Аутори:
1. Милутин Петронијевић, 1Електронски факултет у Нишу, Универзитет у Нишу, А. Медведева 4, Ниш, Србија,, Serbia
2. Бобан Веселић, Електронски факултет у Нишу, Универзитет у Нишу, А. Медведева 4, Ниш, Србија, Serbia
3. Сенад Хусеинбеговић, Електротехнички факултет, Универзитет у Сарајеву, Змаја од Босне бб, Сарајево, Босна и Херцеговина,, Federation of Bosnia and Herzegovina , Bosnia and Herzegovina
4. Мартин Ћаласан, Електротехнички факултет, Универзитет Црне Горе, Џорџа Вашингтона бб, Подгорица, Црна Гора, Montenegro
5. Ивана Радоњић Митић, University of Niš, Faculty of Sciences and Mathematics, Department of Physics, Višegradska 33, Niš, Serbia

Апстракт:
The widespread deployment of photovoltaic (PV) systems in urban areas poses new challenges for integration into the low-voltage grid, operation under variable meteorological conditions, and the impact of local disturbances. Research using Hardware-in-the-Loop (HIL) simulations, especially techniques with physically present controllers (Controller Hardware-in-the Loop - C-HIL), represents a powerful environment for testing and validating power electronics-based converter control strategies in real-world conditions without the risks and costs associated with field experiments. This paper presents the application of C-HIL simulation to analyze and optimize the operation of a home PV system integrated into an urban distribution grid. The conducted case studies address operational scenarios such as rapid changes in solar radiation, load fluctuations, and voltage disturbances, demonstrating the effectiveness of the C-HIL platform for assessing dynamic performance, voltage quality, and stability. The results confirm that C-HIL simulation can provide useful insights for the design of PV systems aimed at the safe and widespread deployment of distributed renewable energy sources in urban networks.

Кључне речи:
real-time simulation,home PV system,urban distribution grid,grid inverters,C-HIL.

Тематска област:
СИМПОЗИЈУМ А - Наука материје, кондензоване материје и физикa чврстог стања

Датум пријаве сажетка:
19.08.2025.

Конференцијa:
Contemporary Materials 2025 - Savremeni Materijali

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