation and immunity tests according to the IEC 61000-20 standard on technical devices. The advantage of the GTEM is that tests can be performed up to the GHz range with the possibility of extension up to 20 GHz. The GTEM also serves the field of investigating the impact of electromagnetic fields on biological systems, which will also expand the possibility of cooperation with academic institutions and industry that are oriented towards the field of medicine, or similar institutions.
EMI measurements can be performed using an artificial network (LISN) and a special measurement system with preset filters according to EN and IEC standards. The measuring system can also be connected to specially adapted EMC antennas for measuring EMI radiation and, using the supplied probe accessories, also for detecting nearby electric or magnetic fields, which makes it possible to easily and quickly locate the fault location or the source of interfering signals. The advantages of a special measuring system can be used in almost all areas of electrical engineering and other scientific disciplines.
In the EMC laboratory, it is possible to perform harmonic analysis of the current in the power supply of electrical appliances and voltage fluctuations, the resistance of electrical equipment to atmospheric overvoltages, to transient interference in the power supply network, drops and short-term power interruptions.
The EMC laboratory is equipped with modern equipment:
semi-anechoic chamber
anechoic transverse waveguide 20 GHz
spectrum analyzer Agilent N9038A, 26.5 GHz
signal generator 26.5 GHz
artificial network LISN
high-frequency amplifier AR 50W 1000 RF
EMC antennas
Near-field probes