Mauricio Dalla Vecchia scite author profile

This paper will revise, experimentally investigate, and discuss the main application challenges related to gallium nitride power semiconductors in switch-mode power converters. Gallium Nitride (GaN) devices are inherently gaining space in the market. Due to its high switching speed and operational switching frequency, challenges related to the circuit design procedure, passive component selection, thermal management, and experimental testing are currently faced by power electronics engineers. Therefore, the focus of this paper is on low-voltage (<650 V) devices that are used to assemble DC-DC and/or DC-AC converters to, for instance, interconnect PV generation systems in the DC and/or AC grids. The current subjects will be discussed herein: GaN device structure, the advantages and disadvantages of each lateral gallium nitride technology available, design challenges related to electrical layout and thermal management, overvoltages and its implications in the driver signal, and finally, a comprehensive comparison between GaN and Si technology considering the main parameters to increase the converters efficiency.

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Fuse-Based Short-Circuit Protection of Converter Controlled Low-Voltage DC Grids

Ravyts

Broeck

Hallemans

et al. 2020

IEEE Trans. Power Electron.

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Low Voltage DC microgrids emerge as a viable alternative to AC microgrids. A large research interest is noted towards fast and selective protection of DC grids, typically focusing on hybrid or full solid state solutions. In this paper, the use of fuses as short-circuit protection in Low Voltage DC microgrids is evaluated. The main advantage of fuses is that they are simple, cheap, standardized and have low steady state losses. A theoretical basis is formed to model DC short-circuit currents in grids with a limited short-circuit availability. The outcomes are applied to evaluate the possibilities of fuse protection in LVDC grids. It was found that fuses are an effective means of protection, although the required amount of capacitance at the output of the voltage balancing converter can be high, which impacts the total system cost. A fuse based protection strategy is presented that highlights the need for additional capacitance to clear faults compared to the necessary capacitance for system stability. An experimental setup was built to validate the claims.

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Review on Building-Integrated Photovoltaics Electrical System Requirements and Module-Integrated Converter Recommendations

et al. 2019

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Since building-integrated photovoltaic (BIPV) modules are typically installed during, not after, the construction phase, BIPVs have a profound impact compared to conventional building-applied photovoltaics on the electrical installation and construction planning of a building. As the cost of BIPV modules decreases over time, the impact of electrical system architecture and converters will become more prevalent in the overall cost of the system. This manuscript provides an overview of potential BIPV electrical architectures. System-level criteria for BIPV installations are established, thus providing a reference framework to compare electrical architectures. To achieve modularity and to minimize engineering costs, module-level DC/DC converters preinstalled in the BIPV module turned out to be the best solution. The second part of this paper establishes converter-level requirements, derived and related to the BIPV system. These include measures to increase the converter fault tolerance for extended availability and to ensure essential safety features.

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Study on a cascaded DC-DC converter for use in building-integrated photovoltaics

Ravyts

Vecchia

Zwysen

et al. 2018

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