A PV-Inspired Low-common mode Dual Active Bridge Converter for Aerospace Applications

In the framework of the more electric aircraft, the use of isolated dc-dc power conversion for the electrical power distribution system is one of the most investigated solutions. If the dc-dc converter produces a variable common-mode voltage, the leakage current can flow in the interwinding parasitic capacitance of the high-frequency transformer, leading to insulation deterioration and early failure. This paper proposes to use modified H-bridge structures, already employed in the photovoltaic system for dc-ac power converters, to enable a constant common-mode voltage for isolated dc-dc converters. The analysis shows that this solution can achieve the same efficiency as the conventional one, while simulations and experiments show a strong reduction of the common-mode current flowing through the transformer. A reliability analysis showed that the lifetime of the high-frequency transformer can be extended with the proposed solution.

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Zitierform:
Buticchi, G., Barater, D., Ferreira Costa, L., Liserre, M., 2018. A PV-Inspired Low-common mode Dual Active Bridge Converter for Aerospace Applications. IEEE Transactions on Power Electronics 33, 10467–10477. https://doi.org/10.1109/TPEL.2018.2801845
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