Abstract
Recent developments in medium-voltage (MV) silicon and silicon carbide (SiC) power semiconductor devices are challenging state-of-the-art converter and auxiliary power supply (APS) designs. The APS is an important converter component, which energizes the gate-drive units and, therefore, has an influence on the overall reliability and efficiency of the converter system. There has, however, been comparably little research on how the APS of high-power converter submodules can be realized, in particular, for high-voltage applications. New, or improved, solutions may build on state-of-the-art topologies in the near future, but utilize MV SiC technology in the APS circuit itself to enable improved efficiency, reliability, simplicity, and compactness. Externally-fed APS concepts could provide several further advantages. Their various benefits on converter and system level may enable them to be a competitive solution for future APS concepts. Especially, light-based power supply systems are considered most useful since they offer extreme voltage isolation capability and immunity to electromagnetic interference. This article presents a review of the wide range of solutions for APSs, possible implementation options, and the most important design considerations. The different solutions are evaluated in a qualitative fashion, providing an overview of available APS concepts with regard to the requirements for high-power converter applications.
Highlights
I N almost all high-voltage (HV) applications auxiliary power is required to energize gate-drive units (GDUs), control electronics, sensors, protection circuits, and further electronic equipment
The total required auxiliary power supply (APS) output power, PAPS, for modular multilevel converter (MMC) submodules ranges from a few watts to some tens of watts depending on the semiconductor device [15]
MV converters operate in most cases with elevated switching frequencies and, may have a higher GDU power consumption compared to high-voltage direct current (HVdc) converters depending on the employed semiconductor device technology
Summary
I N almost all high-voltage (HV) applications auxiliary power is required to energize gate-drive units (GDUs), control electronics, sensors, protection circuits, and further electronic equipment. I.e., the power and voltages involved, supplying this auxiliary power requires special attention and careful design This may be even more important in future applications of HV converters. Protection of converter equipment and the availability of a reliable auxiliary power supply (APS) system is crucial This requires robust and reliable solutions for the APSs in such systems. With a switch voltage rating of 50 kV, the nominal operating voltage of the device might be up to 30 kV In many cases this implies that the input voltage to the APS would be 30 kVdc. Powering the GDUs of such a converter would be far more challenging than the case with the Si IGBT converters of today.
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