Nikola Tesla Institute
Slavko Veinović
The importance of modular uninterrupted power supply systems in modern power systems
ABSTRACT
In modern electric power systems and industrial plants, there are loads that require absolute continuity and reliability of power supply, where any interruption can lead to severe technical and financial consequences. Although monolithic uninterruptible power supply systems have long represented the industry standard, their limitations regarding scalability, lack of internal redundancy, and long repair times are driving a gradual transition toward more advanced technological solutions. The introductory part of this lecture analyzes the shift to a modular architecture, highlighting its essential advantages in terms of high availability, hot-swapping, and easy adaptability to growing load demands. The central part of the presentation is dedicated to the promotion and technical analysis of the latest generation of modular uninterruptible power supply systems developed at the Nikola Tesla Institute. The development concept of these devices, designed to meet the most stringent requirements of industrial applications, will be presented. The presentation will cover the key performance indicators of our converters, with a special focus on energy efficiency, component reliability, and advanced digital control based on modern microcontroller platforms. To highlight the technological progress, the improvements achieved in this new generation of devices compared to traditional solutions will be explained in detail. Through topology optimization, high switching frequencies, and the application of advanced control algorithms, higher power density, a significantly faster dynamic response to sudden load changes, and further reduced harmonic distortion of the grid voltage and current have been achieved. The ultimate goal of the lecture is to demonstrate to the professional public how domestic engineering development in the field of power electronics results in innovative and competitive solutions that represent a reliable pillar of stability for modern electric power systems.
Keywords: Inverter, Rectifier, Battery charger, Static switch, Uninterruptible power supply
Biography of the presenter
Since 2009, he has been working at the Institute Nikola Tesla, Center for Automation and Regulation, focusing on excitation systems for synchronous machines. Over the past 14 years, he has participated in numerous projects implementing excitation systems, DC and AC power supplies, responsible for hardware and software of voltage regulators and power electronics control. He defended PhD thesis titled “Design and Implementation of Control Electronics and Voltage Regulators for Synchronous Generators Excitation Systems” in 2025. His research interests include voltage regulation and stability in power systems, control of power converters, electrical measurement in power electronics, and transient phenomena in synchronous machines. He is the author of a few distinguished papers presented at national and international conferences and published in international journals. Since 2011, he has been involved in a national project aimed at improving the energy efficiency of power plants. In 2022, he spent time at Nicolaus Copernicus University in Poland, working on flux estimator development for synchronous reluctance motors, and in Russia, participating in the certification of the INTROL excitation regulator.