Maroš Gregor, doc. Ing., PhD.

Researcher, Scientific Research Department

Division Chair of Scientific Research Department

Contact

Bratislava
M-Gregor
12785050000
0000-0001-7313-2563
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Bio

Maroš Gregor is an Associate Professor at CENAM. His research focuses on superconducting materials and devices, fundamental superconducting properties and the proximity effect, as well as biodielectrics, and the surface and interfacial properties of bio/non-bio interactions. He has published over 100 peer-reviewed journal articles and presented his work at international conferences.

Specialization research areas

Superconducting materials and devices Fundamental superconducting properties and the proximity effect Biodielectrics and the surface and interfacial properties of bio/non-bio interactions

Education

2018

Associate professor (docent) doc.

Comenius University in Bratislava, Slovakia
2008

PhD.

Slovak Technical University, Bratislava, Slovakia
2001

Ing.

Slovak Technical University, Bratislava, Slovakia,

Projects

National

Superconductivity
Researcher

APVV-23-0238 Effect of the application of organic molecules on the properties of perovskite thin-film structures.

Slovak Research and Development Agency (APVV)

Teaching activities

Courses taught

Course Objectives

Students acquire essential knowledge of principles and properties of basic digital circuits. Gain practical experience to design and construct digital electronic devices and programing selected microprocessors and simple robotic systems.

Syllabus
Principles of DDL, DTL and TTL circuits,
Boolean functions – combinational logic networks and their optimization,
– some combination circuits (adder, multiplexer and demultiplexer)
Physical implementation of automata (sequential circuits and their applications)
– RS and D flip-flops,
(counter, shift register, three-state output, memory management (R/W))
– parallel to serial code converter and RS232 interface,
– static and dynamic RAM memories and their organization
Microprocessors.
Microprocessor structure
Arithmetic Logic Unit (ALU) Structure
Implementation of instructions and their distribution
Addressing methods,… internal and external memory
Additional devices – their connection and data transfer (data transfer, bus)
Realization of binding circuits (interface) for memories and peripheral devices
Characteristics affecting the performance of computers (clock frequency, access time, transfer capacity, size of registers…)
Programming of single-chip microcomputers in a high- and low-level programming language and the basics of robotics, types of signals, their processing and control.
Course Objectives

Graduates will develop skills necessary for creating technical documents such as drawings, technical tables, parts lists, and more. The aim of the course is to familiarize students with the terminology of technical drawing, general principles of designing components and structures, and the creation of manufacturing drawings using AutoCAD software.

Syllabus

Normalization in Technical Drawing, Representation of Components – Techniques for Representation on Mechanical, Electrical, and Construction Drawings, Dimensioning, Sections, and Geometric Tolerances, Surface Roughness, Standardized Components, Manufacturing Drawings, AutoCAD Software – Basics of Drawing in CAD Systems.

Students supervision

Supervisor of bachelors, master, and PhD. students.

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